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Branches Tags
git:main git:v2 git:rc git:v1
git:v2.3.8 git:v2.3.7 git:v2.3.6 git:v2.3.5 git:v1.4.6 git:v2.3.4 git:v1.4.5 git:v2.3.3 git:v1.4.4 git:v2.3.2 git:v2.3.1 git:v2.3.0 git:v1.4.3 git:v2.2.9 git:v2.2.8 git:v2.2.7 git:v1.4.2 git:v2.2.6 git:v2.2.5 git:v2.2.4 git:v1.4.1 git:v2.2.3 git:v2.2.2 git:v1.4.0 git:v2.2.1 git:v1.3.9 git:v2.2.0 git:v2.1.20 git:v1.3.8 git:v2.1.19 git:v2.1.18 git:v2.1.17 git:v2.1.16 git:v1.3.7 git:v2.1.15 git:v1.3.6 git:v2.1.14 git:v2.1.13 git:v2.1.12 git:v1.3.5 git:v2.1.11 git:v1.3.4 git:v2.1.10 git:v2.1.9 git:v1.3.3 git:v2.1.8 git:v2.1.7 git:v2.1.6 git:v1.3.2 git:v2.1.5 git:v2.1.4 git:v1.3.1 git:v2.1.3 git:v2.1.2 git:v2.1.1 git:v2.1.0 git:v1.3.0 git:v2.0.9 git:v2.0.8 git:v2.0.7 git:v2.0.6 git:v2.0.5 git:v2.0.4 git:v1.2.9 git:v1.2.8 git:v2.0.3 git:v2.0.2 git:v1.2.7 git:v2.0.1 git:v2.0.0 git:v1.2.6 git:v1.2.5 git:v1.2.4 git:v1.2.3 git:v1.2.2 git:v1.2.1 git:v1.2.0 git:v1.1.10 git:v1.1.9 git:v1.1.8 git:v1.1.7 git:v1.1.6 git:v1.1.5 git:v1.1.4 git:v1.1.3 git:v1.1.2 git:v1.1.1 git:v1.1.0 git:v1.0.10 git:v1.0.9 git:v1.0.8 git:v1.0.7 git:v1.0.6 git:v1.0.5 git:v1.0.4 git:v1.0.3 git:v1.0.2 git:v1.0.1 git:v1.0.0
..
compare: git:v1.3.6
Branches Tags
git:v2 git:rc git:main git:v1
git:v2.3.8 git:v2.3.7 git:v2.3.6 git:v2.3.5 git:v1.4.6 git:v2.3.4 git:v1.4.5 git:v2.3.3 git:v1.4.4 git:v2.3.2 git:v2.3.1 git:v2.3.0 git:v1.4.3 git:v2.2.9 git:v2.2.8 git:v2.2.7 git:v1.4.2 git:v2.2.6 git:v2.2.5 git:v2.2.4 git:v1.4.1 git:v2.2.3 git:v2.2.2 git:v1.4.0 git:v2.2.1 git:v1.3.9 git:v2.2.0 git:v2.1.20 git:v1.3.8 git:v2.1.19 git:v2.1.18 git:v2.1.17 git:v2.1.16 git:v1.3.7 git:v2.1.15 git:v1.3.6 git:v2.1.14 git:v2.1.13 git:v2.1.12 git:v1.3.5 git:v2.1.11 git:v1.3.4 git:v2.1.10 git:v2.1.9 git:v1.3.3 git:v2.1.8 git:v2.1.7 git:v2.1.6 git:v1.3.2 git:v2.1.5 git:v2.1.4 git:v1.3.1 git:v2.1.3 git:v2.1.2 git:v2.1.1 git:v2.1.0 git:v1.3.0 git:v2.0.9 git:v2.0.8 git:v2.0.7 git:v2.0.6 git:v2.0.5 git:v2.0.4 git:v1.2.9 git:v1.2.8 git:v2.0.3 git:v2.0.2 git:v1.2.7 git:v2.0.1 git:v2.0.0 git:v1.2.6 git:v1.2.5 git:v1.2.4 git:v1.2.3 git:v1.2.2 git:v1.2.1 git:v1.2.0 git:v1.1.10 git:v1.1.9 git:v1.1.8 git:v1.1.7 git:v1.1.6 git:v1.1.5 git:v1.1.4 git:v1.1.3 git:v1.1.2 git:v1.1.1 git:v1.1.0 git:v1.0.10 git:v1.0.9 git:v1.0.8 git:v1.0.7 git:v1.0.6 git:v1.0.5 git:v1.0.4 git:v1.0.3 git:v1.0.2 git:v1.0.1 git:v1.0.0

66 Commits
88cf1600e8 ... v1.3.6

Author SHA1 Message Date
dudaodong
f2e743dcf4 release v1.3.6 2023-02-16 11:56:11 +08:00
dudaodong
f8f58cae10 doc: add doc for DeepClone function 2023-02-16 11:53:28 +08:00
dudaodong
215b79140d feat: add DeepClone 2023-02-16 11:50:11 +08:00
dudaodong
0bd675340f fix: fix AesEcbEncrypt failed with key lenght is 24 or 32 2023-02-16 11:45:08 +08:00
dudaodong
f3d73899b1 release v1.3.5 2022-12-15 16:36:15 +08:00
dudaodong
d4a20b239a add new function 2022-12-15 16:35:33 +08:00
dudaodong
4c28431451 fix: fix lint issue 2022-12-15 16:31:04 +08:00
dudaodong
168ed096c7 fix: fix ExecCommand bug forwindows 2022-12-15 16:29:36 +08:00
dudaodong
a060769635 clean code 2022-12-15 16:27:21 +08:00
dudaodong
0a99492cf6 feat: add IsGBK 2022-12-15 16:21:09 +08:00
dudaodong
fb3de03f37 clean document 2022-12-15 16:13:32 +08:00
dudaodong
43c2fd2a22 feat: add UpperKebabCase/UpperSnakeCase 2022-12-15 16:05:02 +08:00
dudaodong
279d0754ba release v1.3.4 2022-11-17 16:14:42 +08:00
dudaodong
f133b32faa fix: issue#62: fix ZipSlip bug 2022-11-17 16:14:03 +08:00
dudaodong
b98d5edbb5 release v1.3.3 2022-11-08 15:14:34 +08:00
dudaodong
9e39c31087 docs: update doc for random package 2022-11-08 15:03:42 +08:00
dudaodong
26bc40c614 feat: add new random function 2022-11-08 14:54:17 +08:00
dudaodong
76d68e326b release v1.3.2 2022-08-31 17:05:38 +08:00
dudaodong
67b4782ac2 doc: add document for functions in netutil/http_client.go 2022-08-31 15:53:18 +08:00
dudaodong
1d8b9a2625 feat: add http client for sending http request 2022-08-31 11:49:27 +08:00
dudaodong
94ae1acc78 doc: update readme file 2022-08-29 15:31:19 +08:00
dudaodong
aece2995d6 refactor: change ReverseStr to Reverse in strutil package 2022-08-29 15:11:15 +08:00
dudaodong
f5ec5eb58d feat: add EncodeByte and DecodeByte 2022-08-29 15:08:50 +08:00
dudaodong
d62284e9a6 feat: add IsZeroValue function 2022-08-29 14:59:36 +08:00
dudaodong
b6815224fd release v1.3.1 2022-08-02 17:52:18 +08:00
dudaodong
5931b882ee doc: update document for system package 2022-07-29 13:33:23 +08:00
dudaodong
f8096e3585 doc: update slice document 2022-07-29 13:31:04 +08:00
dudaodong
979381bfb7 doc: update convertor document 2022-07-29 13:28:25 +08:00
dudaodong
3e2c25f827 doc: update netutil document 2022-07-29 13:23:30 +08:00
dudaodong
2c7bcc9fbb doc: update slice document 2022-07-29 13:17:05 +08:00
dudaodong
3a944ab12f test: update slice unit test 2022-07-27 15:31:12 +08:00
dudaodong
387079d034 feat: os.go, add GetOsBits 2022-07-27 15:27:39 +08:00
dudaodong
33e3631b72 fix: fix aes/des cbc crypto iv bug 2022-07-27 15:26:45 +08:00
dudaodong
b3149ea619 feat: convertor.go, add ToChannel 2022-07-27 15:22:43 +08:00
dudaodong
116ff284c3 feat: net.go, add IsInternalIP, GetRequestPublicIp, EncodeUrl 2022-07-27 15:18:20 +08:00
dudaodong
0cb251f7b8 feat: add ToSlice and ToSlicePointer and AppendIfAbsent 2022-07-27 15:12:14 +08:00
dudaodong
683def2242 docs: update go version badge 2022-06-24 09:41:46 +08:00
dudaodong
d4a90f2869 release v1.3.0 2022-06-22 16:30:45 +08:00
dudaodong
be67de3b40 release v1.3.0 2022-06-22 15:58:41 +08:00
dudaodong
6898ed413e docs: add doc for UniqueBy function 2022-06-22 15:47:48 +08:00
dudaodong
5dbdbcd651 docs: add doc for UniqueBy function 2022-06-22 15:45:29 +08:00
dudaodong
ae0facd32d refactor: clean code for slice/slice.go 2022-06-22 14:21:45 +08:00
dudaodong
2d7e19fb87 feat: add UniqueBy function in slice.go 2022-06-22 12:00:01 +08:00
dudaodong
24d4a03227 update .gitignore file 2022-06-22 11:27:31 +08:00
dudaodong
93fb089f6e docs: add CreateDir function for fileutil 2022-06-17 17:25:16 +08:00
dudaodong
2fe272f2ef docs: add CreateDir function for fileutil 2022-06-17 17:22:08 +08:00
dudaodong
77859ffa15 docs: add doc for SplitEx function 2022-06-17 17:19:59 +08:00
dudaodong
f83f47df3a feat: add SplitEx function 2022-06-17 17:13:58 +08:00
dudaodong
885c08847d docs: add doc for function IndexOf and LastIndexOf 2022-06-17 17:11:09 +08:00
dudaodong
cc4a20751f test: add unit test for funcation IndexOf and LastIndexOf 2022-06-17 17:02:44 +08:00
dudaodong
b0d1d39452 feat: add IndexOf and LastIndexOf function in slice.go 2022-06-17 17:01:37 +08:00
dudaodong
02fa7bc8be docs: add doc for function Equal and EqualWithFunc 2022-06-17 16:57:42 +08:00
dudaodong
433eb63b86 feat: add EqualWith function for slice 2022-06-17 15:47:36 +08:00
dudaodong
a2541dac03 feat: add Equal function for slice 2022-06-17 15:37:36 +08:00
dudaodong
690e746811 update readme file 2022-04-29 14:50:29 +08:00
dudaodong
7cb97a26c5 release v1.2.9 2022-04-14 11:41:46 +08:00
dudaodong
39d373d37b fix: fix http post to support multipart/form-data header 2022-04-14 11:39:21 +08:00
dudaodong
1aefd6aa12 release v1.2.8 2022-04-13 11:46:14 +08:00
dudaodong
c7aa44b8a4 fix: fix http post fucntion 2022-04-13 11:38:45 +08:00
dudaodong
0e3dc68de5 release v1.2.7 2022-03-29 10:52:55 +08:00
dudaodong
4083e75ed4 fix: fix ToBytes bug 2022-03-26 21:09:28 +08:00
dudaodong
1327eff62f docs: add doc for unix time 2022-03-24 16:09:19 +08:00
dudaodong
eb24c37143 docs: add doc for unix time 2022-03-24 16:07:17 +08:00
dudaodong
b7a6c91064 feat: add unix date conversion 2022-03-24 16:03:57 +08:00
dudaodong
555e185871 feat: add unix date conversion 2022-03-24 16:01:41 +08:00
dudaodong
cb0efc5cc7 docs: replace path '/main' with '/v1' 2022-03-16 16:18:28 +08:00
321 changed files with 19380 additions and 118751 deletions
Expand all files Collapse all files

3
.github/FUNDING.yml vendored
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@@ -1,3 +0,0 @@
# These are supported funding model platforms
liberapay: Duke_Du
patreon: DukeDu

8
.github/workflows/codecov.yml vendored
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@@ -3,11 +3,11 @@ on:
push:
branches:
- main
- rc
# - v2
pull_request:
branches:
- main
- rc
# - v2
jobs:
build:
runs-on: ubuntu-latest
@@ -17,10 +17,8 @@ jobs:
fetch-depth: 2
- uses: actions/setup-go@v2
with:
go-version: "1.20"
go-version: "1.16"
- name: Run coverage
run: go test -v ./... -coverprofile=coverage.txt -covermode=atomic
- name: Run govet
run: go vet -v ./...
- name: Upload coverage to Codecov
run: bash <(curl -s https://codecov.io/bash)

7
.gitignore vendored
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@@ -6,10 +6,5 @@ fileutil/*.txt
fileutil/*.zip
fileutil/*.link
fileutil/unzip/*
fileutil/tempdir/*
slice/testdata/*
# cryptor/*.pem
test
docs/node_modules
docs/.vitepress/cache
docs/.vitepress/dist
cryptor/*.pem

37
CONTRIBUTION.md
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@@ -1,37 +0,0 @@
# Lancet Contribution Guide
Hi! Thank you for choosing Lancet.
Lancet is a powerful, efficient, and reusable util function library of go. It makes Go dev easier by taking the hassle out of working with concurrency, net, math, slice, string, etc.
We are excited that you are interested in contributing to lancet. Before submitting your contribution though, please make sure to take a moment and read through the following guidelines.
## Issue Guidelines
- Issues are exclusively for bug reports, feature requests and design-related topics. Other questions may be closed directly.
- Before submitting an issue, please check if similar problems have already been issued.
- Please specify which version of Lancet and Go you are using, and provide OS information. [Go Playground](https://go.dev/play/) is recommended to build a live demo so that your issue can be reproduced clearly.
## Pull Request Guidelines
- Fork this repository to your own account. Do not create branches here.
- Commit info should be formatted as `type(scope): info about commit`. eg. `fix(package): [scrollbar] fix xxx bug`.
1. type: type must be one of [chore, docs, feat, fix, refactor, release, test].
2. scope: scope must be one of [package, file, internal].
3. header: header must not be longer than 72 characters.
- Rebase before creating a PR to keep commit history clear.
- Before submitting a PR, please execute the unit test command: `go test -v ./...` to ensure that all unit test tasks should pass.
- Make sure PRs are created to `rc` branch instead of other branch.
- If your PR fixes a bug, please provide a description about the related bug.
- If the PR is for a new feature, make sure to complete the relevant documentation (/lancet/docs/en/api/packages).

37
CONTRIBUTION.zh-CN.md
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@@ -1,37 +0,0 @@
# Lancet 贡献指南
Hi! 首先感谢你使用 Lancet。
lancet柳叶刀是一个功能强大、全面、高效、可复用的go语言工具函数库。它消除了处理并发、网络、数学、切片、字符串等的麻烦使 Go 开发变得更容易。
Lancet 的成长离不开大家的支持,如果你愿意为 Lancet 贡献代码或提供建议,请阅读以下内容。
## Issue 规范
- issue 仅用于提交 Bug 或 Feature 以及设计相关的内容,其它内容可能会被直接关闭。
- 在提交 issue 之前,请搜索相关内容是否已被提出。
- 请说明 Lancet 和 Go 的版本号,并提供操作系统信息。推荐使用 [Go Playground](https://go.dev/play/) 生成在线 demo这能够更直观地重现问题。
## Pull Request 规范
- 请先 fork 一份到自己的项目下,不要直接在仓库下建分支。
- commit 信息要以 `type(scope): 描述信息` 的形式填写,例如 `fix(package): [scrollbar] fix xxx bug`
1. type: 必须是 chore, docs, feat, fix, refactor, release, test 其中的一个。
2. scope: 必须是 package, file, internal 其中的一个。
3. header: 描述信息不要超过 72 个字符。
- 提交 PR 前请 rebase确保 commit 记录的整洁。
- 提交 PR 前请执行单元测试命令go test -v ./...,确保所有单元测试任务通过。
- 确保 PR 是提交到 `rc` 分支,而不是其他分支。
- 如果是修复 bug请在 PR 中给出描述信息。
- 如果PR是新功能确保完成相关文档(/lancet/docs/api/packages)。

2598
README.md
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2625
README_zh-CN.md
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File diff suppressed because it is too large Load Diff

15
SECURITY.md
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@@ -1,15 +0,0 @@
# Security Policy
## Supported Versions
Here is the lancet version and compatibility with go language version.
| Version | Supported |
| ------- | ------------------|
| 2.x.x | +go v1.18 |
| 1.x.x | +go v1.12 |
## Reporting a Vulnerability
For now, there is no public website to report a vulnerability, If you find security issue in lancet, you can send it to me via my email `lanliddd.2007@163.com`.
we can discuss it. I am appreciate if someone can create a public page for reporting vulnerability.

121
algorithm/lrucache.go
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@@ -1,121 +0,0 @@
package algorithm
type lruNode[K comparable, V any] struct {
key K
value V
pre *lruNode[K, V]
next *lruNode[K, V]
}
// newLruNode return a lruNode pointer
func newLruNode[K comparable, V any](key K, value V) *lruNode[K, V] {
return &lruNode[K, V]{
key: key,
value: value,
pre: nil,
next: nil,
}
}
// LRUCache lru cache (thread unsafe)
type LRUCache[K comparable, V any] struct {
cache map[K]*lruNode[K, V]
head *lruNode[K, V]
tail *lruNode[K, V]
capacity int
length int
}
// NewLRUCache creates a LRUCache pointer instance.
func NewLRUCache[K comparable, V any](capacity int) *LRUCache[K, V] {
return &LRUCache[K, V]{
cache: make(map[K]*lruNode[K, V], capacity),
head: nil,
tail: nil,
capacity: capacity,
length: 0,
}
}
// Get value of key from lru cache.
// Play: https://go.dev/play/p/iUynEfOP8G0
func (l *LRUCache[K, V]) Get(key K) (V, bool) {
var value V
node, ok := l.cache[key]
if ok {
l.moveToTail(node)
return node.value, true
}
return value, false
}
// Put value of key into lru cache.
// Play: https://go.dev/play/p/iUynEfOP8G0
func (l *LRUCache[K, V]) Put(key K, value V) {
node, ok := l.cache[key]
if !ok {
newNode := newLruNode(key, value)
l.cache[key] = newNode
l.addNode(newNode)
if len(l.cache) > l.capacity {
oldKey := l.deleteNode(l.head)
delete(l.cache, oldKey)
}
} else {
node.value = value
l.moveToTail(node)
}
l.length = len(l.cache)
}
// Delete item from lru cache.
func (l *LRUCache[K, V]) Delete(key K) bool {
node, ok := l.cache[key]
if ok {
key := l.deleteNode(node)
delete(l.cache, key)
return true
}
l.length = len(l.cache)
return false
}
// Len returns the number of items in the cache.
func (l *LRUCache[K, V]) Len() int {
return l.length
}
func (l *LRUCache[K, V]) addNode(node *lruNode[K, V]) {
if l.tail != nil {
l.tail.next = node
node.pre = l.tail
node.next = nil
}
l.tail = node
if l.head == nil {
l.head = node
}
}
func (l *LRUCache[K, V]) deleteNode(node *lruNode[K, V]) K {
if node == l.tail {
l.tail = l.tail.pre
} else if node == l.head {
l.head = l.head.next
} else {
node.pre.next = node.next
node.next.pre = node.pre
}
return node.key
}
func (l *LRUCache[K, V]) moveToTail(node *lruNode[K, V]) {
if l.tail == node {
return
}
l.deleteNode(node)
l.addNode(node)
}

79
algorithm/lrucache_example_test.go
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@@ -1,79 +0,0 @@
package algorithm
import "fmt"
func ExampleLRUCache_Put() {
cache := NewLRUCache[int, int](2)
cache.Put(1, 1)
cache.Put(2, 2)
result1, ok1 := cache.Get(1)
result2, ok2 := cache.Get(2)
result3, ok3 := cache.Get(3)
fmt.Println(result1, ok1)
fmt.Println(result2, ok2)
fmt.Println(result3, ok3)
// Output:
// 1 true
// 2 true
// 0 false
}
func ExampleLRUCache_Get() {
cache := NewLRUCache[int, int](2)
cache.Put(1, 1)
cache.Put(2, 2)
result1, ok1 := cache.Get(1)
result2, ok2 := cache.Get(2)
result3, ok3 := cache.Get(3)
fmt.Println(result1, ok1)
fmt.Println(result2, ok2)
fmt.Println(result3, ok3)
// Output:
// 1 true
// 2 true
// 0 false
}
func ExampleLRUCache_Delete() {
cache := NewLRUCache[int, int](2)
cache.Put(1, 1)
cache.Put(2, 2)
result1, ok1 := cache.Get(1)
ok2 := cache.Delete(2)
_, ok3 := cache.Get(2)
fmt.Println(result1, ok1)
fmt.Println(ok2)
fmt.Println(ok3)
// Output:
// 1 true
// true
// false
}
func ExampleLRUCache_Len() {
cache := NewLRUCache[int, int](2)
cache.Put(1, 1)
cache.Put(2, 2)
result := cache.Len()
fmt.Println(result)
// Output:
// 2
}

34
algorithm/lrucache_test.go
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@@ -1,34 +0,0 @@
package algorithm
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestLRUCache(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLRUCache")
cache := NewLRUCache[int, int](3)
cache.Put(1, 1)
cache.Put(2, 2)
cache.Put(3, 3)
assert.Equal(3, cache.Len())
v, ok := cache.Get(1)
assert.Equal(true, ok)
assert.Equal(1, v)
v, ok = cache.Get(2)
assert.Equal(true, ok)
assert.Equal(2, v)
ok = cache.Delete(2)
assert.Equal(true, ok)
_, ok = cache.Get(2)
assert.Equal(false, ok)
}

66
algorithm/search.go
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@@ -1,66 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package algorithm contain some basic algorithm functions. eg. sort, search, list, linklist, stack, queue, tree, graph.
package algorithm
import "github.com/duke-git/lancet/v2/constraints"
// Search algorithms see https://github.com/TheAlgorithms/Go/tree/master/search
// LinearSearch return the index of target in slice base on equal function.
// If not found return -1
// Play: https://go.dev/play/p/IsS7rgn5s3x
func LinearSearch[T any](slice []T, target T, equal func(a, b T) bool) int {
for i, v := range slice {
if equal(v, target) {
return i
}
}
return -1
}
// BinarySearch return the index of target within a sorted slice, use binary search (recursive call itself).
// If not found return -1.
// Play: https://go.dev/play/p/t6MeGiUSN47
func BinarySearch[T any](sortedSlice []T, target T, lowIndex, highIndex int, comparator constraints.Comparator) int {
if highIndex < lowIndex || len(sortedSlice) == 0 {
return -1
}
midIndex := int(lowIndex + (highIndex-lowIndex)/2)
isMidValGreatTarget := comparator.Compare(sortedSlice[midIndex], target) == 1
isMidValLessTarget := comparator.Compare(sortedSlice[midIndex], target) == -1
if isMidValGreatTarget {
return BinarySearch(sortedSlice, target, lowIndex, midIndex-1, comparator)
} else if isMidValLessTarget {
return BinarySearch(sortedSlice, target, midIndex+1, highIndex, comparator)
}
return midIndex
}
// BinaryIterativeSearch return the index of target within a sorted slice, use binary search (no recursive).
// If not found return -1.
// Play: https://go.dev/play/p/Anozfr8ZLH3
func BinaryIterativeSearch[T any](sortedSlice []T, target T, lowIndex, highIndex int, comparator constraints.Comparator) int {
startIndex := lowIndex
endIndex := highIndex
var midIndex int
for startIndex <= endIndex {
midIndex = int(startIndex + (endIndex-startIndex)/2)
isMidValGreatTarget := comparator.Compare(sortedSlice[midIndex], target) == 1
isMidValLessTarget := comparator.Compare(sortedSlice[midIndex], target) == -1
if isMidValGreatTarget {
endIndex = midIndex - 1
} else if isMidValLessTarget {
startIndex = midIndex + 1
} else {
return midIndex
}
}
return -1
}

51
algorithm/search_example_test.go
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@@ -1,51 +0,0 @@
package algorithm
import "fmt"
func ExampleLinearSearch() {
numbers := []int{3, 4, 5, 3, 2, 1}
equalFunc := func(a, b int) bool {
return a == b
}
result1 := LinearSearch(numbers, 3, equalFunc)
result2 := LinearSearch(numbers, 6, equalFunc)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 0
// -1
}
func ExampleBinarySearch() {
numbers := []int{1, 2, 3, 4, 5, 6, 7, 8}
comparator := &intComparator{}
result1 := BinarySearch(numbers, 5, 0, len(numbers)-1, comparator)
result2 := BinarySearch(numbers, 9, 0, len(numbers)-1, comparator)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 4
// -1
}
func ExampleBinaryIterativeSearch() {
numbers := []int{1, 2, 3, 4, 5, 6, 7, 8}
comparator := &intComparator{}
result1 := BinaryIterativeSearch(numbers, 5, 0, len(numbers)-1, comparator)
result2 := BinaryIterativeSearch(numbers, 9, 0, len(numbers)-1, comparator)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 4
// -1
}

41
algorithm/search_test.go
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@@ -1,41 +0,0 @@
package algorithm
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestLinearSearch(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinearSearch")
numbers := []int{3, 4, 5, 3, 2, 1}
equalFunc := func(a, b int) bool {
return a == b
}
assert.Equal(0, LinearSearch(numbers, 3, equalFunc))
assert.Equal(-1, LinearSearch(numbers, 6, equalFunc))
}
func TestBinarySearch(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBinarySearch")
sortedNumbers := []int{1, 2, 3, 4, 5, 6, 7, 8}
comparator := &intComparator{}
assert.Equal(4, BinarySearch(sortedNumbers, 5, 0, len(sortedNumbers)-1, comparator))
assert.Equal(-1, BinarySearch(sortedNumbers, 9, 0, len(sortedNumbers)-1, comparator))
}
func TestBinaryIterativeSearch(t *testing.T) {
assert := internal.NewAssert(t, "TestBinaryIterativeSearch")
sortedNumbers := []int{1, 2, 3, 4, 5, 6, 7, 8}
comparator := &intComparator{}
assert.Equal(4, BinaryIterativeSearch(sortedNumbers, 5, 0, len(sortedNumbers)-1, comparator))
assert.Equal(-1, BinaryIterativeSearch(sortedNumbers, 9, 0, len(sortedNumbers)-1, comparator))
}

204
algorithm/sort.go
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@@ -1,204 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
package algorithm
import "github.com/duke-git/lancet/v2/constraints"
// BubbleSort applys the bubble sort algorithm to sort the collection, will change the original collection data.
// Play: https://go.dev/play/p/GNdv7Jg2Taj
func BubbleSort[T any](slice []T, comparator constraints.Comparator) {
for i := 0; i < len(slice); i++ {
breakTag := false
for j := 0; j < len(slice)-1-i; j++ {
isCurrGreatThanNext := comparator.Compare(slice[j], slice[j+1]) == 1
if isCurrGreatThanNext {
swap(slice, j, j+1)
breakTag = true
}
}
if !breakTag {
break
}
}
}
// InsertionSort applys the insertion sort algorithm to sort the collection, will change the original collection data.
// Play: https://go.dev/play/p/G5LJiWgJJW6
func InsertionSort[T any](slice []T, comparator constraints.Comparator) {
for i := 0; i < len(slice); i++ {
for j := i; j > 0; j-- {
isPreLessThanCurrent := comparator.Compare(slice[j], slice[j-1]) == -1
if isPreLessThanCurrent {
swap(slice, j, j-1)
} else {
break
}
}
}
}
// SelectionSort applys the selection sort algorithm to sort the collection, will change the original collection data.
// Play: https://go.dev/play/p/oXovbkekayS
func SelectionSort[T any](slice []T, comparator constraints.Comparator) {
for i := 0; i < len(slice); i++ {
min := i
for j := i + 1; j < len(slice); j++ {
if comparator.Compare(slice[j], slice[min]) == -1 {
min = j
}
}
swap(slice, i, min)
}
}
// ShellSort applys the shell sort algorithm to sort the collection, will change the original collection data.
// Play: https://go.dev/play/p/3ibkszpJEu3
func ShellSort[T any](slice []T, comparator constraints.Comparator) {
size := len(slice)
gap := 1
for gap < size/3 {
gap = 3*gap + 1
}
for gap >= 1 {
for i := gap; i < size; i++ {
for j := i; j >= gap && comparator.Compare(slice[j], slice[j-gap]) == -1; j -= gap {
swap(slice, j, j-gap)
}
}
gap = gap / 3
}
}
// QuickSort quick sorting for slice, lowIndex is 0 and highIndex is len(slice)-1.
// Play: https://go.dev/play/p/7Y7c1Elk3ax
func QuickSort[T any](slice []T, comparator constraints.Comparator) {
quickSort(slice, 0, len(slice)-1, comparator)
}
func quickSort[T any](slice []T, lowIndex, highIndex int, comparator constraints.Comparator) {
if lowIndex < highIndex {
p := partition(slice, lowIndex, highIndex, comparator)
quickSort(slice, lowIndex, p-1, comparator)
quickSort(slice, p+1, highIndex, comparator)
}
}
// partition split slice into two parts
func partition[T any](slice []T, lowIndex, highIndex int, comparator constraints.Comparator) int {
p := slice[highIndex]
i := lowIndex
for j := lowIndex; j < highIndex; j++ {
if comparator.Compare(slice[j], p) == -1 { //slice[j] < p
swap(slice, i, j)
i++
}
}
swap(slice, i, highIndex)
return i
}
// HeapSort applys the heap sort algorithm to sort the collection, will change the original collection data.
// Play: https://go.dev/play/p/u6Iwa1VZS_f
func HeapSort[T any](slice []T, comparator constraints.Comparator) {
size := len(slice)
for i := size/2 - 1; i >= 0; i-- {
sift(slice, i, size-1, comparator)
}
for j := size - 1; j > 0; j-- {
swap(slice, 0, j)
sift(slice, 0, j-1, comparator)
}
}
func sift[T any](slice []T, lowIndex, highIndex int, comparator constraints.Comparator) {
i := lowIndex
j := 2*i + 1
temp := slice[i]
for j <= highIndex {
if j < highIndex && comparator.Compare(slice[j], slice[j+1]) == -1 { //slice[j] < slice[j+1]
j++
}
if comparator.Compare(temp, slice[j]) == -1 { //tmp < slice[j]
slice[i] = slice[j]
i = j
j = 2*i + 1
} else {
break
}
}
slice[i] = temp
}
// MergeSort applys the merge sort algorithm to sort the collection, will change the original collection data.
// Play: https://go.dev/play/p/ydinn9YzUJn
func MergeSort[T any](slice []T, comparator constraints.Comparator) {
mergeSort(slice, 0, len(slice)-1, comparator)
}
func mergeSort[T any](slice []T, lowIndex, highIndex int, comparator constraints.Comparator) {
if lowIndex < highIndex {
mid := (lowIndex + highIndex) / 2
mergeSort(slice, lowIndex, mid, comparator)
mergeSort(slice, mid+1, highIndex, comparator)
merge(slice, lowIndex, mid, highIndex, comparator)
}
}
func merge[T any](slice []T, lowIndex, midIndex, highIndex int, comparator constraints.Comparator) {
i := lowIndex
j := midIndex + 1
temp := []T{}
for i <= midIndex && j <= highIndex {
//slice[i] < slice[j]
if comparator.Compare(slice[i], slice[j]) == -1 {
temp = append(temp, slice[i])
i++
} else {
temp = append(temp, slice[j])
j++
}
}
if i <= midIndex {
temp = append(temp, slice[i:midIndex+1]...)
} else {
temp = append(temp, slice[j:highIndex+1]...)
}
for k := 0; k < len(temp); k++ {
slice[lowIndex+k] = temp[k]
}
}
// CountSort applys the count sort algorithm to sort the collection, don't change the original collection data.
// Play: https://go.dev/play/p/tB-Umgm0DrP
func CountSort[T any](slice []T, comparator constraints.Comparator) []T {
size := len(slice)
out := make([]T, size)
for i := 0; i < size; i++ {
count := 0
for j := 0; j < size; j++ {
//slice[i] > slice[j]
if comparator.Compare(slice[i], slice[j]) == 1 {
count++
}
}
out[count] = slice[i]
}
return out
}
// swap two slice value at index i and j
func swap[T any](slice []T, i, j int) {
slice[i], slice[j] = slice[j], slice[i]
}

93
algorithm/sort_example_test.go
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@@ -1,93 +0,0 @@
package algorithm
import "fmt"
func ExampleBubbleSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
BubbleSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
func ExampleCountSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
sortedNumber := CountSort(numbers, comparator)
fmt.Println(numbers)
fmt.Println(sortedNumber)
// Output:
// [2 1 5 3 6 4]
// [1 2 3 4 5 6]
}
func ExampleHeapSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
HeapSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
func ExampleMergeSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
MergeSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
func ExampleInsertionSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
InsertionSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
func ExampleSelectionSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
SelectionSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
func ExampleShellSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
ShellSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
func ExampleQuickSort() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
QuickSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}

217
algorithm/sort_test.go
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@@ -1,217 +0,0 @@
package algorithm
import (
"fmt"
"testing"
"github.com/duke-git/lancet/v2/internal"
)
// People test mock data
type people struct {
Name string
Age int
}
// PeopleAageComparator sort people slice by age field
type peopleAgeComparator struct{}
// Compare implements github.com/duke-git/lancet/v2/constraints/constraints.go/Comparator
func (pc *peopleAgeComparator) Compare(v1 any, v2 any) int {
p1, _ := v1.(people)
p2, _ := v2.(people)
//ascending order
if p1.Age < p2.Age {
return -1
} else if p1.Age > p2.Age {
return 1
}
return 0
}
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func TestBubbleSortForStructSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBubbleSortForStructSlice")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
BubbleSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestBubbleSortForIntSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBubbleSortForIntSlice")
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
BubbleSort(numbers, comparator)
assert.Equal([]int{1, 2, 3, 4, 5, 6}, numbers)
}
func TestInsertionSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestInsertionSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
InsertionSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestSelectionSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSelectionSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
SelectionSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestShellSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestShellSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
ShellSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestQuickSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestQuickSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
QuickSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestHeapSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHeapSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
HeapSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestMergeSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMergeSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
MergeSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", peoples)
assert.Equal(expected, actual)
}
func TestCountSort(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCountSort")
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
sortedPeopleByAge := CountSort(peoples, comparator)
expected := "[{d 8} {b 10} {c 17} {a 20} {e 28}]"
actual := fmt.Sprintf("%v", sortedPeopleByAge)
assert.Equal(expected, actual)
}

72
compare/compare.go
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@@ -1,72 +0,0 @@
// Copyright 2023 dudaodong@gmail.com. All rights resulterved.
// Use of this source code is governed by MIT license
// Package compare provides a lightweight comparison function on any type.
// reference: https://github.com/stretchr/testify
package compare
import (
"reflect"
"time"
"github.com/duke-git/lancet/v2/convertor"
"github.com/duke-git/lancet/v2/mathutil"
"golang.org/x/exp/constraints"
)
// operator type
const (
equal = "eq"
lessThan = "lt"
greaterThan = "gt"
lessOrEqual = "le"
greaterOrEqual = "ge"
)
var (
timeType = reflect.TypeOf(time.Time{})
bytesType = reflect.TypeOf([]byte{})
)
// Equal checks if two values are equal or not. (check both type and value)
// Play: https://go.dev/play/p/wmVxR-to4lz
func Equal(left, right any) bool {
return compareValue(equal, left, right)
}
// EqualValue checks if two values are equal or not. (check value only)
// Play: https://go.dev/play/p/fxnna_LLD9u
func EqualValue(left, right any) bool {
ls, rs := convertor.ToString(left), convertor.ToString(right)
return ls == rs
}
// LessThan checks if value `left` less than value `right`.
// Play: https://go.dev/play/p/cYh7FQQj0ne
func LessThan(left, right any) bool {
return compareValue(lessThan, left, right)
}
// GreaterThan checks if value `left` greater than value `right`.
// Play: https://go.dev/play/p/9-NYDFZmIMp
func GreaterThan(left, right any) bool {
return compareValue(greaterThan, left, right)
}
// LessOrEqual checks if value `left` less than or equal to value `right`.
// Play: https://go.dev/play/p/e4T_scwoQzp
func LessOrEqual(left, right any) bool {
return compareValue(lessOrEqual, left, right)
}
// GreaterOrEqual checks if value `left` greater than or equal to value `right`.
// Play: https://go.dev/play/p/vx8mP0U8DFk
func GreaterOrEqual(left, right any) bool {
return compareValue(greaterOrEqual, left, right)
}
// InDelta checks if two values are equal or not within a delta.
// Play: https://go.dev/play/p/TuDdcNtMkjo
func InDelta[T constraints.Integer | constraints.Float](left, right T, delta float64) bool {
return float64(mathutil.Abs(left-right)) <= delta
}

196
compare/compare_example_test.go
View File

@@ -1,196 +0,0 @@
package compare
import (
"fmt"
"time"
)
func ExampleEqual() {
result1 := Equal(1, 1)
result2 := Equal("1", "1")
result3 := Equal([]int{1, 2, 3}, []int{1, 2, 3})
result4 := Equal(map[int]string{1: "a", 2: "b"}, map[int]string{1: "a", 2: "b"})
result5 := Equal(1, "1")
result6 := Equal(1, int64(1))
result7 := Equal([]int{1, 2}, []int{1, 2, 3})
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
// true
// true
// true
// true
// false
// false
// false
}
func ExampleEqualValue() {
result1 := EqualValue(1, 1)
result2 := EqualValue(int(1), int64(1))
result3 := EqualValue(1, "1")
result4 := EqualValue(1, "2")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// true
// true
// true
// false
}
func ExampleLessThan() {
result1 := LessThan(1, 2)
result2 := LessThan(1.1, 2.2)
result3 := LessThan("a", "b")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := LessThan(time1, time2)
result5 := LessThan(2, 1)
result6 := LessThan(1, int64(2))
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// true
// true
// true
// true
// false
// false
}
func ExampleGreaterThan() {
result1 := GreaterThan(2, 1)
result2 := GreaterThan(2.2, 1.1)
result3 := GreaterThan("b", "a")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := GreaterThan(time2, time1)
result5 := GreaterThan(1, 2)
result6 := GreaterThan(int64(2), 1)
result7 := GreaterThan("b", "c")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
// true
// true
// true
// true
// false
// false
// false
}
func ExampleLessOrEqual() {
result1 := LessOrEqual(1, 1)
result2 := LessOrEqual(1.1, 2.2)
result3 := LessOrEqual("a", "b")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := LessOrEqual(time1, time2)
result5 := LessOrEqual(2, 1)
result6 := LessOrEqual(1, int64(2))
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// true
// true
// true
// true
// false
// false
}
func ExampleGreaterOrEqual() {
result1 := GreaterOrEqual(1, 1)
result2 := GreaterOrEqual(2.2, 1.1)
result3 := GreaterOrEqual("b", "b")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := GreaterOrEqual(time2, time1)
result5 := GreaterOrEqual(1, 2)
result6 := GreaterOrEqual(int64(2), 1)
result7 := GreaterOrEqual("b", "c")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
// true
// true
// true
// true
// false
// false
// false
}
func ExampleInDelta() {
result1 := InDelta(1, 1, 0)
result2 := InDelta(1, 2, 0)
result3 := InDelta(2.0/3.0, 0.66667, 0.001)
result4 := InDelta(2.0/3.0, 0.0, 0.001)
result5 := InDelta(float64(74.96)-float64(20.48), 54.48, 0)
result6 := InDelta(float64(74.96)-float64(20.48), 54.48, 1e-14)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// true
// false
// true
// false
// false
// true
}

291
compare/compare_internal.go
View File

@@ -1,291 +0,0 @@
package compare
import (
"bytes"
"encoding/json"
"math/big"
"reflect"
"time"
"github.com/duke-git/lancet/v2/convertor"
)
func compareValue(operator string, left, right any) bool {
leftType, rightType := reflect.TypeOf(left), reflect.TypeOf(right)
if leftType.Kind() != rightType.Kind() {
return false
}
switch leftType.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64,
reflect.Float32, reflect.Float64, reflect.Bool, reflect.String:
return compareBasicValue(operator, left, right)
case reflect.Struct, reflect.Slice, reflect.Map:
return compareRefValue(operator, left, right, leftType.Kind())
case reflect.Ptr:
if leftVal, ok := left.(*big.Int); ok {
if rightVal, ok := right.(*big.Int); ok {
return compareBigInt(operator, leftVal, rightVal)
}
}
}
return false
}
func compareRefValue(operator string, leftObj, rightObj any, kind reflect.Kind) bool {
leftVal, rightVal := reflect.ValueOf(leftObj), reflect.ValueOf(rightObj)
switch kind {
case reflect.Struct:
// compare time
if leftVal.CanConvert(timeType) {
timeObj1, ok := leftObj.(time.Time)
if !ok {
timeObj1 = leftVal.Convert(timeType).Interface().(time.Time)
}
timeObj2, ok := rightObj.(time.Time)
if !ok {
timeObj2 = rightVal.Convert(timeType).Interface().(time.Time)
}
return compareBasicValue(operator, timeObj1.UnixNano(), timeObj2.UnixNano())
}
// for other struct type, only process equal operator
switch operator {
case equal:
return objectsAreEqualValues(leftObj, rightObj)
}
case reflect.Slice:
// compare []byte
if leftVal.CanConvert(bytesType) {
bytesObj1, ok := leftObj.([]byte)
if !ok {
bytesObj1 = leftVal.Convert(bytesType).Interface().([]byte)
}
bytesObj2, ok := rightObj.([]byte)
if !ok {
bytesObj2 = rightVal.Convert(bytesType).Interface().([]byte)
}
switch operator {
case equal:
if bytes.Equal(bytesObj1, bytesObj2) {
return true
}
case lessThan:
if bytes.Compare(bytesObj1, bytesObj2) == -1 {
return true
}
case greaterThan:
if bytes.Compare(bytesObj1, bytesObj2) == 1 {
return true
}
case lessOrEqual:
if bytes.Compare(bytesObj1, bytesObj2) <= 0 {
return true
}
case greaterOrEqual:
if bytes.Compare(bytesObj1, bytesObj2) >= 0 {
return true
}
}
}
// for other type slice, only process equal operator
switch operator {
case equal:
return reflect.DeepEqual(leftObj, rightObj)
}
case reflect.Map:
// only process equal operator
switch operator {
case equal:
return reflect.DeepEqual(leftObj, rightObj)
}
}
return false
}
func objectsAreEqualValues(expected, actual interface{}) bool {
if objectsAreEqual(expected, actual) {
return true
}
actualType := reflect.TypeOf(actual)
if actualType == nil {
return false
}
expectedValue := reflect.ValueOf(expected)
if expectedValue.IsValid() && expectedValue.Type().ConvertibleTo(actualType) {
// Attempt comparison after type conversion
return reflect.DeepEqual(expectedValue.Convert(actualType).Interface(), actual)
}
return false
}
func objectsAreEqual(expected, actual interface{}) bool {
if expected == nil || actual == nil {
return expected == actual
}
exp, ok := expected.([]byte)
if !ok {
return reflect.DeepEqual(expected, actual)
}
act, ok := actual.([]byte)
if !ok {
return false
}
if exp == nil || act == nil {
return exp == nil && act == nil
}
return bytes.Equal(exp, act)
}
// compareBasic compare basic value: integer, float, string, bool
func compareBasicValue(operator string, leftValue, rightValue any) bool {
if leftValue == nil && rightValue == nil && operator == equal {
return true
}
switch leftVal := leftValue.(type) {
case int, uint, int8, uint8, int16, uint16, int32, uint32, int64, uint64:
left, err := convertor.ToBigInt(leftValue)
if err != nil {
return false
}
right, err := convertor.ToBigInt(rightValue)
if err != nil {
return false
}
return compareBigInt(operator, left, right)
case float32, float64:
left, err := convertor.ToFloat(leftValue)
if err != nil {
return false
}
right, err := convertor.ToFloat(rightValue)
if err != nil {
return false
}
return compareFloats(operator, left, right)
case string:
left := leftVal
switch right := rightValue.(type) {
case string:
return compareStrings(operator, left, right)
}
case bool:
left := leftVal
switch right := rightValue.(type) {
case bool:
return compareBools(operator, left, right)
}
case json.Number:
if left, err := leftVal.Float64(); err == nil {
switch rightVal := rightValue.(type) {
case json.Number:
if right, err := rightVal.Float64(); err == nil {
return compareFloats(operator, left, right)
}
case float32, float64:
right, err := convertor.ToFloat(rightValue)
if err != nil {
return false
}
return compareFloats(operator, left, right)
case int, uint, int8, uint8, int16, uint16, int32, uint32, int64, uint64:
right, err := convertor.ToBigInt(rightValue)
if err != nil {
return false
}
left, err := convertor.ToBigInt(left)
return compareBigInt(operator, left, right)
}
}
}
return false
}
// compareBigInt compares two big.Int values based on the operator
func compareBigInt(operator string, left, right *big.Int) bool {
switch operator {
case equal:
return left.Cmp(right) == 0
case lessThan:
return left.Cmp(right) < 0
case greaterThan:
return left.Cmp(right) > 0
case lessOrEqual:
return left.Cmp(right) <= 0
case greaterOrEqual:
return left.Cmp(right) >= 0
}
return false
}
// compareFloats compares two float64 values based on the operator
func compareFloats(operator string, left, right float64) bool {
switch operator {
case equal:
return left == right
case lessThan:
return left < right
case greaterThan:
return left > right
case lessOrEqual:
return left <= right
case greaterOrEqual:
return left >= right
}
return false
}
// compareStrings compares two string values based on the operator
func compareStrings(operator string, left, right string) bool {
switch operator {
case equal:
return left == right
case lessThan:
return left < right
case greaterThan:
return left > right
case lessOrEqual:
return left <= right
case greaterOrEqual:
return left >= right
}
return false
}
// compareBools compares two boolean values based on the operator
func compareBools(operator string, left, right bool) bool {
switch operator {
case equal:
return left == right
}
return false
}

203
compare/compare_test.go
View File

@@ -1,203 +0,0 @@
package compare
import (
"encoding/json"
"math/big"
"testing"
"time"
"github.com/duke-git/lancet/v2/internal"
)
func TestEqual(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEqual")
tests := []struct {
left any
right any
want bool
}{
{1, 1, true},
{int64(1), int64(1), true},
{"a", "a", true},
{true, true, true},
{[]int{1, 2, 3}, []int{1, 2, 3}, true},
{map[int]string{1: "a", 2: "b"}, map[int]string{1: "a", 2: "b"}, true},
{1, 2, false},
{1, int64(1), false},
{"a", "b", false},
{true, false, false},
{[]int{1, 2}, []int{1, 2, 3}, false},
{map[int]string{1: "a", 2: "b"}, map[int]string{1: "a"}, false},
// {time.Now(), time.Now(), true},
// {time.Now(), time.Now().Add(time.Second), false},
{[]byte("hello"), []byte("hello"), true},
{[]byte("hello"), []byte("world"), false},
{json.Number("123"), json.Number("123"), true},
{json.Number("123"), json.Number("124"), false},
{big.NewInt(123), big.NewInt(123), true},
}
for _, tt := range tests {
assert.Equal(tt.want, Equal(tt.left, tt.right))
}
}
func TestEqualValue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEqualValue")
tests := []struct {
left any
right any
want bool
}{
{1, 1, true},
{int64(1), int64(1), true},
{"a", "a", true},
{true, true, true},
{[]int{1, 2, 3}, []int{1, 2, 3}, true},
{map[int]string{1: "a", 2: "b"}, map[int]string{1: "a", 2: "b"}, true},
{1, 2, false},
{1, int64(1), true},
{"a", "b", false},
{true, false, false},
{[]int{1, 2}, []int{1, 2, 3}, false},
}
for _, tt := range tests {
assert.Equal(tt.want, EqualValue(tt.left, tt.right))
}
}
func TestLessThan(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLessThan")
tests := []struct {
left any
right any
want bool
}{
{1, 2, true},
{1.1, 2.2, true},
{"a", "b", true},
{time.Now(), time.Now().Add(time.Second), true},
{[]byte("hello1"), []byte("hello2"), true},
{json.Number("123"), json.Number("124"), true},
{645680099112988673, 645680099112988675, true},
{1, 1, false},
{1, int64(1), false},
}
for _, tt := range tests {
assert.Equal(tt.want, LessThan(tt.left, tt.right))
}
}
func TestGreaterThan(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGreaterThan")
tests := []struct {
left any
right any
want bool
}{
{2, 1, true},
{2.2, 1.1, true},
{"b", "a", true},
{time.Now().Add(time.Second), time.Now(), true},
{[]byte("hello2"), []byte("hello1"), true},
{json.Number("124"), json.Number("123"), true},
{645680099112988675, 645680099112988673, true},
{1, 1, false},
{1, int64(1), false},
}
for _, tt := range tests {
assert.Equal(tt.want, GreaterThan(tt.left, tt.right))
}
}
func TestLessOrEqual(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLessOrEqual")
tests := []struct {
left any
right any
want bool
}{
{1, 2, true},
{1, 1, true},
{1.1, 2.2, true},
{"a", "b", true},
{time.Now(), time.Now().Add(time.Second), true},
{[]byte("hello1"), []byte("hello2"), true},
{json.Number("123"), json.Number("124"), true},
{645680099112988673, 645680099112988675, true},
{2, 1, false},
{1, int64(2), false},
}
for _, tt := range tests {
assert.Equal(tt.want, LessOrEqual(tt.left, tt.right))
}
}
func TestGreaterOrEqual(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGreaterThan")
tests := []struct {
left any
right any
want bool
}{
{2, 1, true},
{1, 1, true},
{2.2, 1.1, true},
{"b", "b", true},
{time.Now().Add(time.Second), time.Now(), true},
{[]byte("hello2"), []byte("hello1"), true},
{json.Number("124"), json.Number("123"), true},
{645680099112988675, 645680099112988673, true},
{1, 2, false},
{int64(2), 1, false},
{"b", "c", false},
}
for _, tt := range tests {
assert.Equal(tt.want, GreaterOrEqual(tt.left, tt.right))
}
}
func TestInDelta(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestInDelta")
tests := []struct {
left float64
right float64
delta float64
want bool
}{
{1, 1, 0, true},
{1, 2, 0, false},
{2.0 / 3.0, 0.66667, 0.001, true},
{2.0 / 3.0, 0.0, 0.001, false},
{float64(74.96) - float64(20.48), 54.48, 0, false},
{float64(74.96) - float64(20.48), 54.48, 1e-14, true},
{float64(float32(80.45)), float64(80.45), 0, false},
{float64(float32(80.45)), float64(80.45), 1e-5, true},
}
for _, tt := range tests {
assert.Equal(tt.want, InDelta(tt.left, tt.right, tt.delta))
}
}

250
concurrency/channel.go
View File

@@ -1,250 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package concurrency contain some functions to support concurrent programming. eg, goroutine, channel.
package concurrency
import (
"context"
"sync"
)
// Channel is a logic object which can generate or manipulate go channel
// all methods of Channel are in the book tilted《Concurrency in Go》
type Channel[T any] struct {
}
// NewChannel return a Channel instance
func NewChannel[T any]() *Channel[T] {
return &Channel[T]{}
}
// Generate creates channel, then put values into the channel.
// Play: https://go.dev/play/p/7aB4KyMMp9A
func (c *Channel[T]) Generate(ctx context.Context, values ...T) <-chan T {
dataStream := make(chan T)
go func() {
defer close(dataStream)
for _, v := range values {
select {
case <-ctx.Done():
return
case dataStream <- v:
}
}
}()
return dataStream
}
// Repeat create channel, put values into the channel repeatly until cancel the context.
// Play: https://go.dev/play/p/k5N_ALVmYjE
func (c *Channel[T]) Repeat(ctx context.Context, values ...T) <-chan T {
dataStream := make(chan T)
go func() {
defer close(dataStream)
for {
for _, v := range values {
select {
case <-ctx.Done():
return
case dataStream <- v:
}
}
}
}()
return dataStream
}
// RepeatFn create a channel, excutes fn repeatly, and put the result into the channel
// until close context.
// Play: https://go.dev/play/p/4J1zAWttP85
func (c *Channel[T]) RepeatFn(ctx context.Context, fn func() T) <-chan T {
dataStream := make(chan T)
go func() {
defer close(dataStream)
for {
select {
case <-ctx.Done():
return
case dataStream <- fn():
}
}
}()
return dataStream
}
// Take create a channel whose values are taken from another channel with limit number.
// Play: https://go.dev/play/p/9Utt-1pDr2J
func (c *Channel[T]) Take(ctx context.Context, valueStream <-chan T, number int) <-chan T {
takeStream := make(chan T)
go func() {
defer close(takeStream)
for i := 0; i < number; i++ {
select {
case <-ctx.Done():
return
case takeStream <- <-valueStream:
}
}
}()
return takeStream
}
// FanIn merge multiple channels into one channel.
// Play: https://go.dev/play/p/2VYFMexEvTm
func (c *Channel[T]) FanIn(ctx context.Context, channels ...<-chan T) <-chan T {
out := make(chan T)
go func() {
var wg sync.WaitGroup
wg.Add(len(channels))
for _, c := range channels {
go func(c <-chan T) {
defer wg.Done()
for v := range c {
select {
case <-ctx.Done():
return
case out <- v:
}
}
}(c)
}
wg.Wait()
close(out)
}()
return out
}
// Tee split one chanel into two channels, until cancel the context.
// Play: https://go.dev/play/p/3TQPKnCirrP
func (c *Channel[T]) Tee(ctx context.Context, in <-chan T) (<-chan T, <-chan T) {
out1 := make(chan T)
out2 := make(chan T)
go func() {
defer close(out1)
defer close(out2)
for val := range c.OrDone(ctx, in) {
var out1, out2 = out1, out2
for i := 0; i < 2; i++ {
select {
case <-ctx.Done():
case out1 <- val:
out1 = nil
case out2 <- val:
out2 = nil
}
}
}
}()
return out1, out2
}
// Bridge link multiply channels into one channel.
// Play: https://go.dev/play/p/qmWSy1NVF-Y
func (c *Channel[T]) Bridge(ctx context.Context, chanStream <-chan <-chan T) <-chan T {
valStream := make(chan T)
go func() {
defer close(valStream)
wg := sync.WaitGroup{}
defer wg.Wait()
for {
var stream <-chan T
select {
case maybeStream, ok := <-chanStream:
if !ok {
return
}
stream = maybeStream
wg.Add(1)
case <-ctx.Done():
return
}
go func() {
defer wg.Done()
for val := range c.OrDone(ctx, stream) {
select {
case valStream <- val:
case <-ctx.Done():
}
}
}()
}
}()
return valStream
}
// Or read one or more channels into one channel, will close when any readin channel is closed.
// Play: https://go.dev/play/p/Wqz9rwioPww
func (c *Channel[T]) Or(channels ...<-chan T) <-chan T {
switch len(channels) {
case 0:
return nil
case 1:
return channels[0]
}
orDone := make(chan T)
go func() {
defer close(orDone)
switch len(channels) {
case 2:
select {
case <-channels[0]:
case <-channels[1]:
}
default:
select {
case <-channels[0]:
case <-channels[1]:
case <-channels[2]:
case <-c.Or(append(channels[3:], orDone)...):
}
}
}()
return orDone
}
// OrDone read a channel into another channel, will close until cancel context.
// Play: https://go.dev/play/p/lm_GoS6aDjo
func (c *Channel[T]) OrDone(ctx context.Context, channel <-chan T) <-chan T {
valStream := make(chan T)
go func() {
defer close(valStream)
for {
select {
case <-ctx.Done():
return
case v, ok := <-channel:
if !ok {
return
}
select {
case valStream <- v:
case <-ctx.Done():
}
}
}
}()
return valStream
}

358
concurrency/channel_example_test.go
View File

@@ -1,358 +0,0 @@
package concurrency
import (
"context"
"fmt"
"log"
"time"
)
func ExampleChannel_Generate() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Generate(ctx, 1, 2, 3)
fmt.Println(<-intStream)
fmt.Println(<-intStream)
fmt.Println(<-intStream)
// Output:
// 1
// 2
// 3
}
func ExampleChannel_Repeat() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1, 2), 4)
for v := range intStream {
fmt.Println(v)
}
// Output:
// 1
// 2
// 1
// 2
}
func ExampleChannel_RepeatFn() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
fn := func() string {
return "hello"
}
c := NewChannel[string]()
intStream := c.Take(ctx, c.RepeatFn(ctx, fn), 3)
for v := range intStream {
fmt.Println(v)
}
// Output:
// hello
// hello
// hello
}
func ExampleChannel_Take() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
numbers := make(chan int, 5)
numbers <- 1
numbers <- 2
numbers <- 3
numbers <- 4
numbers <- 5
defer close(numbers)
c := NewChannel[int]()
intStream := c.Take(ctx, numbers, 3)
for v := range intStream {
fmt.Println(v)
}
// Output:
// 1
// 2
// 3
}
func ExampleChannel_FanIn() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
channels := make([]<-chan int, 2)
for i := 0; i < 2; i++ {
channels[i] = c.Take(ctx, c.Repeat(ctx, i), 2)
}
chs := c.FanIn(ctx, channels...)
for v := range chs {
fmt.Println(v) //1 1 0 0 or 0 0 1 1
}
}
func ExampleChannel_Or() {
sig := func(after time.Duration) <-chan any {
c := make(chan any)
go func() {
defer close(c)
time.Sleep(after)
}()
return c
}
start := time.Now()
c := NewChannel[any]()
<-c.Or(
sig(1*time.Second),
sig(2*time.Second),
sig(3*time.Second),
)
if time.Since(start).Seconds() < 2 {
fmt.Println("ok")
}
// Output:
// ok
}
func ExampleChannel_OrDone() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1), 3)
for v := range c.OrDone(ctx, intStream) {
fmt.Println(v)
}
// Output:
// 1
// 1
// 1
}
func ExampleChannel_Tee() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1), 2)
ch1, ch2 := c.Tee(ctx, intStream)
for v := range ch1 {
fmt.Println(v)
fmt.Println(<-ch2)
}
// Output:
// 1
// 1
// 1
// 1
}
func ExampleChannel_Bridge() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
m1 := make(map[int]int)
m2 := make(map[int]int)
c := NewChannel[int]()
genVals := func() <-chan <-chan int {
out := make(chan (<-chan int))
go func() {
defer close(out)
for i := 1; i <= 5; i++ {
stream := make(chan int, 1)
stream <- i
m1[i]++
close(stream)
out <- stream
}
}()
return out
}
for v := range c.Bridge(ctx, genVals()) {
m2[v]++
}
for k, v := range m1 {
fmt.Println(m2[k] == v)
}
// Output:
// true
// true
// true
// true
// true
}
func ExampleKeyedLocker_Do() {
locker := NewKeyedLocker[string](2 * time.Second)
task := func() {
fmt.Println("Executing task...")
time.Sleep(1 * time.Second)
fmt.Println("Task completed.")
}
ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second)
defer cancel()
if err := locker.Do(ctx, "mykey", task); err != nil {
log.Fatalf("Error executing task: %v\n", err)
} else {
fmt.Println("Task successfully executed.")
}
ctx2, cancel2 := context.WithTimeout(context.Background(), 3*time.Second)
defer cancel2()
if err := locker.Do(ctx2, "mykey", task); err != nil {
log.Fatalf("Error executing task: %v\n", err)
} else {
fmt.Println("Task successfully executed.")
}
// Output:
// Executing task...
// Task completed.
// Task successfully executed.
// Executing task...
// Task completed.
// Task successfully executed.
}
func ExampleRWKeyedLocker_Lock() {
locker := NewRWKeyedLocker[string](2 * time.Second)
// Simulate a key
key := "resource_key"
fn := func() {
fmt.Println("Starting write operation...")
// Simulate write operation, assuming it takes 2 seconds
time.Sleep(200 * time.Millisecond)
fmt.Println("Write operation completed!")
}
// Acquire the write lock and execute the operation
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
// Execute the lock operation with a 3-second timeout
err := locker.Lock(ctx, key, fn)
if err != nil {
return
}
//output:
//Starting write operation...
//Write operation completed!
}
func ExampleRWKeyedLocker_RLock() {
locker := NewRWKeyedLocker[string](2 * time.Second)
// Simulate a key
key := "resource_key"
fn := func() {
fmt.Println("Starting write operation...")
// Simulate write operation, assuming it takes 2 seconds
time.Sleep(200 * time.Millisecond)
fmt.Println("Write operation completed!")
}
// Acquire the write lock and execute the operation
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
// Execute the lock operation with a 3-second timeout
err := locker.RLock(ctx, key, fn)
if err != nil {
return
}
//output:
//Starting write operation...
//Write operation completed!
}
func ExampleTryKeyedLocker() {
locker := NewTryKeyedLocker[string]()
key := "resource_key"
if locker.TryLock(key) {
fmt.Println("Lock acquired")
time.Sleep(1 * time.Second)
// Unlock after work is done
locker.Unlock(key)
fmt.Println("Lock released")
} else {
fmt.Println("Lock failed")
}
//output:
//Lock acquired
//Lock released
}
func ExampleTryKeyedLocker_TryLock() {
locker := NewTryKeyedLocker[string]()
key := "resource_key"
done := make(chan struct{})
go func() {
if locker.TryLock(key) {
time.Sleep(2 * time.Second)
locker.Unlock(key)
}
close(done)
}()
time.Sleep(100 * time.Millisecond)
if locker.TryLock(key) {
fmt.Println("Lock acquired")
locker.Unlock(key)
} else {
fmt.Println("Lock failed")
}
// wait for the goroutine to finish
<-done
fmt.Println("Retrying...")
time.Sleep(100 * time.Millisecond)
if locker.TryLock(key) {
fmt.Println("Lock acquired")
locker.Unlock(key)
fmt.Println("Lock released")
} else {
fmt.Println("Lock failed")
}
// Output:
// Lock failed
// Retrying...
// Lock acquired
// Lock released
}

200
concurrency/channel_test.go
View File

@@ -1,200 +0,0 @@
package concurrency
import (
"context"
"testing"
"time"
"github.com/duke-git/lancet/v2/internal"
)
func TestGenerate(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGenerate")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Generate(ctx, 1, 2, 3)
assert.Equal(1, <-intStream)
assert.Equal(2, <-intStream)
assert.Equal(3, <-intStream)
}
func TestRepeat(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestRepeat")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1, 2), 5)
assert.Equal(1, <-intStream)
assert.Equal(2, <-intStream)
assert.Equal(1, <-intStream)
assert.Equal(2, <-intStream)
assert.Equal(1, <-intStream)
}
func TestRepeatFn(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestRepeatFn")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
fn := func() string {
s := "a"
return s
}
c := NewChannel[string]()
dataStream := c.Take(ctx, c.RepeatFn(ctx, fn), 3)
assert.Equal("a", <-dataStream)
assert.Equal("a", <-dataStream)
assert.Equal("a", <-dataStream)
}
func TestTake(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestTake")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
numbers := make(chan int, 5)
numbers <- 1
numbers <- 2
numbers <- 3
numbers <- 4
numbers <- 5
defer close(numbers)
c := NewChannel[int]()
intStream := c.Take(ctx, numbers, 3)
assert.Equal(1, <-intStream)
assert.Equal(2, <-intStream)
assert.Equal(3, <-intStream)
}
func TestFanIn(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestFanIn")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
channels := make([]<-chan int, 3)
for i := 0; i < 3; i++ {
channels[i] = c.Take(ctx, c.Repeat(ctx, i), 3)
}
mergedChannel := c.FanIn(ctx, channels...)
for val := range mergedChannel {
t.Logf("\t%d\n", val)
}
assert.Equal(1, 1)
}
func TestOr(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestOr")
sig := func(after time.Duration) <-chan any {
c := make(chan interface{})
go func() {
defer close(c)
time.Sleep(after)
}()
return c
}
start := time.Now()
c := NewChannel[any]()
<-c.Or(
sig(1*time.Second),
sig(2*time.Second),
sig(3*time.Second),
sig(4*time.Second),
sig(5*time.Second),
)
assert.Equal(true, time.Since(start).Seconds() < 2)
}
func TestOrDone(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestOrDone")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1), 3)
for val := range c.OrDone(ctx, intStream) {
assert.Equal(1, val)
}
}
func TestTee(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestTee")
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
inStream := c.Take(ctx, c.Repeat(ctx, 1), 4)
out1, out2 := c.Tee(ctx, inStream)
for val := range out1 {
val1 := val
val2 := <-out2
assert.Equal(1, val1)
assert.Equal(1, val2)
}
}
func TestBridge(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBridge")
m1 := make(map[int]int)
m2 := make(map[int]int)
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := NewChannel[int]()
genVals := func() <-chan <-chan int {
chanStream := make(chan (<-chan int))
go func() {
defer close(chanStream)
for i := 0; i < 10; i++ {
stream := make(chan int, 1)
stream <- i
m1[i]++
close(stream)
chanStream <- stream
}
}()
return chanStream
}
for val := range c.Bridge(ctx, genVals()) {
m2[val]++
}
for k, v := range m1 {
assert.Equal(m2[k], v)
}
}

257
concurrency/keyed_locker.go
View File

@@ -1,257 +0,0 @@
// Copyright 2025 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package concurrency contain some functions to support concurrent programming. eg, goroutine, channel, locker.
package concurrency
import (
"context"
"sync"
"sync/atomic"
"time"
)
// KeyedLocker is a simple implementation of a keyed locker that allows for non-blocking lock acquisition.
type KeyedLocker[K comparable] struct {
locks sync.Map
ttl time.Duration
}
type lockEntry struct {
mu sync.Mutex
ref int32
timer atomic.Pointer[time.Timer]
}
// NewKeyedLocker creates a new KeyedLocker with the specified TTL for lock expiration.
// The TTL is used to automatically release locks that are no longer held.
// Play: https://go.dev/play/p/GzeyC33T5rw
func NewKeyedLocker[K comparable](ttl time.Duration) *KeyedLocker[K] {
return &KeyedLocker[K]{ttl: ttl}
}
// Do acquires a lock for the specified key and executes the provided function.
// It returns an error if the context is canceled before the function completes.
// Play: https://go.dev/play/p/GzeyC33T5rw
func (l *KeyedLocker[K]) Do(ctx context.Context, key K, fn func()) error {
entry := l.acquire(key)
defer l.release(key, entry, key)
done := make(chan struct{})
go func() {
entry.mu.Lock()
defer entry.mu.Unlock()
select {
case <-ctx.Done():
default:
fn()
}
close(done)
}()
select {
case <-ctx.Done():
return ctx.Err()
case <-done:
return nil
}
}
// acquire tries to acquire a lock for the specified key.
func (l *KeyedLocker[K]) acquire(key K) *lockEntry {
lock, _ := l.locks.LoadOrStore(key, &lockEntry{})
entry := lock.(*lockEntry)
atomic.AddInt32(&entry.ref, 1)
if t := entry.timer.Swap(nil); t != nil {
t.Stop()
}
return entry
}
// release releases the lock for the specified key.
func (l *KeyedLocker[K]) release(key K, entry *lockEntry, rawKey K) {
if atomic.AddInt32(&entry.ref, -1) == 0 {
entry.mu.Lock()
defer entry.mu.Unlock()
if entry.ref == 0 {
if t := entry.timer.Swap(nil); t != nil {
t.Stop()
}
l.locks.Delete(rawKey)
} else {
if entry.timer.Load() == nil {
t := time.AfterFunc(l.ttl, func() {
l.release(key, entry, rawKey)
})
entry.timer.Store(t)
}
}
}
}
// RWKeyedLocker is a read-write version of KeyedLocker.
type RWKeyedLocker[K comparable] struct {
locks sync.Map
ttl time.Duration
}
type rwLockEntry struct {
mu sync.RWMutex
ref int32
timer atomic.Pointer[time.Timer]
}
// NewRWKeyedLocker creates a new RWKeyedLocker with the specified TTL for lock expiration.
// The TTL is used to automatically release locks that are no longer held.
// Play: https://go.dev/play/p/CkaJWWwZm9
func NewRWKeyedLocker[K comparable](ttl time.Duration) *RWKeyedLocker[K] {
return &RWKeyedLocker[K]{ttl: ttl}
}
// RLock acquires a read lock for the specified key and executes the provided function.
// It returns an error if the context is canceled before the function completes.
// Play: https://go.dev/play/p/ZrCr8sMo77T
func (l *RWKeyedLocker[K]) RLock(ctx context.Context, key K, fn func()) error {
entry := l.acquire(key)
defer l.release(entry, key)
done := make(chan struct{})
go func() {
entry.mu.RLock()
defer entry.mu.RUnlock()
select {
case <-ctx.Done():
default:
fn()
}
close(done)
}()
select {
case <-ctx.Done():
return ctx.Err()
case <-done:
return nil
}
}
// Lock acquires a write lock for the specified key and executes the provided function.
// It returns an error if the context is canceled before the function completes.
// Play: https://go.dev/play/p/WgAcXbOPKGk
func (l *RWKeyedLocker[K]) Lock(ctx context.Context, key K, fn func()) error {
entry := l.acquire(key)
defer l.release(entry, key)
done := make(chan struct{})
go func() {
entry.mu.Lock()
defer entry.mu.Unlock()
select {
case <-ctx.Done():
default:
fn()
}
close(done)
}()
select {
case <-ctx.Done():
return ctx.Err()
case <-done:
return nil
}
}
// acquire tries to acquire a read lock for the specified key.
func (l *RWKeyedLocker[K]) acquire(key K) *rwLockEntry {
actual, _ := l.locks.LoadOrStore(key, &rwLockEntry{})
entry := actual.(*rwLockEntry)
atomic.AddInt32(&entry.ref, 1)
if t := entry.timer.Swap(nil); t != nil {
t.Stop()
}
return entry
}
// release releases the lock for the specified key.
func (l *RWKeyedLocker[K]) release(entry *rwLockEntry, rawKey K) {
if atomic.AddInt32(&entry.ref, -1) == 0 {
timer := time.AfterFunc(l.ttl, func() {
if atomic.LoadInt32(&entry.ref) == 0 {
l.locks.Delete(rawKey)
}
})
entry.timer.Store(timer)
}
}
// TryKeyedLocker is a non-blocking version of KeyedLocker.
// It allows for trying to acquire a lock without blocking if the lock is already held.
type TryKeyedLocker[K comparable] struct {
mu sync.Mutex
locks map[K]*casMutex
}
// NewTryKeyedLocker creates a new TryKeyedLocker.
// Play: https://go.dev/play/p/VG9qLvyetE2
func NewTryKeyedLocker[K comparable]() *TryKeyedLocker[K] {
return &TryKeyedLocker[K]{locks: make(map[K]*casMutex)}
}
// TryLock tries to acquire a lock for the specified key.
// It returns true if the lock was acquired, false otherwise.
// Play: https://go.dev/play/p/VG9qLvyetE2
func (l *TryKeyedLocker[K]) TryLock(key K) bool {
l.mu.Lock()
lock, ok := l.locks[key]
if !ok {
lock = &casMutex{}
l.locks[key] = lock
}
l.mu.Unlock()
return lock.TryLock()
}
// Unlock releases the lock for the specified key.
// Play: https://go.dev/play/p/VG9qLvyetE2
func (l *TryKeyedLocker[K]) Unlock(key K) {
l.mu.Lock()
defer l.mu.Unlock()
lock, ok := l.locks[key]
if ok {
lock.Unlock()
if lock.lock == 0 {
delete(l.locks, key)
}
}
}
// casMutex is a simple mutex that uses atomic operations to provide a non-blocking lock.
type casMutex struct {
lock int32
}
// TryLock tries to acquire the lock without blocking.
// It returns true if the lock was acquired, false otherwise.
func (m *casMutex) TryLock() bool {
return atomic.CompareAndSwapInt32(&m.lock, 0, 1)
}
// Unlock releases the lock.
func (m *casMutex) Unlock() {
atomic.StoreInt32(&m.lock, 0)
}

230
concurrency/keyed_locker_test.go
View File

@@ -1,230 +0,0 @@
package concurrency
import (
"context"
"strconv"
"sync"
"testing"
"time"
"github.com/duke-git/lancet/v2/internal"
)
func TestKeyedLocker_SerialExecutionSameKey(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestKeyedLocker_SerialExecutionSameKey")
locker := NewKeyedLocker[string](100 * time.Millisecond)
var result []int
var mu sync.Mutex
wg := sync.WaitGroup{}
for i := 0; i < 5; i++ {
wg.Add(1)
go func(i int) {
defer wg.Done()
err := locker.Do(context.Background(), "key1", func() {
time.Sleep(10 * time.Millisecond)
mu.Lock()
defer mu.Unlock()
result = append(result, i)
})
assert.IsNil(err)
}(i)
}
wg.Wait()
assert.Equal(5, len(result))
}
func TestKeyedLocker_ParallelExecutionDifferentKeys(t *testing.T) {
locker := NewKeyedLocker[string](100 * time.Millisecond)
start := time.Now()
wg := sync.WaitGroup{}
for i := 0; i < 5; i++ {
wg.Add(1)
go func(i int) {
defer wg.Done()
key := "key" + strconv.Itoa(i)
locker.Do(context.Background(), key, func() {
time.Sleep(50 * time.Millisecond)
})
}(i)
}
wg.Wait()
elapsed := time.Since(start)
if elapsed > 100*time.Millisecond {
t.Errorf("parallel execution took too long: %s", elapsed)
}
}
func TestKeyedLocker_ContextTimeout(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestKeyedLocker_ContextTimeout")
locker := NewKeyedLocker[string](100 * time.Millisecond)
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Millisecond)
defer cancel()
// Lock key before calling
go func() {
_ = locker.Do(context.Background(), "key-timeout", func() {
time.Sleep(50 * time.Millisecond)
})
}()
time.Sleep(1 * time.Millisecond) // ensure lock is acquired first
err := locker.Do(ctx, "key-timeout", func() {
t.Error("should not execute")
})
assert.IsNotNil(err)
}
func TestKeyedLocker_LockReleaseAfterTTL(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestKeyedLocker_LockReleaseAfterTTL")
locker := NewKeyedLocker[string](50 * time.Millisecond)
err := locker.Do(context.Background(), "ttl-key", func() {})
if err != nil {
t.Errorf("unexpected error: %v", err)
}
// Wait for TTL to pass
time.Sleep(100 * time.Millisecond)
err = locker.Do(context.Background(), "ttl-key", func() {})
assert.IsNil(err)
}
func TestRWKeyedLocker_LockAndUnlock(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestKeyedLocker_LockReleaseAfterTTL")
locker := NewRWKeyedLocker[string](500 * time.Millisecond)
var locked bool
err := locker.Lock(context.Background(), "key1", func() {
locked = true
})
assert.IsNil(err)
assert.Equal(true, locked)
}
func TestRWKeyedLocker_RLockParallel(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestKeyedLocker_LockReleaseAfterTTL")
locker := NewRWKeyedLocker[string](1 * time.Second)
var mu sync.Mutex
var count int
wg := sync.WaitGroup{}
for i := 0; i < 5; i++ {
wg.Add(1)
go func() {
defer wg.Done()
err := locker.RLock(context.Background(), "shared-key", func() {
time.Sleep(10 * time.Millisecond)
mu.Lock()
count++
mu.Unlock()
})
assert.IsNil(err)
}()
}
wg.Wait()
assert.Equal(5, count)
}
func TestRWKeyedLocker_LockTimeout(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestRWKeyedLocker_LockTimeout")
locker := NewRWKeyedLocker[string](1 * time.Second)
start := make(chan struct{})
go func() {
locker.Lock(context.Background(), "key-timeout", func() {
close(start)
time.Sleep(200 * time.Millisecond)
})
}()
<-start
ctx, cancel := context.WithTimeout(context.Background(), 50*time.Millisecond)
defer cancel()
err := locker.Lock(ctx, "key-timeout", func() {
t.Error("should not reach here")
})
assert.IsNotNil(err)
}
func TestTryKeyedLocker_SimpleLockUnlock(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestTryKeyedLocker_SimpleLockUnlock")
locker := NewTryKeyedLocker[string]()
ok := locker.TryLock("key1")
assert.Equal(true, ok)
ok = locker.TryLock("key1")
assert.Equal(false, ok)
locker.Unlock("key1")
ok = locker.TryLock("key1")
assert.Equal(true, ok)
locker.Unlock("key1")
}
func TestTryKeyedLocker_ParallelTry(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestTryKeyedLocker_ParallelTry")
locker := NewTryKeyedLocker[string]()
var wg sync.WaitGroup
var mu sync.Mutex
var count int
for i := 0; i < 5; i++ {
wg.Add(1)
go func(i int) {
defer wg.Done()
ok := locker.TryLock("key" + strconv.Itoa(i))
mu.Lock()
if ok {
count++
}
mu.Unlock()
time.Sleep(10 * time.Millisecond)
if ok {
locker.Unlock("key" + strconv.Itoa(i))
}
}(i)
}
wg.Wait()
assert.Equal(5, count)
assert.Equal(0, len(locker.locks))
}

88
condition/condition.go
View File

@@ -1,88 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package condition contains some functions for conditional judgment. eg. And, Or, TernaryOperator ...
// The implementation of this package refers to the implementation of carlmjohnson's truthy package, you may find more
// useful information in truthy(https://github.com/carlmjohnson/truthy), thanks carlmjohnson.
package condition
import "reflect"
// Bool returns the truthy value of anything.
// If the value's type has a Bool() bool method, the method is called and returned.
// If the type has an IsZero() bool method, the opposite value is returned.
// Slices and maps are truthy if they have a length greater than zero.
// All other types are truthy if they are not their zero value.
// Play: https://go.dev/play/p/ETzeDJRSvhm
func Bool[T any](value T) bool {
switch m := any(value).(type) {
case interface{ Bool() bool }:
return m.Bool()
case interface{ IsZero() bool }:
return !m.IsZero()
}
return reflectValue(&value)
}
func reflectValue(vp any) bool {
switch rv := reflect.ValueOf(vp).Elem(); rv.Kind() {
case reflect.Map, reflect.Slice:
return rv.Len() != 0
default:
is := rv.IsZero()
return !is
}
}
// And returns true if both a and b are truthy.
// Play: https://go.dev/play/p/W1SSUmt6pvr
func And[T, U any](a T, b U) bool {
return Bool(a) && Bool(b)
}
// Or returns false if neither a nor b is truthy.
// Play: https://go.dev/play/p/UlQTxHaeEkq
func Or[T, U any](a T, b U) bool {
return Bool(a) || Bool(b)
}
// Xor returns true if a or b but not both is truthy.
// Play: https://go.dev/play/p/gObZrW7ZbG8
func Xor[T, U any](a T, b U) bool {
return Bool(a) != Bool(b)
}
// Nor returns true if neither a nor b is truthy.
// Play: https://go.dev/play/p/g2j08F_zZky
func Nor[T, U any](a T, b U) bool {
return !(Bool(a) || Bool(b))
}
// Xnor returns true if both a and b or neither a nor b are truthy.
// Play: https://go.dev/play/p/OuDB9g51643
func Xnor[T, U any](a T, b U) bool {
return Bool(a) == Bool(b)
}
// Nand returns false if both a and b are truthy.
// Play: https://go.dev/play/p/vSRMLxLIbq8
func Nand[T, U any](a T, b U) bool {
return !Bool(a) || !Bool(b)
}
// TernaryOperator checks the value of param `isTrue`, if true return ifValue else return elseValue.
// Play: https://go.dev/play/p/ElllPZY0guT
func Ternary[T, U any](isTrue T, ifValue U, elseValue U) U {
if Bool(isTrue) {
return ifValue
} else {
return elseValue
}
}
// TernaryOperator checks the value of param `isTrue`, if true return ifValue else return elseValue.
// Play: https://go.dev/play/p/ElllPZY0guT
// Deprecated: Use Ternary instead.
func TernaryOperator[T, U any](isTrue T, ifValue U, elseValue U) U {
return Ternary(isTrue, ifValue, elseValue)
}

163
condition/condition_example_test.go
View File

@@ -1,163 +0,0 @@
package condition
import "fmt"
func ExampleBool() {
// bool
result1 := Bool(false)
result2 := Bool(true)
fmt.Println(result1)
fmt.Println(result2)
// integer
result3 := Bool(0)
result4 := Bool(1)
fmt.Println(result3)
fmt.Println(result4)
// string
result5 := Bool("")
result6 := Bool(" ")
fmt.Println(result5)
fmt.Println(result6)
// slice
var nums = []int{}
result7 := Bool(nums)
nums = append(nums, 1, 2)
result8 := Bool(nums)
fmt.Println(result7)
fmt.Println(result8)
// Output:
// false
// true
// false
// true
// false
// true
// false
// true
}
func ExampleAnd() {
result1 := And(0, 1)
result2 := And(0, "")
result3 := And(0, "0")
result4 := And(1, "0")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// false
// false
// false
// true
}
func ExampleOr() {
result1 := Or(0, "")
result2 := Or(0, 1)
result3 := Or(0, "0")
result4 := Or(1, "0")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// false
// true
// true
// true
}
func ExampleXor() {
result1 := Xor(0, 0)
result2 := Xor(1, 1)
result3 := Xor(0, 1)
result4 := Xor(1, 0)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// false
// false
// true
// true
}
func ExampleNor() {
result1 := Nor(0, 0)
result2 := Nor(1, 1)
result3 := Nor(0, 1)
result4 := Nor(1, 0)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// true
// false
// false
// false
}
func ExampleXnor() {
result1 := Xnor(0, 0)
result2 := Xnor(1, 1)
result3 := Xnor(0, 1)
result4 := Xnor(1, 0)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// true
// true
// false
// false
}
func ExampleNand() {
result1 := Nand(0, 0)
result2 := Nand(1, 0)
result3 := Nand(0, 1)
result4 := Nand(1, 1)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// true
// true
// true
// false
}
func ExampleTernary() {
conditionTrue := 2 > 1
result1 := Ternary(conditionTrue, 0, 1)
fmt.Println(result1)
conditionFalse := 2 > 3
result2 := Ternary(conditionFalse, 0, 1)
fmt.Println(result2)
// Output:
// 0
// 1
}

136
condition/condition_test.go
View File

@@ -1,136 +0,0 @@
package condition
import (
"errors"
"testing"
"time"
"github.com/duke-git/lancet/v2/internal"
)
type TestStruct struct{}
func TestBool(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBool")
// bool
assert.Equal(false, Bool(false))
assert.Equal(true, Bool(true))
// integer
assert.Equal(false, Bool(0))
assert.Equal(true, Bool(1))
// float
assert.Equal(false, Bool(0.0))
assert.Equal(true, Bool(0.1))
// string
assert.Equal(false, Bool(""))
assert.Equal(true, Bool(" "))
assert.Equal(true, Bool("0"))
// slice
var nums [2]int
assert.Equal(false, Bool(nums))
nums = [2]int{0, 1}
assert.Equal(true, Bool(nums))
// map
assert.Equal(false, Bool(map[string]string{}))
assert.Equal(true, Bool(map[string]string{"a": "a"}))
// channel
var ch chan int
assert.Equal(false, Bool(ch))
ch = make(chan int)
assert.Equal(true, Bool(ch))
// interface
var err error
assert.Equal(false, Bool(err))
err = errors.New("error message")
assert.Equal(true, Bool(err))
// struct
assert.Equal(false, Bool(struct{}{}))
assert.Equal(true, Bool(time.Now()))
// struct pointer
ts := TestStruct{}
assert.Equal(false, Bool(ts))
assert.Equal(true, Bool(&ts))
}
func TestAnd(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAnd")
assert.Equal(false, And(0, 1))
assert.Equal(false, And(0, ""))
assert.Equal(false, And(0, "0"))
assert.Equal(true, And(1, "0"))
}
func TestOr(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestOr")
assert.Equal(false, Or(0, ""))
assert.Equal(true, Or(0, 1))
assert.Equal(true, Or(0, "0"))
assert.Equal(true, Or(1, "0"))
}
func TestXor(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestOr")
assert.Equal(false, Xor(0, 0))
assert.Equal(true, Xor(0, 1))
assert.Equal(true, Xor(1, 0))
assert.Equal(false, Xor(1, 1))
}
func TestNor(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestNor")
assert.Equal(true, Nor(0, 0))
assert.Equal(false, Nor(0, 1))
assert.Equal(false, Nor(1, 0))
assert.Equal(false, Nor(1, 1))
}
func TestXnor(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestXnor")
assert.Equal(true, Xnor(0, 0))
assert.Equal(false, Xnor(0, 1))
assert.Equal(false, Xnor(1, 0))
assert.Equal(true, Xnor(1, 1))
}
func TestNand(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestNand")
assert.Equal(true, Nand(0, 0))
assert.Equal(true, Nand(0, 1))
assert.Equal(true, Nand(1, 0))
assert.Equal(false, Nand(1, 1))
}
func TestTernary(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestTernary")
trueValue := "1"
falseValue := "0"
assert.Equal(trueValue, Ternary(true, trueValue, falseValue))
}

13
constraints/constraints.go
View File

@@ -1,13 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package constraints contain some custom interface.
package constraints
// Comparator is for comparing two values
type Comparator interface {
// Compare v1 and v2
// Ascending order: should return 1 -> v1 > v2, 0 -> v1 = v2, -1 -> v1 < v2
// Descending order: should return 1 -> v1 < v2, 0 -> v1 = v2, -1 -> v1 > v2
Compare(v1, v2 any) int
}

492
convertor/convertor.go
View File

@@ -6,33 +6,24 @@ package convertor
import (
"bytes"
"encoding/base64"
"encoding/binary"
"encoding/gob"
"encoding/json"
"errors"
"fmt"
"io"
"math"
"math/big"
"reflect"
"regexp"
"strconv"
"strings"
"github.com/duke-git/lancet/v2/structs"
"golang.org/x/text/encoding/simplifiedchinese"
"golang.org/x/text/transform"
)
// ToBool convert string to boolean.
// Play: https://go.dev/play/p/ARht2WnGdIN
// ToBool convert string to a boolean
func ToBool(s string) (bool, error) {
return strconv.ParseBool(s)
}
// ToBytes convert value to byte slice.
// Play: https://go.dev/play/p/fAMXYFDvOvr
func ToBytes(value any) ([]byte, error) {
// ToBytes convert interface to bytes
func ToBytes(value interface{}) ([]byte, error) {
v := reflect.ValueOf(value)
switch value.(type) {
@@ -72,10 +63,9 @@ func ToBytes(value any) ([]byte, error) {
}
}
// ToChar convert string to char slice.
// Play: https://go.dev/play/p/JJ1SvbFkVdM
// ToChar convert string to char slice
func ToChar(s string) []string {
c := make([]string, 0, len(s))
c := make([]string, 0)
if len(s) == 0 {
c = append(c, "")
}
@@ -85,218 +75,133 @@ func ToChar(s string) []string {
return c
}
// ToChannel convert a slice of elements to a read-only channel.
// Play: https://go.dev/play/p/hOx_oYZbAnL
func ToChannel[T any](array []T) <-chan T {
ch := make(chan T)
go func() {
for _, item := range array {
ch <- item
}
close(ch)
}()
return ch
}
// ToString convert value to string
// for number, string, []byte, will convert to string
// for other type (slice, map, array, struct) will call json.Marshal.
// Play: https://go.dev/play/p/nF1zOOslpQq
func ToString(value any) string {
func ToString(value interface{}) string {
res := ""
if value == nil {
return ""
}
rv := reflect.ValueOf(value)
if rv.Kind() == reflect.Ptr {
if rv.IsNil() {
return ""
}
return ToString(rv.Elem().Interface())
return res
}
switch val := value.(type) {
case float32:
return strconv.FormatFloat(float64(val), 'f', -1, 32)
case float64:
return strconv.FormatFloat(val, 'f', -1, 64)
case int:
return strconv.FormatInt(int64(val), 10)
case int8:
return strconv.FormatInt(int64(val), 10)
case int16:
return strconv.FormatInt(int64(val), 10)
case int32:
return strconv.FormatInt(int64(val), 10)
case int64:
return strconv.FormatInt(val, 10)
case uint:
return strconv.FormatUint(uint64(val), 10)
case uint8:
return strconv.FormatUint(uint64(val), 10)
case uint16:
return strconv.FormatUint(uint64(val), 10)
case uint32:
return strconv.FormatUint(uint64(val), 10)
case uint64:
return strconv.FormatUint(val, 10)
v := reflect.ValueOf(value)
switch value.(type) {
case float32, float64:
res = strconv.FormatFloat(v.Float(), 'f', -1, 64)
return res
case int, int8, int16, int32, int64:
res = strconv.FormatInt(v.Int(), 10)
return res
case uint, uint8, uint16, uint32, uint64:
res = strconv.FormatUint(v.Uint(), 10)
return res
case string:
return val
res = v.String()
return res
case []byte:
return string(val)
res = string(v.Bytes())
return res
default:
b, err := json.Marshal(val)
if err != nil {
return ""
}
return string(b)
newValue, _ := json.Marshal(value)
res = string(newValue)
return res
}
}
// ToJson convert value to a json string.
// Play: https://go.dev/play/p/2rLIkMmXWvR
func ToJson(value any) (string, error) {
result, err := json.Marshal(value)
// ToJson convert value to a valid json string
func ToJson(value interface{}) (string, error) {
res, err := json.Marshal(value)
if err != nil {
return "", err
}
return string(result), nil
return string(res), nil
}
// ToFloat convert value to float64, if input is not a float return 0.0 and error.
// Play: https://go.dev/play/p/4YTmPCibqHJ
func ToFloat(value any) (float64, error) {
// ToFloat convert value to a float64, if input is not a float return 0.0 and error
func ToFloat(value interface{}) (float64, error) {
v := reflect.ValueOf(value)
result := 0.0
res := 0.0
err := fmt.Errorf("ToInt: unvalid interface type %T", value)
switch value.(type) {
case int, int8, int16, int32, int64:
result = float64(v.Int())
return result, nil
res = float64(v.Int())
return res, nil
case uint, uint8, uint16, uint32, uint64:
result = float64(v.Uint())
return result, nil
res = float64(v.Uint())
return res, nil
case float32, float64:
result = v.Float()
return result, nil
res = v.Float()
return res, nil
case string:
result, err = strconv.ParseFloat(v.String(), 64)
res, err = strconv.ParseFloat(v.String(), 64)
if err != nil {
result = 0.0
res = 0.0
}
return result, err
return res, err
default:
return result, err
return res, err
}
}
// ToInt convert value to int64 value, if input is not numerical, return 0 and error.
// Play: https://go.dev/play/p/9_h9vIt-QZ_b
func ToInt(value any) (int64, error) {
// ToInt convert value to a int64, if input is not a numeric format return 0 and error
func ToInt(value interface{}) (int64, error) {
v := reflect.ValueOf(value)
var result int64
err := fmt.Errorf("ToInt: invalid value type %T", value)
var res int64
err := fmt.Errorf("ToInt: invalid interface type %T", value)
switch value.(type) {
case int, int8, int16, int32, int64:
result = v.Int()
return result, nil
res = v.Int()
return res, nil
case uint, uint8, uint16, uint32, uint64:
result = int64(v.Uint())
return result, nil
res = int64(v.Uint())
return res, nil
case float32, float64:
result = int64(v.Float())
return result, nil
res = int64(v.Float())
return res, nil
case string:
result, err = strconv.ParseInt(v.String(), 0, 64)
res, err = strconv.ParseInt(v.String(), 0, 64)
if err != nil {
result = 0
res = 0
}
return result, err
return res, err
default:
return result, err
return res, err
}
}
// ToPointer returns a pointer to passed value.
// Play: https://go.dev/play/p/ASf_etHNlw1
func ToPointer[T any](value T) *T {
return &value
}
// ToPointers convert a slice of values to a slice of pointers.
// Play: https://go.dev/play/p/ZUoXd2i5ZkV
func ToPointers[T any](values []T) []*T {
result := make([]*T, len(values))
for i := range values {
result[i] = &values[i]
}
return result
}
// FromPointer returns the value pointed to by the pointer.
// Play: https://go.dev/play/p/wAp90V7Zu6g
func FromPointer[T any](ptr *T) T {
if ptr == nil {
var zeroValue T
return zeroValue
}
return *ptr
}
// FromPointers convert a slice of pointers to a slice of values.
// Play: https://go.dev/play/p/qIPsyYtNy3Q
func FromPointers[T any](pointers []*T) []T {
result := make([]T, len(pointers))
for i, ptr := range pointers {
if ptr == nil {
var zeroValue T
result[i] = zeroValue
} else {
result[i] = *ptr
}
}
return result
}
// ToMap convert a slice of structs to a map based on iteratee function.
// Play: https://go.dev/play/p/tVFy7E-t24l
func ToMap[T any, K comparable, V any](array []T, iteratee func(T) (K, V)) map[K]V {
result := make(map[K]V, len(array))
for _, item := range array {
k, v := iteratee(item)
result[k] = v
}
return result
}
// StructToMap convert struct to map, only convert exported struct field
// map key is specified same as struct field tag `json` value.
// Play: https://go.dev/play/p/KYGYJqNUBOI
func StructToMap(value any) (map[string]any, error) {
return structs.ToMap(value)
}
// map key is specified same as struct field tag `json` value
func StructToMap(value interface{}) (map[string]interface{}, error) {
v := reflect.ValueOf(value)
t := reflect.TypeOf(value)
// MapToSlice convert map to slice based on iteratee function.
// Play: https://go.dev/play/p/dmX4Ix5V6Wl
func MapToSlice[T any, K comparable, V any](aMap map[K]V, iteratee func(K, V) T) []T {
result := make([]T, 0, len(aMap))
for k, v := range aMap {
result = append(result, iteratee(k, v))
if t.Kind() == reflect.Ptr {
t = t.Elem()
}
if t.Kind() != reflect.Struct {
return nil, fmt.Errorf("data type %T not support, shuld be struct or pointer to struct", value)
}
return result
res := make(map[string]interface{})
fieldNum := t.NumField()
pattern := `^[A-Z]`
regex := regexp.MustCompile(pattern)
for i := 0; i < fieldNum; i++ {
name := t.Field(i).Name
tag := t.Field(i).Tag.Get("json")
if regex.MatchString(name) && tag != "" {
//res[name] = v.Field(i).Interface()
res[tag] = v.Field(i).Interface()
}
}
return res, nil
}
// ColorHexToRGB convert hex color to rgb color.
// Play: https://go.dev/play/p/o7_ft-JCJBV
// ColorHexToRGB convert hex color to rgb color
func ColorHexToRGB(colorHex string) (red, green, blue int) {
colorHex = strings.TrimPrefix(colorHex, "#")
color64, err := strconv.ParseInt(colorHex, 16, 32)
@@ -307,8 +212,7 @@ func ColorHexToRGB(colorHex string) (red, green, blue int) {
return color >> 16, (color & 0x00FF00) >> 8, color & 0x0000FF
}
// ColorRGBToHex convert rgb color to hex color.
// Play: https://go.dev/play/p/nzKS2Ro87J1
// ColorRGBToHex convert rgb color to hex color
func ColorRGBToHex(red, green, blue int) string {
r := strconv.FormatInt(int64(red), 16)
g := strconv.FormatInt(int64(green), 16)
@@ -327,9 +231,22 @@ func ColorRGBToHex(red, green, blue int) string {
return "#" + r + g + b
}
// EncodeByte encode data to byte slice.
// Play: https://go.dev/play/p/DVmM1G5JfuP
func EncodeByte(data any) ([]byte, error) {
// ToChannel convert a array of elements to a read-only channels
func ToChannel(array []interface{}) <-chan interface{} {
ch := make(chan interface{})
go func() {
for _, item := range array {
ch <- item
}
close(ch)
}()
return ch
}
// EncodeByte encode data to byte
func EncodeByte(data interface{}) ([]byte, error) {
buffer := bytes.NewBuffer(nil)
encoder := gob.NewEncoder(buffer)
err := encoder.Encode(data)
@@ -339,9 +256,8 @@ func EncodeByte(data any) ([]byte, error) {
return buffer.Bytes(), nil
}
// DecodeByte decode byte slice data to target object.
// Play: https://go.dev/play/p/zI6xsmuQRbn
func DecodeByte(data []byte, target any) error {
// DecodeByte decode byte data to target object
func DecodeByte(data []byte, target interface{}) error {
buffer := bytes.NewBuffer(data)
decoder := gob.NewDecoder(buffer)
return decoder.Decode(target)
@@ -349,210 +265,14 @@ func DecodeByte(data []byte, target any) error {
// DeepClone creates a deep copy of passed item.
// can't clone unexported field of struct
// Play: https://go.dev/play/p/j4DP5dquxnk
func DeepClone[T any](src T) T {
func DeepClone(src interface{}) interface{} {
c := cloner{
ptrs: map[reflect.Type]map[uintptr]reflect.Value{},
}
result := c.clone(reflect.ValueOf(src))
if result.Kind() == reflect.Invalid {
var zeroValue T
return zeroValue
return nil
}
return result.Interface().(T)
}
// CopyProperties copies each field from the source into the destination. It recursively copies struct pointers and interfaces that contain struct pointers.
// use json.Marshal/Unmarshal, so json tag should be set for fields of dst and src struct.
// Play: https://go.dev/play/p/oZujoB5Sgg5
func CopyProperties[T, U any](dst T, src U) error {
dstType, srcType := reflect.TypeOf(dst), reflect.TypeOf(src)
if dstType.Kind() != reflect.Ptr || dstType.Elem().Kind() != reflect.Struct {
return errors.New("CopyProperties: parameter dst should be struct pointer")
}
if srcType.Kind() == reflect.Ptr {
srcType = srcType.Elem()
}
if srcType.Kind() != reflect.Struct {
return errors.New("CopyProperties: parameter src should be a struct or struct pointer")
}
bytes, err := json.Marshal(src)
if err != nil {
return fmt.Errorf("CopyProperties: unable to marshal src: %s", err)
}
err = json.Unmarshal(bytes, dst)
if err != nil {
return fmt.Errorf("CopyProperties: unable to unmarshal into dst: %s", err)
}
return nil
}
// ToInterface converts reflect value to its interface type.
// Play: https://go.dev/play/p/syqw0-WG7Xd
func ToInterface(v reflect.Value) (value interface{}, ok bool) {
if v.IsValid() && v.CanInterface() {
return v.Interface(), true
}
switch v.Kind() {
case reflect.Bool:
return v.Bool(), true
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return v.Int(), true
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return v.Uint(), true
case reflect.Float32, reflect.Float64:
return v.Float(), true
case reflect.Complex64, reflect.Complex128:
return v.Complex(), true
case reflect.String:
return v.String(), true
case reflect.Ptr:
return ToInterface(v.Elem())
case reflect.Interface:
return ToInterface(v.Elem())
default:
return nil, false
}
}
// Utf8ToGbk convert utf8 encoding data to GBK encoding data.
// Play: https://go.dev/play/p/9FlIaFLArIL
func Utf8ToGbk(bs []byte) ([]byte, error) {
r := transform.NewReader(bytes.NewReader(bs), simplifiedchinese.GBK.NewEncoder())
b, err := io.ReadAll(r)
return b, err
}
// GbkToUtf8 convert GBK encoding data to utf8 encoding data.
// Play: https://go.dev/play/p/OphmHCN_9u8
func GbkToUtf8(bs []byte) ([]byte, error) {
r := transform.NewReader(bytes.NewReader(bs), simplifiedchinese.GBK.NewDecoder())
b, err := io.ReadAll(r)
return b, err
}
// ToStdBase64 convert data to standard base64 encoding.
// Play: https://go.dev/play/p/_fLJqJD3NMo
func ToStdBase64(value any) string {
if value == nil || (reflect.ValueOf(value).Kind() == reflect.Ptr && reflect.ValueOf(value).IsNil()) {
return ""
}
switch v := value.(type) {
case []byte:
return base64.StdEncoding.EncodeToString(v)
case string:
return base64.StdEncoding.EncodeToString([]byte(v))
case error:
return base64.StdEncoding.EncodeToString([]byte(v.Error()))
default:
marshal, err := json.Marshal(v)
if err != nil {
return ""
}
return base64.StdEncoding.EncodeToString(marshal)
}
}
// ToUrlBase64 convert data to URL base64 encoding.
// Play: https://go.dev/play/p/C_d0GlvEeUR
func ToUrlBase64(value any) string {
if value == nil || (reflect.ValueOf(value).Kind() == reflect.Ptr && reflect.ValueOf(value).IsNil()) {
return ""
}
switch v := value.(type) {
case []byte:
return base64.URLEncoding.EncodeToString(v)
case string:
return base64.URLEncoding.EncodeToString([]byte(v))
case error:
return base64.URLEncoding.EncodeToString([]byte(v.Error()))
default:
marshal, err := json.Marshal(v)
if err != nil {
return ""
}
return base64.URLEncoding.EncodeToString(marshal)
}
}
// ToRawStdBase64 convert data to raw standard base64 encoding.
// Play: https://go.dev/play/p/wSAr3sfkDcv
func ToRawStdBase64(value any) string {
if value == nil || (reflect.ValueOf(value).Kind() == reflect.Ptr && reflect.ValueOf(value).IsNil()) {
return ""
}
switch v := value.(type) {
case []byte:
return base64.RawStdEncoding.EncodeToString(value.([]byte))
case string:
return base64.RawStdEncoding.EncodeToString([]byte(value.(string)))
case error:
return base64.RawStdEncoding.EncodeToString([]byte(value.(error).Error()))
default:
marshal, err := json.Marshal(v)
if err != nil {
return ""
}
return base64.RawStdEncoding.EncodeToString(marshal)
}
}
// ToRawUrlBase64 convert data to raw URL base64 encoding.
// Play: https://go.dev/play/p/HwdDPFcza1O
func ToRawUrlBase64(value any) string {
if value == nil || (reflect.ValueOf(value).Kind() == reflect.Ptr && reflect.ValueOf(value).IsNil()) {
return ""
}
switch v := value.(type) {
case []byte:
return base64.RawURLEncoding.EncodeToString(value.([]byte))
case string:
return base64.RawURLEncoding.EncodeToString([]byte(value.(string)))
case error:
return base64.RawURLEncoding.EncodeToString([]byte(value.(error).Error()))
default:
marshal, err := json.Marshal(v)
if err != nil {
return ""
}
return base64.RawURLEncoding.EncodeToString(marshal)
}
}
// ToBigInt converts an integer of any supported type (int, int64, uint64, etc.) to *big.Int
// Play: https://go.dev/play/p/X3itkCxwB_x
func ToBigInt[T any](v T) (*big.Int, error) {
result := new(big.Int)
switch v := any(v).(type) {
case int:
result.SetInt64(int64(v)) // Convert to int64 for big.Int
case int8:
result.SetInt64(int64(v))
case int16:
result.SetInt64(int64(v))
case int32:
result.SetInt64(int64(v))
case int64:
result.SetInt64(v)
case uint:
result.SetUint64(uint64(v)) // Convert to uint64 for big.Int
case uint8:
result.SetUint64(uint64(v))
case uint16:
result.SetUint64(uint64(v))
case uint32:
result.SetUint64(uint64(v))
case uint64:
result.SetUint64(v)
default:
return nil, fmt.Errorf("unsupported type: %T", v)
}
return result, nil
return result.Interface()
}

621
convertor/convertor_example_test.go
View File

@@ -1,621 +0,0 @@
package convertor
import (
"errors"
"fmt"
"reflect"
"strconv"
"unicode/utf8"
"github.com/duke-git/lancet/v2/validator"
)
func ExampleToBool() {
cases := []string{"1", "true", "True", "false", "False", "0", "123", "0.0", "abc"}
for i := 0; i < len(cases); i++ {
result, _ := ToBool(cases[i])
fmt.Println(result)
}
// Output:
// true
// true
// true
// false
// false
// false
// false
// false
// false
}
func ExampleToBytes() {
result1, _ := ToBytes(1)
result2, _ := ToBytes("abc")
result3, _ := ToBytes(true)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
// Output:
// [0 0 0 0 0 0 0 1]
// [97 98 99]
// [116 114 117 101]
}
func ExampleToChar() {
result1 := ToChar("")
result2 := ToChar("abc")
result3 := ToChar("1 2#3")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
// Output:
// []
// [a b c]
// [1 2 # 3]
}
func ExampleToChannel() {
ch := ToChannel([]int{1, 2, 3})
result1 := <-ch
result2 := <-ch
result3 := <-ch
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
// Output:
// 1
// 2
// 3
}
func ExampleToString() {
result1 := ToString("")
result2 := ToString(nil)
result3 := ToString(0)
result4 := ToString(1.23)
result5 := ToString(true)
result6 := ToString(false)
result7 := ToString([]int{1, 2, 3})
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
//
//
// 0
// 1.23
// true
// false
// [1,2,3]
}
func ExampleToJson() {
aMap := map[string]int{"a": 1, "b": 2, "c": 3}
result1, err := ToJson(aMap)
if err != nil {
fmt.Printf("%v", err)
}
fmt.Println(result1)
// Output:
// {"a":1,"b":2,"c":3}
}
func ExampleToFloat() {
result1, _ := ToFloat("")
result2, _ := ToFloat("abc")
result3, _ := ToFloat("-1")
result4, _ := ToFloat("-.11")
result5, _ := ToFloat("1.23e3")
result6, _ := ToFloat(true)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// 0
// 0
// -1
// -0.11
// 1230
// 0
}
func ExampleToInt() {
result1, _ := ToInt("123")
result2, _ := ToInt("-123")
result3, _ := ToInt(float64(12.3))
result4, _ := ToInt("abc")
result5, _ := ToInt(true)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
// Output:
// 123
// -123
// 12
// 0
// 0
}
func ExampleToPointer() {
result := ToPointer(123)
fmt.Println(*result)
// Output:
// 123
}
func ExampleToPointers() {
strs := []string{"a", "b", "c"}
pointerStrs := ToPointers(strs)
fmt.Println(*pointerStrs[0])
fmt.Println(*pointerStrs[1])
fmt.Println(*pointerStrs[2])
// Output:
// a
// b
// c
}
func ExampleFromPointer() {
str := "abc"
strPtr := &str
result := FromPointer(strPtr)
fmt.Println(result)
// Output:
// abc
}
func ExampleFromPointers() {
strs := []string{"a", "b", "c"}
strPtr := []*string{&strs[0], &strs[1], &strs[2]}
result := FromPointers(strPtr)
fmt.Println(result[0])
fmt.Println(result[1])
fmt.Println(result[2])
// Output:
// a
// b
// c
}
func ExampleToMap() {
type Message struct {
name string
code int
}
messages := []Message{
{name: "Hello", code: 100},
{name: "Hi", code: 101},
}
result := ToMap(messages, func(msg Message) (int, string) {
return msg.code, msg.name
})
fmt.Println(result)
// Output:
// map[100:Hello 101:Hi]
}
func ExampleStructToMap() {
type People struct {
Name string `json:"name"`
age int
}
p := People{
"test",
100,
}
pm, _ := StructToMap(p)
fmt.Println(pm)
// Output:
// map[name:test]
}
func ExampleMapToSlice() {
aMap := map[string]int{"a": 1, "b": 2, "c": 3}
result := MapToSlice(aMap, func(key string, value int) string {
return key + ":" + strconv.Itoa(value)
})
fmt.Println(result) //[]string{"a:1", "c:3", "b:2"} (random order)
}
func ExampleColorHexToRGB() {
colorHex := "#003366"
r, g, b := ColorHexToRGB(colorHex)
fmt.Println(r, g, b)
// Output:
// 0 51 102
}
func ExampleColorRGBToHex() {
r := 0
g := 51
b := 102
colorHex := ColorRGBToHex(r, g, b)
fmt.Println(colorHex)
// Output:
// #003366
}
func ExampleEncodeByte() {
byteData, _ := EncodeByte("abc")
fmt.Println(byteData)
// Output:
// [6 12 0 3 97 98 99]
}
func ExampleDecodeByte() {
var obj string
byteData := []byte{6, 12, 0, 3, 97, 98, 99}
err := DecodeByte(byteData, &obj)
if err != nil {
return
}
fmt.Println(obj)
// Output:
// abc
}
func ExampleDeepClone() {
type Struct struct {
Str string
Int int
Float float64
Bool bool
Nil interface{}
// unexported string
}
cases := []interface{}{
true,
1,
0.1,
map[string]int{
"a": 1,
"b": 2,
},
&Struct{
Str: "test",
Int: 1,
Float: 0.1,
Bool: true,
Nil: nil,
// unexported: "can't be cloned",
},
}
for _, item := range cases {
cloned := DeepClone(item)
isPointerEqual := &cloned == &item
fmt.Println(cloned, isPointerEqual)
}
// Output:
// true false
// 1 false
// 0.1 false
// map[a:1 b:2] false
// &{test 1 0.1 true <nil>} false
}
func ExampleCopyProperties() {
type Disk struct {
Name string `json:"name"`
Total string `json:"total"`
Used string `json:"used"`
Percent float64 `json:"percent"`
}
type DiskVO struct {
Name string `json:"name"`
Total string `json:"total"`
Used string `json:"used"`
Percent float64 `json:"percent"`
}
type Indicator struct {
Id string `json:"id"`
Ip string `json:"ip"`
UpTime string `json:"upTime"`
LoadAvg string `json:"loadAvg"`
Cpu int `json:"cpu"`
Disk []Disk `json:"disk"`
Stop chan bool `json:"-"`
}
type IndicatorVO struct {
Id string `json:"id"`
Ip string `json:"ip"`
UpTime string `json:"upTime"`
LoadAvg string `json:"loadAvg"`
Cpu int64 `json:"cpu"`
Disk []DiskVO `json:"disk"`
}
indicator := &Indicator{Id: "001", Ip: "127.0.0.1", Cpu: 1, Disk: []Disk{
{Name: "disk-001", Total: "100", Used: "1", Percent: 10},
{Name: "disk-002", Total: "200", Used: "1", Percent: 20},
{Name: "disk-003", Total: "300", Used: "1", Percent: 30},
}}
indicatorVO := IndicatorVO{}
CopyProperties(&indicatorVO, indicator)
fmt.Println(indicatorVO.Id)
fmt.Println(indicatorVO.Ip)
fmt.Println(len(indicatorVO.Disk))
// Output:
// 001
// 127.0.0.1
// 3
}
func ExampleToInterface() {
val := reflect.ValueOf("abc")
iVal, ok := ToInterface(val)
fmt.Printf("%T\n", iVal)
fmt.Printf("%v\n", iVal)
fmt.Println(ok)
// Output:
// string
// abc
// true
}
func ExampleUtf8ToGbk() {
utf8Data := []byte("hello")
gbkData, _ := Utf8ToGbk(utf8Data)
fmt.Println(utf8.Valid(utf8Data))
fmt.Println(validator.IsGBK(gbkData))
// Output:
// true
// true
}
func ExampleGbkToUtf8() {
gbkData, _ := Utf8ToGbk([]byte("hello"))
utf8Data, _ := GbkToUtf8(gbkData)
fmt.Println(utf8.Valid(utf8Data))
fmt.Println(string(utf8Data))
// Output:
// true
// hello
}
func ExampleToStdBase64() {
// if you want to see the result, please use 'base64.StdEncoding.DecodeString()' to decode the result
afterEncode := ToStdBase64(nil)
fmt.Println(afterEncode)
stringVal := "hello"
afterEncode = ToStdBase64(stringVal)
fmt.Println(afterEncode)
byteSliceVal := []byte("hello")
afterEncode = ToStdBase64(byteSliceVal)
fmt.Println(afterEncode)
intVal := 123
afterEncode = ToStdBase64(intVal)
fmt.Println(afterEncode)
mapVal := map[string]any{"a": "hi", "b": 2, "c": struct {
A string
B int
}{"hello", 3}}
afterEncode = ToStdBase64(mapVal)
fmt.Println(afterEncode)
floatVal := 123.456
afterEncode = ToStdBase64(floatVal)
fmt.Println(afterEncode)
boolVal := true
afterEncode = ToStdBase64(boolVal)
fmt.Println(afterEncode)
errVal := errors.New("err")
afterEncode = ToStdBase64(errVal)
fmt.Println(afterEncode)
// Output:
//
// aGVsbG8=
// aGVsbG8=
// MTIz
// eyJhIjoiaGkiLCJiIjoyLCJjIjp7IkEiOiJoZWxsbyIsIkIiOjN9fQ==
// MTIzLjQ1Ng==
// dHJ1ZQ==
// ZXJy
}
func ExampleToUrlBase64() {
// if you want to see the result, please use 'base64.URLEncoding.DecodeString()' to decode the result
stringVal := "hello"
afterEncode := ToUrlBase64(stringVal)
fmt.Println(afterEncode)
byteSliceVal := []byte("hello")
afterEncode = ToUrlBase64(byteSliceVal)
fmt.Println(afterEncode)
intVal := 123
afterEncode = ToUrlBase64(intVal)
fmt.Println(afterEncode)
mapVal := map[string]any{"a": "hi", "b": 2, "c": struct {
A string
B int
}{"hello", 3}}
afterEncode = ToUrlBase64(mapVal)
fmt.Println(afterEncode)
floatVal := 123.456
afterEncode = ToUrlBase64(floatVal)
fmt.Println(afterEncode)
boolVal := true
afterEncode = ToUrlBase64(boolVal)
fmt.Println(afterEncode)
errVal := errors.New("err")
afterEncode = ToUrlBase64(errVal)
fmt.Println(afterEncode)
// Output:
// aGVsbG8=
// aGVsbG8=
// MTIz
// eyJhIjoiaGkiLCJiIjoyLCJjIjp7IkEiOiJoZWxsbyIsIkIiOjN9fQ==
// MTIzLjQ1Ng==
// dHJ1ZQ==
// ZXJy
}
func ExampleToRawStdBase64() {
// if you want to see the result, please use 'base64.RawStdEncoding.DecodeString()' to decode the result
stringVal := "hello"
afterEncode := ToRawStdBase64(stringVal)
fmt.Println(afterEncode)
byteSliceVal := []byte("hello")
afterEncode = ToRawStdBase64(byteSliceVal)
fmt.Println(afterEncode)
intVal := 123
afterEncode = ToRawStdBase64(intVal)
fmt.Println(afterEncode)
mapVal := map[string]any{"a": "hi", "b": 2, "c": struct {
A string
B int
}{"hello", 3}}
afterEncode = ToRawStdBase64(mapVal)
fmt.Println(afterEncode)
floatVal := 123.456
afterEncode = ToRawStdBase64(floatVal)
fmt.Println(afterEncode)
boolVal := true
afterEncode = ToRawStdBase64(boolVal)
fmt.Println(afterEncode)
errVal := errors.New("err")
afterEncode = ToRawStdBase64(errVal)
fmt.Println(afterEncode)
// Output:
// aGVsbG8
// aGVsbG8
// MTIz
// eyJhIjoiaGkiLCJiIjoyLCJjIjp7IkEiOiJoZWxsbyIsIkIiOjN9fQ
// MTIzLjQ1Ng
// dHJ1ZQ
// ZXJy
}
func ExampleToRawUrlBase64() {
// if you want to see the result, please use 'base64.RawURLEncoding.DecodeString()' to decode the result
stringVal := "hello"
afterEncode := ToRawUrlBase64(stringVal)
fmt.Println(afterEncode)
byteSliceVal := []byte("hello")
afterEncode = ToRawUrlBase64(byteSliceVal)
fmt.Println(afterEncode)
intVal := 123
afterEncode = ToRawUrlBase64(intVal)
fmt.Println(afterEncode)
mapVal := map[string]any{"a": "hi", "b": 2, "c": struct {
A string
B int
}{"hello", 3}}
afterEncode = ToRawUrlBase64(mapVal)
fmt.Println(afterEncode)
floatVal := 123.456
afterEncode = ToRawUrlBase64(floatVal)
fmt.Println(afterEncode)
boolVal := true
afterEncode = ToRawUrlBase64(boolVal)
fmt.Println(afterEncode)
errVal := errors.New("err")
afterEncode = ToRawUrlBase64(errVal)
fmt.Println(afterEncode)
// Output:
// aGVsbG8
// aGVsbG8
// MTIz
// eyJhIjoiaGkiLCJiIjoyLCJjIjp7IkEiOiJoZWxsbyIsIkIiOjN9fQ
// MTIzLjQ1Ng
// dHJ1ZQ
// ZXJy
}
func ExampleToBigInt() {
n := 9876543210
bigInt, _ := ToBigInt(n)
fmt.Println(bigInt)
// Output:
// 9876543210
}

2
convertor/convertor_internal.go
View File

@@ -99,7 +99,7 @@ func (c *cloner) cloneArray(v reflect.Value) reflect.Value {
for i := 0; i < v.Len(); i++ {
val := c.clone(v.Index(i))
if !val.IsValid() {
if val.IsValid() {
continue
}

722
convertor/convertor_test.go
View File

@@ -1,25 +1,14 @@
package convertor
import (
"encoding/base64"
"errors"
"fmt"
"io"
"math/big"
"reflect"
"strconv"
"testing"
"unicode/utf8"
"unsafe"
"github.com/duke-git/lancet/v2/internal"
"github.com/duke-git/lancet/v2/slice"
"github.com/duke-git/lancet/v2/validator"
"github.com/duke-git/lancet/internal"
)
func TestToChar(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToChar")
cases := []string{"", "abc", "1 2#3"}
@@ -33,23 +22,7 @@ func TestToChar(t *testing.T) {
}
}
func TestToChannel(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToChannel")
ch := ToChannel([]int{1, 2, 3})
assert.Equal(1, <-ch)
assert.Equal(2, <-ch)
assert.Equal(3, <-ch)
_, ok := <-ch
assert.Equal(false, ok)
}
func TestToBool(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToBool")
cases := []string{"1", "true", "True", "false", "False", "0", "123", "0.0", "abc"}
@@ -62,11 +35,9 @@ func TestToBool(t *testing.T) {
}
func TestToBytes(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToBytes")
cases := []any{
cases := []interface{}{
0,
false,
"1",
@@ -90,11 +61,9 @@ func TestToBytes(t *testing.T) {
}
func TestToInt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToInt")
cases := []any{"123", "-123", 123,
cases := []interface{}{"123", "-123", 123,
uint(123), uint8(123), uint16(123), uint32(123), uint64(123),
float32(12.3), float64(12.3),
"abc", false, "111111111111111111111111111111111111111"}
@@ -108,11 +77,9 @@ func TestToInt(t *testing.T) {
}
func TestToFloat(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToFloat")
cases := []any{
cases := []interface{}{
"", "-1", "-.11", "1.23e3", ".123e10", "abc",
int(0), int8(1), int16(-1), int32(123), int64(123),
uint(123), uint8(123), uint16(123), uint32(123), uint64(123),
@@ -128,8 +95,6 @@ func TestToFloat(t *testing.T) {
}
func TestToString(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToString")
aMap := make(map[string]int)
@@ -142,35 +107,21 @@ func TestToString(t *testing.T) {
}
aStruct := TestStruct{Name: "TestStruct"}
i32Val := int32(123)
i64Val := int64(123)
iZeroVal := 0
fVal := 12.3
sVal := "abc"
var iNilPointer *int
var sNilPointer *string
cases := []any{
cases := []interface{}{
"", nil,
int(0), int8(1), int16(-1), int32(123), int64(123),
uint(123), uint8(123), uint16(123), uint32(123), uint64(123),
float64(12.3), float32(12.3),
true, false,
[]int{1, 2, 3}, aMap, aStruct, []byte{104, 101, 108, 108, 111},
&i32Val, &i64Val, &fVal, &sVal, &aStruct, iNilPointer, sNilPointer,
&iZeroVal,
}
[]int{1, 2, 3}, aMap, aStruct, []byte{104, 101, 108, 108, 111}}
expected := []string{
"", "",
"0", "1", "-1",
"123", "123", "123", "123", "123", "123", "123",
"12.3", "12.3",
"12.3", "12.300000190734863",
"true", "false",
"[1,2,3]", "{\"a\":1,\"b\":2,\"c\":3}", "{\"Name\":\"TestStruct\"}", "hello",
"123", "123", "12.3", "abc", "{\"Name\":\"TestStruct\"}", "", "",
"0",
}
"[1,2,3]", "{\"a\":1,\"b\":2,\"c\":3}", "{\"Name\":\"TestStruct\"}", "hello"}
for i := 0; i < len(cases); i++ {
actual := ToString(cases[i])
@@ -178,8 +129,6 @@ func TestToString(t *testing.T) {
}
}
func TestToJson(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToJson")
var aMap = map[string]int{"a": 1, "b": 2, "c": 3}
@@ -194,83 +143,23 @@ func TestToJson(t *testing.T) {
assert.Equal("{\"Name\":\"TestStruct\"}", structJsonStr)
}
func TestToMap(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToMap")
type Message struct {
name string
code int
}
messages := []Message{
{name: "Hello", code: 100},
{name: "Hi", code: 101},
}
result := ToMap(messages, func(msg Message) (int, string) {
return msg.code, msg.name
})
expected := map[int]string{100: "Hello", 101: "Hi"}
assert.Equal(expected, result)
}
func TestStructToMap(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestStructToMap")
t.Run("StructToMap", func(_ *testing.T) {
type People struct {
Name string `json:"name"`
age int
}
p := People{
"test",
100,
}
pm, _ := StructToMap(p)
var expected = map[string]any{"name": "test"}
assert.Equal(expected, pm)
})
t.Run("StructToMapWithJsonAttr", func(_ *testing.T) {
type People struct {
Name string `json:"name,omitempty"` // json tag with attribute
Phone string `json:"phone"` // json tag without attribute
Sex string `json:"-"` // ignore
age int // no tag
}
p := People{
Phone: "1111",
Sex: "male",
age: 100,
}
pm, _ := StructToMap(p)
var expected = map[string]any{"phone": "1111"}
assert.Equal(expected, pm)
})
}
func TestMapToSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMapToSlice")
aMap := map[string]int{"a": 1, "b": 2, "c": 3}
result := MapToSlice(aMap, func(key string, value int) string {
return key + ":" + strconv.Itoa(value)
})
assert.Equal(3, len(result))
assert.Equal(true, slice.Contain(result, "a:1"))
assert.Equal(true, slice.Contain(result, "b:2"))
assert.Equal(true, slice.Contain(result, "c:3"))
type People struct {
Name string `json:"name"`
age int
}
p := People{
"test",
100,
}
pm, _ := StructToMap(p)
var expected = map[string]interface{}{"name": "test"}
assert.Equal(expected, pm)
}
func TestColorHexToRGB(t *testing.T) {
t.Parallel()
colorHex := "#003366"
r, g, b := ColorHexToRGB(colorHex)
colorRGB := fmt.Sprintf("%d,%d,%d", r, g, b)
@@ -281,8 +170,6 @@ func TestColorHexToRGB(t *testing.T) {
}
func TestColorRGBToHex(t *testing.T) {
t.Parallel()
r := 0
g := 51
b := 102
@@ -293,87 +180,24 @@ func TestColorRGBToHex(t *testing.T) {
assert.Equal(expected, colorHex)
}
func TestToPointer(t *testing.T) {
t.Parallel()
func TestToChannel(t *testing.T) {
assert := internal.NewAssert(t, "TestToChannel")
assert := internal.NewAssert(t, "TestToPointer")
result := ToPointer(123)
ch := ToChannel([]interface{}{1, 2, 3})
val1, _ := <-ch
assert.Equal(1, val1)
assert.Equal(*result, 123)
}
val2, _ := <-ch
assert.Equal(2, val2)
func TestToPointers(t *testing.T) {
t.Parallel()
val3, _ := <-ch
assert.Equal(3, val3)
assert := internal.NewAssert(t, "TestToPointers")
intVals := []int{1, 2, 3}
result := ToPointers(intVals)
assert.Equal(3, len(result))
assert.Equal(1, *result[0])
assert.Equal(2, *result[1])
assert.Equal(3, *result[2])
stringVals := []string{"a", "b", "c"}
resultStr := ToPointers(stringVals)
assert.Equal(3, len(resultStr))
assert.Equal("a", *resultStr[0])
assert.Equal("b", *resultStr[1])
assert.Equal("c", *resultStr[2])
}
func TestFromPointer(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestFromPointer")
intVal := 123
pointer := &intVal
result := FromPointer(pointer)
assert.Equal(123, result)
stringVal := "abc"
stringPointer := &stringVal
resultStr := FromPointer(stringPointer)
assert.Equal("abc", resultStr)
}
func TestFromPointers(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestFromPointers")
intPointers := []*int{new(int), new(int), new(int)}
*intPointers[0] = 1
*intPointers[1] = 2
*intPointers[2] = 3
result := FromPointers(intPointers)
assert.Equal(3, len(result))
assert.Equal(1, result[0])
assert.Equal(2, result[1])
assert.Equal(3, result[2])
stringPointers := []*string{new(string), new(string), new(string)}
*stringPointers[0] = "a"
*stringPointers[1] = "b"
*stringPointers[2] = "c"
resultStr := FromPointers(stringPointers)
assert.Equal(3, len(resultStr))
assert.Equal("a", resultStr[0])
assert.Equal("b", resultStr[1])
assert.Equal("c", resultStr[2])
_, ok := <-ch
assert.Equal(false, ok)
}
func TestEncodeByte(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEncodeByte")
byteData, _ := EncodeByte("abc")
@@ -383,29 +207,24 @@ func TestEncodeByte(t *testing.T) {
}
func TestDecodeByte(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDecodeByte")
var obj string
byteData := []byte{6, 12, 0, 3, 97, 98, 99}
err := DecodeByte(byteData, &obj)
assert.IsNil(err)
DecodeByte(byteData, &obj)
assert.Equal("abc", obj)
}
func TestDeepClone(t *testing.T) {
t.Parallel()
// assert := internal.NewAssert(t, "TestDeepClone")
type Struct struct {
Str string
Int int
Float float64
Bool bool
Nil interface{}
// unexported string
Str string
Int int
Float float64
Bool bool
Nil interface{}
unexported string
}
cases := []interface{}{
@@ -424,12 +243,12 @@ func TestDeepClone(t *testing.T) {
Nil: nil,
// unexported: "can't be cloned",
},
[]interface{}{1, &Struct{Str: "test"}, Struct{Str: "test2"}},
}
for i, item := range cases {
cloned := DeepClone(item)
t.Log(cloned)
if &cloned == &item {
t.Fatalf("[TestDeepClone case #%d failed]: equal pointer", i)
}
@@ -439,468 +258,3 @@ func TestDeepClone(t *testing.T) {
}
}
}
func TestCopyProperties(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCopyProperties")
type Disk struct {
Name string `json:"name"`
Total string `json:"total"`
Used string `json:"used"`
Percent float64 `json:"percent"`
}
type DiskVO struct {
Name string `json:"name"`
Total string `json:"total"`
Used string `json:"used"`
Percent float64 `json:"percent"`
}
type Indicator struct {
Id string `json:"id"`
Ip string `json:"ip"`
UpTime string `json:"upTime"`
LoadAvg string `json:"loadAvg"`
Cpu int `json:"cpu"`
Disk []Disk `json:"disk"`
Stop chan bool `json:"-"`
}
type IndicatorVO struct {
Id string `json:"id"`
Ip string `json:"ip"`
UpTime string `json:"upTime"`
LoadAvg string `json:"loadAvg"`
Cpu int64 `json:"cpu"`
Disk []DiskVO `json:"disk"`
}
indicator := &Indicator{Id: "001", Ip: "127.0.0.1", Cpu: 1, Disk: []Disk{
{Name: "disk-001", Total: "100", Used: "1", Percent: 10},
{Name: "disk-002", Total: "200", Used: "1", Percent: 20},
{Name: "disk-003", Total: "300", Used: "1", Percent: 30},
}}
indicatorVO := IndicatorVO{}
err := CopyProperties(&indicatorVO, indicator)
assert.IsNil(err)
assert.Equal("001", indicatorVO.Id)
assert.Equal("127.0.0.1", indicatorVO.Ip)
assert.Equal(3, len(indicatorVO.Disk))
}
func TestToInterface(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToInterface")
cases := []reflect.Value{
reflect.ValueOf("abc"),
reflect.ValueOf(int(0)), reflect.ValueOf(int8(1)), reflect.ValueOf(int16(-1)), reflect.ValueOf(int32(123)), reflect.ValueOf(int64(123)),
reflect.ValueOf(uint(123)), reflect.ValueOf(uint8(123)), reflect.ValueOf(uint16(123)), reflect.ValueOf(uint32(123)), reflect.ValueOf(uint64(123)),
reflect.ValueOf(float64(12.3)), reflect.ValueOf(float32(12.3)),
reflect.ValueOf(true), reflect.ValueOf(false),
}
expected := []interface{}{
"abc",
0, int8(1), int16(-1), int32(123), int64(123),
uint(123), uint8(123), uint16(123), uint32(123), uint64(123),
float64(12.3), float32(12.3),
true, false,
}
for i := 0; i < len(cases); i++ {
actual, _ := ToInterface(cases[i])
assert.Equal(expected[i], actual)
}
nilVal, ok := ToInterface(reflect.ValueOf(nil))
assert.EqualValues(nil, nilVal)
assert.Equal(false, ok)
}
func TestUtf8ToGbk(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestUtf8ToGbk")
utf8Data := []byte("hello")
gbkData, err := Utf8ToGbk(utf8Data)
assert.Equal(true, utf8.Valid(utf8Data))
assert.Equal(true, validator.IsGBK(gbkData))
assert.IsNil(err)
}
func TestGbkToUtf8(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGbkToUtf8")
gbkData, err := Utf8ToGbk([]byte("hello"))
utf8Data, err := GbkToUtf8(gbkData)
assert.IsNil(err)
assert.Equal(true, utf8.Valid(utf8Data))
assert.Equal("hello", string(utf8Data))
}
func TestToStdBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToStdBase64")
r1 := ToStdBase64("abc")
d1, _ := base64.StdEncoding.DecodeString(r1)
assert.Equal("abc", string(d1))
r2 := ToStdBase64([]byte("abc"))
d2, _ := base64.StdEncoding.DecodeString(r2)
assert.Equal("abc", string(d2))
r3 := ToStdBase64(123)
d3, _ := base64.StdEncoding.DecodeString(r3)
assert.Equal("123", string(d3))
r4 := ToStdBase64(11.11)
d4, _ := base64.StdEncoding.DecodeString(r4)
assert.Equal("11.11", string(d4))
r5 := ToStdBase64(map[string]any{"name": "duke", "quantity": 1})
d5, _ := base64.StdEncoding.DecodeString(r5)
assert.Equal("{\"name\":\"duke\",\"quantity\":1}", string(d5))
r6 := ToStdBase64([]int64{7, 5, 9, 4, 23})
d6, _ := base64.StdEncoding.DecodeString(r6)
assert.Equal("[7,5,9,4,23]", string(d6))
r7 := ToStdBase64([]string{"7", "5", "9", "4", "23"})
d7, _ := base64.StdEncoding.DecodeString(r7)
assert.Equal("[\"7\",\"5\",\"9\",\"4\",\"23\"]", string(d7))
r8 := ToStdBase64(nil)
d8, _ := base64.StdEncoding.DecodeString(r8)
assert.Equal("", string(d8))
ch := make(chan int, 3)
ch <- 1
ch <- 2
r9 := ToStdBase64(ch)
d9, _ := base64.StdEncoding.DecodeString(r9)
assert.Equal("", string(d9))
r10 := ToStdBase64(io.EOF)
d10, _ := base64.StdEncoding.DecodeString(r10)
assert.Equal("EOF", string(d10))
r11 := ToStdBase64(errors.New("test"))
d11, _ := base64.StdEncoding.DecodeString(r11)
assert.Equal("test", string(d11))
typedNil := (*int)(nil)
r12 := ToStdBase64(typedNil)
d12, _ := base64.StdEncoding.DecodeString(r12)
assert.Equal("", string(d12))
type nilInterface interface {
}
var nI nilInterface = nil
d13, _ := base64.StdEncoding.DecodeString(ToStdBase64(nI))
assert.Equal("", string(d13))
var p unsafe.Pointer
d14, _ := base64.StdEncoding.DecodeString(ToStdBase64(p))
assert.Equal("", string(d14))
}
func TestToUrlBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToUrlBase64")
r1 := ToUrlBase64("abc")
d1, _ := base64.URLEncoding.DecodeString(r1)
assert.Equal("abc", string(d1))
r2 := ToUrlBase64([]byte("abc"))
d2, _ := base64.URLEncoding.DecodeString(r2)
assert.Equal("abc", string(d2))
r3 := ToUrlBase64(123)
d3, _ := base64.URLEncoding.DecodeString(r3)
assert.Equal("123", string(d3))
r4 := ToUrlBase64(11.11)
d4, _ := base64.URLEncoding.DecodeString(r4)
assert.Equal("11.11", string(d4))
r5 := ToUrlBase64(map[string]any{"name": "duke", "quantity": 1})
d5, _ := base64.URLEncoding.DecodeString(r5)
assert.Equal("{\"name\":\"duke\",\"quantity\":1}", string(d5))
r6 := ToUrlBase64([]int64{7, 5, 9, 4, 23})
d6, _ := base64.URLEncoding.DecodeString(r6)
assert.Equal("[7,5,9,4,23]", string(d6))
r7 := ToUrlBase64([]string{"7", "5", "9", "4", "23"})
d7, _ := base64.URLEncoding.DecodeString(r7)
assert.Equal("[\"7\",\"5\",\"9\",\"4\",\"23\"]", string(d7))
r8 := ToUrlBase64(nil)
d8, _ := base64.URLEncoding.DecodeString(r8)
assert.Equal("", string(d8))
ch := make(chan int, 3)
ch <- 1
ch <- 2
r9 := ToUrlBase64(ch)
d9, _ := base64.URLEncoding.DecodeString(r9)
assert.Equal("", string(d9))
r10 := ToUrlBase64(io.EOF)
d10, _ := base64.URLEncoding.DecodeString(r10)
assert.Equal("EOF", string(d10))
r11 := ToUrlBase64(errors.New("test"))
d11, _ := base64.URLEncoding.DecodeString(r11)
assert.Equal("test", string(d11))
typedNil := (*int)(nil)
r12 := ToUrlBase64(typedNil)
d12, _ := base64.URLEncoding.DecodeString(r12)
assert.Equal("", string(d12))
type nilInterface interface {
}
var nI nilInterface = nil
d13, _ := base64.URLEncoding.DecodeString(ToUrlBase64(nI))
assert.Equal("", string(d13))
var p unsafe.Pointer
d14, _ := base64.URLEncoding.DecodeString(ToUrlBase64(p))
assert.Equal("", string(d14))
r15 := ToUrlBase64("4+3/4?=")
d15, _ := base64.URLEncoding.DecodeString(r15)
assert.Equal("4+3/4?=", string(d15))
}
func TestToRawStdBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToRawStdBase64")
r1 := ToRawStdBase64("abc")
d1, _ := base64.RawStdEncoding.DecodeString(r1)
assert.Equal("abc", string(d1))
r2 := ToRawStdBase64([]byte("abc"))
d2, _ := base64.RawStdEncoding.DecodeString(r2)
assert.Equal("abc", string(d2))
r3 := ToRawStdBase64(123)
d3, _ := base64.RawStdEncoding.DecodeString(r3)
assert.Equal("123", string(d3))
r4 := ToRawStdBase64(11.11)
d4, _ := base64.RawStdEncoding.DecodeString(r4)
assert.Equal("11.11", string(d4))
r5 := ToRawStdBase64(map[string]any{"name": "duke", "quantity": 1})
d5, _ := base64.RawStdEncoding.DecodeString(r5)
assert.Equal("{\"name\":\"duke\",\"quantity\":1}", string(d5))
r6 := ToRawStdBase64([]int64{7, 5, 9, 4, 23})
d6, _ := base64.RawStdEncoding.DecodeString(r6)
assert.Equal("[7,5,9,4,23]", string(d6))
r7 := ToRawStdBase64([]string{"7", "5", "9", "4", "23"})
d7, _ := base64.RawStdEncoding.DecodeString(r7)
assert.Equal("[\"7\",\"5\",\"9\",\"4\",\"23\"]", string(d7))
r8 := ToRawStdBase64(nil)
d8, _ := base64.RawStdEncoding.DecodeString(r8)
assert.Equal("", string(d8))
ch := make(chan int, 3)
ch <- 1
ch <- 2
r9 := ToRawStdBase64(ch)
d9, _ := base64.RawStdEncoding.DecodeString(r9)
assert.Equal("", string(d9))
r10 := ToRawStdBase64(io.EOF)
d10, _ := base64.RawStdEncoding.DecodeString(r10)
assert.Equal("EOF", string(d10))
r11 := ToRawStdBase64(errors.New("test"))
d11, _ := base64.RawStdEncoding.DecodeString(r11)
assert.Equal("test", string(d11))
typedNil := (*int)(nil)
r12 := ToRawStdBase64(typedNil)
d12, _ := base64.RawStdEncoding.DecodeString(r12)
assert.Equal("", string(d12))
type nilInterface interface {
}
var nI nilInterface = nil
d13, _ := base64.RawStdEncoding.DecodeString(ToRawStdBase64(nI))
assert.Equal("", string(d13))
var p unsafe.Pointer
d14, _ := base64.RawStdEncoding.DecodeString(ToRawStdBase64(p))
assert.Equal("", string(d14))
}
func TestToRawUrlBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToRawUrlBase64")
r1 := ToRawUrlBase64("abc")
d1, _ := base64.RawURLEncoding.DecodeString(r1)
assert.Equal("abc", string(d1))
r2 := ToRawUrlBase64([]byte("abc"))
d2, _ := base64.RawURLEncoding.DecodeString(r2)
assert.Equal("abc", string(d2))
r3 := ToRawUrlBase64(123)
d3, _ := base64.RawURLEncoding.DecodeString(r3)
assert.Equal("123", string(d3))
r4 := ToRawUrlBase64(11.11)
d4, _ := base64.RawURLEncoding.DecodeString(r4)
assert.Equal("11.11", string(d4))
r5 := ToRawUrlBase64(map[string]any{"name": "duke", "quantity": 1})
d5, _ := base64.RawURLEncoding.DecodeString(r5)
assert.Equal("{\"name\":\"duke\",\"quantity\":1}", string(d5))
r6 := ToRawUrlBase64([]int64{7, 5, 9, 4, 23})
d6, _ := base64.RawURLEncoding.DecodeString(r6)
assert.Equal("[7,5,9,4,23]", string(d6))
r7 := ToRawUrlBase64([]string{"7", "5", "9", "4", "23"})
d7, _ := base64.RawURLEncoding.DecodeString(r7)
assert.Equal("[\"7\",\"5\",\"9\",\"4\",\"23\"]", string(d7))
r8 := ToRawUrlBase64(nil)
d8, _ := base64.RawURLEncoding.DecodeString(r8)
assert.Equal("", string(d8))
ch := make(chan int, 3)
ch <- 1
ch <- 2
r9 := ToRawUrlBase64(ch)
d9, _ := base64.RawURLEncoding.DecodeString(r9)
assert.Equal("", string(d9))
r10 := ToRawUrlBase64(io.EOF)
d10, _ := base64.RawURLEncoding.DecodeString(r10)
assert.Equal("EOF", string(d10))
r11 := ToRawUrlBase64(errors.New("test"))
d11, _ := base64.RawURLEncoding.DecodeString(r11)
assert.Equal("test", string(d11))
typedNil := (*int)(nil)
r12 := ToRawUrlBase64(typedNil)
d12, _ := base64.RawURLEncoding.DecodeString(r12)
assert.Equal("", string(d12))
type nilInterface interface {
}
var nI nilInterface = nil
d13, _ := base64.RawURLEncoding.DecodeString(ToRawUrlBase64(nI))
assert.Equal("", string(d13))
var p unsafe.Pointer
d14, _ := base64.RawURLEncoding.DecodeString(ToRawUrlBase64(p))
assert.Equal("", string(d14))
r15 := ToRawUrlBase64("4+3/4?=")
d15, _ := base64.RawURLEncoding.DecodeString(r15)
assert.Equal("4+3/4?=", string(d15))
}
func TestToBigInt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToBigInt")
tests := []struct {
name string
input any
want *big.Int
hasErr bool
}{
{
name: "int",
input: 42,
want: big.NewInt(42),
},
{
name: "int8",
input: int8(127),
want: big.NewInt(127),
},
{
name: "int16",
input: int16(32000),
want: big.NewInt(32000),
},
{
name: "int32",
input: int32(123456),
want: big.NewInt(123456),
},
{
name: "int64",
input: int64(987654321),
want: big.NewInt(987654321),
},
{
name: "uint",
input: uint(987654321),
want: big.NewInt(987654321),
},
{
name: "uint8",
input: uint8(255),
want: big.NewInt(255),
},
{
name: "uint16",
input: uint16(65535),
want: big.NewInt(65535),
},
{
name: "uint32",
input: uint32(4294967295),
want: big.NewInt(4294967295),
},
{
name: "uint64",
input: uint64(18446744073709551615),
want: new(big.Int).SetUint64(18446744073709551615),
},
{
name: "unsupported type",
input: 3.14, // Unsupported type
hasErr: true,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, err := ToBigInt(tt.input)
if (err != nil) != tt.hasErr {
t.Errorf("ToBigInt() error = %v, hasErr %v", err, tt.hasErr)
return
}
assert.Equal(tt.want, got)
})
}
}

188
cryptor/aes.go Normal file
View File

@@ -0,0 +1,188 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package cryptor implements some util functions to encrypt and decrypt.
// Note:
// 1. for aes crypt function, the `key` param length should be 16, 24 or 32. if not, will panic.
package cryptor
import (
"bytes"
"crypto/aes"
"crypto/cipher"
"crypto/rand"
"io"
)
// AesEcbEncrypt encrypt data with key use AES ECB algorithm
// len(key) should be 16, 24 or 32
func AesEcbEncrypt(data, key []byte) []byte {
size := len(key)
if size != 16 && size != 24 && size != 32 {
panic("key length shoud be 16 or 24 or 32")
}
cipher, _ := aes.NewCipher(generateAesKey(key, size))
length := (len(data) + aes.BlockSize) / aes.BlockSize
plain := make([]byte, length*aes.BlockSize)
copy(plain, data)
pad := byte(len(plain) - len(data))
for i := len(data); i < len(plain); i++ {
plain[i] = pad
}
encrypted := make([]byte, len(plain))
for bs, be := 0, cipher.BlockSize(); bs <= len(data); bs, be = bs+cipher.BlockSize(), be+cipher.BlockSize() {
cipher.Encrypt(encrypted[bs:be], plain[bs:be])
}
return encrypted
}
// AesEcbDecrypt decrypt data with key use AES ECB algorithm
// len(key) should be 16, 24 or 32
func AesEcbDecrypt(encrypted, key []byte) []byte {
size := len(key)
if size != 16 && size != 24 && size != 32 {
panic("key length shoud be 16 or 24 or 32")
}
cipher, _ := aes.NewCipher(generateAesKey(key, size))
decrypted := make([]byte, len(encrypted))
for bs, be := 0, cipher.BlockSize(); bs < len(encrypted); bs, be = bs+cipher.BlockSize(), be+cipher.BlockSize() {
cipher.Decrypt(decrypted[bs:be], encrypted[bs:be])
}
trim := 0
if len(decrypted) > 0 {
trim = len(decrypted) - int(decrypted[len(decrypted)-1])
}
return decrypted[:trim]
}
// AesCbcEncrypt encrypt data with key use AES CBC algorithm
// len(key) should be 16, 24 or 32
func AesCbcEncrypt(data, key []byte) []byte {
block, _ := aes.NewCipher(key)
data = pkcs7Padding(data, block.BlockSize())
encrypted := make([]byte, aes.BlockSize+len(data))
iv := encrypted[:aes.BlockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic(err)
}
mode := cipher.NewCBCEncrypter(block, iv)
mode.CryptBlocks(encrypted[aes.BlockSize:], data)
return encrypted
}
// AesCbcDecrypt decrypt data with key use AES CBC algorithm
// len(key) should be 16, 24 or 32
func AesCbcDecrypt(encrypted, key []byte) []byte {
block, _ := aes.NewCipher(key)
iv := encrypted[:aes.BlockSize]
encrypted = encrypted[aes.BlockSize:]
mode := cipher.NewCBCDecrypter(block, iv)
mode.CryptBlocks(encrypted, encrypted)
decrypted := pkcs7UnPadding(encrypted)
return decrypted
}
// AesCtrCrypt encrypt data with key use AES CTR algorithm
// len(key) should be 16, 24 or 32
func AesCtrCrypt(data, key []byte) []byte {
block, _ := aes.NewCipher(key)
iv := bytes.Repeat([]byte("1"), block.BlockSize())
stream := cipher.NewCTR(block, iv)
dst := make([]byte, len(data))
stream.XORKeyStream(dst, data)
return dst
}
// AesCfbEncrypt encrypt data with key use AES CFB algorithm
// len(key) should be 16, 24 or 32
func AesCfbEncrypt(data, key []byte) []byte {
block, err := aes.NewCipher(key)
if err != nil {
panic(err)
}
encrypted := make([]byte, aes.BlockSize+len(data))
iv := encrypted[:aes.BlockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic(err)
}
stream := cipher.NewCFBEncrypter(block, iv)
stream.XORKeyStream(encrypted[aes.BlockSize:], data)
return encrypted
}
// AesCfbDecrypt decrypt data with key use AES CFB algorithm
// len(encrypted) should be great than 16, len(key) should be 16, 24 or 32
func AesCfbDecrypt(encrypted, key []byte) []byte {
block, _ := aes.NewCipher(key)
if len(encrypted) < aes.BlockSize {
panic("encrypted data is too short")
}
iv := encrypted[:aes.BlockSize]
encrypted = encrypted[aes.BlockSize:]
stream := cipher.NewCFBDecrypter(block, iv)
stream.XORKeyStream(encrypted, encrypted)
return encrypted
}
// AesOfbEncrypt encrypt data with key use AES OFB algorithm
// len(key) should be 16, 24 or 32
func AesOfbEncrypt(data, key []byte) []byte {
block, err := aes.NewCipher(key)
if err != nil {
panic(err)
}
data = pkcs7Padding(data, aes.BlockSize)
encrypted := make([]byte, aes.BlockSize+len(data))
iv := encrypted[:aes.BlockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic(err)
}
stream := cipher.NewOFB(block, iv)
stream.XORKeyStream(encrypted[aes.BlockSize:], data)
return encrypted
}
// AesOfbDecrypt decrypt data with key use AES OFB algorithm
// len(key) should be 16, 24 or 32
func AesOfbDecrypt(data, key []byte) []byte {
block, err := aes.NewCipher(key)
if err != nil {
panic(err)
}
iv := data[:aes.BlockSize]
data = data[aes.BlockSize:]
if len(data)%aes.BlockSize != 0 {
return nil
}
decrypted := make([]byte, len(data))
mode := cipher.NewOFB(block, iv)
mode.XORKeyStream(decrypted, data)
decrypted = pkcs7UnPadding(decrypted)
return decrypted
}

62
cryptor/aes_test.go Normal file
View File

@@ -0,0 +1,62 @@
package cryptor
import (
"testing"
"github.com/duke-git/lancet/internal"
)
func TestAesEcbEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefghijklmnop"
aesEcbEncrypt := AesEcbEncrypt([]byte(data), []byte(key))
aesEcbDecrypt := AesEcbDecrypt(aesEcbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesEcbEncrypt")
assert.Equal(data, string(aesEcbDecrypt))
}
func TestAesCbcEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefghijklmnop"
aesCbcEncrypt := AesCbcEncrypt([]byte(data), []byte(key))
aesCbcDecrypt := AesCbcDecrypt(aesCbcEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesCbcEncrypt")
assert.Equal(data, string(aesCbcDecrypt))
}
func TestAesCtrCrypt(t *testing.T) {
data := "hello world"
key := "abcdefghijklmnop"
aesCtrCrypt := AesCtrCrypt([]byte(data), []byte(key))
aesCtrDeCrypt := AesCtrCrypt(aesCtrCrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesCtrCrypt")
assert.Equal(data, string(aesCtrDeCrypt))
}
func TestAesCfbEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefghijklmnop"
aesCfbEncrypt := AesCfbEncrypt([]byte(data), []byte(key))
aesCfbDecrypt := AesCfbDecrypt(aesCfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesCfbEncrypt")
assert.Equal(data, string(aesCfbDecrypt))
}
func TestAesOfbEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefghijklmnop"
aesOfbEncrypt := AesOfbEncrypt([]byte(data), []byte(key))
aesOfbDecrypt := AesOfbDecrypt(aesOfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesOfbEncrypt")
assert.Equal(data, string(aesOfbDecrypt))
}

176
cryptor/basic.go
View File

@@ -6,6 +6,7 @@
package cryptor
import (
"bufio"
"crypto/hmac"
"crypto/md5"
"crypto/sha1"
@@ -18,194 +19,101 @@ import (
"os"
)
// Base64StdEncode encode string with base64 encoding.
// Play: https://go.dev/play/p/VOaUyQUreoK
// Base64StdEncode encode string with base64 encoding
func Base64StdEncode(s string) string {
return base64.StdEncoding.EncodeToString([]byte(s))
}
// Base64StdDecode decode a base64 encoded string.
// Play: https://go.dev/play/p/RWQylnJVgIe
// Base64StdDecode decode a base64 encoded string
func Base64StdDecode(s string) string {
b, _ := base64.StdEncoding.DecodeString(s)
return string(b)
}
// Md5String return the md5 value of string.
// Play: https://go.dev/play/p/1bLcVetbTOI
// Md5String return the md5 value of string
func Md5String(s string) string {
h := md5.New()
h.Write([]byte(s))
return hex.EncodeToString(h.Sum(nil))
}
// Md5StringWithBase64 return the md5 value of string with base64.
// Play: https://go.dev/play/p/Lx4gH7Vdr5_y
func Md5StringWithBase64(s string) string {
h := md5.New()
h.Write([]byte(s))
return base64.StdEncoding.EncodeToString(h.Sum(nil))
}
// Md5Byte return the md5 string of byte slice.
// Play: https://go.dev/play/p/suraalH8lyC
func Md5Byte(data []byte) string {
h := md5.New()
h.Write(data)
return hex.EncodeToString(h.Sum(nil))
}
// Md5ByteWithBase64 return the md5 string of byte slice with base64.
// Play: https://go.dev/play/p/Tcb-Z7LN2ax
func Md5ByteWithBase64(data []byte) string {
h := md5.New()
h.Write(data)
return base64.StdEncoding.EncodeToString(h.Sum(nil))
}
// Md5File return the md5 value of file.
// Md5File return the md5 value of file
func Md5File(filename string) (string, error) {
if fileInfo, err := os.Stat(filename); err != nil {
return "", err
} else if fileInfo.IsDir() {
return "", nil
}
file, err := os.Open(filename)
if err != nil {
return "", err
}
defer file.Close()
stat, err := file.Stat()
if err != nil {
return "", err
}
if stat.IsDir() {
return "", nil
}
hash := md5.New()
buf := make([]byte, 65536) // 64KB
for {
n, err := file.Read(buf)
if err != nil && err != io.EOF {
chunkSize := 65536
for buf, reader := make([]byte, chunkSize), bufio.NewReader(file); ; {
n, err := reader.Read(buf)
if err != nil {
if err == io.EOF {
break
}
return "", err
}
if n > 0 {
hash.Write(buf[:n])
}
if err == io.EOF {
break
}
hash.Write(buf[:n])
}
return fmt.Sprintf("%x", hash.Sum(nil)), nil
checksum := fmt.Sprintf("%x", hash.Sum(nil))
return checksum, nil
}
// HmacMd5 return the hmac hash of string use md5.
// Play: https://go.dev/play/p/uef0q1fz53I
func HmacMd5(str, key string) string {
h := hmac.New(md5.New, []byte(key))
h.Write([]byte(str))
return hex.EncodeToString(h.Sum([]byte("")))
}
// HmacMd5WithBase64 return the hmac hash of string use md5 with base64.
// https://go.dev/play/p/UY0ng2AefFC
func HmacMd5WithBase64(data, key string) string {
// HmacMd5 return the hmac hash of string use md5
func HmacMd5(data, key string) string {
h := hmac.New(md5.New, []byte(key))
h.Write([]byte(data))
return base64.StdEncoding.EncodeToString(h.Sum([]byte("")))
return hex.EncodeToString(h.Sum([]byte("")))
}
// HmacSha1 return the hmac hash of string use sha1.
// Play: https://go.dev/play/p/1UI4oQ4WXKM
func HmacSha1(str, key string) string {
// HmacSha1 return the hmac hash of string use sha1
func HmacSha1(data, key string) string {
h := hmac.New(sha1.New, []byte(key))
h.Write([]byte(str))
h.Write([]byte(data))
return hex.EncodeToString(h.Sum([]byte("")))
}
// HmacSha1WithBase64 return the hmac hash of string use sha1 with base64.
// Play: https://go.dev/play/p/47JmmGrnF7B
func HmacSha1WithBase64(str, key string) string {
h := hmac.New(sha1.New, []byte(key))
h.Write([]byte(str))
return base64.StdEncoding.EncodeToString(h.Sum([]byte("")))
}
// HmacSha256 return the hmac hash of string use sha256.
// Play: https://go.dev/play/p/HhpwXxFhhC0
func HmacSha256(str, key string) string {
// HmacSha256 return the hmac hash of string use sha256
func HmacSha256(data, key string) string {
h := hmac.New(sha256.New, []byte(key))
h.Write([]byte(str))
h.Write([]byte(data))
return hex.EncodeToString(h.Sum([]byte("")))
}
// HmacSha256WithBase64 return the hmac hash of string use sha256 with base64.
// Play: https://go.dev/play/p/EKbkUvPTLwO
func HmacSha256WithBase64(str, key string) string {
h := hmac.New(sha256.New, []byte(key))
h.Write([]byte(str))
return base64.StdEncoding.EncodeToString(h.Sum([]byte("")))
}
// HmacSha512 return the hmac hash of string use sha512.
// Play: https://go.dev/play/p/59Od6m4A0Ud
func HmacSha512(str, key string) string {
// HmacSha512 return the hmac hash of string use sha512
func HmacSha512(data, key string) string {
h := hmac.New(sha512.New, []byte(key))
h.Write([]byte(str))
h.Write([]byte(data))
return hex.EncodeToString(h.Sum([]byte("")))
}
// HmacSha512WithBase64 return the hmac hash of string use sha512 with base64.
// Play: https://go.dev/play/p/c6dSe3E2ydU
func HmacSha512WithBase64(str, key string) string {
h := hmac.New(sha512.New, []byte(key))
h.Write([]byte(str))
return base64.StdEncoding.EncodeToString(h.Sum([]byte("")))
}
// Sha1 return the sha1 value (SHA-1 hash algorithm) of string.
// Play: https://go.dev/play/p/_m_uoD1deMT
func Sha1(str string) string {
// Sha1 return the sha1 value (SHA-1 hash algorithm) of string
func Sha1(data string) string {
sha1 := sha1.New()
sha1.Write([]byte(str))
sha1.Write([]byte(data))
return hex.EncodeToString(sha1.Sum([]byte("")))
}
// Sha1WithBase64 return the sha1 value (SHA-1 hash algorithm) of base64 string.
// Play: https://go.dev/play/p/fSyx-Gl2l2-
func Sha1WithBase64(str string) string {
sha1 := sha1.New()
sha1.Write([]byte(str))
return base64.StdEncoding.EncodeToString(sha1.Sum([]byte("")))
}
// Sha256 return the sha256 value (SHA256 hash algorithm) of string.
// Play: https://go.dev/play/p/tU9tfBMIAr1
func Sha256(str string) string {
// Sha256 return the sha256 value (SHA256 hash algorithm) of string
func Sha256(data string) string {
sha256 := sha256.New()
sha256.Write([]byte(str))
sha256.Write([]byte(data))
return hex.EncodeToString(sha256.Sum([]byte("")))
}
// Sha256WithBase64 return the sha256 value (SHA256 hash algorithm) of base64 string.
// Play: https://go.dev/play/p/85IXJHIal1k
func Sha256WithBase64(str string) string {
sha256 := sha256.New()
sha256.Write([]byte(str))
return base64.StdEncoding.EncodeToString(sha256.Sum([]byte("")))
}
// Sha512 return the sha512 value (SHA512 hash algorithm) of string.
// Play: https://go.dev/play/p/3WsvLYZxsHa
func Sha512(str string) string {
// Sha512 return the sha512 value (SHA512 hash algorithm) of string
func Sha512(data string) string {
sha512 := sha512.New()
sha512.Write([]byte(str))
sha512.Write([]byte(data))
return hex.EncodeToString(sha512.Sum([]byte("")))
}
// Sha512WithBase64 return the sha512 value (SHA512 hash algorithm) of base64 string.
// Play: https://go.dev/play/p/q_fY2rA-k5I
func Sha512WithBase64(str string) string {
sha512 := sha512.New()
sha512.Write([]byte(str))
return base64.StdEncoding.EncodeToString(sha512.Sum([]byte("")))
}

123
cryptor/basic_test.go
View File

@@ -3,55 +3,25 @@ package cryptor
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
"github.com/duke-git/lancet/internal"
)
func TestBase64StdEncode(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBase64StdEncode")
assert.Equal("aGVsbG8gd29ybGQ=", Base64StdEncode("hello world"))
}
func TestBase64StdDecode(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBase64StdDecode")
assert.Equal("hello world", Base64StdDecode("aGVsbG8gd29ybGQ="))
}
func TestMd5String(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMd5String")
assert.Equal("5d41402abc4b2a76b9719d911017c592", Md5String("hello"))
}
func TestMd5StringWithBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMd5StringWithBase64")
assert.Equal("XUFAKrxLKna5cZ2REBfFkg==", Md5StringWithBase64("hello"))
}
func TestMd5Byte(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMd5Byte")
data := []byte{'a'}
assert.Equal("0cc175b9c0f1b6a831c399e269772661", Md5Byte(data))
}
func TestMd5ByteWithBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMd5ByteWithBase64")
assert.Equal("XUFAKrxLKna5cZ2REBfFkg==", Md5ByteWithBase64([]byte("hello")))
}
func TestMd5File(t *testing.T) {
t.Parallel()
fileMd5, err := Md5File("./basic.go")
assert := internal.NewAssert(t, "TestMd5File")
assert.IsNotNil(fileMd5)
@@ -59,22 +29,11 @@ func TestMd5File(t *testing.T) {
}
func TestHmacMd5(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHmacMd5")
assert.Equal("5f4c9faaff0a1ad3007d9ddc06abe36d", HmacMd5("hello world", "12345"))
}
func TestHmacMd5WithBase64(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHmacMd5WithBase64")
assert.Equal("6DQwbquJLYclJdSRinpjmg==", HmacMd5WithBase64("hello", "12345"))
}
func TestHmacSha1(t *testing.T) {
t.Parallel()
s := "hello world"
key := "12345"
hmacSha1 := HmacSha1(s, key)
@@ -84,45 +43,17 @@ func TestHmacSha1(t *testing.T) {
assert.Equal(expected, hmacSha1)
}
func TestHmacSha1WithBase64(t *testing.T) {
t.Parallel()
s := "hello"
key := "12345"
hmacSha1 := HmacSha1WithBase64(s, key)
expected := "XGqdsMzLkuNu0DI/0Jt/k23prOA="
assert := internal.NewAssert(t, "TestHmacSha1")
assert.Equal(expected, hmacSha1)
}
func TestHmacSha256(t *testing.T) {
t.Parallel()
str := "hello world"
s := "hello world"
key := "12345"
hmacSha256 := HmacSha256(str, key)
hmacSha256 := HmacSha256(s, key)
expected := "9dce2609f2d67d41f74c7f9efc8ccd44370d41ad2de52982627588dfe7289ab8"
assert := internal.NewAssert(t, "TestHmacSha256")
assert.Equal(expected, hmacSha256)
}
func TestHmacSha256WithBase64(t *testing.T) {
t.Parallel()
str := "hello"
key := "12345"
hms := HmacSha256WithBase64(str, key)
expected := "MVu5PE6YmGK6Ccti4F1zpfN2yzbw14btqwwyDQWf3nU="
assert := internal.NewAssert(t, "TestHmacSha256WithBase64")
assert.Equal(expected, hms)
}
func TestHmacSha512(t *testing.T) {
t.Parallel()
s := "hello world"
key := "12345"
hmacSha512 := HmacSha512(s, key)
@@ -132,21 +63,7 @@ func TestHmacSha512(t *testing.T) {
assert.Equal(expected, hmacSha512)
}
func TestHmacSha512WithBase64(t *testing.T) {
t.Parallel()
str := "hello"
key := "12345"
hms := HmacSha512WithBase64(str, key)
expected := "3Y8SkKndI9NU4lJtmi6c6M///dN8syCADRxsE9Lvw2Mog3ahlsVFja9T+OGqa0Wm2FYwPVwKIGS/+XhYYdSM/A=="
assert := internal.NewAssert(t, "TestHmacSha512WithBase64")
assert.Equal(expected, hms)
}
func TestSha1(t *testing.T) {
t.Parallel()
s := "hello world"
sha1 := Sha1(s)
expected := "2aae6c35c94fcfb415dbe95f408b9ce91ee846ed"
@@ -155,19 +72,7 @@ func TestSha1(t *testing.T) {
assert.Equal(expected, sha1)
}
func TestSha1WithBase64(t *testing.T) {
t.Parallel()
str := Sha1WithBase64("hello")
expected := "qvTGHdzF6KLavt4PO0gs2a6pQ00="
assert := internal.NewAssert(t, "TestSha1WithBase64")
assert.Equal(expected, str)
}
func TestSha256(t *testing.T) {
t.Parallel()
s := "hello world"
sha256 := Sha256(s)
expected := "b94d27b9934d3e08a52e52d7da7dabfac484efe37a5380ee9088f7ace2efcde9"
@@ -176,19 +81,7 @@ func TestSha256(t *testing.T) {
assert.Equal(expected, sha256)
}
func TestSha256WithBase64(t *testing.T) {
t.Parallel()
str := Sha256WithBase64("hello")
expected := "LPJNul+wow4m6DsqxbninhsWHlwfp0JecwQzYpOLmCQ="
assert := internal.NewAssert(t, "TestSha256WithBase64")
assert.Equal(expected, str)
}
func TestSha512(t *testing.T) {
t.Parallel()
s := "hello world"
sha512 := Sha512(s)
expected := "309ecc489c12d6eb4cc40f50c902f2b4d0ed77ee511a7c7a9bcd3ca86d4cd86f989dd35bc5ff499670da34255b45b0cfd830e81f605dcf7dc5542e93ae9cd76f"
@@ -196,13 +89,3 @@ func TestSha512(t *testing.T) {
assert := internal.NewAssert(t, "TestSha512")
assert.Equal(expected, sha512)
}
func TestSha512WithBase64(t *testing.T) {
t.Parallel()
str := Sha512WithBase64("hello")
expected := "m3HSJL1i83hdltRq0+o9czGb+8KJDKra4t/3JRlnPKcjI8PZm6XBHXx6zG4UuMXaDEZjR1wuXDre9G9zvN7AQw=="
assert := internal.NewAssert(t, "TestSha512WithBase64")
assert.Equal(expected, str)
}

859
cryptor/crypto.go
View File

@@ -1,859 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package cryptor implements some util functions to encrypt and decrypt.
// Note:
// 1. for aes crypt function, the `key` param length should be 16, 24 or 32. if not, will panic.
package cryptor
import (
"bytes"
"crypto"
"crypto/aes"
"crypto/cipher"
"crypto/des"
"crypto/rand"
"crypto/rsa"
"crypto/sha256"
"crypto/x509"
"encoding/pem"
"io"
"os"
)
// AesEcbEncrypt encrypt data with key use AES ECB algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/jT5irszHx-j
func AesEcbEncrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
blockSize := aes.BlockSize
dataLen := len(data)
padding := blockSize - (dataLen % blockSize)
paddedLen := dataLen + padding
paddedData := make([]byte, paddedLen)
copy(paddedData, data)
for i := dataLen; i < paddedLen; i++ {
paddedData[i] = byte(padding)
}
cipher, err := aes.NewCipher(generateAesKey(key, len(key)))
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
encrypted := make([]byte, paddedLen)
for bs := 0; bs < paddedLen; bs += blockSize {
cipher.Encrypt(encrypted[bs:], paddedData[bs:])
}
return encrypted
}
// AesEcbDecrypt decrypt data with key use AES ECB algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/jT5irszHx-j
func AesEcbDecrypt(encrypted, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
blockSize := aes.BlockSize
if len(encrypted)%blockSize != 0 {
panic("aes: encrypted data length is not a multiple of block size")
}
cipher, err := aes.NewCipher(generateAesKey(key, len(key)))
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
decrypted := make([]byte, len(encrypted))
for i := 0; i < len(encrypted); i += blockSize {
cipher.Decrypt(decrypted[i:], encrypted[i:])
}
if len(decrypted) == 0 {
return nil
}
padding := int(decrypted[len(decrypted)-1])
if padding == 0 || padding > blockSize {
panic("aes: invalid PKCS#7 padding")
}
for i := len(decrypted) - padding; i < len(decrypted); i++ {
if decrypted[i] != byte(padding) {
panic("aes: invalid PKCS#7 padding content")
}
}
return decrypted[:len(decrypted)-padding]
}
// AesCbcEncrypt encrypt data with key use AES CBC algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/IOq_g8_lKZD
func AesCbcEncrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
padding := aes.BlockSize - len(data)%aes.BlockSize
padded := append(data, bytes.Repeat([]byte{byte(padding)}, padding)...)
iv := make([]byte, aes.BlockSize)
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("aes: failed to generate IV: " + err.Error())
}
encrypted := make([]byte, len(padded))
mode := cipher.NewCBCEncrypter(block, iv)
mode.CryptBlocks(encrypted, padded)
return append(iv, encrypted...)
}
// AesCbcDecrypt decrypt data with key use AES CBC algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/IOq_g8_lKZD
func AesCbcDecrypt(encrypted, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
if len(encrypted) < aes.BlockSize {
panic("aes: ciphertext too short")
}
if len(encrypted)%aes.BlockSize != 0 {
panic("aes: ciphertext is not a multiple of the block size")
}
iv := encrypted[:aes.BlockSize]
ciphertext := encrypted[aes.BlockSize:]
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
decrypted := make([]byte, len(ciphertext))
mode := cipher.NewCBCDecrypter(block, iv)
mode.CryptBlocks(decrypted, ciphertext)
return pkcs7UnPadding(decrypted)
}
// AesCtrCrypt encrypt data with key use AES CTR algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/SpaZO0-5Nsp
// deprecated: use AesCtrEncrypt and AesCtrDecrypt instead.
func AesCtrCrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, _ := aes.NewCipher(key)
iv := bytes.Repeat([]byte("1"), block.BlockSize())
stream := cipher.NewCTR(block, iv)
dst := make([]byte, len(data))
stream.XORKeyStream(dst, data)
return dst
}
// AesCtrEncrypt encrypt data with key use AES CTR algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/x6pjPAvThRz
func AesCtrEncrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
iv := make([]byte, aes.BlockSize)
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("aes: failed to generate IV: " + err.Error())
}
stream := cipher.NewCTR(block, iv)
ciphertext := make([]byte, len(data))
stream.XORKeyStream(ciphertext, data)
return append(iv, ciphertext...)
}
// AesCtrDecrypt decrypt data with key use AES CTR algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/x6pjPAvThRz
func AesCtrDecrypt(encrypted, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
if len(encrypted) < aes.BlockSize {
panic("aes: invalid ciphertext length")
}
iv := encrypted[:aes.BlockSize]
ciphertext := encrypted[aes.BlockSize:]
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
stream := cipher.NewCTR(block, iv)
plaintext := make([]byte, len(ciphertext))
stream.XORKeyStream(plaintext, ciphertext)
return plaintext
}
// AesCfbEncrypt encrypt data with key use AES CFB algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/tfkF10B13kH
func AesCfbEncrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
iv := make([]byte, aes.BlockSize)
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("aes: failed to generate IV: " + err.Error())
}
ciphertext := make([]byte, len(data))
stream := cipher.NewCFBEncrypter(block, iv)
stream.XORKeyStream(ciphertext, data)
return append(iv, ciphertext...)
}
// AesCfbDecrypt decrypt data with key use AES CFB algorithm
// len(encrypted) should be great than 16, len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/tfkF10B13kH
func AesCfbDecrypt(encrypted, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
if len(encrypted) < aes.BlockSize {
panic("aes: encrypted data too short")
}
iv := encrypted[:aes.BlockSize]
ciphertext := encrypted[aes.BlockSize:]
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
plaintext := make([]byte, len(ciphertext))
stream := cipher.NewCFBDecrypter(block, iv)
stream.XORKeyStream(plaintext, ciphertext)
return plaintext
}
// AesOfbEncrypt encrypt data with key use AES OFB algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/VtHxtkUj-3F
func AesOfbEncrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
iv := make([]byte, aes.BlockSize)
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("aes: failed to generate IV: " + err.Error())
}
ciphertext := make([]byte, len(data))
stream := cipher.NewOFB(block, iv)
stream.XORKeyStream(ciphertext, data)
return append(iv, ciphertext...)
}
// AesOfbDecrypt decrypt data with key use AES OFB algorithm
// len(key) should be 16, 24 or 32.
// Play: https://go.dev/play/p/VtHxtkUj-3F
func AesOfbDecrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
if len(data) < aes.BlockSize {
panic("aes: encrypted data too short")
}
iv := data[:aes.BlockSize]
ciphertext := data[aes.BlockSize:]
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
plaintext := make([]byte, len(ciphertext))
stream := cipher.NewOFB(block, iv)
stream.XORKeyStream(plaintext, ciphertext)
return plaintext
}
// AesGcmEncrypt encrypt data with key use AES GCM algorithm
// Play: https://go.dev/play/p/rUt0-DmsPCs
func AesGcmEncrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
gcm, err := cipher.NewGCM(block)
if err != nil {
panic("aes: failed to create GCM: " + err.Error())
}
nonce := make([]byte, gcm.NonceSize())
if _, err := io.ReadFull(rand.Reader, nonce); err != nil {
panic("aes: failed to generate nonce: " + err.Error())
}
ciphertext := gcm.Seal(nil, nonce, data, nil)
return append(nonce, ciphertext...)
}
// AesGcmDecrypt decrypt data with key use AES GCM algorithm
// Play: https://go.dev/play/p/rUt0-DmsPCs
func AesGcmDecrypt(data, key []byte) []byte {
if !isAesKeyLengthValid(len(key)) {
panic("aes: invalid key length (must be 16, 24, or 32 bytes)")
}
block, err := aes.NewCipher(key)
if err != nil {
panic("aes: failed to create cipher: " + err.Error())
}
gcm, err := cipher.NewGCM(block)
if err != nil {
panic("aes: failed to create GCM: " + err.Error())
}
nonceSize := gcm.NonceSize()
if len(data) < nonceSize {
panic("aes: ciphertext too short")
}
nonce, ciphertext := data[:nonceSize], data[nonceSize:]
plaintext, err := gcm.Open(nil, nonce, ciphertext, nil)
if err != nil {
panic("aes: decryption failed: " + err.Error())
}
return plaintext
}
// DesEcbEncrypt encrypt data with key use DES ECB algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/8qivmPeZy4P
func DesEcbEncrypt(data, key []byte) []byte {
cipher, err := des.NewCipher(generateDesKey(key))
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
blockSize := cipher.BlockSize()
padded := pkcs5Padding(data, blockSize)
encrypted := make([]byte, len(padded))
for i := 0; i < len(padded); i += blockSize {
cipher.Encrypt(encrypted[i:], padded[i:])
}
return encrypted
}
// DesEcbDecrypt decrypt data with key use DES ECB algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/8qivmPeZy4P
func DesEcbDecrypt(encrypted, key []byte) []byte {
cipher, err := des.NewCipher(generateDesKey(key))
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
blockSize := cipher.BlockSize()
if len(encrypted)%blockSize != 0 {
panic("des: invalid encrypted data length")
}
decrypted := make([]byte, len(encrypted))
for i := 0; i < len(encrypted); i += blockSize {
cipher.Decrypt(decrypted[i:], encrypted[i:])
}
// Remove padding
return pkcs5UnPadding(decrypted)
}
// DesCbcEncrypt encrypt data with key use DES CBC algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/4cC4QvWfe3_1
func DesCbcEncrypt(data, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
blockSize := block.BlockSize()
data = pkcs7Padding(data, blockSize)
encrypted := make([]byte, blockSize+len(data))
iv := encrypted[:blockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("des: failed to generate IV: " + err.Error())
}
mode := cipher.NewCBCEncrypter(block, iv)
mode.CryptBlocks(encrypted[blockSize:], data)
return encrypted
}
// DesCbcDecrypt decrypt data with key use DES CBC algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/4cC4QvWfe3_1
func DesCbcDecrypt(encrypted, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
blockSize := block.BlockSize()
if len(encrypted) < blockSize || len(encrypted)%blockSize != 0 {
panic("des: invalid encrypted data length")
}
iv := encrypted[:blockSize]
ciphertext := encrypted[blockSize:]
mode := cipher.NewCBCDecrypter(block, iv)
mode.CryptBlocks(ciphertext, ciphertext)
return pkcs7UnPadding(ciphertext)
}
// DesCtrCrypt encrypt data with key use DES CTR algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/9-T6OjKpcdw
// deprecated: use DesCtrEncrypt and DesCtrDecrypt instead.
func DesCtrCrypt(data, key []byte) []byte {
size := len(key)
if size != 8 {
panic("key length shoud be 8")
}
block, _ := des.NewCipher(key)
iv := bytes.Repeat([]byte("1"), block.BlockSize())
stream := cipher.NewCTR(block, iv)
dst := make([]byte, len(data))
stream.XORKeyStream(dst, data)
return dst
}
// DesCtrEncrypt encrypt data with key use DES CTR algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/S6p_WHCgH1d
func DesCtrEncrypt(data, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
iv := make([]byte, block.BlockSize())
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("des: failed to generate IV: " + err.Error())
}
stream := cipher.NewCTR(block, iv)
encrypted := make([]byte, len(data))
stream.XORKeyStream(encrypted, data)
// 返回前缀包含 IV便于解密
return append(iv, encrypted...)
}
// DesCtrDecrypt decrypt data with key use DES CTR algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/S6p_WHCgH1d
func DesCtrDecrypt(encrypted, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
blockSize := block.BlockSize()
if len(encrypted) < blockSize {
panic("des: ciphertext too short")
}
iv := encrypted[:blockSize]
ciphertext := encrypted[blockSize:]
stream := cipher.NewCTR(block, iv)
decrypted := make([]byte, len(ciphertext))
stream.XORKeyStream(decrypted, ciphertext)
return decrypted
}
// DesCfbEncrypt encrypt data with key use DES CFB algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/y-eNxcFBlxL
func DesCfbEncrypt(data, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
iv := make([]byte, des.BlockSize)
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("des: failed to generate IV: " + err.Error())
}
encrypted := make([]byte, des.BlockSize+len(data))
copy(encrypted[:des.BlockSize], iv)
stream := cipher.NewCFBEncrypter(block, iv)
stream.XORKeyStream(encrypted[des.BlockSize:], data)
return encrypted
}
// DesCfbDecrypt decrypt data with key use DES CFB algorithm
// len(encrypted) should be great than 16, len(key) should be 8.
// Play: https://go.dev/play/p/y-eNxcFBlxL
func DesCfbDecrypt(encrypted, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
if len(encrypted) < des.BlockSize {
panic("des: encrypted data too short")
}
iv := encrypted[:des.BlockSize]
ciphertext := encrypted[des.BlockSize:]
stream := cipher.NewCFBDecrypter(block, iv)
stream.XORKeyStream(ciphertext, ciphertext)
return ciphertext
}
// DesOfbEncrypt encrypt data with key use DES OFB algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/74KmNadjN1J
func DesOfbEncrypt(data, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
data = pkcs7Padding(data, des.BlockSize)
iv := make([]byte, des.BlockSize)
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic("des: failed to generate IV: " + err.Error())
}
encrypted := make([]byte, des.BlockSize+len(data))
copy(encrypted[:des.BlockSize], iv)
stream := cipher.NewOFB(block, iv)
stream.XORKeyStream(encrypted[des.BlockSize:], data)
return encrypted
}
// DesOfbDecrypt decrypt data with key use DES OFB algorithm
// len(key) should be 8.
// Play: https://go.dev/play/p/74KmNadjN1J
func DesOfbDecrypt(data, key []byte) []byte {
if len(key) != 8 {
panic("des: key length must be 8 bytes")
}
block, err := des.NewCipher(key)
if err != nil {
panic("des: failed to create cipher: " + err.Error())
}
if len(data) < des.BlockSize {
panic("des: encrypted data too short")
}
iv := data[:des.BlockSize]
ciphertext := data[des.BlockSize:]
stream := cipher.NewOFB(block, iv)
decrypted := make([]byte, len(ciphertext))
stream.XORKeyStream(decrypted, ciphertext)
decrypted = pkcs7UnPadding(decrypted)
return decrypted
}
// GenerateRsaKey create rsa private and public pemo file.
// Play: https://go.dev/play/p/zutRHrDqs0X
func GenerateRsaKey(keySize int, priKeyFile, pubKeyFile string) error {
// private key
privateKey, err := rsa.GenerateKey(rand.Reader, keySize)
if err != nil {
return err
}
derText := x509.MarshalPKCS1PrivateKey(privateKey)
block := pem.Block{
Type: "rsa private key",
Bytes: derText,
}
file, err := os.Create(priKeyFile)
if err != nil {
panic(err)
}
err = pem.Encode(file, &block)
if err != nil {
return err
}
file.Close()
// public key
publicKey := privateKey.PublicKey
derpText, err := x509.MarshalPKIXPublicKey(&publicKey)
if err != nil {
return err
}
block = pem.Block{
Type: "rsa public key",
Bytes: derpText,
}
file, err = os.Create(pubKeyFile)
if err != nil {
return err
}
err = pem.Encode(file, &block)
if err != nil {
return err
}
file.Close()
return nil
}
// RsaEncrypt encrypt data with ras algorithm.
// Play: https://go.dev/play/p/7_zo6mrx-eX
func RsaEncrypt(data []byte, pubKeyFileName string) []byte {
file, err := os.Open(pubKeyFileName)
if err != nil {
panic(err)
}
fileInfo, err := file.Stat()
if err != nil {
panic(err)
}
defer file.Close()
buf := make([]byte, fileInfo.Size())
_, err = file.Read(buf)
if err != nil {
panic(err)
}
block, _ := pem.Decode(buf)
pubInterface, err := x509.ParsePKIXPublicKey(block.Bytes)
if err != nil {
panic(err)
}
pubKey := pubInterface.(*rsa.PublicKey)
cipherText, err := rsa.EncryptPKCS1v15(rand.Reader, pubKey, data)
if err != nil {
panic(err)
}
return cipherText
}
// RsaDecrypt decrypt data with ras algorithm.
// Play: https://go.dev/play/p/7_zo6mrx-eX
func RsaDecrypt(data []byte, privateKeyFileName string) []byte {
file, err := os.Open(privateKeyFileName)
if err != nil {
panic(err)
}
fileInfo, err := file.Stat()
if err != nil {
panic(err)
}
buf := make([]byte, fileInfo.Size())
defer file.Close()
_, err = file.Read(buf)
if err != nil {
panic(err)
}
block, _ := pem.Decode(buf)
priKey, err := x509.ParsePKCS1PrivateKey(block.Bytes)
if err != nil {
panic(err)
}
plainText, err := rsa.DecryptPKCS1v15(rand.Reader, priKey, data)
if err != nil {
panic(err)
}
return plainText
}
// GenerateRsaKeyPair create rsa private and public key.
// Play: https://go.dev/play/p/sSVmkfENKMz
func GenerateRsaKeyPair(keySize int) (*rsa.PrivateKey, *rsa.PublicKey) {
privateKey, _ := rsa.GenerateKey(rand.Reader, keySize)
return privateKey, &privateKey.PublicKey
}
// RsaEncryptOAEP encrypts the given data with RSA-OAEP.
// Play: https://go.dev/play/p/sSVmkfENKMz
func RsaEncryptOAEP(data []byte, label []byte, key rsa.PublicKey) ([]byte, error) {
encryptedBytes, err := rsa.EncryptOAEP(sha256.New(), rand.Reader, &key, data, label)
if err != nil {
return nil, err
}
return encryptedBytes, nil
}
// RsaDecryptOAEP decrypts the data with RSA-OAEP.
// Play: https://go.dev/play/p/sSVmkfENKMz
func RsaDecryptOAEP(ciphertext []byte, label []byte, key rsa.PrivateKey) ([]byte, error) {
decryptedBytes, err := rsa.DecryptOAEP(sha256.New(), rand.Reader, &key, ciphertext, label)
if err != nil {
return nil, err
}
return decryptedBytes, nil
}
// RsaSign signs the data with RSA.
// Play: https://go.dev/play/p/qhsbf8BJ6Mf
func RsaSign(hash crypto.Hash, data []byte, privateKeyFileName string) ([]byte, error) {
privateKey, err := loadRasPrivateKey(privateKeyFileName)
if err != nil {
return nil, err
}
hashed, err := hashData(hash, data)
if err != nil {
return nil, err
}
return rsa.SignPKCS1v15(rand.Reader, privateKey, hash, hashed)
}
// RsaVerifySign verifies the signature of the data with RSA.
// Play: https://go.dev/play/p/qhsbf8BJ6Mf
func RsaVerifySign(hash crypto.Hash, data, signature []byte, pubKeyFileName string) error {
publicKey, err := loadRsaPublicKey(pubKeyFileName)
if err != nil {
return err
}
hashed, err := hashData(hash, data)
if err != nil {
return err
}
return rsa.VerifyPKCS1v15(publicKey, hash, hashed, signature)
}

624
cryptor/crypto_example_test.go
View File

@@ -1,624 +0,0 @@
package cryptor
import (
"crypto"
"fmt"
)
func ExampleAesEcbEncrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesEcbEncrypt([]byte(data), []byte(key))
decrypted := AesEcbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesEcbDecrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesEcbEncrypt([]byte(data), []byte(key))
decrypted := AesEcbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesCbcEncrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesCbcEncrypt([]byte(data), []byte(key))
decrypted := AesCbcDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesCbcDecrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesCbcEncrypt([]byte(data), []byte(key))
decrypted := AesCbcDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesCtrCrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesCtrCrypt([]byte(data), []byte(key))
decrypted := AesCtrCrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesCtrEncrypt() {
data := "hello"
key := "abcdefghijklmnop"
enCrypt := AesCtrEncrypt([]byte(data), []byte(key))
deCrypt := AesCtrDecrypt(enCrypt, []byte(key))
fmt.Println(string(deCrypt))
// Output:
// hello
}
func ExampleAesCtrDecrypt() {
data := "hello"
key := "abcdefghijklmnop"
enCrypt := AesCtrEncrypt([]byte(data), []byte(key))
deCrypt := AesCtrDecrypt(enCrypt, []byte(key))
fmt.Println(string(deCrypt))
// Output:
// hello
}
func ExampleAesCfbEncrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesCfbEncrypt([]byte(data), []byte(key))
decrypted := AesCfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesCfbDecrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesCfbEncrypt([]byte(data), []byte(key))
decrypted := AesCfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesOfbEncrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesOfbEncrypt([]byte(data), []byte(key))
decrypted := AesOfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesOfbDecrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesOfbEncrypt([]byte(data), []byte(key))
decrypted := AesOfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesGcmEncrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesGcmEncrypt([]byte(data), []byte(key))
decrypted := AesGcmDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleAesGcmDecrypt() {
data := "hello"
key := "abcdefghijklmnop"
encrypted := AesGcmEncrypt([]byte(data), []byte(key))
decrypted := AesGcmDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesEcbEncrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesEcbEncrypt([]byte(data), []byte(key))
decrypted := DesEcbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesEcbDecrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesEcbEncrypt([]byte(data), []byte(key))
decrypted := DesEcbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesCbcEncrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesCbcEncrypt([]byte(data), []byte(key))
decrypted := DesCbcDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesCbcDecrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesCbcEncrypt([]byte(data), []byte(key))
decrypted := DesCbcDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesCtrCrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesCtrCrypt([]byte(data), []byte(key))
decrypted := DesCtrCrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesCtrDecrypt() {
data := "hello"
key := "abcdefgh"
enCrypt := DesCtrEncrypt([]byte(data), []byte(key))
deCrypt := DesCtrDecrypt(enCrypt, []byte(key))
fmt.Println(string(deCrypt))
// Output:
// hello
}
func ExampleDesCfbEncrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesCfbEncrypt([]byte(data), []byte(key))
decrypted := DesCfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesCfbDecrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesCfbEncrypt([]byte(data), []byte(key))
decrypted := DesCfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesOfbEncrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesOfbEncrypt([]byte(data), []byte(key))
decrypted := DesOfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleDesOfbDecrypt() {
data := "hello"
key := "abcdefgh"
encrypted := DesOfbEncrypt([]byte(data), []byte(key))
decrypted := DesOfbDecrypt(encrypted, []byte(key))
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleGenerateRsaKey() {
// Create ras private and public pem file
err := GenerateRsaKey(4096, "rsa_private_example.pem", "rsa_public_example.pem")
if err != nil {
return
}
fmt.Println("foo")
// Output:
// foo
}
func ExampleRsaEncrypt() {
// Create ras private and public pem file
err := GenerateRsaKey(4096, "rsa_private_example.pem", "rsa_public_example.pem")
if err != nil {
return
}
data := []byte("hello")
encrypted := RsaEncrypt(data, "rsa_public_example.pem")
decrypted := RsaDecrypt(encrypted, "rsa_private_example.pem")
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleRsaDecrypt() {
// Create ras private and public pem file
err := GenerateRsaKey(4096, "rsa_private_example.pem", "rsa_public_example.pem")
if err != nil {
return
}
data := []byte("hello")
encrypted := RsaEncrypt(data, "rsa_public_example.pem")
decrypted := RsaDecrypt(encrypted, "rsa_private_example.pem")
fmt.Println(string(decrypted))
// Output:
// hello
}
func ExampleBase64StdEncode() {
base64Str := Base64StdEncode("hello")
fmt.Println(base64Str)
// Output:
// aGVsbG8=
}
func ExampleBase64StdDecode() {
str := Base64StdDecode("aGVsbG8=")
fmt.Println(str)
// Output:
// hello
}
func ExampleHmacMd5() {
str := "hello"
key := "12345"
hms := HmacMd5(str, key)
fmt.Println(hms)
// Output:
// e834306eab892d872525d4918a7a639a
}
func ExampleHmacMd5WithBase64() {
str := "hello"
key := "12345"
hms := HmacMd5WithBase64(str, key)
fmt.Println(hms)
// Output:
// 6DQwbquJLYclJdSRinpjmg==
}
func ExampleHmacSha1() {
str := "hello"
key := "12345"
hms := HmacSha1(str, key)
fmt.Println(hms)
// Output:
// 5c6a9db0cccb92e36ed0323fd09b7f936de9ace0
}
func ExampleHmacSha1WithBase64() {
str := "hello"
key := "12345"
hms := HmacSha1WithBase64(str, key)
fmt.Println(hms)
// Output:
// XGqdsMzLkuNu0DI/0Jt/k23prOA=
}
func ExampleHmacSha256() {
str := "hello"
key := "12345"
hms := HmacSha256(str, key)
fmt.Println(hms)
// Output:
// 315bb93c4e989862ba09cb62e05d73a5f376cb36f0d786edab0c320d059fde75
}
func ExampleHmacSha256WithBase64() {
str := "hello"
key := "12345"
hms := HmacSha256WithBase64(str, key)
fmt.Println(hms)
// Output:
// MVu5PE6YmGK6Ccti4F1zpfN2yzbw14btqwwyDQWf3nU=
}
func ExampleHmacSha512() {
str := "hello"
key := "12345"
hms := HmacSha512(str, key)
fmt.Println(hms)
// Output:
// dd8f1290a9dd23d354e2526d9a2e9ce8cffffdd37cb320800d1c6c13d2efc363288376a196c5458daf53f8e1aa6b45a6d856303d5c0a2064bff9785861d48cfc
}
func ExampleHmacSha512WithBase64() {
str := "hello"
key := "12345"
hms := HmacSha512WithBase64(str, key)
fmt.Println(hms)
// Output:
// 3Y8SkKndI9NU4lJtmi6c6M///dN8syCADRxsE9Lvw2Mog3ahlsVFja9T+OGqa0Wm2FYwPVwKIGS/+XhYYdSM/A==
}
func ExampleMd5String() {
md5Str := Md5String("hello")
fmt.Println(md5Str)
// Output:
// 5d41402abc4b2a76b9719d911017c592
}
func ExampleMd5StringWithBase64() {
md5Str := Md5StringWithBase64("hello")
fmt.Println(md5Str)
// Output:
// XUFAKrxLKna5cZ2REBfFkg==
}
func ExampleMd5Byte() {
md5Str := Md5Byte([]byte{'a'})
fmt.Println(md5Str)
// Output:
// 0cc175b9c0f1b6a831c399e269772661
}
func ExampleMd5ByteWithBase64() {
md5Str := Md5ByteWithBase64([]byte("hello"))
fmt.Println(md5Str)
// Output:
// XUFAKrxLKna5cZ2REBfFkg==
}
func ExampleSha1() {
result := Sha1("hello")
fmt.Println(result)
// Output:
// aaf4c61ddcc5e8a2dabede0f3b482cd9aea9434d
}
func ExampleSha1WithBase64() {
result := Sha1WithBase64("hello")
fmt.Println(result)
// Output:
// qvTGHdzF6KLavt4PO0gs2a6pQ00=
}
func ExampleSha256() {
result := Sha256("hello")
fmt.Println(result)
// Output:
// 2cf24dba5fb0a30e26e83b2ac5b9e29e1b161e5c1fa7425e73043362938b9824
}
func ExampleSha256WithBase64() {
result := Sha256WithBase64("hello")
fmt.Println(result)
// Output:
// LPJNul+wow4m6DsqxbninhsWHlwfp0JecwQzYpOLmCQ=
}
func ExampleSha512() {
result := Sha512("hello")
fmt.Println(result)
// Output:
// 9b71d224bd62f3785d96d46ad3ea3d73319bfbc2890caadae2dff72519673ca72323c3d99ba5c11d7c7acc6e14b8c5da0c4663475c2e5c3adef46f73bcdec043
}
func ExampleSha512WithBase64() {
result := Sha512WithBase64("hello")
fmt.Println(result)
// Output:
// m3HSJL1i83hdltRq0+o9czGb+8KJDKra4t/3JRlnPKcjI8PZm6XBHXx6zG4UuMXaDEZjR1wuXDre9G9zvN7AQw==
}
func ExampleRsaEncryptOAEP() {
pri, pub := GenerateRsaKeyPair(1024)
data := []byte("hello world")
label := []byte("123456")
encrypted, err := RsaEncryptOAEP(data, label, *pub)
if err != nil {
return
}
decrypted, err := RsaDecryptOAEP([]byte(encrypted), label, *pri)
if err != nil {
return
}
fmt.Println(string(decrypted))
// Output:
// hello world
}
func ExampleRsaSign() {
data := []byte("This is a test data for RSA signing")
hash := crypto.SHA256
privateKey := "./rsa_private_example.pem"
publicKey := "./rsa_public_example.pem"
signature, err := RsaSign(hash, data, privateKey)
if err != nil {
return
}
err = RsaVerifySign(hash, data, signature, publicKey)
if err != nil {
return
}
fmt.Println("ok")
// Output:
// ok
}
func ExampleRsaVerifySign() {
data := []byte("This is a test data for RSA signing")
hash := crypto.SHA256
privateKey := "./rsa_private_example.pem"
publicKey := "./rsa_public_example.pem"
signature, err := RsaSign(hash, data, privateKey)
if err != nil {
return
}
err = RsaVerifySign(hash, data, signature, publicKey)
if err != nil {
return
}
fmt.Println("ok")
// Output:
// ok
}

157
cryptor/crypto_internal.go
View File

@@ -1,27 +1,16 @@
package cryptor
import (
"bytes"
"crypto"
"crypto/rsa"
"crypto/sha256"
"crypto/sha512"
"crypto/x509"
"encoding/pem"
"errors"
"os"
"strings"
)
import "bytes"
func generateAesKey(key []byte, size int) []byte {
genKey := make([]byte, size)
copy(genKey, key)
aesKey := make([]byte, size)
copy(aesKey, key)
for i := size; i < len(key); {
for j := 0; j < size && i < len(key); j, i = j+1, i+1 {
genKey[j] ^= key[i]
aesKey[j] ^= key[i]
}
}
return genKey
return aesKey
}
func generateDesKey(key []byte) []byte {
@@ -46,139 +35,3 @@ func pkcs7UnPadding(src []byte) []byte {
unPadding := int(src[length-1])
return src[:(length - unPadding)]
}
func pkcs5Padding(data []byte, blockSize int) []byte {
padding := blockSize - len(data)%blockSize
padText := bytes.Repeat([]byte{byte(padding)}, padding)
return append(data, padText...)
}
func pkcs5UnPadding(data []byte) []byte {
length := len(data)
if length == 0 {
return nil
}
padLen := int(data[length-1])
if padLen == 0 || padLen > length {
return nil
}
return data[:length-padLen]
}
func isAesKeyLengthValid(n int) bool {
return n == 16 || n == 24 || n == 32
}
// loadRsaPrivateKey loads and parses a PEM encoded private key file.
func loadRsaPublicKey(filename string) (*rsa.PublicKey, error) {
pubKeyData, err := os.ReadFile(filename)
if err != nil {
return nil, err
}
block, _ := pem.Decode(pubKeyData)
if block == nil {
return nil, errors.New("failed to decode PEM block containing the public key")
}
var pubKey *rsa.PublicKey
blockType := strings.ToUpper(block.Type)
if blockType == "RSA PUBLIC KEY" {
pubKey, err = x509.ParsePKCS1PublicKey(block.Bytes)
if err != nil {
key, err := x509.ParsePKIXPublicKey(block.Bytes)
if err != nil {
return nil, err
}
var ok bool
pubKey, ok = key.(*rsa.PublicKey)
if !ok {
return nil, errors.New("failed to parse RSA private key")
}
}
} else if blockType == "PUBLIC KEY" {
key, err := x509.ParsePKIXPublicKey(block.Bytes)
if err != nil {
return nil, err
}
var ok bool
pubKey, ok = key.(*rsa.PublicKey)
if !ok {
return nil, errors.New("failed to parse RSA private key")
}
} else {
return nil, errors.New("unsupported key type")
}
return pubKey, nil
}
// loadRsaPrivateKey loads and parses a PEM encoded private key file.
func loadRasPrivateKey(filename string) (*rsa.PrivateKey, error) {
priKeyData, err := os.ReadFile(filename)
if err != nil {
return nil, err
}
block, _ := pem.Decode(priKeyData)
if block == nil {
return nil, errors.New("failed to decode PEM block containing the private key")
}
var privateKey *rsa.PrivateKey
blockType := strings.ToUpper(block.Type)
// PKCS#1 format
if blockType == "RSA PRIVATE KEY" {
privateKey, err = x509.ParsePKCS1PrivateKey(block.Bytes)
if err != nil {
return nil, err
}
} else if blockType == "PRIVATE KEY" { // PKCS#8 format
priKey, err := x509.ParsePKCS8PrivateKey(block.Bytes)
if err != nil {
return nil, err
}
var ok bool
privateKey, ok = priKey.(*rsa.PrivateKey)
if !ok {
return nil, errors.New("failed to parse RSA private key")
}
} else {
return nil, errors.New("unsupported key type")
}
return privateKey, nil
}
// hashData returns the hash value of the data, using the specified hash function
func hashData(hash crypto.Hash, data []byte) ([]byte, error) {
if !hash.Available() {
return nil, errors.New("unsupported hash algorithm")
}
var hashed []byte
switch hash {
case crypto.SHA224:
h := sha256.Sum224(data)
hashed = h[:]
case crypto.SHA256:
h := sha256.Sum256(data)
hashed = h[:]
case crypto.SHA384:
h := sha512.Sum384(data)
hashed = h[:]
case crypto.SHA512:
h := sha512.Sum512(data)
hashed = h[:]
default:
return nil, errors.New("unsupported hash algorithm")
}
return hashed, nil
}

234
cryptor/crypto_test.go
View File

@@ -1,234 +0,0 @@
package cryptor
import (
"crypto"
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestAesEcbCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefghijklmnop"
aesEcbEncrypt := AesEcbEncrypt([]byte(data), []byte(key))
aesEcbDecrypt := AesEcbDecrypt(aesEcbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesEcbCrypt")
assert.Equal(data, string(aesEcbDecrypt))
}
func TestAesCbcCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefghijklmnop"
aesCbcEncrypt := AesCbcEncrypt([]byte(data), []byte(key))
aesCbcDecrypt := AesCbcDecrypt(aesCbcEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesCbcCrypt")
assert.Equal(data, string(aesCbcDecrypt))
}
func TestAesCtrCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefghijklmnop"
aesCtrCrypt := AesCtrEncrypt([]byte(data), []byte(key))
aesCtrDeCrypt := AesCtrDecrypt(aesCtrCrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesCtrCrypt")
assert.Equal(data, string(aesCtrDeCrypt))
}
func TestAesCfbCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefghijklmnop"
aesCfbEncrypt := AesCfbEncrypt([]byte(data), []byte(key))
aesCfbDecrypt := AesCfbDecrypt(aesCfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesCfbCrypt")
assert.Equal(data, string(aesCfbDecrypt))
}
func TestAesOfbCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefghijklmnop"
aesOfbEncrypt := AesOfbEncrypt([]byte(data), []byte(key))
aesOfbDecrypt := AesOfbDecrypt(aesOfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestAesOfbEncrypt")
assert.Equal(data, string(aesOfbDecrypt))
}
func TestDesEcbCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefgh"
desEcbEncrypt := DesEcbEncrypt([]byte(data), []byte(key))
desEcbDecrypt := DesEcbDecrypt(desEcbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesEcbEncrypt")
assert.Equal(data, string(desEcbDecrypt))
}
func TestDesCbcCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefgh"
desCbcEncrypt := DesCbcEncrypt([]byte(data), []byte(key))
desCbcDecrypt := DesCbcDecrypt(desCbcEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesCbcEncrypt")
assert.Equal(data, string(desCbcDecrypt))
}
func TestDesCtrCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefgh"
desCtrCrypt := DesCtrEncrypt([]byte(data), []byte(key))
desCtrDeCrypt := DesCtrDecrypt(desCtrCrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesCtrCrypt")
assert.Equal(data, string(desCtrDeCrypt))
}
func TestDesCfbCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefgh"
desCfbEncrypt := DesCfbEncrypt([]byte(data), []byte(key))
desCfbDecrypt := DesCfbDecrypt(desCfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesCfbEncrypt")
assert.Equal(data, string(desCfbDecrypt))
}
func TestDesOfbCrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefgh"
desOfbEncrypt := DesOfbEncrypt([]byte(data), []byte(key))
desOfbDecrypt := DesOfbDecrypt(desOfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesOfbEncrypt")
assert.Equal(data, string(desOfbDecrypt))
}
func TestRsaEncrypt(t *testing.T) {
t.Parallel()
err := GenerateRsaKey(4096, "./rsa_private_example.pem", "./rsa_public_example.pem")
if err != nil {
t.FailNow()
}
data := []byte("hello world")
encrypted := RsaEncrypt(data, "./rsa_public_example.pem")
decrypted := RsaDecrypt(encrypted, "./rsa_private_example.pem")
assert := internal.NewAssert(t, "TestRsaEncrypt")
assert.Equal(string(data), string(decrypted))
}
func TestRsaEncryptOAEP(t *testing.T) {
assert := internal.NewAssert(t, "TestRsaEncrypt")
t.Parallel()
pri, pub := GenerateRsaKeyPair(1024)
data := []byte("hello world")
label := []byte("123456")
encrypted, err := RsaEncryptOAEP(data, label, *pub)
assert.IsNil(err)
decrypted, err := RsaDecryptOAEP([]byte(encrypted), label, *pri)
assert.IsNil(err)
assert.Equal("hello world", string(decrypted))
}
func TestAesGcmEncrypt(t *testing.T) {
t.Parallel()
data := "hello world"
key := "abcdefghijklmnop"
encrypted := AesGcmEncrypt([]byte(data), []byte(key))
decrypted := AesGcmDecrypt(encrypted, []byte(key))
assert := internal.NewAssert(t, "TestAesGcmEncrypt")
assert.Equal(data, string(decrypted))
}
func TestRsaSignAndVerify(t *testing.T) {
t.Parallel()
data := []byte("This is a test data for RSA signing")
hash := crypto.SHA256
t.Run("RSA Sign and Verify", func(t *testing.T) {
privateKey := "./rsa_private_example.pem"
publicKey := "./rsa_public_example.pem"
signature, err := RsaSign(hash, data, privateKey)
if err != nil {
t.Fatalf("RsaSign failed: %v", err)
}
err = RsaVerifySign(hash, data, signature, publicKey)
if err != nil {
t.Fatalf("RsaVerifySign failed: %v", err)
}
})
t.Run("RSA Sign and Verify Invalid Signature", func(t *testing.T) {
publicKey := "./rsa_public_example.pem"
invalidSig := []byte("InvalidSignature")
err := RsaVerifySign(hash, data, invalidSig, publicKey)
if err == nil {
t.Fatalf("RsaVerifySign failed: %v", err)
}
})
t.Run("RSA Sign and Verify With Different Hash", func(t *testing.T) {
publicKey := "./rsa_public_example.pem"
privateKey := "./rsa_private_example.pem"
hashSign := crypto.SHA256
hashVerify := crypto.SHA512
signature, err := RsaSign(hashSign, data, privateKey)
if err != nil {
t.Fatalf("RsaSign failed: %v", err)
}
err = RsaVerifySign(hashVerify, data, signature, publicKey)
if err == nil {
t.Fatalf("RsaVerifySign failed: %v", err)
}
})
}

178
cryptor/des.go Normal file
View File

@@ -0,0 +1,178 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package cryptor implements some util functions to encrypt and decrypt.
package cryptor
import (
"bytes"
"crypto/cipher"
"crypto/des"
"crypto/rand"
"io"
)
// DesEcbEncrypt encrypt data with key use DES ECB algorithm
// len(key) should be 8
func DesEcbEncrypt(data, key []byte) []byte {
cipher, _ := des.NewCipher(generateDesKey(key))
length := (len(data) + des.BlockSize) / des.BlockSize
plain := make([]byte, length*des.BlockSize)
copy(plain, data)
pad := byte(len(plain) - len(data))
for i := len(data); i < len(plain); i++ {
plain[i] = pad
}
encrypted := make([]byte, len(plain))
for bs, be := 0, cipher.BlockSize(); bs <= len(data); bs, be = bs+cipher.BlockSize(), be+cipher.BlockSize() {
cipher.Encrypt(encrypted[bs:be], plain[bs:be])
}
return encrypted
}
// DesEcbDecrypt decrypt data with key use DES ECB algorithm
// len(key) should be 8
func DesEcbDecrypt(encrypted, key []byte) []byte {
cipher, _ := des.NewCipher(generateDesKey(key))
decrypted := make([]byte, len(encrypted))
for bs, be := 0, cipher.BlockSize(); bs < len(encrypted); bs, be = bs+cipher.BlockSize(), be+cipher.BlockSize() {
cipher.Decrypt(decrypted[bs:be], encrypted[bs:be])
}
trim := 0
if len(decrypted) > 0 {
trim = len(decrypted) - int(decrypted[len(decrypted)-1])
}
return decrypted[:trim]
}
// DesCbcEncrypt encrypt data with key use DES CBC algorithm
// len(key) should be 8
func DesCbcEncrypt(data, key []byte) []byte {
block, _ := des.NewCipher(key)
data = pkcs7Padding(data, block.BlockSize())
encrypted := make([]byte, des.BlockSize+len(data))
iv := encrypted[:des.BlockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic(err)
}
mode := cipher.NewCBCEncrypter(block, iv)
mode.CryptBlocks(encrypted[des.BlockSize:], data)
return encrypted
}
// DesCbcDecrypt decrypt data with key use DES CBC algorithm
// len(key) should be 8
func DesCbcDecrypt(encrypted, key []byte) []byte {
block, _ := des.NewCipher(key)
iv := encrypted[:des.BlockSize]
encrypted = encrypted[des.BlockSize:]
mode := cipher.NewCBCDecrypter(block, iv)
mode.CryptBlocks(encrypted, encrypted)
decrypted := pkcs7UnPadding(encrypted)
return decrypted
}
// DesCtrCrypt encrypt data with key use DES CTR algorithm
// len(key) should be 8
func DesCtrCrypt(data, key []byte) []byte {
block, _ := des.NewCipher(key)
iv := bytes.Repeat([]byte("1"), block.BlockSize())
stream := cipher.NewCTR(block, iv)
dst := make([]byte, len(data))
stream.XORKeyStream(dst, data)
return dst
}
// DesCfbEncrypt encrypt data with key use DES CFB algorithm
// len(key) should be 8
func DesCfbEncrypt(data, key []byte) []byte {
block, err := des.NewCipher(key)
if err != nil {
panic(err)
}
encrypted := make([]byte, des.BlockSize+len(data))
iv := encrypted[:des.BlockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic(err)
}
stream := cipher.NewCFBEncrypter(block, iv)
stream.XORKeyStream(encrypted[des.BlockSize:], data)
return encrypted
}
// DesCfbDecrypt decrypt data with key use DES CFB algorithm
// len(encrypted) should be great than 16, len(key) should be 8
func DesCfbDecrypt(encrypted, key []byte) []byte {
block, _ := des.NewCipher(key)
if len(encrypted) < des.BlockSize {
panic("encrypted data is too short")
}
iv := encrypted[:des.BlockSize]
encrypted = encrypted[des.BlockSize:]
stream := cipher.NewCFBDecrypter(block, iv)
stream.XORKeyStream(encrypted, encrypted)
return encrypted
}
// DesOfbEncrypt encrypt data with key use DES OFB algorithm
// len(key) should be 16, 24 or 32
func DesOfbEncrypt(data, key []byte) []byte {
block, err := des.NewCipher(key)
if err != nil {
panic(err)
}
data = pkcs7Padding(data, des.BlockSize)
encrypted := make([]byte, des.BlockSize+len(data))
iv := encrypted[:des.BlockSize]
if _, err := io.ReadFull(rand.Reader, iv); err != nil {
panic(err)
}
stream := cipher.NewOFB(block, iv)
stream.XORKeyStream(encrypted[des.BlockSize:], data)
return encrypted
}
// DesOfbDecrypt decrypt data with key use DES OFB algorithm
// len(key) should be 8
func DesOfbDecrypt(data, key []byte) []byte {
block, err := des.NewCipher(key)
if err != nil {
panic(err)
}
iv := data[:des.BlockSize]
data = data[des.BlockSize:]
if len(data)%des.BlockSize != 0 {
return nil
}
decrypted := make([]byte, len(data))
mode := cipher.NewOFB(block, iv)
mode.XORKeyStream(decrypted, data)
decrypted = pkcs7UnPadding(decrypted)
return decrypted
}

62
cryptor/des_test.go Normal file
View File

@@ -0,0 +1,62 @@
package cryptor
import (
"testing"
"github.com/duke-git/lancet/internal"
)
func TestDesEcbEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefgh"
desEcbEncrypt := DesEcbEncrypt([]byte(data), []byte(key))
desEcbDecrypt := DesEcbDecrypt(desEcbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesEcbEncrypt")
assert.Equal(data, string(desEcbDecrypt))
}
func TestDesCbcEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefgh"
desCbcEncrypt := DesCbcEncrypt([]byte(data), []byte(key))
desCbcDecrypt := DesCbcDecrypt(desCbcEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesCbcEncrypt")
assert.Equal(data, string(desCbcDecrypt))
}
func TestDesCtrCrypt(t *testing.T) {
data := "hello world"
key := "abcdefgh"
desCtrCrypt := DesCtrCrypt([]byte(data), []byte(key))
desCtrDeCrypt := DesCtrCrypt(desCtrCrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesCtrCrypt")
assert.Equal(data, string(desCtrDeCrypt))
}
func TestDesCfbEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefgh"
desCfbEncrypt := DesCfbEncrypt([]byte(data), []byte(key))
desCfbDecrypt := DesCfbDecrypt(desCfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesCfbEncrypt")
assert.Equal(data, string(desCfbDecrypt))
}
func TestDesOfbEncrypt(t *testing.T) {
data := "hello world"
key := "abcdefgh"
desOfbEncrypt := DesOfbEncrypt([]byte(data), []byte(key))
desOfbDecrypt := DesOfbDecrypt(desOfbEncrypt, []byte(key))
assert := internal.NewAssert(t, "TestDesOfbEncrypt")
assert.Equal(data, string(desOfbDecrypt))
}

118
cryptor/rsa.go Normal file
View File

@@ -0,0 +1,118 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package cryptor implements some util functions to encrypt and decrypt.
package cryptor
import (
"crypto/rand"
"crypto/rsa"
"crypto/x509"
"encoding/pem"
"os"
)
// GenerateRsaKey make a rsa private key, and return key file name
// Generated key file is `rsa_private.pem` and `rsa_public.pem` in current path
func GenerateRsaKey(keySize int, priKeyFile, pubKeyFile string) error {
// private key
privateKey, err := rsa.GenerateKey(rand.Reader, keySize)
if err != nil {
return err
}
derText := x509.MarshalPKCS1PrivateKey(privateKey)
block := pem.Block{
Type: "rsa private key",
Bytes: derText,
}
//file,err := os.Create("rsa_private.pem")
file, err := os.Create(priKeyFile)
if err != nil {
panic(err)
}
pem.Encode(file, &block)
file.Close()
// public key
publicKey := privateKey.PublicKey
derpText, err := x509.MarshalPKIXPublicKey(&publicKey)
if err != nil {
return err
}
block = pem.Block{
Type: "rsa public key",
Bytes: derpText,
}
//file,err = os.Create("rsa_public.pem")
file, err = os.Create(pubKeyFile)
if err != nil {
return err
}
pem.Encode(file, &block)
file.Close()
return nil
}
// RsaEncrypt encrypt data with ras algorithm
func RsaEncrypt(data []byte, pubKeyFileName string) []byte {
file, err := os.Open(pubKeyFileName)
if err != nil {
panic(err)
}
fileInfo, err := file.Stat()
if err != nil {
panic(err)
}
defer file.Close()
buf := make([]byte, fileInfo.Size())
file.Read(buf)
block, _ := pem.Decode(buf)
pubInterface, err := x509.ParsePKIXPublicKey(block.Bytes)
if err != nil {
panic(err)
}
pubKey := pubInterface.(*rsa.PublicKey)
cipherText, err := rsa.EncryptPKCS1v15(rand.Reader, pubKey, data)
if err != nil {
panic(err)
}
return cipherText
}
// RsaDecrypt decrypt data with ras algorithm
func RsaDecrypt(data []byte, privateKeyFileName string) []byte {
file, err := os.Open(privateKeyFileName)
if err != nil {
panic(err)
}
fileInfo, err := file.Stat()
if err != nil {
panic(err)
}
buf := make([]byte, fileInfo.Size())
defer file.Close()
file.Read(buf)
block, _ := pem.Decode(buf)
priKey, err := x509.ParsePKCS1PrivateKey(block.Bytes)
if err != nil {
panic(err)
}
plainText, err := rsa.DecryptPKCS1v15(rand.Reader, priKey, data)
if err != nil {
panic(err)
}
return plainText
}

51
cryptor/rsa_private.pem
View File

@@ -1,51 +0,0 @@
-----BEGIN rsa private key-----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-----END rsa private key-----

51
cryptor/rsa_private_example.pem
View File

@@ -1,51 +0,0 @@
-----BEGIN rsa private key-----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-----END rsa private key-----

14
cryptor/rsa_public.pem
View File

@@ -1,14 +0,0 @@
-----BEGIN rsa public key-----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-----END rsa public key-----

14
cryptor/rsa_public_example.pem
View File

@@ -1,14 +0,0 @@
-----BEGIN rsa public key-----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-----END rsa public key-----

20
cryptor/rsa_test.go Normal file
View File

@@ -0,0 +1,20 @@
package cryptor
import (
"testing"
"github.com/duke-git/lancet/internal"
)
func TestRsaEncrypt(t *testing.T) {
err := GenerateRsaKey(4096, "rsa_private.pem", "rsa_public.pem")
if err != nil {
t.FailNow()
}
data := []byte("hello world")
encrypted := RsaEncrypt(data, "rsa_public.pem")
decrypted := RsaDecrypt(encrypted, "rsa_private.pem")
assert := internal.NewAssert(t, "TestRsaEncrypt")
assert.Equal(string(data), string(decrypted))
}

217
datastructure/hashmap/hashmap.go
View File

@@ -1,217 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure implements some data structure. hashmap structure.
package datastructure
import (
"fmt"
"hash/fnv"
"reflect"
)
var defaultMapCapacity uint64 = 1 << 10
type mapNode struct {
key any
value any
next *mapNode
}
// HashMap implements a hash map
type HashMap struct {
capacity uint64
size uint64
table []*mapNode
}
// NewHashMap return a HashMap instance
func NewHashMap() *HashMap {
return &HashMap{
capacity: defaultMapCapacity,
table: make([]*mapNode, defaultMapCapacity),
}
}
// NewHashMapWithCapacity return a HashMap instance with given size and capacity
func NewHashMapWithCapacity(size, capacity uint64) *HashMap {
return &HashMap{
size: size,
capacity: capacity,
table: make([]*mapNode, capacity),
}
}
// Get return the value of given key in hashmap
func (hm *HashMap) Get(key any) any {
hashValue := hm.hash(key)
node := hm.table[hashValue]
for node != nil {
if reflect.DeepEqual(node.key, key) {
return node.value
}
node = node.next
}
return nil
}
// GetOrDefault return the value of given key in hashmap, if not found return default value
func (hm *HashMap) GetOrDefault(key any, defaultValue any) any {
value := hm.Get(key)
if value == nil {
return defaultValue
}
return value
}
// Put new key value in hashmap
func (hm *HashMap) Put(key any, value any) {
hm.putValue(hm.hash(key), key, value)
}
func (hm *HashMap) putValue(hash uint64, key, value any) {
if hm.capacity == 0 {
hm.capacity = defaultMapCapacity
hm.table = make([]*mapNode, defaultMapCapacity)
}
node := hm.table[hash]
if node == nil {
hm.table[hash] = newMapNode(key, value)
} else if node.key == key {
hm.table[hash] = newMapNodeWithNext(key, value, node)
} else {
hm.resize()
hm.putValue(hash, value, value)
}
hm.size++
}
// Delete item by given key in hashmap
func (hm *HashMap) Delete(key any) {
hash := hm.hash(key)
node := hm.table[hash]
if node == nil {
return
}
hm.table = append(hm.table[:hash], hm.table[hash+1:]...)
hm.size--
}
// Contains checks if given key is in hashmap or not
func (hm *HashMap) Contains(key any) bool {
node := hm.table[hm.hash(key)]
for node != nil {
if reflect.DeepEqual(node.key, key) {
return true
}
node = node.next
}
return false
}
// Iterate executes iteratee funcation for every key and value pair of hashmap (random order)
func (hm *HashMap) Iterate(iteratee func(key, value any)) {
if hm.size > 0 {
for i := 0; i < len(hm.table); i++ {
item := hm.table[i]
if item != nil {
iteratee(item.key, item.value)
}
}
}
}
// FilterByValue returns a filtered HashMap.
// If any value is not matching the perdicate function then it returns nil
// otherwise it returns the HashMap with selected values.
func (hm *HashMap) FilterByValue(perdicate func(value any) bool) *HashMap {
var filteredHM *HashMap
if hm.size > 0 {
for i := 0; i < len(hm.table); i++ {
item := hm.table[i]
if item != nil && perdicate(item.value) {
if filteredHM == nil {
filteredHM = NewHashMap()
}
filteredHM.Put(item.key, item.value)
}
}
}
return filteredHM
}
// Keys returns a slice of the hashmap's keys (random order)
func (hm *HashMap) Keys() []any {
keys := make([]any, int(hm.size))
index := 0
if hm.size > 0 {
hm.Iterate(func(key, value any) {
keys[index] = key
index++
})
}
return keys
}
// Values returns a slice of the hashmap's keys (random order)
func (hm *HashMap) Values() []any {
values := make([]any, int(hm.size))
index := 0
if hm.size > 0 {
hm.Iterate(func(key, value any) {
values[index] = value
index++
})
}
return values
}
func (hm *HashMap) resize() {
hm.capacity <<= 1
tempTable := hm.table
hm.table = make([]*mapNode, hm.capacity)
for i := 0; i < len(tempTable); i++ {
node := tempTable[i]
if node == nil {
continue
}
hm.table[hm.hash(node.key)] = node
}
}
// Size returns current size of Hashmap
func (hm *HashMap) Size() uint64 {
return hm.size
}
func (hm *HashMap) hash(key any) uint64 {
h := fnv.New64a()
_, _ = h.Write([]byte(fmt.Sprintf("%v", key)))
hashValue := h.Sum64()
return (hm.capacity - 1) & (hashValue ^ (hashValue >> 16))
}
func newMapNode(key, value any) *mapNode {
return &mapNode{
key: key,
value: value,
}
}
func newMapNodeWithNext(key, value any, next *mapNode) *mapNode {
return &mapNode{
key: key,
value: value,
next: next,
}
}

128
datastructure/hashmap/hashmap_test.go
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@@ -1,128 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestHashMap_PutAndGet(t *testing.T) {
assert := internal.NewAssert(t, "TestHashMap_PutAndGet")
hm := NewHashMap()
hm.Put("abc", 3)
assert.Equal(3, hm.Get("abc"))
assert.IsNil(hm.Get("abcd"))
hm.Put("abc", 4)
assert.Equal(4, hm.Get("abc"))
}
func TestHashMap_Resize(t *testing.T) {
assert := internal.NewAssert(t, "TestHashMap_Resize")
hm := NewHashMapWithCapacity(3, 3)
for i := 0; i < 20; i++ {
hm.Put(i, 10)
}
assert.Equal(10, hm.Get(5))
}
func TestHashMap_Delete(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHashMap_Delete")
hm := NewHashMap()
hm.Put("abc", 3)
assert.Equal(3, hm.Get("abc"))
hm.Delete("abc")
assert.IsNil(hm.Get("abc"))
}
func TestHashMap_Contains(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHashMap_Contains")
hm := NewHashMap()
assert.Equal(false, hm.Contains("abc"))
hm.Put("abc", 3)
assert.Equal(true, hm.Contains("abc"))
}
func TestHashMap_KeysValues(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHashMap_KeysValues")
hm := NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
keys := hm.Keys()
values := hm.Values()
assert.Equal(3, len(values))
assert.Equal(3, len(keys))
}
func TestHashMap_Keys(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHashMap_Keys")
hm := NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
keys := hm.Keys()
assert.Equal(3, len(keys))
}
func TestHashMap_GetOrDefault(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHashMap_GetOrDefault")
hm := NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
assert.Equal(1, hm.GetOrDefault("a", 5))
assert.Equal(5, hm.GetOrDefault("d", 5))
}
func TestHashMap_FilterByValue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestHashMap_FilterByValue")
hm := NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
hm.Put("d", 4)
hm.Put("e", 5)
hm.Put("f", 6)
filteredHM := hm.FilterByValue(func(value any) bool {
return value.(int) == 1 || value.(int) == 3
})
assert.Equal(uint64(2), filteredHM.Size())
}

203
datastructure/heap/maxheap.go
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@@ -1,203 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure implements some data structure. MaxHeap is a binary max heap.
package datastructure
import (
"fmt"
"github.com/duke-git/lancet/v2/constraints"
)
// MaxHeap implements a binary max heap
// type T should implements Compare function in constraints.Comparator interface.
type MaxHeap[T any] struct {
data []T
comparator constraints.Comparator
}
// NewMaxHeap returns a MaxHeap instance with the given comparator.
func NewMaxHeap[T any](comparator constraints.Comparator) *MaxHeap[T] {
return &MaxHeap[T]{
data: make([]T, 0),
comparator: comparator,
}
}
// BuildMaxHeap builds a MaxHeap instance with data and given comparator.
func BuildMaxHeap[T any](data []T, comparator constraints.Comparator) *MaxHeap[T] {
heap := &MaxHeap[T]{
data: make([]T, 0, len(data)),
comparator: comparator,
}
for _, v := range data {
heap.Push(v)
}
return heap
}
// Push value into the heap
func (h *MaxHeap[T]) Push(value T) {
h.data = append(h.data, value)
h.heapifyUp(len(h.data) - 1)
}
// heapifyUp heapify the data from bottom to top
func (h *MaxHeap[T]) heapifyUp(i int) {
for h.comparator.Compare(h.data[parentIndex(i)], h.data[i]) < 0 {
h.swap(parentIndex(i), i)
i = parentIndex(i)
}
}
// Pop return the largest value, and remove it from the heap
// if heap is empty, return zero value and fasle
func (h *MaxHeap[T]) Pop() (T, bool) {
var val T
if h.Size() == 0 {
return val, false
}
val = h.data[0]
l := len(h.data) - 1
h.data[0] = h.data[l]
h.data = h.data[:l]
h.heapifyDown(0)
return val, true
}
// heapifyDown heapify the data from top to bottom
func (h *MaxHeap[T]) heapifyDown(i int) {
lastIndex := len(h.data) - 1
l, r := leftChildIndex(i), rightChildIndex(i)
childToCompare := 0
for l <= lastIndex {
if l == lastIndex {
childToCompare = l
} else if h.comparator.Compare(h.data[l], h.data[r]) > 0 {
childToCompare = l
} else {
childToCompare = r
}
if h.comparator.Compare(h.data[i], h.data[childToCompare]) < 0 {
h.swap(i, childToCompare)
i = childToCompare
l, r = leftChildIndex(i), rightChildIndex(i)
} else {
break
}
}
}
// Peek returns the largest element from the heap without removing it.
// if heap is empty, it returns zero value and false.
func (h *MaxHeap[T]) Peek() (T, bool) {
if h.Size() == 0 {
var val T
return val, false
}
return h.data[0], true
}
// Size return the number of elements in the heap
func (h *MaxHeap[T]) Size() int {
return len(h.data)
}
// Data return data of the heap
func (h *MaxHeap[T]) Data() []T {
return h.data
}
// PrintStructure print the structure of the heap
func (h *MaxHeap[T]) PrintStructure() {
level := 1
data := h.data
length := len(h.data)
index := 0
list := [][]string{}
temp := []string{}
for index < length {
start := powerTwo(level-1) - 1
end := start + powerTwo(level-1) - 1
temp = append(temp, fmt.Sprintf("%v", data[index]))
index++
if index > end || index >= length {
list = append(list, temp)
temp = []string{}
if index < length {
level++
}
}
}
lastNum := powerTwo(level - 1)
lastLen := lastNum + (lastNum - 1)
heapTree := make([][]string, level)
for i := 0; i < level; i++ {
heapTree[i] = make([]string, lastLen)
for j := 0; j < lastLen; j++ {
heapTree[i][j] = ""
}
}
for k := 0; k < len(list); k++ {
vals := list[k]
tempLevel := level - k
st := powerTwo(tempLevel-1) - 1
for _, v := range vals {
heapTree[k][st] = v
gap := powerTwo(tempLevel)
st = st + gap
}
}
for m := 0; m < level; m++ {
for n := 0; n < lastLen; n++ {
val := heapTree[m][n]
if val == "" {
fmt.Print(" ")
} else {
fmt.Print(val)
}
}
fmt.Println()
}
}
// parentIndex get parent index of the given index
func parentIndex(i int) int {
return (i - 1) / 2
}
// leftChildIndex get left child index of the given index
func leftChildIndex(i int) int {
return 2*i + 1
}
// rightChildIndex get right child index of the given index
func rightChildIndex(i int) int {
return 2*i + 2
}
// swap two elements in the heap
func (h *MaxHeap[T]) swap(i, j int) {
h.data[i], h.data[j] = h.data[j], h.data[i]
}
func powerTwo(n int) int {
return 1 << n
}

98
datastructure/heap/maxheap_test.go
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@@ -1,98 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
type intComparator struct{}
func (c *intComparator) Compare(v1, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func TestMaxHeap_BuildMaxHeap(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMaxHeap_BuildMaxHeap")
values := []int{6, 5, 2, 4, 7, 10, 12, 1, 3, 8, 9, 11}
heap := BuildMaxHeap(values, &intComparator{})
expected := []int{12, 9, 11, 4, 8, 10, 7, 1, 3, 5, 6, 2}
assert.Equal(expected, heap.data)
assert.Equal(12, heap.Size())
}
func TestMaxHeap_Push(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMaxHeap_Push")
heap := NewMaxHeap[int](&intComparator{})
values := []int{6, 5, 2, 4, 7, 10, 12, 1, 3, 8, 9, 11}
for _, v := range values {
heap.Push(v)
}
expected := []int{12, 9, 11, 4, 8, 10, 7, 1, 3, 5, 6, 2}
assert.Equal(expected, heap.data)
assert.Equal(12, heap.Size())
heap.PrintStructure()
}
func TestMaxHeap_Pop(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMaxHeap_Pop")
heap := NewMaxHeap[int](&intComparator{})
_, ok := heap.Pop()
assert.Equal(false, ok)
values := []int{6, 5, 2, 4, 7, 10, 12, 1, 3, 8, 9, 11}
for _, v := range values {
heap.Push(v)
}
val, ok := heap.Pop()
assert.Equal(12, val)
assert.Equal(true, ok)
assert.Equal(11, heap.Size())
}
func TestMaxHeap_Peek(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMaxHeap_Peek")
heap := NewMaxHeap[int](&intComparator{})
_, ok := heap.Peek()
assert.Equal(false, ok)
values := []int{6, 5, 2, 4, 7, 10, 12, 1, 3, 8, 9, 11}
for _, v := range values {
heap.Push(v)
}
val, ok := heap.Peek()
assert.Equal(12, val)
assert.Equal(true, ok)
assert.Equal(12, heap.Size())
}

242
datastructure/link/doublylink.go
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@@ -1,242 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. Link structure contains SinglyLink and DoublyLink.
package datastructure
import (
"fmt"
"github.com/duke-git/lancet/v2/datastructure"
)
// DoublyLink is a linked list. Whose node has a generic Value, Pre pointer points to a previous node of the dl, Next pointer points to a next node of the dl.
type DoublyLink[T any] struct {
Head *datastructure.LinkNode[T]
length int
}
// NewDoublyLink return *DoublyLink instance
func NewDoublyLink[T any]() *DoublyLink[T] {
return &DoublyLink[T]{Head: nil}
}
// InsertAtHead insert value into doubly linklist at head index
func (dl *DoublyLink[T]) InsertAtHead(value T) {
newNode := datastructure.NewLinkNode(value)
size := dl.Size()
if size == 0 {
dl.Head = newNode
dl.length++
return
}
newNode.Next = dl.Head
newNode.Pre = nil
dl.Head.Pre = newNode
dl.Head = newNode
dl.length++
}
// InsertAtTail insert value into doubly linklist at tail index
func (dl *DoublyLink[T]) InsertAtTail(value T) {
current := dl.Head
if current == nil {
dl.InsertAtHead(value)
return
}
for current.Next != nil {
current = current.Next
}
newNode := datastructure.NewLinkNode(value)
newNode.Next = nil
newNode.Pre = current
current.Next = newNode
dl.length++
}
// InsertAt insert value into doubly linklist at index
// param `index` should between [0, length], if index do not meet the conditions, do nothing
func (dl *DoublyLink[T]) InsertAt(index int, value T) {
size := dl.length
if index < 0 || index > size {
return
}
if index == 0 {
dl.InsertAtHead(value)
return
}
if index == size {
dl.InsertAtTail(value)
return
}
i := 0
current := dl.Head
for current != nil {
if i == index-1 {
newNode := datastructure.NewLinkNode(value)
newNode.Next = current.Next
newNode.Pre = current
current.Next = newNode
dl.length++
return
}
i++
current = current.Next
}
}
// DeleteAtHead delete value in doubly linklist at head index
func (dl *DoublyLink[T]) DeleteAtHead() {
if dl.Head == nil {
return
}
current := dl.Head
dl.Head = current.Next
dl.Head.Pre = nil
dl.length--
}
// DeleteAtTail delete value in doubly linklist at tail
func (dl *DoublyLink[T]) DeleteAtTail() {
if dl.Head == nil {
return
}
current := dl.Head
if current.Next == nil {
dl.DeleteAtHead()
}
for current.Next.Next != nil {
current = current.Next
}
current.Next = nil
dl.length--
}
// DeleteAt delete value in doubly linklist at index
// param `index` should be [0, len(DoublyLink)-1]
func (dl *DoublyLink[T]) DeleteAt(index int) {
if dl.Head == nil {
return
}
current := dl.Head
if current.Next == nil || index == 0 {
dl.DeleteAtHead()
}
if index == dl.length-1 {
dl.DeleteAtTail()
}
if index < 0 || index > dl.length-1 {
return
}
i := 0
for current != nil {
if i == index-1 {
current.Next = current.Next.Next
dl.length--
return
}
i++
current = current.Next
}
}
// Reverse the linked list
func (dl *DoublyLink[T]) Reverse() {
current := dl.Head
var temp *datastructure.LinkNode[T]
for current != nil {
temp = current.Pre
current.Pre = current.Next
current.Next = temp
current = current.Pre
}
if temp != nil {
dl.Head = temp.Pre
}
}
// GetMiddleNode return node at middle index of linked list
func (dl *DoublyLink[T]) GetMiddleNode() *datastructure.LinkNode[T] {
if dl.Head == nil {
return nil
}
if dl.Head.Next == nil {
return dl.Head
}
fast := dl.Head
slow := dl.Head
for fast != nil {
fast = fast.Next
if fast != nil {
fast = fast.Next
slow = slow.Next
} else {
return slow
}
}
return slow
}
// Size return the count of doubly linked list
func (dl *DoublyLink[T]) Size() int {
return dl.length
}
// Values return slice of all doubly linklist node value
func (dl *DoublyLink[T]) Values() []T {
result := make([]T, 0, dl.length)
current := dl.Head
for current != nil {
result = append(result, current.Value)
current = current.Next
}
return result
}
// Print all nodes info of a linked list
func (dl *DoublyLink[T]) Print() {
current := dl.Head
info := "[ "
for current != nil {
info += fmt.Sprintf("%+v, ", current)
current = current.Next
}
info += " ]"
fmt.Println(info)
}
// IsEmpty checks if dl is empty or not
func (dl *DoublyLink[T]) IsEmpty() bool {
return dl.length == 0
}
// Clear all nodes in doubly linklist
func (dl *DoublyLink[T]) Clear() {
dl.Head = nil
dl.length = 0
}

181
datastructure/link/doublylink_test.go
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@@ -1,181 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestDoublyLink_InsertAtFirst(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_InsertAtFirst")
link := NewDoublyLink[int]()
link.InsertAtHead(1)
link.InsertAtHead(2)
link.InsertAtHead(3)
link.Print()
expected := []int{3, 2, 1}
values := link.Values()
assert.Equal(expected, values)
}
func TestDoublyLink_InsertAtTail(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_InsertAtTail")
link := NewDoublyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.Print()
expected := []int{1, 2, 3}
values := link.Values()
assert.Equal(expected, values)
}
func TestDoublyLink_InsertAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_InsertAt")
link := NewDoublyLink[int]()
link.InsertAt(1, 1) //do nothing
link.InsertAt(0, 1)
link.InsertAt(1, 2)
link.InsertAt(2, 4)
link.InsertAt(2, 3)
expected := []int{1, 2, 3, 4}
values := link.Values()
assert.Equal(expected, values)
}
func TestDoublyLink_DeleteAtHead(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_DeleteAtHead")
link := NewDoublyLink[int]()
link.DeleteAtHead()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.DeleteAtHead()
expected := []int{2, 3, 4}
values := link.Values()
assert.Equal(expected, values)
}
func TestDoublyLink_DeleteAtTail(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_DeleteAtTail")
link := NewDoublyLink[int]()
link.DeleteAtTail()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.DeleteAtTail()
expected := []int{1, 2, 3}
values := link.Values()
assert.Equal(expected, values)
}
func TestDoublyLink_DeleteAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_DeleteAt")
link := NewDoublyLink[int]()
link.DeleteAt(0)
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.InsertAtTail(5)
link.DeleteAt(0)
assert.Equal([]int{2, 3, 4, 5}, link.Values())
link.DeleteAt(3)
assert.Equal([]int{2, 3, 4}, link.Values())
link.DeleteAt(1)
assert.Equal(2, link.Size())
assert.Equal([]int{2, 4}, link.Values())
}
func TestDoublyLink_Reverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_Reverse")
link := NewDoublyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.Reverse()
link.Print()
assert.Equal([]int{4, 3, 2, 1}, link.Values())
}
func TestDoublyLink_GetMiddleNode(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_GetMiddleNode")
link := NewDoublyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
middle1 := link.GetMiddleNode()
assert.Equal(3, middle1.Value)
link.InsertAtTail(5)
link.InsertAtTail(6)
link.InsertAtTail(7)
middle2 := link.GetMiddleNode()
assert.Equal(4, middle2.Value)
}
func TestDoublyLink_Clear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDoublyLink_Clear")
link := NewDoublyLink[int]()
assert.Equal(true, link.IsEmpty())
assert.Equal(0, link.Size())
link.InsertAtTail(1)
assert.Equal(false, link.IsEmpty())
assert.Equal(1, link.Size())
link.Clear()
assert.Equal(true, link.IsEmpty())
assert.Equal(0, link.Size())
}

245
datastructure/link/singlylink.go
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@@ -1,245 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. Link structure contains SinglyLink and DoublyLink.
package datastructure
import (
"fmt"
"reflect"
"github.com/duke-git/lancet/v2/datastructure"
)
// SinglyLink is a linked list. Whose node has a Value generics and Next pointer points to a next node of the sl.
type SinglyLink[T any] struct {
Head *datastructure.LinkNode[T]
length int
}
// NewSinglyLink return *SinglyLink instance
func NewSinglyLink[T any]() *SinglyLink[T] {
return &SinglyLink[T]{Head: nil}
}
// InsertAtHead insert value into singly linklist at head index
func (sl *SinglyLink[T]) InsertAtHead(value T) {
newNode := datastructure.NewLinkNode(value)
newNode.Next = sl.Head
sl.Head = newNode
sl.length++
}
// InsertAtTail insert value into singly linklist at tail index
func (sl *SinglyLink[T]) InsertAtTail(value T) {
current := sl.Head
if current == nil {
sl.InsertAtHead(value)
return
}
for current.Next != nil {
current = current.Next
}
newNode := datastructure.NewLinkNode(value)
newNode.Next = nil
current.Next = newNode
sl.length++
}
// InsertAt insert value into singly linklist at index
// param `index` should between [0, len(SinglyLink)], if index do not meet the conditions, do nothing
func (sl *SinglyLink[T]) InsertAt(index int, value T) {
size := sl.length
if index < 0 || index > size {
return
}
if index == 0 {
sl.InsertAtHead(value)
return
}
if index == size {
sl.InsertAtTail(value)
return
}
i := 0
current := sl.Head
for current != nil {
if i == index-1 {
newNode := datastructure.NewLinkNode(value)
newNode.Next = current.Next
current.Next = newNode
sl.length++
return
}
i++
current = current.Next
}
}
// DeleteAtHead delete value in singly linklist at head index
func (sl *SinglyLink[T]) DeleteAtHead() {
if sl.Head == nil {
return
}
current := sl.Head
sl.Head = current.Next
sl.length--
}
// DeleteAtTail delete value in singly linklist at tail
func (sl *SinglyLink[T]) DeleteAtTail() {
if sl.Head == nil {
return
}
current := sl.Head
if current.Next == nil {
sl.DeleteAtHead()
}
for current.Next.Next != nil {
current = current.Next
}
current.Next = nil
sl.length--
}
// DeleteAt delete value in singly linklist at index
// param `index` should be [0, len(SinglyLink)-1]
func (sl *SinglyLink[T]) DeleteAt(index int) {
if sl.Head == nil {
return
}
current := sl.Head
if current.Next == nil || index == 0 {
sl.DeleteAtHead()
}
if index == sl.length-1 {
sl.DeleteAtTail()
}
if index < 0 || index > sl.length-1 {
return
}
i := 0
for current != nil {
if i == index-1 {
current.Next = current.Next.Next
sl.length--
return
}
i++
current = current.Next
}
}
// DeleteValue delete value in singly linklist
func (sl *SinglyLink[T]) DeleteValue(value T) {
if sl.Head == nil {
return
}
dummyHead := datastructure.NewLinkNode(value)
dummyHead.Next = sl.Head
current := dummyHead
for current.Next != nil {
if reflect.DeepEqual(current.Next.Value, value) {
current.Next = current.Next.Next
sl.length--
} else {
current = current.Next
}
}
sl.Head = dummyHead.Next
}
// Reverse the linked list
func (sl *SinglyLink[T]) Reverse() {
var pre, next *datastructure.LinkNode[T]
current := sl.Head
for current != nil {
next = current.Next
current.Next = pre
pre = current
current = next
}
sl.Head = pre
}
// GetMiddleNode return node at middle index of linked list
func (sl *SinglyLink[T]) GetMiddleNode() *datastructure.LinkNode[T] {
if sl.Head == nil {
return nil
}
if sl.Head.Next == nil {
return sl.Head
}
fast := sl.Head
slow := sl.Head
for fast != nil {
fast = fast.Next
if fast != nil {
fast = fast.Next
slow = slow.Next
} else {
return slow
}
}
return slow
}
// Size return the count of singly linked list
func (sl *SinglyLink[T]) Size() int {
return sl.length
}
// Values return slice of all singly linklist node value
func (sl *SinglyLink[T]) Values() []T {
result := make([]T, 0, sl.length)
current := sl.Head
for current != nil {
result = append(result, current.Value)
current = current.Next
}
return result
}
// IsEmpty checks if sl is empty or not
func (sl *SinglyLink[T]) IsEmpty() bool {
return sl.length == 0
}
// Clear all the node in singly linklist
func (sl *SinglyLink[T]) Clear() {
sl.Head = nil
sl.length = 0
}
// Print all nodes info of a linked list
func (sl *SinglyLink[T]) Print() {
current := sl.Head
info := "[ "
for current != nil {
info += fmt.Sprintf("%+v, ", current)
current = current.Next
}
info += " ]"
fmt.Println(info)
}

198
datastructure/link/singlylink_test.go
View File

@@ -1,198 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestSinglyLink_InsertAtFirst(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_InsertAtFirst")
link := NewSinglyLink[int]()
link.InsertAtHead(1)
link.InsertAtHead(2)
link.InsertAtHead(3)
expected := []int{3, 2, 1}
values := link.Values()
assert.Equal(expected, values)
}
func TestSinglyLink_InsertAtTail(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_InsertAtTail")
link := NewSinglyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
expected := []int{1, 2, 3}
values := link.Values()
assert.Equal(expected, values)
}
func TestSinglyLink_InsertAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_InsertAt")
link := NewSinglyLink[int]()
link.InsertAt(1, 1) //do nothing
link.InsertAt(0, 1)
link.InsertAt(1, 2)
link.InsertAt(2, 4)
link.InsertAt(2, 3)
link.Print()
expected := []int{1, 2, 3, 4}
values := link.Values()
assert.Equal(expected, values)
}
func TestSinglyLink_DeleteAtHead(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_DeleteAtHead")
link := NewSinglyLink[int]()
link.DeleteAtHead()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.DeleteAtHead()
expected := []int{2, 3, 4}
values := link.Values()
assert.Equal(expected, values)
}
func TestSinglyLink_DeleteAtTail(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_DeleteAtTail")
link := NewSinglyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.DeleteAtTail()
expected := []int{1, 2, 3}
values := link.Values()
assert.Equal(expected, values)
}
func TestSinglyLink_DeleteValue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_DeleteValue")
link := NewSinglyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.DeleteValue(2)
assert.Equal([]int{1, 3, 4}, link.Values())
link.DeleteValue(1)
assert.Equal([]int{3, 4}, link.Values())
}
func TestSinglyLink_DeleteAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_DeleteAt")
link := NewSinglyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.InsertAtTail(5)
link.DeleteAt(0)
assert.Equal([]int{2, 3, 4, 5}, link.Values())
link.DeleteAt(3)
assert.Equal([]int{2, 3, 4}, link.Values())
link.DeleteAt(1)
assert.Equal(2, link.Size())
assert.Equal([]int{2, 4}, link.Values())
}
func TestSinglyLink_Reverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_Reverse")
link := NewSinglyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
link.Reverse()
assert.Equal([]int{4, 3, 2, 1}, link.Values())
}
func TestSinglyLink_GetMiddleNode(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSinglyLink_GetMiddleNode")
link := NewSinglyLink[int]()
link.InsertAtTail(1)
link.InsertAtTail(2)
link.InsertAtTail(3)
link.InsertAtTail(4)
middle1 := link.GetMiddleNode()
assert.Equal(3, middle1.Value)
link.InsertAtTail(5)
link.InsertAtTail(6)
link.InsertAtTail(7)
middle2 := link.GetMiddleNode()
assert.Equal(4, middle2.Value)
}
func TestSinglyLink_Clear(t *testing.T) {
assert := internal.NewAssert(t, "TestSinglyLink_Clear")
link := NewSinglyLink[int]()
assert.Equal(true, link.IsEmpty())
assert.Equal(0, link.Size())
link.InsertAtTail(1)
assert.Equal(false, link.IsEmpty())
assert.Equal(1, link.Size())
link.Clear()
assert.Equal(true, link.IsEmpty())
assert.Equal(0, link.Size())
}

379
datastructure/list/copyonwritelist.go
View File

@@ -1,379 +0,0 @@
package datastructure
import (
"reflect"
"sort"
"sync"
)
type CopyOnWriteList[T any] struct {
data []T
lock sync.Locker
}
// NewCopyOnWriteList Creates an empty list.
func NewCopyOnWriteList[T any](data []T) *CopyOnWriteList[T] {
return &CopyOnWriteList[T]{data: data, lock: &sync.RWMutex{}}
}
func (c *CopyOnWriteList[T]) getList() []T {
return c.data
}
func (c *CopyOnWriteList[T]) setList(data []T) {
c.data = data
}
// Size returns the number of elements in this list.
func (c *CopyOnWriteList[T]) Size() int {
return len(c.getList())
}
// IsEmpty returns true if this list contains no elements.
func (c *CopyOnWriteList[T]) IsEmpty() bool {
return c.Size() == 0
}
// Contain returns true if this list contains the specified element.
func (c *CopyOnWriteList[T]) Contain(e T) bool {
list := c.getList()
return indexOf(e, list, 0, c.Size()) >= 0
}
// ValueOf returns the index of the first occurrence of the specified element in this list, or null if this list does not contain the element.
func (c *CopyOnWriteList[T]) ValueOf(index int) (*T, bool) {
list := c.getList()
if index < 0 || index >= len(c.data) {
return nil, false
}
return get(list, index), true
}
// IndexOf returns the index of the first occurrence of the specified element in this list, or -1 if this list does not contain the element.
func (c *CopyOnWriteList[T]) IndexOf(e T) int {
list := c.getList()
return indexOf(e, list, 0, c.Size())
}
// indexOf returns the index of the first occurrence of the specified element in this list, or -1 if this list does not contain the element.
// start the start position of the search (inclusive)
// end the end position of the search (exclusive)
func indexOf[T any](o T, e []T, start int, end int) int {
if start >= end {
return -1
}
for i := start; i < end; i++ {
if reflect.DeepEqual(e[i], o) {
return i
}
}
return -1
}
// LastIndexOf returns the index of the last occurrence of the specified element in this list, or -1 if this list does not contain the element.
func (c *CopyOnWriteList[T]) LastIndexOf(e T) int {
list := c.getList()
return lastIndexOf(e, list, 0, c.Size())
}
// lastIndexOf returns the index of the last occurrence of the specified element in this list, or -1 if this list does not contain the element.
// start the start position of the search (inclusive)
// end the end position of the search (exclusive)
func lastIndexOf[T any](o T, e []T, start int, end int) int {
if start >= end {
return -1
}
for i := end - 1; i >= start; i-- {
if reflect.DeepEqual(e[i], o) {
return i
}
}
return -1
}
// LastIndexOfFunc returns the index of the last occurrence of the value in this list satisfying the
// functional predicate f(T) bool
// if not found return -1.
func (l *CopyOnWriteList[T]) LastIndexOfFunc(f func(T) bool) int {
index := -1
data := l.getList()
for i := len(data) - 1; i >= 0; i-- {
if f(data[i]) {
index = i
break
}
}
return index
}
// IndexOfFunc returns the first index satisfying the functional predicate f(v) bool
// if not found return -1.
func (l *CopyOnWriteList[T]) IndexOfFunc(f func(T) bool) int {
index := -1
data := l.getList()
for i, v := range data {
if f(v) {
index = i
break
}
}
return index
}
// get returns the element at the specified position in this list.
func get[T any](o []T, index int) *T {
return &o[index]
}
// Get returns the element at the specified position in this list.
func (c *CopyOnWriteList[T]) Get(index int) *T {
list := c.getList()
if index < 0 || index >= len(list) {
return nil
}
return get(list, index)
}
func (c *CopyOnWriteList[T]) set(index int, e T) (oldValue *T) {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
oldValue = get(list, index)
if reflect.DeepEqual(oldValue, e) {
c.setList(list)
} else {
newList := make([]T, len(list))
copy(newList, list)
newList[index] = e
c.setList(newList)
}
return
}
// Set replaces the element at the specified position in this list with the specified element.
func (c *CopyOnWriteList[T]) Set(index int, e T) (oldValue *T, ok bool) {
list := c.getList()
if index < 0 || index >= len(list) {
return oldValue, false
}
return c.set(index, e), true
}
// Add appends the specified element to the end of this list.
func (c *CopyOnWriteList[T]) Add(e T) bool {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
newList := make([]T, len(list)+1)
copy(newList, list)
newList[len(list)] = e
c.setList(newList)
return true
}
// AddAll appends all the elements in the specified collection to the end of this list
func (c *CopyOnWriteList[T]) AddAll(e []T) bool {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
newList := make([]T, len(list)+len(e))
copy(newList, list)
copy(newList[len(list):], e)
c.setList(newList)
return true
}
// AddByIndex inserts the specified element at the specified position in this list.
func (c *CopyOnWriteList[T]) AddByIndex(index int, e T) bool {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
length := len(list)
if index < 0 || index > length {
return false
}
var newList []T
var numMove = length - index
if numMove == 0 {
newList = make([]T, length+1)
copy(newList, list)
} else {
newList = make([]T, length+1)
copy(newList, list[:index])
copy(newList[index+1:], list[index:])
}
newList[index] = e
c.setList(newList)
return true
}
// delete removes the element at the specified position in this list.
func (c *CopyOnWriteList[T]) delete(index int) *T {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
length := len(list)
oldValue := get(list, index)
numMove := length - index - 1
var newList []T
if numMove == 0 {
newList = make([]T, length-1)
copy(newList, list[:index])
} else {
newList = make([]T, length-1)
copy(newList, list[:index])
copy(newList[index:], list[index+1:])
}
c.setList(newList)
return oldValue
}
// DeleteAt removes the element at the specified position in this list.
func (c *CopyOnWriteList[T]) DeleteAt(index int) (*T, bool) {
list := c.getList()
if index < 0 || index >= len(list) {
return nil, false
}
return c.delete(index), true
}
// DeleteBy removes the first occurrence of the specified element from this list, if it is present.
func (c *CopyOnWriteList[T]) DeleteBy(o T) (*T, bool) {
list := c.getList()
index := indexOf(o, list, 0, len(list))
if index == -1 {
return nil, false
}
return c.delete(index), true
}
// DeleteRange removes from this list all the elements whose index is between fromIndex, inclusive, and toIndex, exclusive.
// left close and right open
func (c *CopyOnWriteList[T]) DeleteRange(start int, end int) {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
length := len(list)
if start < 0 || end > length || start > end {
return
}
var newList []T
numMove := length - end
if numMove == 0 {
newList = make([]T, length-(end-start))
copy(newList, list[:start])
} else {
newList = make([]T, length-(end-start))
copy(newList, list[:start])
copy(newList[start:], list[end:])
}
c.setList(newList)
}
// DeleteIf removes all the elements of this collection that satisfy the given predicate.
func (c *CopyOnWriteList[T]) DeleteIf(f func(T) bool) {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
length := len(list)
var newList []T
for i := 0; i < length; i++ {
if !f(list[i]) {
newList = append(newList, list[i])
}
}
c.setList(newList)
}
// Equal returns true if the specified object is equal to this list.
func (c *CopyOnWriteList[T]) Equal(other *[]T) bool {
if other == nil {
return false
}
if c.Size() != len(*other) {
return false
}
list := c.getList()
otherList := NewCopyOnWriteList(*other).getList()
for i := 0; i < len(list); i++ {
if !reflect.DeepEqual(list[i], otherList[i]) {
return false
}
}
return true
}
// Clear removes all the elements from this list.
func (c *CopyOnWriteList[T]) Clear() {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
list = make([]T, 0)
c.setList(list)
}
// Merge a tow list to one, change the list
func (c *CopyOnWriteList[T]) Merge(other []T) {
lock := c.lock
lock.Lock()
defer lock.Unlock()
list := c.getList()
list = append(list, other...)
c.setList(list)
}
// ForEach performs the given action for each element of the Iterable until all elements have been processed
// or the action throws an exception.
func (c *CopyOnWriteList[T]) ForEach(f func(T)) {
list := c.getList()
for i := 0; i < len(list); i++ {
f(list[i])
}
}
// Sort sorts this list according to the order induced by the specified Comparator.
func (c *CopyOnWriteList[T]) Sort(compare func(o1 T, o2 T) bool) {
lock := c.lock
lock.Lock()
list := c.getList()
sort.Slice(list, func(i, j int) bool {
return compare(list[i], list[j])
})
c.setList(list)
}
func (c *CopyOnWriteList[T]) SubList(start int, end int) (newList []T) {
lock := c.lock
lock.Lock()
list := c.getList()
length := len(list)
defer lock.Unlock()
if start < 0 || end > length || start > end {
return []T{}
}
newList = make([]T, end-start)
copy(newList, list[start:end])
c.setList(newList)
return
}

268
datastructure/list/copyonwritelist_test.go
View File

@@ -1,268 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestCopyOnWriteList_ValueOf(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_IndexOf")
of, ok := list.ValueOf(3)
assert.Equal(4, *of)
assert.Equal(true, ok)
_, ok = list.ValueOf(6)
assert.Equal(false, ok)
}
func TestCopyOnWriteList_Contain(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_Contains")
assert.Equal(true, list.Contain(3))
}
func TestCopyOnWriteList_IsEmpty(t *testing.T) {
list := NewCopyOnWriteList([]int{})
assert := internal.NewAssert(t, "CopyOnWriteList_IsEmpty")
assert.Equal(true, list.IsEmpty())
}
func TestCopyOnWriteList_Size(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_size")
assert.Equal(5, list.Size())
}
func TestCopyOnWriteList_GetList(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_GetList")
assert.Equal([]int{1, 2, 3, 4, 5}, list.getList())
}
func TestCopyOnWriteList_Get(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_Get")
i := list.Get(2)
assert.Equal(3, *i)
}
func TestCopyOnWriteList_Set(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_Set")
list.Set(2, 6)
assert.Equal(6, list.getList()[2])
list = NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
list.Set(0, 6)
assert.Equal(6, list.getList()[0])
list = NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
list.Set(0, 1)
assert.Equal(1, list.getList()[0])
}
func TestCopyOnWriteList_Add(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_Add")
list.Add(6)
assert.Equal([]int{1, 2, 3, 4, 5, 6}, list.getList())
}
func TestCopyOnWriteList_AddAll(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_AddAll")
list.AddAll([]int{6, 7, 8})
assert.Equal([]int{1, 2, 3, 4, 5, 6, 7, 8}, list.getList())
}
func TestCopyOnWriteList_AddByIndex(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_AddByIndex")
list.AddByIndex(2, 6)
assert.Equal([]int{1, 2, 6, 3, 4, 5}, list.getList())
list = NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
list.AddByIndex(0, 6)
assert.Equal([]int{6, 1, 2, 3, 4, 5}, list.getList())
list = NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
list.AddByIndex(5, 6)
assert.Equal([]int{1, 2, 3, 4, 5, 6}, list.getList())
}
func TestCopyOnWriteList_DeleteAt2(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_RemoveByIndex")
list.DeleteAt(2)
assert.Equal([]int{1, 2, 4, 5}, list.getList())
list = NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
list.DeleteAt(4)
assert.Equal([]int{1, 2, 3, 4}, list.getList())
}
func TestCopyOnWriteList_RemoveByValue(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_RemoveByValue")
list.DeleteBy(3)
assert.Equal([]int{1, 2, 4, 5}, list.getList())
}
func TestCopyOnWriteList_DeleteRange(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
assert := internal.NewAssert(t, "CopyOnWriteList_RemoveRange")
list.DeleteRange(1, 3)
assert.Equal([]int{1, 4, 5}, list.getList())
list = NewCopyOnWriteList([]int{1, 2, 3, 4, 5})
list.DeleteRange(0, 5)
assert.Equal([]int{}, list.getList())
}
func TestCopyOnWriteList_LastIndexOf(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3})
assert := internal.NewAssert(t, "CopyOnWriteList_LastIndexOf")
assert.Equal(5, list.LastIndexOf(3))
}
func TestCopyOnWriteList_DeleteAt(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3})
assert := internal.NewAssert(t, "CopyOnWriteList_DeleteAt")
list.DeleteAt(2)
assert.Equal([]int{1, 2, 4, 5, 3}, list.getList())
}
func TestCopyOnWriteList_DeleteBy(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3})
assert := internal.NewAssert(t, "CopyOnWriteList_DeleteBy")
list.DeleteBy(3)
assert.Equal([]int{1, 2, 4, 5, 3}, list.getList())
}
func TestCopyOnWriteList_DeleteIf(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3, 6})
assert := internal.NewAssert(t, "CopyOnWriteList_DeleteIf")
list.DeleteIf(func(i int) bool {
return i%2 == 0
})
assert.Equal([]int{1, 3, 5, 3}, list.getList())
}
func TestCopyOnWriteList_Equal(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3, 6})
assert := internal.NewAssert(t, "CopyOnWriteList_Equal")
assert.Equal(true, list.Equal(&[]int{1, 2, 3, 4, 5, 3, 6}))
}
func TestCopyOnWriteList_ForEach(t *testing.T) {
testList := make([]int, 0)
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3, 6})
assert := internal.NewAssert(t, "CopyOnWriteList_ForEach")
list.ForEach(func(i int) {
testList = append(testList, i)
})
assert.Equal([]int{1, 2, 3, 4, 5, 3, 6}, testList)
list.ForEach(func(i int) {
list.Add(i)
})
assert.Equal([]int{1, 2, 3, 4, 5, 3, 6, 1, 2, 3, 4, 5, 3, 6}, list.getList())
}
func TestCopyOnWriteList_Clear(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 2, 3, 4, 5, 3, 6})
assert := internal.NewAssert(t, "CopyOnWriteList_Clear")
list.Clear()
assert.Equal([]int{}, list.getList())
}
func TestCopyOnWriteList_Merge(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 3, 5, 7, 9})
assert := internal.NewAssert(t, "CopyOnWriteList_Merge")
list.Merge([]int{2, 4, 6, 8, 10})
assert.Equal([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10}, list.getList())
}
func TestCopyOnWriteList_Sort(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
assert := internal.NewAssert(t, "CopyOnWriteList_Sort")
list.Sort(func(i, j int) bool {
return i < j
})
assert.Equal([]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, list.getList())
}
func TestCopyOnWriteList_IndexOf(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
assert := internal.NewAssert(t, "CopyOnWriteList_IndexOf")
assert.Equal(0, list.IndexOf(1))
assert.Equal(9, list.IndexOf(10))
assert.Equal(-1, list.IndexOf(11))
}
func TestCopyOnWriteList_SubList(t *testing.T) {
list := NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
assert := internal.NewAssert(t, "CopyOnWriteList_SubList")
list = NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
subList := list.SubList(1, 3)
assert.Equal([]int{3, 5}, subList)
list = NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
subList = list.SubList(1, 1)
assert.Equal([]int{}, subList)
list = NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
assert.Equal(10, list.Size())
subList = list.SubList(1, 10)
assert.Equal([]int{3, 5, 7, 9, 2, 4, 6, 8, 10}, subList)
list = NewCopyOnWriteList([]int{1, 3, 5, 7, 9, 2, 4, 6, 8, 10})
subList = list.SubList(11, 1)
assert.Equal([]int{}, subList)
}
func TestCopyOnWriteListIndexOfFunc(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIndexOfFunc")
list := NewCopyOnWriteList([]int{1, 2, 3})
i := list.IndexOfFunc(func(a int) bool { return a == 1 })
assert.Equal(0, i)
i = list.IndexOfFunc(func(a int) bool { return a == 4 })
assert.Equal(-1, i)
}
func TestNewCopyOnWriteListLastIndexOfFunc(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLastIndexOfFunc")
list := NewCopyOnWriteList([]int{1, 2, 3, 3, 3, 3, 4, 5, 6, 9})
i := list.LastIndexOfFunc(func(a int) bool { return a == 3 })
assert.Equal(5, i)
i = list.LastIndexOfFunc(func(a int) bool { return a == 10 })
assert.Equal(-1, i)
i = list.LastIndexOfFunc(func(a int) bool { return a == 4 })
assert.Equal(6, i)
i = list.LastIndexOfFunc(func(a int) bool { return a == 1 })
assert.Equal(0, i)
}

418
datastructure/list/list.go
View File

@@ -1,418 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. list is a linear table, implemented with slice.
package datastructure
import (
"reflect"
"github.com/duke-git/lancet/v2/iterator"
)
// List is a linear table, implemented with slice.
type List[T any] struct {
data []T
}
// NewList return a pointer of List.
func NewList[T any](data []T) *List[T] {
return &List[T]{data: data}
}
// Data return list data.
func (l *List[T]) Data() []T {
return l.data
}
// ValueOf return the value pointer at index of list data.
func (l *List[T]) ValueOf(index int) (*T, bool) {
if index < 0 || index >= len(l.data) {
return nil, false
}
return &l.data[index], true
}
// IndexOf returns the index of value. if not found return -1.
func (l *List[T]) IndexOf(value T) int {
index := -1
data := l.data
for i, v := range data {
if reflect.DeepEqual(v, value) {
index = i
break
}
}
return index
}
// LastIndexOf returns the index of the last occurrence of the value in this list.
// if not found return -1.
func (l *List[T]) LastIndexOf(value T) int {
index := -1
data := l.data
for i := len(data) - 1; i >= 0; i-- {
if reflect.DeepEqual(data[i], value) {
index = i
break
}
}
return index
}
// IndexOfFunc returns the first index satisfying f(v)
// if not found return -1.
func (l *List[T]) IndexOfFunc(f func(T) bool) int {
index := -1
data := l.data
for i, v := range data {
if f(v) {
index = i
break
}
}
return index
}
// LastIndexOfFunc returns the index of the last occurrence of the value in this list satisfying f(data[i])
// if not found return -1.
func (l *List[T]) LastIndexOfFunc(f func(T) bool) int {
index := -1
data := l.data
for i := len(data) - 1; i >= 0; i-- {
if f(data[i]) {
index = i
break
}
}
return index
}
// Contain checks if the value in the list or not.
func (l *List[T]) Contain(value T) bool {
data := l.data
for _, v := range data {
if reflect.DeepEqual(v, value) {
return true
}
}
return false
}
// Push append value to the list data.
func (l *List[T]) Push(value T) {
l.data = append(l.data, value)
}
// InsertAtFirst insert value into list at first index.
func (l *List[T]) InsertAtFirst(value T) {
l.InsertAt(0, value)
}
// InsertAtLast insert value into list at last index.
func (l *List[T]) InsertAtLast(value T) {
l.InsertAt(len(l.data), value)
}
// InsertAt insert value into list at index.
func (l *List[T]) InsertAt(index int, value T) {
data := l.data
size := len(data)
if index < 0 || index > size {
return
}
l.data = append(data[:index], append([]T{value}, data[index:]...)...)
}
// PopFirst delete the first value of list and return it.
func (l *List[T]) PopFirst() (*T, bool) {
if len(l.data) == 0 {
return nil, false
}
v := l.data[0]
l.DeleteAt(0)
return &v, true
}
// PopLast delete the last value of list and return it.
func (l *List[T]) PopLast() (*T, bool) {
size := len(l.data)
if size == 0 {
return nil, false
}
v := l.data[size-1]
l.DeleteAt(size - 1)
return &v, true
}
// DeleteAt delete the value of list at index.
func (l *List[T]) DeleteAt(index int) {
data := l.data
size := len(data)
if index < 0 || index > size-1 {
return
}
if index == size-1 {
data = data[:index]
} else {
data = append(data[:index], data[index+1:]...)
}
l.data = data
}
// DeleteIf delete all satisfying f(data[i]), returns count of removed elements
func (l *List[T]) DeleteIf(f func(T) bool) int {
data := l.data
size := len(data)
var c int
for index := 0; index < len(data); index++ {
if !f(data[index]) {
continue
}
if index == size-1 {
data = data[:index]
} else {
data = append(data[:index], data[index+1:]...)
index--
}
c++
}
if c > 0 {
l.data = data
}
return c
}
// UpdateAt update value of list at index, index shoud between 0 and list size -1
func (l *List[T]) UpdateAt(index int, value T) {
data := l.data
size := len(data)
if index < 0 || index >= size {
return
}
l.data = append(data[:index], append([]T{value}, data[index+1:]...)...)
}
// Equal compare list to other list, use reflect.DeepEqual.
func (l *List[T]) Equal(other *List[T]) bool {
if len(l.data) != len(other.data) {
return false
}
for i := 0; i < len(l.data); i++ {
if !reflect.DeepEqual(l.data[i], other.data[i]) {
return false
}
}
return true
}
// IsEmpty check if the list is empty or not.
func (l *List[T]) IsEmpty() bool {
return len(l.data) == 0
}
// Clear the data of list.
func (l *List[T]) Clear() {
l.data = make([]T, 0)
}
// Clone return a copy of list.
func (l *List[T]) Clone() *List[T] {
cl := NewList(make([]T, len(l.data)))
copy(cl.data, l.data)
return cl
}
// Merge two list, return new list, don't change original list.
func (l *List[T]) Merge(other *List[T]) *List[T] {
l1, l2 := len(l.data), len(other.data)
ml := NewList(make([]T, l1+l2))
data := append([]T{}, append(l.data, other.data...)...)
ml.data = data
return ml
}
// Size return number of list data items.
func (l *List[T]) Size() int {
return len(l.data)
}
// Cap return cap of the inner data.
func (l *List[T]) Cap() int {
return cap(l.data)
}
// Swap the value of index i and j in list.
func (l *List[T]) Swap(i, j int) {
size := len(l.data)
if i < 0 || i >= size || j < 0 || j >= size {
return
}
l.data[i], l.data[j] = l.data[j], l.data[i]
}
// Reverse the item order of list.
func (l *List[T]) Reverse() {
for i, j := 0, len(l.data)-1; i < j; i, j = i+1, j-1 {
l.data[i], l.data[j] = l.data[j], l.data[i]
}
}
// Unique delete duplicate items in list.
func (l *List[T]) Unique() {
data := l.data
size := len(data)
uniqueData := make([]T, 0)
for i := 0; i < size; i++ {
value := data[i]
skip := true
for _, v := range uniqueData {
if reflect.DeepEqual(value, v) {
skip = false
break
}
}
if skip {
uniqueData = append(uniqueData, value)
}
}
l.data = uniqueData
}
// Union creates a new list contain all element in list l and other, delete duplicate element.
func (l *List[T]) Union(other *List[T]) *List[T] {
result := NewList([]T{})
result.data = append(result.data, l.data...)
result.data = append(result.data, other.data...)
result.Unique()
return result
}
// Intersection creates a new list whose element both be contained in list l and other.
func (l *List[T]) Intersection(other *List[T]) *List[T] {
result := NewList(make([]T, 0))
for _, v := range l.data {
if other.Contain(v) {
result.data = append(result.data, v)
}
}
return result
}
// Difference returns the difference between two collections.
// return a list whose element in the original list, not in the given list.
func (l *List[T]) Difference(other *List[T]) *List[T] {
result := NewList(make([]T, 0))
intersectList := l.Intersection(other)
for _, v := range l.data {
if !intersectList.Contain(v) {
result.data = append(result.data, v)
}
}
return result
}
// SymmetricDifference oppoiste operation of intersection function.
func (l *List[T]) SymmetricDifference(other *List[T]) *List[T] {
result := NewList(make([]T, 0))
intersectList := l.Intersection(other)
for _, v := range l.data {
if !intersectList.Contain(v) {
result.data = append(result.data, v)
}
}
for _, v := range other.data {
if !intersectList.Contain(v) {
result.data = append(result.data, v)
}
}
return result
}
// SubList returns a sub list of the original list between the specified fromIndex, inclusive, and toIndex, exclusive.
func (l *List[T]) SubList(fromIndex, toIndex int) *List[T] {
data := l.data[fromIndex:toIndex]
subList := make([]T, len(data))
copy(subList, data)
return NewList(subList)
}
// ForEach performs the given action for each element of the list.
func (l *List[T]) ForEach(consumer func(T)) {
for _, it := range l.data {
consumer(it)
}
}
// RetainAll retains only the elements in this list that are contained in the given list.
func (l *List[T]) RetainAll(list *List[T]) bool {
return l.batchRemove(list, true)
}
// DeleteAll removes from this list all of its elements that are contained in the given list.
func (l *List[T]) DeleteAll(list *List[T]) bool {
return l.batchRemove(list, false)
}
func (l *List[T]) batchRemove(list *List[T], complement bool) bool {
var (
w = 0
data = l.data
size = len(data)
)
for i := 0; i < size; i++ {
if list.Contain(data[i]) == complement {
data[w] = data[i]
w++
}
}
if w != size {
l.data = data[:w]
return true
}
return false
}
// Iterator returns an iterator over the elements in this list in proper sequence.
func (l *List[T]) Iterator() iterator.Iterator[T] {
return iterator.FromSlice(l.data)
}
// ListToMap convert a list to a map based on iteratee function.
func ListToMap[T any, K comparable, V any](list *List[T], iteratee func(T) (K, V)) map[K]V {
result := make(map[K]V, list.Size())
for _, item := range list.data {
k, v := iteratee(item)
result[k] = v
}
return result
}

531
datastructure/list/list_test.go
View File

@@ -1,531 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestListData(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestListData")
list := NewList([]int{1, 2, 3})
assert.Equal([]int{1, 2, 3}, list.Data())
}
func TestValueOf(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestValueOf")
list := NewList([]int{1, 2, 3})
v, ok := list.ValueOf(0)
assert.Equal(1, *v)
assert.Equal(true, ok)
_, ok = list.ValueOf(3)
assert.Equal(false, ok)
}
func TestIndexOf(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIndexOf")
list := NewList([]int{1, 2, 3})
i := list.IndexOf(1)
assert.Equal(0, i)
i = list.IndexOf(4)
assert.Equal(-1, i)
}
func TestIndexOfFunc(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIndexOf")
list := NewList([]int{1, 2, 3})
i := list.IndexOfFunc(func(a int) bool { return a == 1 })
assert.Equal(0, i)
i = list.IndexOfFunc(func(a int) bool { return a == 4 })
assert.Equal(-1, i)
}
func TestLastIndexOf(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIndexOf")
list := NewList([]int{1, 2, 3, 3, 3, 3, 4, 5, 6, 9})
i := list.LastIndexOf(3)
assert.Equal(5, i)
i = list.LastIndexOf(10)
assert.Equal(-1, i)
i = list.LastIndexOf(4)
assert.Equal(6, i)
i = list.LastIndexOf(1)
assert.Equal(0, i)
}
func TestLastIndexOfFunc(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIndexOf")
list := NewList([]int{1, 2, 3, 3, 3, 3, 4, 5, 6, 9})
i := list.LastIndexOfFunc(func(a int) bool { return a == 3 })
assert.Equal(5, i)
i = list.LastIndexOfFunc(func(a int) bool { return a == 10 })
assert.Equal(-1, i)
i = list.LastIndexOfFunc(func(a int) bool { return a == 4 })
assert.Equal(6, i)
i = list.LastIndexOfFunc(func(a int) bool { return a == 1 })
assert.Equal(0, i)
}
func TestContain(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestContain")
list := NewList([]int{1, 2, 3})
assert.Equal(true, list.Contain(1))
assert.Equal(false, list.Contain(0))
}
func TestPush(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestPush")
list := NewList([]int{1, 2, 3})
list.Push(4)
assert.Equal([]int{1, 2, 3, 4}, list.Data())
}
func TestInsertAtFirst(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestInsertAtFirst")
list := NewList([]int{1, 2, 3})
list.InsertAtFirst(0)
assert.Equal([]int{0, 1, 2, 3}, list.Data())
}
func TestInsertAtLast(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestInsertAtLast")
list := NewList([]int{1, 2, 3})
list.InsertAtLast(4)
assert.Equal([]int{1, 2, 3, 4}, list.Data())
}
func TestInsertAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestInsertAt")
list := NewList([]int{1, 2, 3})
list.InsertAt(-1, 0)
assert.Equal([]int{1, 2, 3}, list.Data())
list.InsertAt(4, 0)
assert.Equal([]int{1, 2, 3}, list.Data())
list.InsertAt(0, 0)
assert.Equal([]int{0, 1, 2, 3}, list.Data())
list.InsertAt(4, 4)
assert.Equal([]int{0, 1, 2, 3, 4}, list.Data())
}
func TestPopFirst(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestPopFirst")
list := NewList([]int{1, 2, 3})
v, ok := list.PopFirst()
assert.Equal(1, *v)
assert.Equal(true, ok)
assert.Equal([]int{2, 3}, list.Data())
list2 := NewList([]int{})
_, ok = list2.PopFirst()
assert.Equal(false, ok)
assert.Equal([]int{}, list2.Data())
}
func TestPopLast(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestPopLast")
list := NewList([]int{1, 2, 3})
v, ok := list.PopLast()
assert.Equal(3, *v)
assert.Equal(true, ok)
assert.Equal([]int{1, 2}, list.Data())
list2 := NewList([]int{})
_, ok = list2.PopLast()
assert.Equal(false, ok)
assert.Equal([]int{}, list2.Data())
}
func TestDeleteAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDeleteAt")
list := NewList([]int{1, 2, 3, 4})
list.DeleteAt(-1)
assert.Equal([]int{1, 2, 3, 4}, list.Data())
list.DeleteAt(4)
assert.Equal([]int{1, 2, 3, 4}, list.Data())
list.DeleteAt(0)
assert.Equal([]int{2, 3, 4}, list.Data())
list.DeleteAt(2)
assert.Equal([]int{2, 3}, list.Data())
}
func TestUpdateAt(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestUpdateAt")
list := NewList([]int{1, 2, 3, 4})
list.UpdateAt(-1, 0)
assert.Equal([]int{1, 2, 3, 4}, list.Data())
list.UpdateAt(4, 0)
assert.Equal([]int{1, 2, 3, 4}, list.Data())
list.UpdateAt(0, 5)
assert.Equal([]int{5, 2, 3, 4}, list.Data())
list.UpdateAt(3, 1)
assert.Equal([]int{5, 2, 3, 1}, list.Data())
}
func TestEqual(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEqual")
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{1, 2, 3, 4})
list3 := NewList([]int{1, 2, 3})
assert.Equal(true, list1.Equal(list2))
assert.Equal(false, list1.Equal(list3))
}
func TestIsEmpty(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIsEmpty")
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{})
assert.Equal(false, list1.IsEmpty())
assert.Equal(true, list2.IsEmpty())
}
func TestIsClear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIsClear")
list1 := NewList([]int{1, 2, 3, 4})
list1.Clear()
empty := NewList([]int{})
assert.Equal(empty, list1)
}
func TestClone(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestClone")
list1 := NewList([]int{1, 2, 3, 4})
list2 := list1.Clone()
assert.Equal(true, list1.Equal(list2))
}
func TestMerge(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMerge")
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{4, 5, 6})
expected := NewList([]int{1, 2, 3, 4, 4, 5, 6})
list3 := list1.Merge(list2)
assert.Equal(true, expected.Equal(list3))
}
func TestSize(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSize")
list := NewList([]int{1, 2, 3, 4})
empty := NewList([]int{})
assert.Equal(4, list.Size())
assert.Equal(0, empty.Size())
}
func TestCap(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCap")
data := make([]int, 0, 100)
list := NewList(data)
assert.Equal(100, list.Cap())
data = make([]int, 0)
list = NewList(data)
assert.Equal(0, list.Cap())
}
func TestSwap(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSwap")
list := NewList([]int{1, 2, 3, 4})
expected := NewList([]int{4, 2, 3, 1})
list.Swap(0, 3)
assert.Equal(true, expected.Equal(list))
}
func TestReverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestReverse")
list := NewList([]int{1, 2, 3, 4})
expected := NewList([]int{4, 3, 2, 1})
list.Reverse()
assert.Equal(true, expected.Equal(list))
}
func TestUnique(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestUnique")
list := NewList([]int{1, 2, 2, 3, 4})
expected := NewList([]int{1, 2, 3, 4})
list.Unique()
assert.Equal(true, expected.Equal(list))
}
func TestUnion(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestUnion")
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{4, 5, 6})
expected := NewList([]int{1, 2, 3, 4, 5, 6})
list3 := list1.Union(list2)
assert.Equal(true, expected.Equal(list3))
}
func TestIntersection(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIntersection")
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{4, 5, 6})
expected := NewList([]int{4})
list3 := list1.Intersection(list2)
assert.Equal(true, expected.Equal(list3))
}
func TestDifference(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDifference")
list1 := NewList([]int{1, 2, 3})
list2 := NewList([]int{1, 2, 4})
expected := NewList([]int{3})
list3 := list1.Difference(list2)
assert.Equal(true, expected.Equal(list3))
}
func TestSymmetricDifference(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSymmetricDifference")
list1 := NewList([]int{1, 2, 3})
list2 := NewList([]int{1, 2, 4})
expected := NewList([]int{3, 4})
list3 := list1.SymmetricDifference(list2)
assert.Equal(true, expected.Equal(list3))
}
func TestSubSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSubSlice")
list := NewList([]int{1, 2, 3, 4, 5, 8})
subList := list.SubList(2, 5)
assert.Equal([]int{3, 4, 5}, subList.Data())
}
func BenchmarkSubSlice(b *testing.B) {
list := NewList([]int{1, 2, 3, 4, 5, 8})
for n := 0; n < b.N; n++ {
list.SubList(2, 5)
}
}
func TestDeleteIf(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDeleteIf")
list := NewList([]int{1, 1, 1, 1, 2, 3, 1, 1, 4, 1, 1, 1, 1, 1, 1})
count := list.DeleteIf(func(a int) bool { return a == 1 })
assert.Equal([]int{2, 3, 4}, list.Data())
assert.Equal(12, count)
count = list.DeleteIf(func(a int) bool { return a == 5 })
assert.Equal([]int{2, 3, 4}, list.Data())
assert.Equal(0, count)
}
func TestForEach(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestForEach")
list := NewList([]int{1, 2, 3, 4})
rs := make([]int, 0)
list.ForEach(func(i int) {
rs = append(rs, i)
})
assert.Equal([]int{1, 2, 3, 4}, rs)
}
func TestRetainAll(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestRetainAll")
list := NewList([]int{1, 2, 3, 4})
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{1, 2, 3, 4})
retain := NewList([]int{1, 2})
retain1 := NewList([]int{2, 3})
retain2 := NewList([]int{1, 2, 5})
list.RetainAll(retain)
list1.RetainAll(retain1)
list2.RetainAll(retain2)
assert.Equal([]int{1, 2}, list.Data())
assert.Equal([]int{2, 3}, list1.Data())
assert.Equal([]int{1, 2}, list2.Data())
}
func TestDeleteAll(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDeleteAll")
list := NewList([]int{1, 2, 3, 4})
list1 := NewList([]int{1, 2, 3, 4})
list2 := NewList([]int{1, 2, 3, 4})
del := NewList([]int{1})
del1 := NewList([]int{2, 3})
del2 := NewList([]int{1, 2, 5})
list.DeleteAll(del)
list1.DeleteAll(del1)
list2.DeleteAll(del2)
assert.Equal([]int{2, 3, 4}, list.Data())
assert.Equal([]int{1, 4}, list1.Data())
assert.Equal([]int{3, 4}, list2.Data())
}
func TestIterator(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIterator")
list := NewList([]int{1, 2, 3, 4})
iterator := list.Iterator()
rs := make([]int, 0)
for iterator.HasNext() {
item, _ := iterator.Next()
rs = append(rs, item)
}
assert.Equal([]int{1, 2, 3, 4}, rs)
}
func TestListToMap(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "ListToMap")
list := NewList([]int{1, 2, 3, 4})
result := ListToMap(list, func(n int) (int, bool) {
return n, n > 1
})
expected := map[int]bool{1: false, 2: true, 3: true, 4: true}
assert.Equal(expected, result)
}

51
datastructure/node.go
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@@ -1,51 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure implements some data structure.
package datastructure
// LinkNode is a linkedlist node, which have a Value and Pre points to previous node, Next points to a next node of the link.
type LinkNode[T any] struct {
Value T
Pre *LinkNode[T]
Next *LinkNode[T]
}
// NewLinkNode return a LinkNode pointer
func NewLinkNode[T any](value T) *LinkNode[T] {
return &LinkNode[T]{value, nil, nil}
}
// StackNode is a node in stack, which have a Value and Next pointer points to next node in the stack.
type StackNode[T any] struct {
Value T
Next *StackNode[T]
}
// NewStackNode return a StackNode pointer
func NewStackNode[T any](value T) *StackNode[T] {
return &StackNode[T]{value, nil}
}
// QueueNode is a node in a queue, which have a Value and Next pointer points to next node in the queue.
type QueueNode[T any] struct {
Value T
Next *QueueNode[T]
}
// NewQueueNode return a QueueNode pointer
func NewQueueNode[T any](value T) *QueueNode[T] {
return &QueueNode[T]{value, nil}
}
// TreeNode is node of tree
type TreeNode[T any] struct {
Value T
Left *TreeNode[T]
Right *TreeNode[T]
}
// NewTreeNode return a TreeNode pointer
func NewTreeNode[T any](val T) *TreeNode[T] {
return &TreeNode[T]{val, nil, nil}
}

108
datastructure/optional/optional.go
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@@ -1,108 +0,0 @@
package optional
import (
"sync"
)
// Optional is a type that may or may not contain a non-nil value.
type Optional[T any] struct {
value *T
mu *sync.RWMutex
}
// Default returns an default Optional instance.
func Default[T any]() Optional[T] {
return Optional[T]{mu: &sync.RWMutex{}}
}
// Of returns an Optional with a non-nil value.
func Of[T any](value T) Optional[T] {
return Optional[T]{value: &value, mu: &sync.RWMutex{}}
}
// FromNillable returns an Optional for a given value, which may be nil.
func FromNillable[T any](value *T) Optional[T] {
if value == nil {
return Default[T]()
}
return Optional[T]{value: value, mu: &sync.RWMutex{}}
}
// IsNotNil checks if there is a value present.
func (o Optional[T]) IsNotNil() bool {
o.mu.RLock()
defer o.mu.RUnlock()
return o.value != nil
}
// IsNil checks if the Optional is nil.
func (o Optional[T]) IsNil() bool {
return !o.IsNotNil()
}
// IfNotNil performs the given action with the value if a value is not nil.
func (o Optional[T]) IfNotNil(action func(value T)) {
o.mu.RLock()
defer o.mu.RUnlock()
if o.value != nil {
action(*o.value)
}
}
// IfNotNilOrElse performs the action with the value if present, otherwise performs the fallback action.
func (o Optional[T]) IfNotNilOrElse(action func(value T), fallbackAction func()) {
o.mu.RLock()
defer o.mu.RUnlock()
if o.value != nil {
action(*o.value)
} else {
fallbackAction()
}
}
// Unwarp returns the value if not nil, otherwise panics.
func (o Optional[T]) Unwarp() T {
o.mu.RLock()
defer o.mu.RUnlock()
if o.value == nil {
panic("Optional.Get: no value present")
}
return *o.value
}
// OrElse returns the value if is not nil, otherwise returns other.
func (o Optional[T]) OrElse(other T) T {
o.mu.RLock()
defer o.mu.RUnlock()
if o.value != nil {
return *o.value
}
return other
}
// OrElseGet returns the value if is not nil, otherwise invokes action and returns the result.
func (o Optional[T]) OrElseGet(action func() T) T {
o.mu.RLock()
defer o.mu.RUnlock()
if o.value != nil {
return *o.value
}
return action()
}
// OrElseTrigger returns the value if present, otherwise returns an error.
func (o Optional[T]) OrElseTrigger(errorHandler func() error) (T, error) {
o.mu.RLock()
defer o.mu.RUnlock()
if o.value == nil {
return *new(T), errorHandler()
}
return *o.value, nil
}

151
datastructure/optional/optional_test.go
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@@ -1,151 +0,0 @@
package optional
import (
"errors"
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestDefault(t *testing.T) {
assert := internal.NewAssert(t, "TestEmpty")
opt := Default[int]()
assert.ShouldBeTrue(opt.IsNil())
}
func TestOf(t *testing.T) {
assert := internal.NewAssert(t, "TestOf")
value := 42
opt := Of(value)
assert.ShouldBeTrue(opt.IsNotNil())
assert.Equal(opt.Unwarp(), value)
}
func TestFromNillable(t *testing.T) {
assert := internal.NewAssert(t, "TestOfNullable")
var value *int = nil
opt := FromNillable(value)
assert.ShouldBeFalse(opt.IsNotNil())
value = new(int)
*value = 42
opt = FromNillable(value)
assert.ShouldBeTrue(opt.IsNotNil())
}
func TestOrElse(t *testing.T) {
assert := internal.NewAssert(t, "TestOrElse")
optDefault := Default[int]()
defaultValue := 100
val := optDefault.OrElse(defaultValue)
assert.Equal(val, defaultValue)
optWithValue := Of(42)
val = optWithValue.OrElse(defaultValue)
assert.Equal(val, 42)
}
func TestOrElseGetHappyPath(t *testing.T) {
assert := internal.NewAssert(t, "TestOrElseGetHappyPath")
optWithValue := Of(42)
action := func() int { return 100 }
val := optWithValue.OrElseGet(action)
assert.Equal(val, 42)
}
func TestOrElseGet(t *testing.T) {
assert := internal.NewAssert(t, "TestOrElseGet")
optDefault := Default[int]()
action := func() int { return 100 }
val := optDefault.OrElseGet(action)
assert.Equal(val, action())
}
func TestOrElseTrigger(t *testing.T) {
assert := internal.NewAssert(t, "OrElseTrigger")
optDefault := Default[int]()
_, err := optDefault.OrElseTrigger(func() error { return errors.New("no value") })
assert.Equal(err.Error(), "no value")
optWithValue := Of(42)
val, err := optWithValue.OrElseTrigger(func() error { return errors.New("no value") })
assert.IsNil(err)
assert.Equal(val, 42)
}
func TestIfNotNil(t *testing.T) {
assert := internal.NewAssert(t, "IfNotNil")
called := false
action := func(value int) { called = true }
optDefault := Default[int]()
optDefault.IfNotNil(action)
assert.ShouldBeFalse(called)
called = false // Reset for next test
optWithValue := Of(42)
optWithValue.IfNotNil(action)
assert.ShouldBeTrue(called)
}
func TestIfNotNilOrElse(t *testing.T) {
assert := internal.NewAssert(t, "TestIfNotNilOrElse")
// Test when value is present
calledWithValue := false
valueAction := func(value int) { calledWithValue = true }
fallbackAction := func() { t.Errorf("Empty action should not be called when value is present") }
optWithValue := Of(42)
optWithValue.IfNotNilOrElse(valueAction, fallbackAction)
assert.ShouldBeTrue(calledWithValue)
// Test when value is not present
calledWithEmpty := false
valueAction = func(value int) { t.Errorf("Value action should not be called when value is not present") }
fallbackAction = func() { calledWithEmpty = true }
optDefault := Default[int]()
optDefault.IfNotNilOrElse(valueAction, fallbackAction)
assert.ShouldBeTrue(calledWithEmpty)
}
func TestGetWithPanicStandard(t *testing.T) {
assert := internal.NewAssert(t, "TestGetWithPanicStandard")
// Test when value is present
optWithValue := Of(42)
func() {
defer func() {
r := recover()
assert.IsNil(r)
}()
val := optWithValue.Unwarp()
if val != 42 {
t.Errorf("Expected Unwarp to return 42, got %v", val)
}
}()
// Test when value is not present
optDefault := Default[int]()
func() {
defer func() {
r := recover()
assert.IsNotNil(r)
}()
_ = optDefault.Unwarp()
}()
}

155
datastructure/queue/arrayqueue.go
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@@ -1,155 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure.
// Queue structure contains ArrayQueue, LinkedQueue, CircularQueue, and PriorityQueue.
package datastructure
import (
"fmt"
"reflect"
)
// ArrayQueue implements queue with slice
type ArrayQueue[T any] struct {
data []T
head int
tail int
capacity int
size int
}
func NewArrayQueue[T any](capacity int) *ArrayQueue[T] {
return &ArrayQueue[T]{
data: make([]T, 0, capacity),
head: 0,
tail: 0,
capacity: capacity,
size: 0,
}
}
// Data return slice of queue data
func (q *ArrayQueue[T]) Data() []T {
items := make([]T, 0, q.tail-q.head)
for i := q.head; i < q.tail; i++ {
items = append(items, q.data[i])
}
return items
}
// Size return number of elements in queue
func (q *ArrayQueue[T]) Size() int {
return q.size
}
// IsEmpty checks if queue is empty or not
func (q *ArrayQueue[T]) IsEmpty() bool {
return q.size == 0
}
// IsFull checks if queue is full or not
func (q *ArrayQueue[T]) IsFull() bool {
return q.size == q.capacity
}
// Front return front value of queue
func (q *ArrayQueue[T]) Front() T {
return q.data[q.head]
}
// Back return back value of queue
func (q *ArrayQueue[T]) Back() T {
return q.data[q.tail-1]
}
// EnQueue put element into queue
func (q *ArrayQueue[T]) Enqueue(item T) bool {
if q.tail < q.capacity {
q.data = append(q.data, item)
// q.tail++
q.data[q.tail] = item
} else {
//upgrade
if q.head > 0 {
for i := 0; i < q.tail-q.head; i++ {
q.data[i] = q.data[i+q.head]
}
q.tail -= q.head
q.head = 0
} else {
if q.capacity < 65536 {
if q.capacity == 0 {
q.capacity = 1
}
q.capacity *= 2
} else {
q.capacity += 2 ^ 16
}
tmp := make([]T, q.capacity, q.capacity)
copy(tmp, q.data)
q.data = tmp
}
q.data[q.tail] = item
}
q.tail++
q.size++
return true
}
// DeQueue remove head element of queue and return it, if queue is empty, return nil and error
func (q *ArrayQueue[T]) Dequeue() (T, bool) {
var item T
if q.size == 0 {
return item, false
}
item = q.data[q.head]
q.head++
if q.head >= 1024 || q.head*2 > q.tail {
q.capacity -= q.head
q.tail -= q.head
tmp := make([]T, q.capacity, q.capacity)
copy(tmp, q.data[q.head:])
q.data = tmp
q.head = 0
}
q.size--
return item, true
}
// Clear the queue data
func (q *ArrayQueue[T]) Clear() {
capacity := q.capacity
q.data = make([]T, 0, capacity)
q.head = 0
q.tail = 0
q.size = 0
q.capacity = capacity
}
// Contain checks if the value is in queue or not
func (q *ArrayQueue[T]) Contain(value T) bool {
for _, v := range q.data {
if reflect.DeepEqual(v, value) {
return true
}
}
return false
}
// Print queue data
func (q *ArrayQueue[T]) Print() {
info := "["
for i := q.head; i < q.tail; i++ {
info += fmt.Sprintf("%+v, ", q.data[i])
}
info += "]"
fmt.Println(info)
}

119
datastructure/queue/arrayqueue_test.go
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@@ -1,119 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestArrayQueue_Enqueue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_Enqueue")
queue := NewArrayQueue[int](2)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
data := queue.Data()
size := queue.Size()
assert.Equal([]int{1, 2, 3}, data)
assert.Equal(3, size)
}
func TestArrayQueue_Dequeue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_Dequeue")
queue := NewArrayQueue[int](4)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
val, ok := queue.Dequeue()
assert.Equal(true, ok)
assert.Equal(1, val)
assert.Equal([]int{2, 3}, queue.Data())
}
func TestArrayQueue_Front(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_Front")
queue := NewArrayQueue[int](4)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
val := queue.Front()
assert.Equal(1, val)
assert.Equal([]int{1, 2, 3}, queue.Data())
}
func TestArrayQueue_Back(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_Back")
queue := NewArrayQueue[int](4)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
val := queue.Back()
assert.Equal(3, val)
assert.Equal([]int{1, 2, 3}, queue.Data())
}
func TestArrayQueue_Contain(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_Contain")
queue := NewArrayQueue[int](4)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
assert.Equal(true, queue.Contain(1))
assert.Equal(false, queue.Contain(4))
}
func TestArrayQueue_Clear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_Clear")
queue := NewArrayQueue[int](4)
assert.Equal(true, queue.IsEmpty())
assert.Equal(0, queue.Size())
queue.Enqueue(1)
assert.Equal(false, queue.IsEmpty())
assert.Equal(1, queue.Size())
queue.Clear()
assert.Equal(true, queue.IsEmpty())
assert.Equal(0, queue.Size())
}
func TestArrayQueue_IsFull(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayQueue_IsFull")
queue := NewArrayQueue[int](3)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
assert.Equal(true, queue.IsFull())
}

123
datastructure/queue/circularqueue.go
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@@ -1,123 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure.
// Queue structure contains ArrayQueue, LinkedQueue, CircularQueue, and PriorityQueue.
package datastructure
import (
"errors"
"fmt"
"reflect"
)
// CircularQueue implements circular queue with slice,
// last index of CircularQueue don't contain value, so acturl capacity is capacity - 1
type CircularQueue[T any] struct {
data []T
front int
rear int
capacity int
}
// NewCircularQueue return a empty CircularQueue pointer
func NewCircularQueue[T any](capacity int) *CircularQueue[T] {
data := make([]T, capacity)
return &CircularQueue[T]{data: data, front: 0, rear: 0, capacity: capacity}
}
// Data return slice of queue data
func (q *CircularQueue[T]) Data() []T {
data := []T{}
front := q.front
rear := q.rear
if front <= rear {
return q.data[front:rear]
}
data = append(data, q.data[front:]...)
data = append(data, q.data[0:rear]...)
return data
}
// Size return number of elements in circular queue
func (q *CircularQueue[T]) Size() int {
if q.capacity == 0 {
return 0
}
return (q.rear - q.front + q.capacity) % q.capacity
}
// IsEmpty checks if queue is empty or not
func (q *CircularQueue[T]) IsEmpty() bool {
return q.front == q.rear
}
// IsFull checks if queue is full or not
func (q *CircularQueue[T]) IsFull() bool {
return (q.rear+1)%q.capacity == q.front
}
// Front return front value of queue
func (q *CircularQueue[T]) Front() T {
return q.data[q.front]
}
// Back return back value of queue
func (q *CircularQueue[T]) Back() T {
if q.rear-1 >= 0 {
return q.data[q.rear-1]
}
return q.data[q.capacity-1]
}
// Enqueue put element into queue
func (q *CircularQueue[T]) Enqueue(value T) error {
if q.IsFull() {
return errors.New("queue is full!")
}
q.data[q.rear] = value
q.rear = (q.rear + 1) % q.capacity
return nil
}
// Dequeue remove head element of queue and return it, if queue is empty, return nil and error
func (q *CircularQueue[T]) Dequeue() (*T, error) {
if q.IsEmpty() {
return nil, errors.New("queue is empty")
}
headItem := q.data[q.front]
var t T
q.data[q.front] = t
q.front = (q.front + 1) % q.capacity
return &headItem, nil
}
// Clear the queue data
func (q *CircularQueue[T]) Clear() {
q.data = []T{}
q.front = 0
q.rear = 0
q.capacity = 0
}
// Contain checks if the value is in queue or not
func (q *CircularQueue[T]) Contain(value T) bool {
for _, v := range q.data {
if reflect.DeepEqual(v, value) {
return true
}
}
return false
}
// Print queue data
func (q *CircularQueue[T]) Print() {
fmt.Printf("%+v\n", q)
}

159
datastructure/queue/circularqueue_test.go
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@@ -1,159 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestCircularQueue_Enqueue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_Enqueue")
queue := NewCircularQueue[int](6)
err := queue.Enqueue(1)
assert.IsNil(err)
err = queue.Enqueue(2)
assert.IsNil(err)
err = queue.Enqueue(3)
assert.IsNil(err)
err = queue.Enqueue(4)
assert.IsNil(err)
err = queue.Enqueue(5)
assert.IsNil(err)
assert.Equal([]int{1, 2, 3, 4, 5}, queue.Data())
assert.Equal(5, queue.Size())
err = queue.Enqueue(6)
assert.IsNotNil(err)
}
func TestCircularQueue_Dequeue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_DeQueue")
queue := NewCircularQueue[int](4)
assert.Equal(true, queue.IsEmpty())
err := queue.Enqueue(1)
assert.IsNil(err)
err = queue.Enqueue(2)
assert.IsNil(err)
err = queue.Enqueue(3)
assert.IsNil(err)
val, err := queue.Dequeue()
assert.IsNil(err)
assert.Equal(1, *val)
assert.Equal(false, queue.IsFull())
val, _ = queue.Dequeue()
assert.Equal(2, *val)
assert.Equal(false, queue.IsFull())
}
func TestCircularQueue_Front(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_Front")
queue := NewCircularQueue[int](6)
err := queue.Enqueue(1)
assert.IsNil(err)
err = queue.Enqueue(2)
assert.IsNil(err)
err = queue.Enqueue(3)
assert.IsNil(err)
val := queue.Front()
assert.IsNil(err)
assert.Equal(1, val)
assert.Equal(3, queue.Size())
}
func TestCircularQueue_Back(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_Back")
queue := NewCircularQueue[int](3)
assert.Equal(true, queue.IsEmpty())
err := queue.Enqueue(1)
assert.IsNil(err)
err = queue.Enqueue(2)
assert.IsNil(err)
assert.Equal(2, queue.Back())
val, _ := queue.Dequeue()
assert.Equal(1, *val)
err = queue.Enqueue(3)
assert.IsNil(err)
assert.Equal(3, queue.Back())
}
func TestCircularQueue_Contain(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_Contain")
queue := NewCircularQueue[int](2)
err := queue.Enqueue(1)
assert.IsNil(err)
assert.Equal(true, queue.Contain(1))
assert.Equal(false, queue.Contain(2))
}
func TestCircularQueue_Clear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_Clear")
queue := NewCircularQueue[int](3)
assert.Equal(true, queue.IsEmpty())
assert.Equal(0, queue.Size())
err := queue.Enqueue(1)
assert.IsNil(err)
assert.Equal(false, queue.IsEmpty())
assert.Equal(1, queue.Size())
queue.Clear()
assert.Equal(true, queue.IsEmpty())
assert.Equal(0, queue.Size())
}
func TestCircularQueue_Data(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestCircularQueue_Data")
queue := NewCircularQueue[int](3)
err := queue.Enqueue(1)
assert.IsNil(err)
err = queue.Enqueue(2)
assert.IsNil(err)
assert.Equal([]int{1, 2}, queue.Data())
}

122
datastructure/queue/linkedqueue.go
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@@ -1,122 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure.
// Queue structure contains ArrayQueue, LinkedQueue, CircularQueue, and PriorityQueue.
package datastructure
import (
"errors"
"fmt"
"reflect"
"github.com/duke-git/lancet/v2/datastructure"
)
// LinkedQueue implements queue with link list
type LinkedQueue[T any] struct {
head *datastructure.QueueNode[T]
tail *datastructure.QueueNode[T]
length int
}
// NewLinkedQueue return a empty LinkedQueue pointer
func NewLinkedQueue[T any]() *LinkedQueue[T] {
return &LinkedQueue[T]{head: nil, tail: nil, length: 0}
}
// Data return slice of queue data
func (q *LinkedQueue[T]) Data() []T {
res := make([]T, 0, q.length)
current := q.head
for current != nil {
res = append(res, current.Value)
current = current.Next
}
return res
}
// Size return length of queue data
func (q *LinkedQueue[T]) Size() int {
return q.length
}
// IsEmpty checks if queue is empty or not
func (q *LinkedQueue[T]) IsEmpty() bool {
return q.length == 0
}
// Enqueue put element into queue
func (q *LinkedQueue[T]) Enqueue(value T) {
newNode := datastructure.NewQueueNode(value)
if q.IsEmpty() {
q.head = newNode
q.tail = newNode
} else {
q.tail.Next = newNode
q.tail = newNode
}
q.length++
}
// Dequeue delete head element of queue then return it, if queue is empty, return nil and error
func (q *LinkedQueue[T]) Dequeue() (*T, error) {
if q.IsEmpty() {
return nil, errors.New("queue is empty")
}
head := q.head
q.head = q.head.Next
q.length--
return &head.Value, nil
}
// Front return front value of queue
func (q *LinkedQueue[T]) Front() (*T, error) {
if q.IsEmpty() {
return nil, errors.New("queue is empty")
}
return &q.head.Value, nil
}
// Back return back value of queue
func (q *LinkedQueue[T]) Back() (*T, error) {
if q.IsEmpty() {
return nil, errors.New("queue is empty")
}
return &q.tail.Value, nil
}
// Clear clear the queue data
func (q *LinkedQueue[T]) Clear() {
q.head = nil
q.tail = nil
q.length = 0
}
// Print all nodes info of queue link
func (q *LinkedQueue[T]) Print() {
current := q.head
info := "[ "
for current != nil {
info += fmt.Sprintf("%+v, ", current)
current = current.Next
}
info += " ]"
fmt.Println(info)
}
// Contain checks if the value is in queue or not
func (q *LinkedQueue[T]) Contain(value T) bool {
current := q.head
for current != nil {
if reflect.DeepEqual(current.Value, value) {
return true
}
current = current.Next
}
return false
}

106
datastructure/queue/linkedqueue_test.go
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@@ -1,106 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestLinkedQueue_Enqueue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedQueue_Enqueue")
queue := NewLinkedQueue[int]()
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
assert.Equal([]int{1, 2, 3}, queue.Data())
assert.Equal(3, queue.Size())
}
func TestLinkedQueue_Dequeue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedQueue_DeQueue")
queue := NewLinkedQueue[int]()
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
val, _ := queue.Dequeue()
queue.Print()
assert.Equal([]int{2, 3}, queue.Data())
assert.Equal(1, *val)
}
func TestLinkedQueue_Front(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedQueue_Front")
queue := NewLinkedQueue[int]()
_, err := queue.Front()
assert.IsNotNil(err)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
val, err := queue.Front()
assert.Equal(1, *val)
assert.IsNil(err)
}
func TestLinkedQueue_Back(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedQueue_Back")
queue := NewLinkedQueue[int]()
_, err := queue.Back()
assert.IsNotNil(err)
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
val, err := queue.Back()
assert.Equal(3, *val)
assert.IsNil(err)
}
func TestLinkedQueue_Clear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedQueue_Back")
queue := NewLinkedQueue[int]()
assert.Equal(true, queue.IsEmpty())
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
assert.Equal(false, queue.IsEmpty())
queue.Clear()
assert.Equal(true, queue.IsEmpty())
}
func TestLinkedQueue_Contain(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedQueue_Contain")
queue := NewLinkedQueue[int]()
queue.Enqueue(1)
queue.Enqueue(2)
queue.Enqueue(3)
assert.Equal(true, queue.Contain(1))
assert.Equal(false, queue.Contain(4))
}

118
datastructure/queue/priorityqueue.go
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@@ -1,118 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure.
// Queue structure contains ArrayQueue, LinkedQueue, CircularQueue, and PriorityQueue.
package datastructure
import (
"errors"
"github.com/duke-git/lancet/v2/constraints"
)
// PriorityQueue is a priority queue implemented by binary heap tree
// type T should implements Compare function in constraints.Comparator interface.
type PriorityQueue[T any] struct {
items []T
size int
comparator constraints.Comparator
}
// NewPriorityQueue return a pointer of PriorityQueue
// param `comparator` is used to compare values in the queue
func NewPriorityQueue[T any](capacity int, comparator constraints.Comparator) *PriorityQueue[T] {
return &PriorityQueue[T]{
items: make([]T, capacity+1),
size: 0,
comparator: comparator,
}
}
// IsEmpty checks if the queue is empty or not
func (q *PriorityQueue[T]) IsEmpty() bool {
return q.size == 0
}
// Size get number of items in the queue
func (q *PriorityQueue[T]) Size() int {
return q.size
}
// IsFull checks if the queue capacity is full or not
func (q *PriorityQueue[T]) IsFull() bool {
return q.size == len(q.items)-1
}
// Data return a slice of queue data
func (q *PriorityQueue[T]) Data() []T {
data := make([]T, q.size)
for i := 1; i < q.size+1; i++ {
data[i-1] = q.items[i]
}
return data
}
// Enqueue insert value into queue
func (q *PriorityQueue[T]) Enqueue(val T) error {
if q.IsFull() {
return errors.New("queue is already full.")
}
q.size++
q.items[q.size] = val
q.swim(q.size)
return nil
}
// Dequeue delete and return max value in queue
func (q *PriorityQueue[T]) Dequeue() (T, bool) {
var val T
if q.IsEmpty() {
return val, false
}
max := q.items[1]
q.swap(1, q.size)
q.size--
q.sink(1)
//set zero value for rest values of the queue
q.items[q.size+1] = val
return max, true
}
// swim when child's key is larger than parent's key, exchange them.
func (q *PriorityQueue[T]) swim(index int) {
for index > 1 && q.comparator.Compare(q.items[index/2], q.items[index]) < 0 {
q.swap(index, index/2)
index = index / 2
}
}
// sink when parent's key smaller than child's key, exchange parent's key with larger child's key.
func (q *PriorityQueue[T]) sink(index int) {
for 2*index <= q.size {
j := 2 * index
// get larger child node index
if j < q.size && q.comparator.Compare(q.items[j], q.items[j+1]) < 0 {
j++
}
// if parent larger than child, stop
if !(q.comparator.Compare(q.items[index], q.items[j]) < 0) {
break
}
q.swap(index, j)
index = j
}
}
// swap the two values at index i and j
func (q *PriorityQueue[T]) swap(i, j int) {
q.items[i], q.items[j] = q.items[j], q.items[i]
}

74
datastructure/queue/priorityqueue_test.go
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@@ -1,74 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
type intComparator struct{}
func (c *intComparator) Compare(v1, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func TestPriorityQueue_Enqueue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestPriorityQueue_Enqueue")
comparator := &intComparator{}
pq := NewPriorityQueue[int](3, comparator)
assert.Equal(true, pq.IsEmpty())
assert.Equal(false, pq.IsFull())
err := pq.Enqueue(1)
assert.IsNil(err)
err = pq.Enqueue(2)
assert.IsNil(err)
err = pq.Enqueue(3)
assert.IsNil(err)
assert.Equal(true, pq.IsFull())
queueData := pq.Data()
assert.Equal([]int{3, 1, 2}, queueData)
}
func TestPriorityQueue_Dequeue(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestPriorityQueue_Dequeue")
comparator := &intComparator{}
pq := NewPriorityQueue[int](3, comparator)
_, ok := pq.Dequeue()
assert.Equal(false, ok)
err := pq.Enqueue(1)
assert.IsNil(err)
err = pq.Enqueue(2)
assert.IsNil(err)
err = pq.Enqueue(3)
assert.IsNil(err)
assert.Equal(3, pq.Size())
val, ok := pq.Dequeue()
assert.Equal(true, ok)
assert.Equal(3, val)
}

220
datastructure/set/set.go
View File

@@ -1,220 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. Set is a data container, like slice, but element of set is not duplicate.
package datastructure
import "sort"
// Set is a data container, like slice, but element of set is not duplicate.
type Set[T comparable] map[T]struct{}
// New create a instance of set from given values.
func New[T comparable](items ...T) Set[T] {
set := make(Set[T], len(items))
set.Add(items...)
return set
}
// FromSlice create a set from given slice.
func FromSlice[T comparable](items []T) Set[T] {
set := make(Set[T], len(items))
for _, item := range items {
set.Add(item)
}
return set
}
// Add items to set
func (s Set[T]) Add(items ...T) {
for _, v := range items {
s[v] = struct{}{}
}
}
// AddIfNotExist checks if item exists in the set,
// it adds the item to set and returns true if it does not exist in the set,
// or else it does nothing and returns false.
func (s Set[T]) AddIfNotExist(item T) bool {
if !s.Contain(item) {
if _, ok := s[item]; !ok {
s[item] = struct{}{}
return true
}
}
return false
}
// AddIfNotExistBy checks if item exists in the set and pass the `checker` function
// it adds the item to set and returns true if it does not exists in the set and
// function `checker` returns true, or else it does nothing and returns false.
func (s Set[T]) AddIfNotExistBy(item T, checker func(element T) bool) bool {
if !s.Contain(item) {
if checker(item) {
if _, ok := s[item]; !ok {
s[item] = struct{}{}
return true
}
}
}
return false
}
// Contain checks if set contains item or not
func (s Set[T]) Contain(item T) bool {
_, ok := s[item]
return ok
}
// ContainAll checks if set contains other set
func (s Set[T]) ContainAll(other Set[T]) bool {
for k := range other {
_, ok := s[k]
if !ok {
return false
}
}
return true
}
// Clone return a copy of set
func (s Set[T]) Clone() Set[T] {
set := FromSlice(s.ToSlice())
return set
}
// Delete item of set
func (s Set[T]) Delete(items ...T) {
for _, v := range items {
delete(s, v)
}
}
// Equal checks if two set has same elements or not
func (s Set[T]) Equal(other Set[T]) bool {
if s.Size() != other.Size() {
return false
}
return s.ContainAll(other) && other.ContainAll(s)
}
// Iterate call function by every element of set
func (s Set[T]) Iterate(fn func(item T)) {
for v := range s {
fn(v)
}
}
// IsEmpty checks the set is empty or not
func (s Set[T]) IsEmpty() bool {
return len(s) == 0
}
// Size get the number of elements in set
func (s Set[T]) Size() int {
return len(s)
}
// Values return all values of set
// Deprecated: Values function is deprecated and will be removed in future versions. Please use ToSlice() function instead.
//
// The ToSlice() function provides the same functionality as Values and returns a slice containing all values of the set.
func (s Set[T]) Values() []T {
return s.ToSlice()
}
// Union creates a new set contain all element of set s and other
func (s Set[T]) Union(other Set[T]) Set[T] {
set := s.Clone()
set.Add(other.Values()...)
return set
}
// Intersection creates a new set whose element both be contained in set s and other
func (s Set[T]) Intersection(other Set[T]) Set[T] {
set := New[T]()
s.Iterate(func(value T) {
if other.Contain(value) {
set.Add(value)
}
})
return set
}
// SymmetricDifference creates a new set whose element is in set1 or set2, but not in both sets
func (s Set[T]) SymmetricDifference(other Set[T]) Set[T] {
set := New[T]()
s.Iterate(func(value T) {
if !other.Contain(value) {
set.Add(value)
}
})
other.Iterate(func(value T) {
if !s.Contain(value) {
set.Add(value)
}
})
return set
}
// Minus creates a set of whose element in origin set but not in compared set
func (s Set[T]) Minus(comparedSet Set[T]) Set[T] {
set := New[T]()
s.Iterate(func(value T) {
if !comparedSet.Contain(value) {
set.Add(value)
}
})
return set
}
// EachWithBreak iterates over elements of a set and invokes function for each element,
// when iteratee return false, will break the for each loop.
func (s Set[T]) EachWithBreak(iteratee func(item T) bool) {
for _, v := range s.Values() {
if !iteratee(v) {
break
}
}
}
// Pop delete the top element of set then return it, if set is empty, return nil-value of T and false.
func (s Set[T]) Pop() (v T, ok bool) {
if len(s) > 0 {
for item := range s {
v = item
delete(s, item)
return v, true
}
}
return v, false
}
// ToSlice returns a slice containing all values of the set.
func (s Set[T]) ToSlice() []T {
if s.IsEmpty() {
return []T{}
}
result := make([]T, 0, s.Size())
s.Iterate(func(value T) {
result = append(result, value)
})
return result
}
// ToSortedSlice returns a sorted slice containing all values of the set.
func (s Set[T]) ToSortedSlice(less func(v1, v2 T) bool) []T {
result := s.ToSlice()
sort.Slice(result, func(i, j int) bool {
return less(result[i], result[j])
})
return result
}

335
datastructure/set/set_test.go
View File

@@ -1,335 +0,0 @@
package datastructure
import (
"reflect"
"sort"
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestSet_FromSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_FromSlice")
s1 := FromSlice([]int{1, 2, 2, 3})
assert.Equal(3, s1.Size())
assert.Equal(true, s1.Contain(1))
assert.Equal(true, s1.Contain(2))
assert.Equal(true, s1.Contain(3))
s2 := FromSlice([]int{})
assert.Equal(0, s2.Size())
}
func TestSet_Add(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Add")
set := New[int]()
set.Add(1, 2, 3)
cmpSet := New(1, 2, 3)
assert.Equal(true, set.Equal(cmpSet))
}
func TestSet_AddIfNotExist(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_AddIfNotExist")
set := New[int]()
set.Add(1, 2, 3)
assert.Equal(false, set.AddIfNotExist(1))
assert.Equal(true, set.AddIfNotExist(4))
assert.Equal(New(1, 2, 3, 4), set)
}
func TestSet_AddIfNotExistBy(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_AddIfNotExistBy")
set := New[int]()
set.Add(1, 2)
ok := set.AddIfNotExistBy(3, func(val int) bool {
return val%2 != 0
})
notOk := set.AddIfNotExistBy(4, func(val int) bool {
return val%2 != 0
})
assert.Equal(true, ok)
assert.Equal(false, notOk)
assert.Equal(true, set.Contain(3))
assert.Equal(false, set.Contain(4))
}
func TestSet_Contain(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Contain")
set := New[int]()
set.Add(1, 2, 3)
assert.Equal(true, set.Contain(1))
assert.Equal(false, set.Contain(4))
}
func TestSet_ContainAll(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_ContainAll")
set1 := New(1, 2, 3)
set2 := New(1, 2)
set3 := New(1, 2, 3, 4)
assert.Equal(true, set1.ContainAll(set2))
assert.Equal(false, set1.ContainAll(set3))
}
func TestSet_Clone(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Clone")
set1 := New(1, 2, 3)
set2 := set1.Clone()
assert.Equal(true, set1.Size() == set2.Size())
assert.Equal(true, set1.ContainAll(set2))
}
func TestSet_Delete(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Delete")
set := New[int]()
set.Add(1, 2, 3)
set.Delete(3)
assert.Equal(true, set.Equal(New(1, 2)))
}
func TestSet_Equal(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Equal")
set1 := New(1, 2, 3)
set2 := New(1, 2, 3)
set3 := New(1, 2, 3, 4)
assert.Equal(true, set1.Equal(set2))
assert.Equal(false, set1.Equal(set3))
}
func TestSet_Iterate(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Iterate")
set := New(1, 2, 3)
arr := []int{}
set.Iterate(func(value int) {
arr = append(arr, value)
})
assert.Equal(3, len(arr))
}
func TestSet_IsEmpty(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_IsEmpty")
set := New[int]()
assert.Equal(true, set.IsEmpty())
}
func TestSet_Size(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Size")
set := New(1, 2, 3)
assert.Equal(3, set.Size())
}
func TestSet_Values(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Values")
set := New(1, 2, 3)
values := set.Values()
assert.Equal(3, len(values))
}
func TestSet_Union(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Union")
set1 := New(1, 2, 3)
set2 := New(2, 3, 4, 5)
unionSet := set1.Union(set2)
assert.Equal(New(1, 2, 3, 4, 5), unionSet)
}
func TestSet_Intersection(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Intersection")
set1 := New(1, 2, 3)
set2 := New(2, 3, 4, 5)
intersectionSet := set1.Intersection(set2)
assert.Equal(New(2, 3), intersectionSet)
}
func TestSet_SymmetricDifference(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_SymmetricDifference")
set1 := New(1, 2, 3)
set2 := New(2, 3, 4, 5)
assert.Equal(New(1, 4, 5), set1.SymmetricDifference(set2))
}
func TestSet_Minus(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Minus")
set1 := New(1, 2, 3)
set2 := New(2, 3, 4, 5)
set3 := New(2, 3)
assert.Equal(New(1), set1.Minus(set2))
assert.Equal(New(4, 5), set2.Minus(set3))
}
func TestEachWithBreak(t *testing.T) {
// s := New(1, 2, 3, 4, 5)
// var sum int
// s.EachWithBreak(func(n int) bool {
// if n > 3 {
// return false
// }
// sum += n
// return true
// })
// assert := internal.NewAssert(t, "TestEachWithBreak")
// assert.Equal(6, sum)
}
func TestPop(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_Pop")
s := New[int]()
val, ok := s.Pop()
assert.Equal(0, val)
assert.Equal(false, ok)
s = New(1, 2, 3, 4, 5)
sl := s.ToSlice()
val, ok = s.Pop()
assert.Equal(false, s.Contain(val))
assert.Equal(true, ok)
assert.Equal(len(sl)-1, s.Size())
var found bool
for _, v := range sl {
if v == val {
found = true
}
}
assert.Equal(true, found)
}
func TestSet_ToSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_ToSlice")
set1 := FromSlice([]int{6, 3, 1, 5, 6, 7, 1})
set2 := FromSlice([]float64{-2.65, 4.25, 4.25 - 3.14, 0})
set3 := New[string]()
slice1 := set1.ToSlice()
slice2 := set2.ToSlice()
slice3 := set3.ToSlice()
sort.Ints(slice1)
sort.Float64s(slice2)
assert.Equal(5, len(slice1))
assert.Equal(4, len(slice2))
assert.Equal(0, len(slice3))
assert.Equal(true, reflect.DeepEqual(slice1, []int{1, 3, 5, 6, 7}))
assert.Equal(true, reflect.DeepEqual(slice2, []float64{-2.65, 0, 1.11, 4.25}))
assert.Equal("[]string", reflect.TypeOf(slice3).String())
}
func TestSet_ToSortedSlice(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestSet_ToSortedSlice")
set1 := FromSlice([]int{6, 3, 1, 5, 6, 7, 1})
set2 := FromSlice([]float64{-2.65, 4.25, 4.25 - 3.14, 0})
type Person struct {
Name string
Age int
}
set3 := FromSlice([]Person{{"Tom", 20}, {"Jerry", 18}, {"Spike", 25}})
slice1 := set1.ToSortedSlice(func(v1, v2 int) bool {
return v1 < v2
})
slice2 := set2.ToSortedSlice(func(v1, v2 float64) bool {
return v2 < v1
})
slice3 := set3.ToSortedSlice(func(v1, v2 Person) bool {
return v1.Age < v2.Age
})
assert.Equal(5, len(slice1))
assert.Equal(4, len(slice2))
assert.Equal(3, len(slice3))
assert.Equal(true, reflect.DeepEqual(slice1, []int{1, 3, 5, 6, 7}))
assert.Equal(true, reflect.DeepEqual(slice2, []float64{4.25, 1.11, 0, -2.65}))
assert.Equal(true, reflect.DeepEqual(slice3, []Person{
{"Jerry", 18},
{"Tom", 20},
{"Spike", 25},
}))
}

66
datastructure/stack/arraystack.go
View File

@@ -1,66 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. Stack structure contains ArrayStack and LinkedStack.
package datastructure
import "errors"
// ArrayStack implements stack with slice
type ArrayStack[T any] struct {
data []T
length int
}
// NewArrayStack return a empty ArrayStack pointer
func NewArrayStack[T any]() *ArrayStack[T] {
return &ArrayStack[T]{data: []T{}, length: 0}
}
// Data return stack data
func (s *ArrayStack[T]) Data() []T {
return s.data
}
// Size return length of stack data
func (s *ArrayStack[T]) Size() int {
return s.length
}
// IsEmpty checks if stack is empty or not
func (s *ArrayStack[T]) IsEmpty() bool {
return s.length == 0
}
// Push element into stack
func (s *ArrayStack[T]) Push(value T) {
s.data = append([]T{value}, s.data...)
s.length++
}
// Pop delete the top element of stack then return it, if stack is empty, return nil and error
func (s *ArrayStack[T]) Pop() (*T, error) {
if s.IsEmpty() {
return nil, errors.New("stack is empty")
}
topItem := s.data[0]
s.data = s.data[1:]
s.length--
return &topItem, nil
}
// Peak return the top element of stack
func (s *ArrayStack[T]) Peak() (*T, error) {
if s.IsEmpty() {
return nil, errors.New("stack is empty")
}
return &s.data[0], nil
}
// Clear the stack data
func (s *ArrayStack[T]) Clear() {
s.data = []T{}
s.length = 0
}

82
datastructure/stack/arraystack_test.go
View File

@@ -1,82 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestArrayStack_Push(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayStack_Push")
stack := NewArrayStack[int]()
stack.Push(1)
stack.Push(2)
stack.Push(3)
values := stack.Data()
length := stack.Size()
assert.Equal([]int{3, 2, 1}, values)
assert.Equal(3, length)
}
func TestArrayStack_Pop(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayStack_Pop")
stack := NewArrayStack[int]()
_, err := stack.Pop()
assert.IsNotNil(err)
stack.Push(1)
stack.Push(2)
stack.Push(3)
topItem, err := stack.Pop()
assert.IsNil(err)
assert.Equal(3, *topItem)
assert.Equal([]int{2, 1}, stack.Data())
}
func TestArrayStack_Peak(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayStack_Peak")
stack := NewArrayStack[int]()
_, err := stack.Peak()
assert.IsNotNil(err)
stack.Push(1)
stack.Push(2)
stack.Push(3)
topItem, err := stack.Peak()
assert.IsNil(err)
assert.Equal(3, *topItem)
assert.Equal([]int{3, 2, 1}, stack.Data())
}
func TestArrayStack_Clear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestArrayStack_Clear")
stack := NewArrayStack[int]()
assert.Equal(true, stack.IsEmpty())
assert.Equal(0, stack.Size())
stack.Push(1)
assert.Equal(false, stack.IsEmpty())
assert.Equal(1, stack.Size())
stack.Clear()
assert.Equal(true, stack.IsEmpty())
assert.Equal(0, stack.Size())
}

98
datastructure/stack/linkedstack.go
View File

@@ -1,98 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. Stack structure contains ArrayStack and LinkedStack.
package datastructure
import (
"errors"
"fmt"
"github.com/duke-git/lancet/v2/datastructure"
)
// LinkedStack implements stack with link list
type LinkedStack[T any] struct {
top *datastructure.StackNode[T]
length int
}
// NewLinkedStack return a empty LinkedStack pointer
func NewLinkedStack[T any]() *LinkedStack[T] {
return &LinkedStack[T]{top: nil, length: 0}
}
// Data return stack data
func (s *LinkedStack[T]) Data() []T {
res := make([]T, 0, s.length)
current := s.top
for current != nil {
res = append(res, current.Value)
current = current.Next
}
return res
}
// Size return length of stack data
func (s *LinkedStack[T]) Size() int {
return s.length
}
// IsEmpty checks if stack is empty or not
func (s *LinkedStack[T]) IsEmpty() bool {
return s.length == 0
}
// Push element into stack
func (s *LinkedStack[T]) Push(value T) {
newNode := datastructure.NewStackNode(value)
top := s.top
if top == nil {
s.top = newNode
} else {
newNode.Next = top
s.top = newNode
}
s.length++
}
// Pop delete the top element of stack then return it, if stack is empty, return nil and error
func (s *LinkedStack[T]) Pop() (*T, error) {
if s.IsEmpty() {
return nil, errors.New("stack is empty")
}
top := s.top
s.top = s.top.Next
s.length--
return &top.Value, nil
}
// Peak return the top element of stack then return it
func (s *LinkedStack[T]) Peak() (*T, error) {
if s.IsEmpty() {
return nil, errors.New("stack is empty")
}
return &s.top.Value, nil
}
// Clear clear the stack data
func (s *LinkedStack[T]) Clear() {
s.top = nil
s.length = 0
}
// Print all nodes info of stack link
func (s *LinkedStack[T]) Print() {
current := s.top
info := "[ "
for current != nil {
info += fmt.Sprintf("%+v, ", current)
current = current.Next
}
info += " ]"
fmt.Println(info)
}

83
datastructure/stack/linkedstack_test.go
View File

@@ -1,83 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
func TestLinkedStack_Push(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedStack_Push")
stack := NewLinkedStack[int]()
stack.Push(1)
stack.Push(2)
stack.Push(3)
values := stack.Data()
size := stack.Size()
assert.Equal([]int{3, 2, 1}, values)
assert.Equal(3, size)
}
func TestLinkedStack_Pop(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedStack_Pop")
stack := NewLinkedStack[int]()
_, err := stack.Pop()
assert.IsNotNil(err)
stack.Push(1)
stack.Push(2)
stack.Push(3)
topItem, err := stack.Pop()
assert.IsNil(err)
assert.Equal(3, *topItem)
stack.Print()
assert.Equal([]int{2, 1}, stack.Data())
}
func TestLinkedStack_Peak(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedStack_Peak")
stack := NewLinkedStack[int]()
_, err := stack.Peak()
assert.IsNotNil(err)
stack.Push(1)
stack.Push(2)
stack.Push(3)
topItem, err := stack.Peak()
assert.IsNil(err)
assert.Equal(3, *topItem)
assert.Equal([]int{3, 2, 1}, stack.Data())
}
func TestLinkedStack_Empty(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestLinkedStack_Empty")
stack := NewLinkedStack[int]()
assert.Equal(true, stack.IsEmpty())
assert.Equal(0, stack.Size())
stack.Push(1)
assert.Equal(false, stack.IsEmpty())
assert.Equal(1, stack.Size())
stack.Clear()
assert.Equal(true, stack.IsEmpty())
assert.Equal(0, stack.Size())
}

112
datastructure/tree/bstree.go
View File

@@ -1,112 +0,0 @@
// Copyright 2021 dudaodong@gmail.com. All rights reserved.
// Use of this source code is governed by MIT license
// Package datastructure contains some data structure. BSTree is binary search tree.
package datastructure
import (
"math"
"github.com/duke-git/lancet/v2/constraints"
"github.com/duke-git/lancet/v2/datastructure"
)
// BSTree is a binary search tree data structure in which each node has at most two children,
// which are referred to as the left child and the right child.
// In BSTree: leftNode < rootNode < rightNode
// type T should implements Compare function in constraints.Comparator interface.
type BSTree[T any] struct {
root *datastructure.TreeNode[T]
comparator constraints.Comparator
}
// NewBSTree create a BSTree pointer
// param `comparator` is used to compare values in the tree
func NewBSTree[T any](rootData T, comparator constraints.Comparator) *BSTree[T] {
root := datastructure.NewTreeNode(rootData)
return &BSTree[T]{root, comparator}
}
// InsertNode insert data into BSTree
func (t *BSTree[T]) Insert(data T) {
root := t.root
newNode := datastructure.NewTreeNode(data)
if root == nil {
t.root = newNode
} else {
insertTreeNode(root, newNode, t.comparator)
}
}
// DeletetNode delete data into BSTree
func (t *BSTree[T]) Delete(data T) {
deleteTreeNode(t.root, data, t.comparator)
}
// NodeLevel get node level in BSTree
func (t *BSTree[T]) NodeLevel(node *datastructure.TreeNode[T]) int {
if node == nil {
return 0
}
left := float64(t.NodeLevel(node.Left))
right := float64(t.NodeLevel(node.Right))
return int(math.Max(left, right)) + 1
}
// PreOrderTraverse traverse tree node in pre order
func (t *BSTree[T]) PreOrderTraverse() []T {
return preOrderTraverse(t.root)
}
// PostOrderTraverse traverse tree node in post order
func (t *BSTree[T]) PostOrderTraverse() []T {
return postOrderTraverse(t.root)
}
// InOrderTraverse traverse tree node in mid order
func (t *BSTree[T]) InOrderTraverse() []T {
return inOrderTraverse(t.root)
}
// LevelOrderTraverse traverse tree node in level order
func (t *BSTree[T]) LevelOrderTraverse() []T {
traversal := make([]T, 0)
levelOrderTraverse(t.root, &traversal)
return traversal
}
// Depth returns the calculated depth of a binary saerch tree
func (t *BSTree[T]) Depth() int {
return calculateDepth(t.root, 0)
}
// IsSubTree checks if the tree `t` has `subTree` or not
func (t *BSTree[T]) HasSubTree(subTree *BSTree[T]) bool {
return hasSubTree(t.root, subTree.root, t.comparator)
}
func hasSubTree[T any](superTreeRoot, subTreeRoot *datastructure.TreeNode[T],
comparator constraints.Comparator) bool {
result := false
if superTreeRoot != nil && subTreeRoot != nil {
if comparator.Compare(superTreeRoot.Value, subTreeRoot.Value) == 0 {
result = isSubTree(superTreeRoot, subTreeRoot, comparator)
}
if !result {
result = hasSubTree(superTreeRoot.Left, subTreeRoot, comparator)
}
if !result {
result = hasSubTree(superTreeRoot.Right, subTreeRoot, comparator)
}
}
return result
}
// Print the bstree structure
func (t *BSTree[T]) Print() {
maxLevel := t.NodeLevel(t.root)
nodes := []*datastructure.TreeNode[T]{t.root}
printTreeNodes(nodes, 1, maxLevel)
}

140
datastructure/tree/bstree_test.go
View File

@@ -1,140 +0,0 @@
package datastructure
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
)
type intComparator struct{}
func (c *intComparator) Compare(v1, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func TestBSTree_PreOrderTraverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_PreOrderTraverse")
bstree := NewBSTree(6, &intComparator{})
bstree.Insert(7)
bstree.Insert(5)
bstree.Insert(2)
bstree.Insert(4)
acturl := bstree.PreOrderTraverse()
assert.Equal([]int{6, 5, 2, 4, 7}, acturl)
}
func TestBSTree_PostOrderTraverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_PostOrderTraverse")
bstree := NewBSTree(6, &intComparator{})
bstree.Insert(7)
bstree.Insert(5)
bstree.Insert(2)
bstree.Insert(4)
acturl := bstree.PostOrderTraverse()
assert.Equal([]int{5, 2, 4, 7, 6}, acturl)
}
func TestBSTree_InOrderTraverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_InOrderTraverse")
bstree := NewBSTree(6, &intComparator{})
bstree.Insert(7)
bstree.Insert(5)
bstree.Insert(2)
bstree.Insert(4)
acturl := bstree.InOrderTraverse()
assert.Equal([]int{2, 4, 5, 6, 7}, acturl)
}
func TestBSTree_LevelOrderTraverse(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_LevelOrderTraverse")
bstree := NewBSTree(6, &intComparator{})
bstree.Insert(7)
bstree.Insert(5)
bstree.Insert(2)
bstree.Insert(4)
acturl := bstree.LevelOrderTraverse()
assert.Equal([]int{6, 5, 7, 2, 4}, acturl)
}
func TestBSTree_Delete(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_Delete")
bstree := NewBSTree(6, &intComparator{})
bstree.Insert(7)
bstree.Insert(5)
bstree.Insert(2)
bstree.Insert(4)
bstree.Delete(4)
acturl1 := bstree.InOrderTraverse()
assert.Equal([]int{2, 5, 6, 7}, acturl1)
}
func TestBSTree_Depth(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_Depth")
bstree := NewBSTree(6, &intComparator{})
bstree.Insert(7)
bstree.Insert(5)
bstree.Insert(2)
bstree.Insert(4)
assert.Equal(bstree.Depth(), 4)
}
func TestBSTree_IsSubTree(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBSTree_IsSubTree")
superTree := NewBSTree(8, &intComparator{})
superTree.Insert(4)
superTree.Insert(5)
superTree.Insert(6)
superTree.Insert(9)
superTree.Insert(4)
superTree.Print()
subTree := NewBSTree(5, &intComparator{})
subTree.Insert(4)
subTree.Insert(6)
assert.Equal(true, superTree.HasSubTree(subTree))
assert.Equal(false, subTree.HasSubTree(superTree))
}

238
datastructure/tree/tree_internal.go
View File

@@ -1,238 +0,0 @@
package datastructure
import (
"fmt"
"math"
"github.com/duke-git/lancet/v2/constraints"
"github.com/duke-git/lancet/v2/datastructure"
)
func preOrderTraverse[T any](node *datastructure.TreeNode[T]) []T {
data := []T{}
if node != nil {
data = append(data, node.Value)
data = append(data, preOrderTraverse(node.Left)...)
data = append(data, preOrderTraverse(node.Right)...)
}
return data
}
func postOrderTraverse[T any](node *datastructure.TreeNode[T]) []T {
data := []T{}
if node != nil {
data = append(data, preOrderTraverse(node.Left)...)
data = append(data, preOrderTraverse(node.Right)...)
data = append(data, node.Value)
}
return data
}
func inOrderTraverse[T any](node *datastructure.TreeNode[T]) []T {
data := []T{}
if node != nil {
data = append(data, inOrderTraverse(node.Left)...)
data = append(data, node.Value)
data = append(data, inOrderTraverse(node.Right)...)
}
return data
}
// func preOrderPrint[T any](node *datastructure.TreeNode[T]) {
// if node == nil {
// return
// }
// fmt.Printf("%v, ", node.Value)
// preOrderPrint(node.Left)
// preOrderPrint(node.Right)
// }
// func postOrderPrint[T any](node *datastructure.TreeNode[T]) {
// if node == nil {
// return
// }
// postOrderPrint(node.Left)
// postOrderPrint(node.Right)
// fmt.Printf("%v, ", node.Value)
// }
// func inOrderPrint[T any](node *datastructure.TreeNode[T]) {
// if node == nil {
// return
// }
// inOrderPrint(node.Left)
// fmt.Printf("%v, ", node.Value)
// inOrderPrint(node.Right)
// }
func levelOrderTraverse[T any](root *datastructure.TreeNode[T], traversal *[]T) {
var q []*datastructure.TreeNode[T] // queue
var n *datastructure.TreeNode[T] // temp node
q = append(q, root)
for len(q) != 0 {
n, q = q[0], q[1:]
*traversal = append(*traversal, n.Value)
if n.Left != nil {
q = append(q, n.Left)
}
if n.Right != nil {
q = append(q, n.Right)
}
}
}
func insertTreeNode[T any](rootNode, newNode *datastructure.TreeNode[T], comparator constraints.Comparator) {
if comparator.Compare(newNode.Value, rootNode.Value) == -1 {
if rootNode.Left == nil {
rootNode.Left = newNode
} else {
insertTreeNode(rootNode.Left, newNode, comparator)
}
} else {
if rootNode.Right == nil {
rootNode.Right = newNode
} else {
insertTreeNode(rootNode.Right, newNode, comparator)
}
}
}
// todo, delete root node failed
func deleteTreeNode[T any](node *datastructure.TreeNode[T], data T, comparator constraints.Comparator) *datastructure.TreeNode[T] {
if node == nil {
return nil
}
if comparator.Compare(data, node.Value) == -1 {
node.Left = deleteTreeNode(node.Left, data, comparator)
} else if comparator.Compare(data, node.Value) == 1 {
node.Right = deleteTreeNode(node.Right, data, comparator)
} else {
if node.Left == nil {
node = node.Right
} else if node.Right == nil {
node = node.Left
} else {
l := node.Right
d := inOrderSuccessor(l)
d.Left = node.Left
return node.Right
}
}
return node
}
func inOrderSuccessor[T any](root *datastructure.TreeNode[T]) *datastructure.TreeNode[T] {
cur := root
for cur.Left != nil {
cur = cur.Left
}
return cur
}
func printTreeNodes[T any](nodes []*datastructure.TreeNode[T], level, maxLevel int) {
if len(nodes) == 0 || isAllNil(nodes) {
return
}
floor := maxLevel - level
endgeLines := int(math.Pow(float64(2), (math.Max(float64(floor)-1, 0))))
firstSpaces := int(math.Pow(float64(2), float64(floor))) - 1
betweenSpaces := int(math.Pow(float64(2), float64(floor)+1)) - 1
printSpaces(firstSpaces)
newNodes := make([]*datastructure.TreeNode[T], 0, len(nodes)*2)
for _, node := range nodes {
if node != nil {
fmt.Printf("%v", node.Value)
newNodes = append(newNodes, node.Left)
newNodes = append(newNodes, node.Right)
} else {
newNodes = append(newNodes, nil)
newNodes = append(newNodes, nil)
printSpaces(1)
}
printSpaces(betweenSpaces)
}
fmt.Println("")
for i := 1; i <= endgeLines; i++ {
for j := 0; j < len(nodes); j++ {
printSpaces(firstSpaces - i)
if nodes[j] == nil {
printSpaces(endgeLines + endgeLines + i + 1)
continue
}
if nodes[j].Left != nil {
fmt.Print("/")
} else {
printSpaces(1)
}
printSpaces(i + i - 1)
if nodes[j].Right != nil {
fmt.Print("\\")
} else {
printSpaces(1)
}
printSpaces(endgeLines + endgeLines - 1)
}
fmt.Println("")
}
printTreeNodes(newNodes, level+1, maxLevel)
}
// printSpaces
func printSpaces(n int) {
for i := 0; i < n; i++ {
fmt.Print(" ")
}
}
func isAllNil[T any](nodes []*datastructure.TreeNode[T]) bool {
for _, v := range nodes {
if v != nil {
return false
}
}
return true
}
func calculateDepth[T any](node *datastructure.TreeNode[T], depth int) int {
if node == nil {
return depth
}
return max(calculateDepth(node.Left, depth+1), calculateDepth(node.Right, depth+1))
}
func isSubTree[T any](superTreeRoot, subTreeRoot *datastructure.TreeNode[T], comparator constraints.Comparator) bool {
if subTreeRoot == nil {
return true
}
if superTreeRoot == nil {
return false
}
if comparator.Compare(superTreeRoot.Value, subTreeRoot.Value) != 0 {
return false
}
result := isSubTree(superTreeRoot.Left, subTreeRoot.Left, comparator) && isSubTree(superTreeRoot.Right, subTreeRoot.Right, comparator)
return result
}
func max(a, b int) int {
if a > b {
return a
}
return b
}

24
datetime/conversion.go
View File

@@ -9,20 +9,17 @@ type theTime struct {
unix int64
}
// NewUnixNow return unix timestamp of current time.
// Play: https://go.dev/play/p/U4PPx-9D0oz
// NewUnixNow return unix timestamp of current time
func NewUnixNow() *theTime {
return &theTime{unix: time.Now().Unix()}
}
// NewUnix return unix timestamp of specified time.
// Play: https://go.dev/play/p/psoSuh_kLRt
// NewUnix return unix timestamp of specified time
func NewUnix(unix int64) *theTime {
return &theTime{unix: unix}
}
// NewFormat return unix timestamp of specified time string, t should be "yyyy-mm-dd hh:mm:ss".
// Play: https://go.dev/play/p/VkW08ZOaXPZ
// NewFormat return unix timestamp of specified time string, t should be "yyyy-mm-dd hh:mm:ss"
func NewFormat(t string) (*theTime, error) {
timeLayout := "2006-01-02 15:04:05"
loc := time.FixedZone("CST", 8*3600)
@@ -33,8 +30,7 @@ func NewFormat(t string) (*theTime, error) {
return &theTime{unix: tt.Unix()}, nil
}
// NewISO8601 return unix timestamp of specified iso8601 time string.
// Play: https://go.dev/play/p/mkhOHQkdeA2
// NewISO8601 return unix timestamp of specified iso8601 time string
func NewISO8601(iso8601 string) (*theTime, error) {
t, err := time.ParseInLocation(time.RFC3339, iso8601, time.UTC)
if err != nil {
@@ -43,26 +39,22 @@ func NewISO8601(iso8601 string) (*theTime, error) {
return &theTime{unix: t.Unix()}, nil
}
// ToUnix return unix timestamp.
// Play: https://go.dev/play/p/_LUiwAdocjy
// ToUnix return unix timestamp
func (t *theTime) ToUnix() int64 {
return t.unix
}
// ToFormat return the time string 'yyyy-mm-dd hh:mm:ss' of unix time.
// Play: https://go.dev/play/p/VkW08ZOaXPZ
// ToFormat return the time string 'yyyy-mm-dd hh:mm:ss' of unix time
func (t *theTime) ToFormat() string {
return time.Unix(t.unix, 0).Format("2006-01-02 15:04:05")
}
// ToFormatForTpl return the time string which format is specified tpl.
// Play: https://go.dev/play/p/nyXxXcQJ8L5
// ToFormatForTpl return the time string which format is specified tpl
func (t *theTime) ToFormatForTpl(tpl string) string {
return time.Unix(t.unix, 0).Format(tpl)
}
// ToFormatForTpl return iso8601 time string.
// Play: https://go.dev/play/p/mkhOHQkdeA2
// ToFormatForTpl return iso8601 time string
func (t *theTime) ToIso8601() string {
return time.Unix(t.unix, 0).Format(time.RFC3339)
}

33
datetime/conversion_test.go
View File

@@ -3,12 +3,10 @@ package datetime
import (
"testing"
"github.com/duke-git/lancet/v2/internal"
"github.com/duke-git/lancet/internal"
)
func TestToUnix(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToUnix")
tm1 := NewUnixNow()
@@ -19,37 +17,38 @@ func TestToUnix(t *testing.T) {
}
func TestToFormat(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToFormat")
tm, err := NewFormat("2022-03-18 17:04:05")
t.Log("TestToFormat", tm.ToFormat())
tm, err := NewFormat("2022/03/18 17:04:05")
assert.IsNotNil(err)
tm, err = NewFormat("2022-03-18 17:04:05")
assert.IsNil(err)
t.Log("ToFormat -> ", tm.ToFormat())
}
func TestToFormatForTpl(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToFormatForTpl")
_, err := NewFormat("2022/03/18 17:04:05")
tm, err := NewFormat("2022/03/18 17:04:05")
assert.IsNotNil(err)
tm, err := NewFormat("2022-03-18 17:04:05")
t.Log("TestToFormatForTpl", tm.ToFormatForTpl("2006/01/02 15:04:05"))
tm, err = NewFormat("2022-03-18 17:04:05")
assert.IsNil(err)
t.Log("ToFormatForTpl -> ", tm.ToFormatForTpl("2006/01/02 15:04:05"))
}
func TestToIso8601(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestToIso8601")
_, err := NewISO8601("2022-03-18 17:04:05")
tm, err := NewISO8601("2022-03-18 17:04:05")
assert.IsNotNil(err)
tm, err := NewISO8601("2006-01-02T15:04:05.999Z")
t.Log("TestToIso8601", tm.ToIso8601())
tm, err = NewISO8601("2006-01-02T15:04:05.999Z")
assert.IsNil(err)
t.Log("ToIso8601 -> ", tm.ToIso8601())
}

489
datetime/datetime.go
View File

@@ -3,35 +3,29 @@
// Package datetime implements some functions to format date and time.
// Note:
// 1. `format` param in FormatTimeToStr function should be as flow (case no sensitive):
// "yyyy-mm-dd hh:mm:ss"
// "yyyy-mm-dd hh:mm"
// "yyyy-mm-dd hh"
// "yyyy-mm-dd"
// "yyyy-mm"
// "mm-dd"
// "dd-mm-yy hh:mm:ss"
// "yyyy/mm/dd hh:mm:ss"
// "yyyy/mm/dd hh:mm"
// "yyyy/mm/dd hh"
// "yyyy/mm/dd"
// "yyyy/mm"
// "mm/dd"
// "dd/mm/yy hh:mm:ss"
// "yyyymmdd"
// "mmddyy"
// "yyyy"
// "yy"
// "mm"
// "hh:mm:ss"
// "hh:mm"
// "mm:ss"
// 1. `format` param in FormatTimeToStr function should be as flow:
//"yyyy-mm-dd hh:mm:ss"
//"yyyy-mm-dd hh:mm"
//"yyyy-mm-dd hh"
//"yyyy-mm-dd"
//"yyyy-mm"
//"mm-dd"
//"dd-mm-yy hh:mm:ss"
//"yyyy/mm/dd hh:mm:ss"
//"yyyy/mm/dd hh:mm"
//"yyyy/mm/dd hh"
//"yyyy/mm/dd"
//"yyyy/mm"
//"mm/dd"
//"dd/mm/yy hh:mm:ss"
//"yyyy"
//"mm"
//"hh:mm:ss"
//"mm:ss"
package datetime
import (
"fmt"
"runtime"
"strings"
"time"
)
@@ -41,7 +35,7 @@ func init() {
timeFormat = map[string]string{
"yyyy-mm-dd hh:mm:ss": "2006-01-02 15:04:05",
"yyyy-mm-dd hh:mm": "2006-01-02 15:04",
"yyyy-mm-dd hh": "2006-01-02 15",
"yyyy-mm-dd hh": "2006-01-02 15:04",
"yyyy-mm-dd": "2006-01-02",
"yyyy-mm": "2006-01",
"mm-dd": "01-02",
@@ -53,499 +47,136 @@ func init() {
"yyyy/mm": "2006/01",
"mm/dd": "01/02",
"dd/mm/yy hh:mm:ss": "02/01/06 15:04:05",
"yyyymmdd": "20060102",
"mmddyy": "010206",
"yyyy": "2006",
"yy": "06",
"mm": "01",
"hh:mm:ss": "15:04:05",
"hh:mm": "15:04",
"mm:ss": "04:05",
}
}
// AddMinute add or sub minutes to the time.
// Play: https://go.dev/play/p/nT1heB1KUUK
func AddMinute(t time.Time, minutes int64) time.Time {
return t.Add(time.Minute * time.Duration(minutes))
// AddMinute add or sub minute to the time
func AddMinute(t time.Time, minute int64) time.Time {
return t.Add(time.Minute * time.Duration(minute))
}
// AddHour add or sub hours to the time.
// Play: https://go.dev/play/p/rcMjd7OCsi5
func AddHour(t time.Time, hours int64) time.Time {
return t.Add(time.Hour * time.Duration(hours))
// AddHour add or sub hour to the time
func AddHour(t time.Time, hour int64) time.Time {
return t.Add(time.Hour * time.Duration(hour))
}
// AddDay add or sub days to the time.
// Play: https://go.dev/play/p/dIGbs_uTdFa
func AddDay(t time.Time, days int64) time.Time {
return t.Add(24 * time.Hour * time.Duration(days))
// AddDay add or sub day to the time
func AddDay(t time.Time, day int64) time.Time {
return t.Add(24 * time.Hour * time.Duration(day))
}
// AddWeek add or sub weeks to the time.
// play: https://go.dev/play/p/M9TqdMiaA2p
func AddWeek(t time.Time, weeks int64) time.Time {
return t.Add(7 * 24 * time.Hour * time.Duration(weeks))
}
// AddMonth add or sub months to the time.
// Play: https://go.dev/play/p/DLoiOnpLvsN
func AddMonth(t time.Time, months int64) time.Time {
return t.AddDate(0, int(months), 0)
}
// AddYear add or sub year to the time.
// Play: https://go.dev/play/p/MqW2ujnBx10
func AddYear(t time.Time, year int64) time.Time {
return t.AddDate(int(year), 0, 0)
}
// AddDaySafe add or sub days to the time and ensure that the returned date does not exceed the valid date of the target year and month.
// Play: https://go.dev/play/p/JTohZFpoDJ3
func AddDaySafe(t time.Time, days int) time.Time {
t = t.AddDate(0, 0, days)
year, month, day := t.Date()
lastDayOfMonth := time.Date(year, month+1, 0, 0, 0, 0, 0, t.Location()).Day()
if day > lastDayOfMonth {
t = time.Date(year, month, lastDayOfMonth, t.Hour(), t.Minute(), t.Second(), t.Nanosecond(), t.Location())
}
return t
}
// AddMonthSafe add or sub months to the time and ensure that the returned date does not exceed the valid date of the target year and month.
// Play: https://go.dev/play/p/KLw0lo6mbVW
func AddMonthSafe(t time.Time, months int) time.Time {
year := t.Year()
month := int(t.Month()) + months
for month > 12 {
month -= 12
year++
}
for month < 1 {
month += 12
year--
}
daysInMonth := time.Date(year, time.Month(month+1), 0, 0, 0, 0, 0, time.UTC).Day()
day := t.Day()
if day > daysInMonth {
day = daysInMonth
}
return time.Date(year, time.Month(month), day, t.Hour(), t.Minute(), t.Second(), t.Nanosecond(), t.Location())
}
// AddYearSafe add or sub years to the time and ensure that the returned date does not exceed the valid date of the target year and month.
// Play: https://go.dev/play/p/KVGXWZZ54ZH
func AddYearSafe(t time.Time, years int) time.Time {
year, month, day := t.Date()
year += years
if month == time.February && day == 29 {
if !IsLeapYear(year) {
day = 28
}
}
return time.Date(year, month, day, t.Hour(), t.Minute(), t.Second(), t.Nanosecond(), t.Location())
}
// GetNowDate return format yyyy-mm-dd of current date.
// Play: https://go.dev/play/p/PvfkPpcpBBf
// GetNowDate return format yyyy-mm-dd of current date
func GetNowDate() string {
return time.Now().Format("2006-01-02")
}
// GetNowTime return format hh-mm-ss of current time.
// Play: https://go.dev/play/p/l7BNxCkTmJS
// GetNowTime return format hh-mm-ss of current time
func GetNowTime() string {
return time.Now().Format("15:04:05")
}
// GetNowDateTime return format yyyy-mm-dd hh-mm-ss of current datetime.
// Play: https://go.dev/play/p/pI4AqngD0al
// GetNowDateTime return format yyyy-mm-dd hh-mm-ss of current datetime
func GetNowDateTime() string {
return time.Now().Format("2006-01-02 15:04:05")
}
// GetTodayStartTime return the start time of today, format: yyyy-mm-dd 00:00:00.
// Play: https://go.dev/play/p/84siyYF7t99
func GetTodayStartTime() string {
return time.Now().Format("2006-01-02") + " 00:00:00"
}
// GetTodayEndTime return the end time of today, format: yyyy-mm-dd 23:59:59.
// Play: https://go.dev/play/p/jjrLnfoqgn3
func GetTodayEndTime() string {
return time.Now().Format("2006-01-02") + " 23:59:59"
}
// GetZeroHourTimestamp return timestamp of zero hour (timestamp of 00:00).
// Play: https://go.dev/play/p/QmL2oIaGE3q
// GetZeroHourTimestamp return timestamp of zero hour (timestamp of 00:00)
func GetZeroHourTimestamp() int64 {
ts := time.Now().Format("2006-01-02")
t, _ := time.Parse("2006-01-02", ts)
return t.UTC().Unix() - 8*3600
}
// GetNightTimestamp return timestamp of zero hour (timestamp of 23:59).
// Play: https://go.dev/play/p/UolysR3MYP1
// GetNightTimestamp return timestamp of zero hour (timestamp of 23:59)
func GetNightTimestamp() int64 {
return GetZeroHourTimestamp() + 86400 - 1
}
// FormatTimeToStr convert time to string.
// Play: https://go.dev/play/p/_Ia7M8H_OvE
func FormatTimeToStr(t time.Time, format string, timezone ...string) string {
tf, ok := timeFormat[strings.ToLower(format)]
if !ok {
return ""
}
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return ""
}
return t.In(loc).Format(tf)
}
return t.Format(tf)
// FormatTimeToStr convert time to string
func FormatTimeToStr(t time.Time, format string) string {
return t.Format(timeFormat[format])
}
// FormatStrToTime convert string to time.
// Play: https://go.dev/play/p/1h9FwdU8ql4
func FormatStrToTime(str, format string, timezone ...string) (time.Time, error) {
tf, ok := timeFormat[strings.ToLower(format)]
// FormatStrToTime convert string to time
func FormatStrToTime(str, format string) (time.Time, error) {
v, ok := timeFormat[format]
if !ok {
return time.Time{}, fmt.Errorf("format %s not support", format)
return time.Time{}, fmt.Errorf("format %s not found", format)
}
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return time.Time{}, err
}
return time.ParseInLocation(tf, str, loc)
}
return time.Parse(tf, str)
return time.Parse(v, str)
}
// BeginOfMinute return beginning minute time of day.
// Play: https://go.dev/play/p/ieOLVJ9CiFT
// BeginOfMinute return beginning minute time of day
func BeginOfMinute(t time.Time) time.Time {
y, m, d := t.Date()
return time.Date(y, m, d, t.Hour(), t.Minute(), 0, 0, t.Location())
}
// EndOfMinute return end minute time of day.
// Play: https://go.dev/play/p/yrL5wGzPj4z
// EndOfMinute return end minute time of day
func EndOfMinute(t time.Time) time.Time {
y, m, d := t.Date()
return time.Date(y, m, d, t.Hour(), t.Minute(), 59, int(time.Second-time.Nanosecond), t.Location())
}
// BeginOfHour return beginning hour time of day.
// Play: https://go.dev/play/p/GhdGFnDWpYs
// BeginOfHour return beginning hour time of day
func BeginOfHour(t time.Time) time.Time {
y, m, d := t.Date()
return time.Date(y, m, d, t.Hour(), 0, 0, 0, t.Location())
}
// EndOfHour return end hour time of day.
// Play: https://go.dev/play/p/6ce3j_6cVqN
// EndOfHour return end hour time of day
func EndOfHour(t time.Time) time.Time {
y, m, d := t.Date()
return time.Date(y, m, d, t.Hour(), 59, 59, int(time.Second-time.Nanosecond), t.Location())
}
// BeginOfDay return beginning hour time of day.
// Play: https://go.dev/play/p/94m_UT6cWs9
// BeginOfDay return beginning hour time of day
func BeginOfDay(t time.Time) time.Time {
y, m, d := t.Date()
return time.Date(y, m, d, 0, 0, 0, 0, t.Location())
}
// EndOfDay return end time of day.
// Play: https://go.dev/play/p/eMBOvmq5Ih1
// EndOfDay return end time of day
func EndOfDay(t time.Time) time.Time {
y, m, d := t.Date()
return time.Date(y, m, d, 23, 59, 59, int(time.Second-time.Nanosecond), t.Location())
}
// BeginOfWeek return beginning week, default week begin from Sunday.
// Play: https://go.dev/play/p/DCHdcL6gnfV
func BeginOfWeek(t time.Time, beginFrom time.Weekday) time.Time {
y, m, d := t.AddDate(0, 0, int(beginFrom-t.Weekday())).Date()
beginOfWeek := time.Date(y, m, d, 0, 0, 0, 0, t.Location())
if beginOfWeek.After(t) {
return beginOfWeek.AddDate(0, 0, -7)
}
return beginOfWeek
// BeginOfWeek return beginning week, week begin from Sunday
func BeginOfWeek(t time.Time) time.Time {
y, m, d := t.AddDate(0, 0, 0-int(BeginOfDay(t).Weekday())).Date()
return time.Date(y, m, d, 0, 0, 0, 0, t.Location())
}
// EndOfWeek return end week time, default week end with Saturday.
// Play: https://go.dev/play/p/mGSA162YgX9
func EndOfWeek(t time.Time, endWith time.Weekday) time.Time {
y, m, d := t.AddDate(0, 0, int(endWith-t.Weekday())).Date()
var endWithWeek = time.Date(y, m, d, 23, 59, 59, int(time.Second-time.Nanosecond), t.Location())
if endWithWeek.Before(t) {
endWithWeek = endWithWeek.AddDate(0, 0, 7)
}
return endWithWeek
// EndOfWeek return end week time, week end with Saturday
func EndOfWeek(t time.Time) time.Time {
y, m, d := BeginOfWeek(t).AddDate(0, 0, 7).Add(-time.Nanosecond).Date()
return time.Date(y, m, d, 23, 59, 59, int(time.Second-time.Nanosecond), t.Location())
}
// BeginOfMonth return beginning of month.
// Play: https://go.dev/play/p/bWXVFsmmzwL
// BeginOfMonth return beginning of month
func BeginOfMonth(t time.Time) time.Time {
y, m, _ := t.Date()
return time.Date(y, m, 1, 0, 0, 0, 0, t.Location())
}
// EndOfMonth return end of month.
// Play: https://go.dev/play/p/_GWh10B3Nqi
// EndOfMonth return end of month
func EndOfMonth(t time.Time) time.Time {
return BeginOfMonth(t).AddDate(0, 1, 0).Add(-time.Nanosecond)
}
// BeginOfYear return the date time at the begin of year.
// Play: https://go.dev/play/p/i326DSwLnV8
// BeginOfYear return beginning of year
func BeginOfYear(t time.Time) time.Time {
y, _, _ := t.Date()
return time.Date(y, time.January, 1, 0, 0, 0, 0, t.Location())
}
// EndOfYear return the date time at the end of year.
// Play: https://go.dev/play/p/G01cKlMCvNm
// EndOfYear return end of year
func EndOfYear(t time.Time) time.Time {
return BeginOfYear(t).AddDate(1, 0, 0).Add(-time.Nanosecond)
}
// IsLeapYear check if param year is leap year or not.
// Play: https://go.dev/play/p/xS1eS2ejGew
func IsLeapYear(year int) bool {
return year%4 == 0 && (year%100 != 0 || year%400 == 0)
}
// BetweenSeconds returns the number of seconds between two times.
// Play: https://go.dev/play/p/n3YDRyfyXJu
func BetweenSeconds(t1 time.Time, t2 time.Time) int64 {
index := t2.Unix() - t1.Unix()
return index
}
// DayOfYear returns which day of the year the parameter date `t` is.
// Play: https://go.dev/play/p/0hjqhTwFNlH
func DayOfYear(t time.Time) int {
y, m, d := t.Date()
firstDay := time.Date(y, 1, 1, 0, 0, 0, 0, t.Location())
nowDate := time.Date(y, m, d, 0, 0, 0, 0, t.Location())
return int(nowDate.Sub(firstDay).Hours() / 24)
}
// IsWeekend checks if passed time is weekend or not.
// Play: https://go.dev/play/p/cupRM5aZOIY
// Deprecated Use '== Weekday' instead
func IsWeekend(t time.Time) bool {
return time.Saturday == t.Weekday() || time.Sunday == t.Weekday()
}
// NowDateOrTime return current datetime with specific format and timezone.
// Play: https://go.dev/play/p/EZ-begEjtT0
func NowDateOrTime(format string, timezone ...string) string {
tf, ok := timeFormat[strings.ToLower(format)]
if !ok {
return ""
}
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return ""
}
return time.Now().In(loc).Format(tf)
}
return time.Now().Format(tf)
}
// Timestamp return current second timestamp.
// Play: https://go.dev/play/p/iU5b7Vvjx6x
func Timestamp(timezone ...string) int64 {
t := time.Now()
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return 0
}
t = t.In(loc)
}
return t.Unix()
}
// TimestampMilli return current mill second timestamp.
// Play: https://go.dev/play/p/4gvEusOTu1T
func TimestampMilli(timezone ...string) int64 {
t := time.Now()
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return 0
}
t = t.In(loc)
}
return int64(time.Nanosecond) * t.UnixNano() / int64(time.Millisecond)
}
// TimestampMicro return current micro second timestamp.
// Play: https://go.dev/play/p/2maANglKHQE
func TimestampMicro(timezone ...string) int64 {
t := time.Now()
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return 0
}
t = t.In(loc)
}
return int64(time.Nanosecond) * t.UnixNano() / int64(time.Microsecond)
}
// TimestampNano return current nano second timestamp.
// Play: https://go.dev/play/p/A9Oq_COrcCF
func TimestampNano(timezone ...string) int64 {
t := time.Now()
if timezone != nil && timezone[0] != "" {
loc, err := time.LoadLocation(timezone[0])
if err != nil {
return 0
}
t = t.In(loc)
}
return t.UnixNano()
}
// TrackFuncTime track the time of function execution.
// call it at top of the func like `defer TrackFuncTime(time.Now())()`
// Play: https://go.dev/play/p/QBSEdfXHPTp
func TrackFuncTime(pre time.Time) func() {
callerName := getCallerName()
return func() {
elapsed := time.Since(pre)
fmt.Printf("Function %s execution time:\t %v", callerName, elapsed)
}
}
func getCallerName() string {
pc, _, _, ok := runtime.Caller(2)
if !ok {
return "Unknown"
}
fn := runtime.FuncForPC(pc)
if fn == nil {
return "Unknown"
}
fullName := fn.Name()
if lastDot := strings.LastIndex(fullName, "."); lastDot != -1 {
return fullName[lastDot+1:]
}
return fullName
}
// DaysBetween returns the number of days between two times.
// Play: https://go.dev/play/p/qD6qGb3TbOy
func DaysBetween(start, end time.Time) int {
duration := end.Sub(start)
days := int(duration.Hours() / 24)
return days
}
// GenerateDatetimesBetween returns a slice of strings between two times.
// layout: the format of the datetime string
// interval: the interval between two datetimes
// Play: https://go.dev/play/p/6kHBpAxD9ZC
func GenerateDatetimesBetween(start, end time.Time, layout string, interval string) ([]string, error) {
var result []string
if start.After(end) {
start, end = end, start
}
duration, err := time.ParseDuration(interval)
if err != nil {
return nil, err
}
for current := start; !current.After(end); current = current.Add(duration) {
result = append(result, current.Format(layout))
}
return result, nil
}
// Min returns the earliest time among the given times.
// Play: https://go.dev/play/p/MCIDvHNOGGb
func Min(t1 time.Time, times ...time.Time) time.Time {
minTime := t1
for _, t := range times {
if t.Before(minTime) {
minTime = t
}
}
return minTime
}
// Max returns the latest time among the given times.
// Play: https://go.dev/play/p/9m6JMk1LB7-
func Max(t1 time.Time, times ...time.Time) time.Time {
maxTime := t1
for _, t := range times {
if t.After(maxTime) {
maxTime = t
}
}
return maxTime
}
// MaxMin returns the latest and earliest time among the given times.
// Play: https://go.dev/play/p/rbW51cDtM_2
func MaxMin(t1 time.Time, times ...time.Time) (maxTime time.Time, minTime time.Time) {
maxTime = t1
minTime = t1
for _, t := range times {
if t.Before(minTime) {
minTime = t
}
if t.After(maxTime) {
maxTime = t
}
}
return maxTime, minTime
}

538
datetime/datetime_example_test.go
View File

@@ -1,538 +0,0 @@
package datetime
import (
"fmt"
"reflect"
"time"
)
func ExampleAddDay() {
date, _ := time.Parse("2006-01-02 15:04:05", "2021-01-01 00:00:00")
after1Day := AddDay(date, 1)
before1Day := AddDay(date, -1)
fmt.Println(after1Day.Format("2006-01-02 15:04:05"))
fmt.Println(before1Day.Format("2006-01-02 15:04:05"))
// Output:
// 2021-01-02 00:00:00
// 2020-12-31 00:00:00
}
func ExampleAddWeek() {
date, _ := time.Parse("2006-01-02", "2021-01-01")
after2Weeks := AddWeek(date, 2)
before2Weeks := AddWeek(date, -2)
fmt.Println(after2Weeks.Format("2006-01-02"))
fmt.Println(before2Weeks.Format("2006-01-02"))
// Output:
// 2021-01-15
// 2020-12-18
}
func ExampleAddMonth() {
date, _ := time.Parse("2006-01-02", "2021-01-01")
after2Months := AddMonth(date, 2)
before2Months := AddMonth(date, -2)
fmt.Println(after2Months.Format("2006-01-02"))
fmt.Println(before2Months.Format("2006-01-02"))
// Output:
// 2021-03-01
// 2020-11-01
}
func ExampleAddHour() {
date, _ := time.Parse("2006-01-02 15:04:05", "2021-01-01 00:00:00")
after2Hours := AddHour(date, 2)
before2Hours := AddHour(date, -2)
fmt.Println(after2Hours.Format("2006-01-02 15:04:05"))
fmt.Println(before2Hours.Format("2006-01-02 15:04:05"))
// Output:
// 2021-01-01 02:00:00
// 2020-12-31 22:00:00
}
func ExampleAddMinute() {
date, _ := time.Parse("2006-01-02 15:04:05", "2021-01-01 00:00:00")
after2Minutes := AddMinute(date, 2)
before2Minutes := AddMinute(date, -2)
fmt.Println(after2Minutes.Format("2006-01-02 15:04:05"))
fmt.Println(before2Minutes.Format("2006-01-02 15:04:05"))
// Output:
// 2021-01-01 00:02:00
// 2020-12-31 23:58:00
}
func ExampleAddYear() {
date, _ := time.Parse("2006-01-02", "2021-01-01")
after2Years := AddYear(date, 2)
before2Years := AddYear(date, -2)
fmt.Println(after2Years.Format("2006-01-02"))
fmt.Println(before2Years.Format("2006-01-02"))
// Output:
// 2023-01-01
// 2019-01-01
}
func ExampleAddDaySafe() {
leapYearDate1, _ := time.Parse("2006-01-02", "2024-02-29")
result1 := AddDaySafe(leapYearDate1, 1)
leapYearDate2, _ := time.Parse("2006-01-02", "2024-03-01")
result2 := AddDaySafe(leapYearDate2, -1)
nonLeapYearDate1, _ := time.Parse("2006-01-02", "2025-02-28")
result3 := AddDaySafe(nonLeapYearDate1, 1)
nonLeaYearDate2, _ := time.Parse("2006-01-02", "2025-03-01")
result4 := AddDaySafe(nonLeaYearDate2, -1)
fmt.Println(result1.Format("2006-01-02"))
fmt.Println(result2.Format("2006-01-02"))
fmt.Println(result3.Format("2006-01-02"))
fmt.Println(result4.Format("2006-01-02"))
// Output:
// 2024-03-01
// 2024-02-29
// 2025-03-01
// 2025-02-28
}
func ExampleAddMonthSafe() {
date1, _ := time.Parse("2006-01-02", "2025-01-31")
result1 := AddMonthSafe(date1, 1)
date2, _ := time.Parse("2006-01-02", "2024-02-29")
result2 := AddMonthSafe(date2, -1)
fmt.Println(result1.Format("2006-01-02"))
fmt.Println(result2.Format("2006-01-02"))
// Output:
// 2025-02-28
// 2024-01-29
}
func ExampleAddYearSafe() {
date, _ := time.Parse("2006-01-02", "2020-02-29")
result1 := AddYearSafe(date, 1)
result2 := AddYearSafe(date, -1)
fmt.Println(result1.Format("2006-01-02"))
fmt.Println(result2.Format("2006-01-02"))
// Output:
// 2021-02-28
// 2019-02-28
}
func ExampleGetNowDate() {
result := GetNowDate()
expected := time.Now().Format("2006-01-02")
fmt.Println(result == expected)
// Output:
// true
}
func ExampleGetNowTime() {
result := GetNowTime()
expected := time.Now().Format("15:04:05")
fmt.Println(result == expected)
// Output:
// true
}
func ExampleGetNowDateTime() {
result := GetNowDateTime()
expected := time.Now().Format("2006-01-02 15:04:05")
fmt.Println(result == expected)
// Output:
// true
}
// func ExampleGetZeroHourTimestamp() {
// ts := GetZeroHourTimestamp()
// fmt.Println(ts)
// // Output:
// // 1673107200
// }
// func ExampleGetNightTimestamp() {
// ts := GetNightTimestamp()
// fmt.Println(ts)
// // Output:
// // 1673193599
// }
func ExampleFormatTimeToStr() {
datetime, _ := time.Parse("2006-01-02 15:04:05", "2021-01-02 16:04:08")
result1 := FormatTimeToStr(datetime, "yyyy-mm-dd hh:mm:ss")
result2 := FormatTimeToStr(datetime, "yyyy-mm-dd")
result3 := FormatTimeToStr(datetime, "dd-mm-yy hh:mm:ss")
result4 := FormatTimeToStr(datetime, "yyyy-mm-dd hh")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// 2021-01-02 16:04:08
// 2021-01-02
// 02-01-21 16:04:08
// 2021-01-02 16
}
func ExampleFormatStrToTime() {
result1, _ := FormatStrToTime("2021-01-02 16:04:08", "yyyy-mm-dd hh:mm:ss")
result2, _ := FormatStrToTime("2021-01-02", "yyyy-mm-dd")
result3, _ := FormatStrToTime("02-01-21 16:04:08", "dd-mm-yy hh:mm:ss")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
// Output:
// 2021-01-02 16:04:08 +0000 UTC
// 2021-01-02 00:00:00 +0000 UTC
// 2021-01-02 16:04:08 +0000 UTC
}
func ExampleBeginOfMinute() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := BeginOfMinute(input)
fmt.Println(result)
// Output:
// 2023-01-08 18:50:00 +0000 UTC
}
func ExampleEndOfMinute() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := EndOfMinute(input)
fmt.Println(result)
// Output:
// 2023-01-08 18:50:59.999999999 +0000 UTC
}
func ExampleBeginOfHour() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := BeginOfHour(input)
fmt.Println(result)
// Output:
// 2023-01-08 18:00:00 +0000 UTC
}
func ExampleEndOfHour() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := EndOfHour(input)
fmt.Println(result)
// Output:
// 2023-01-08 18:59:59.999999999 +0000 UTC
}
func ExampleBeginOfDay() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := BeginOfDay(input)
fmt.Println(result)
// Output:
// 2023-01-08 00:00:00 +0000 UTC
}
func ExampleEndOfDay() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := EndOfDay(input)
fmt.Println(result)
// Output:
// 2023-01-08 23:59:59.999999999 +0000 UTC
}
func ExampleBeginOfWeek() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := BeginOfWeek(input, time.Monday)
fmt.Println(result)
// Output:
// 2023-01-02 00:00:00 +0000 UTC
}
func ExampleEndOfWeek() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := EndOfWeek(input, time.Sunday)
fmt.Println(result)
// Output:
// 2023-01-08 23:59:59.999999999 +0000 UTC
}
func ExampleBeginOfMonth() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := BeginOfMonth(input)
fmt.Println(result)
// Output:
// 2023-01-01 00:00:00 +0000 UTC
}
func ExampleEndOfMonth() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := EndOfMonth(input)
fmt.Println(result)
// Output:
// 2023-01-31 23:59:59.999999999 +0000 UTC
}
func ExampleBeginOfYear() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := BeginOfYear(input)
fmt.Println(result)
// Output:
// 2023-01-01 00:00:00 +0000 UTC
}
func ExampleEndOfYear() {
input := time.Date(2023, 1, 8, 18, 50, 10, 100, time.UTC)
result := EndOfYear(input)
fmt.Println(result)
// Output:
// 2023-12-31 23:59:59.999999999 +0000 UTC
}
func ExampleNewUnix() {
result := NewUnix(1647597438)
fmt.Println(result)
// Output:
// &{1647597438}
}
func ExampleNewUnixNow() {
tm1 := NewUnixNow()
unixTimestamp := tm1.ToUnix()
tm2 := NewUnix(unixTimestamp)
fmt.Println(reflect.DeepEqual(tm1, tm2))
// Output:
// true
}
// func ExampleNewFormat() {
// tm, err := NewFormat("2022-03-18 17:04:05")
// if err != nil {
// return
// }
// result := tm.ToFormat()
// fmt.Println(result)
// // Output:
// // 2022-03-18 17:04:05
// }
// func ExampleNewISO8601() {
// tm, err := NewISO8601("2006-01-02T15:04:05.999Z")
// if err != nil {
// return
// }
// result := tm.ToIso8601()
// fmt.Println(result)
// // Output:
// // 2006-01-02T23:04:05+08:00
// }
func ExampleIsLeapYear() {
result1 := IsLeapYear(2000)
result2 := IsLeapYear(2001)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// true
// false
}
func ExampleBetweenSeconds() {
today := time.Now()
tomorrow := AddDay(today, 1)
yesterday := AddDay(today, -1)
result1 := BetweenSeconds(today, tomorrow)
result2 := BetweenSeconds(today, yesterday)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 86400
// -86400
}
func ExampleDayOfYear() {
date1 := time.Date(2023, 02, 01, 1, 1, 1, 0, time.Local)
result1 := DayOfYear(date1)
date2 := time.Date(2023, 01, 02, 1, 1, 1, 0, time.Local)
result2 := DayOfYear(date2)
date3 := time.Date(2023, 01, 01, 1, 1, 1, 0, time.Local)
result3 := DayOfYear(date3)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
// Output:
// 31
// 1
// 0
}
func ExampleIsWeekend() {
date1 := time.Date(2023, 06, 03, 0, 0, 0, 0, time.Local)
date2 := time.Date(2023, 06, 04, 0, 0, 0, 0, time.Local)
date3 := time.Date(2023, 06, 02, 0, 0, 0, 0, time.Local)
result1 := IsWeekend(date1)
result2 := IsWeekend(date2)
result3 := IsWeekend(date3)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
// Output:
// true
// true
// false
}
func ExampleDaysBetween() {
start := time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC)
end := time.Date(2024, time.September, 10, 0, 0, 0, 0, time.UTC)
result := DaysBetween(start, end)
fmt.Println(result)
// Output:
// 9
}
func ExampleGenerateDatetimesBetween() {
start := time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC)
end := time.Date(2024, time.September, 1, 2, 0, 0, 0, time.UTC)
layout := "2006-01-02 15:04:05"
interval := "1h"
result, err := GenerateDatetimesBetween(start, end, layout, interval)
fmt.Println(result)
fmt.Println(err)
// Output:
// [2024-09-01 00:00:00 2024-09-01 01:00:00 2024-09-01 02:00:00]
// <nil>
}
func ExampleMin() {
result := Min(time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC), time.Date(2024, time.September, 2, 0, 0, 0, 0, time.UTC))
fmt.Println(result)
// Output:
// 2024-09-01 00:00:00 +0000 UTC
}
func ExampleMax() {
result := Max(time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC), time.Date(2024, time.September, 2, 0, 0, 0, 0, time.UTC))
fmt.Println(result)
// Output:
// 2024-09-02 00:00:00 +0000 UTC
}
func ExampleMaxMin() {
max, min := MaxMin(time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC), time.Date(2024, time.September, 2, 0, 0, 0, 0, time.UTC), time.Date(2024, time.September, 3, 0, 0, 0, 0, time.UTC))
fmt.Println(max)
fmt.Println(min)
// Output:
// 2024-09-03 00:00:00 +0000 UTC
// 2024-09-01 00:00:00 +0000 UTC
}

780
datetime/datetime_test.go
View File

@@ -4,506 +4,88 @@ import (
"testing"
"time"
"github.com/duke-git/lancet/v2/internal"
"github.com/duke-git/lancet/internal"
)
func TestAddYear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddDay")
tests := []struct {
inputDate string
years int
expected string
}{
{
inputDate: "2021-01-01 00:00:00",
years: 1,
expected: "2022-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
years: -1,
expected: "2020-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
years: 0,
expected: "2021-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
years: 2,
expected: "2023-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
years: 3,
expected: "2024-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
years: 4,
expected: "2025-01-01 00:00:00",
},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02 15:04:05", tt.inputDate)
result := AddYear(date, int64(tt.years))
assert.Equal(tt.expected, result.Format("2006-01-02 15:04:05"))
}
}
func TestAddDay(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddDay")
tests := []struct {
inputDate string
days int
expected string
}{
{
inputDate: "2021-01-01 00:00:00",
days: 1,
expected: "2021-01-02 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
days: -1,
expected: "2020-12-31 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
days: 0,
expected: "2021-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
days: 2,
expected: "2021-01-03 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
days: 3,
expected: "2021-01-04 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
days: 4,
expected: "2021-01-05 00:00:00",
},
}
now := time.Now()
after2Days := AddDay(now, 2)
diff1 := after2Days.Sub(now)
assert.Equal(float64(48), diff1.Hours())
for _, tt := range tests {
date, _ := time.Parse("2006-01-02 15:04:05", tt.inputDate)
result := AddDay(date, int64(tt.days))
assert.Equal(tt.expected, result.Format("2006-01-02 15:04:05"))
}
before2Days := AddDay(now, -2)
diff2 := before2Days.Sub(now)
assert.Equal(float64(-48), diff2.Hours())
}
func TestAddHour(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddHour")
tests := []struct {
inputDate string
hours int
expected string
}{
{
inputDate: "2021-01-01 00:00:00",
hours: 1,
expected: "2021-01-01 01:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
hours: -1,
expected: "2020-12-31 23:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
hours: 0,
expected: "2021-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
hours: 24,
expected: "2021-01-02 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
hours: 25,
expected: "2021-01-02 01:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
hours: 48,
expected: "2021-01-03 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
hours: 49,
expected: "2021-01-03 01:00:00",
},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02 15:04:05", tt.inputDate)
result := AddHour(date, int64(tt.hours))
assert.Equal(tt.expected, result.Format("2006-01-02 15:04:05"))
}
now := time.Now()
after2Hours := AddHour(now, 2)
diff1 := after2Hours.Sub(now)
assert.Equal(float64(2), diff1.Hours())
before2Hours := AddHour(now, -2)
diff2 := before2Hours.Sub(now)
assert.Equal(float64(-2), diff2.Hours())
}
func TestAddMinute(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddMinute")
tests := []struct {
inputDate string
minutes int
expected string
}{
{
inputDate: "2021-01-01 00:00:00",
minutes: 1,
expected: "2021-01-01 00:01:00",
},
{
inputDate: "2021-01-01 00:00:00",
minutes: -1,
expected: "2020-12-31 23:59:00",
},
{
inputDate: "2021-01-01 00:00:00",
minutes: 0,
expected: "2021-01-01 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
minutes: 60,
expected: "2021-01-01 01:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
minutes: 61,
expected: "2021-01-01 01:01:00",
},
{
inputDate: "2021-01-01 00:00:00",
minutes: 1440,
expected: "2021-01-02 00:00:00",
},
{
inputDate: "2021-01-01 00:00:00",
minutes: 1441,
expected: "2021-01-02 00:01:00",
},
}
now := time.Now()
after2Minutes := AddMinute(now, 2)
diff1 := after2Minutes.Sub(now)
assert.Equal(float64(2), diff1.Minutes())
for _, tt := range tests {
date, _ := time.Parse("2006-01-02 15:04:05", tt.inputDate)
result := AddMinute(date, int64(tt.minutes))
assert.Equal(tt.expected, result.Format("2006-01-02 15:04:05"))
}
}
func TestAddWeek(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddWeek")
tests := []struct {
inputDate string
weeks int
expected string
}{
{
inputDate: "2021-01-01",
weeks: 1,
expected: "2021-01-08",
},
{
inputDate: "2021-01-01",
weeks: -1,
expected: "2020-12-25",
},
{
inputDate: "2021-01-01",
weeks: 0,
expected: "2021-01-01",
},
{
inputDate: "2021-01-01",
weeks: 52,
expected: "2021-12-31",
},
{
inputDate: "2021-01-01",
weeks: 53,
expected: "2022-01-07",
},
{
inputDate: "2021-01-01",
weeks: 104,
expected: "2022-12-30",
},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02", tt.inputDate)
result := AddWeek(date, int64(tt.weeks))
assert.Equal(tt.expected, result.Format("2006-01-02"))
}
}
func TestAddMonth(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddMonth")
tests := []struct {
inputDate string
months int
expected string
}{
{
inputDate: "2021-01-01",
months: 1,
expected: "2021-02-01",
},
{
inputDate: "2021-01-01",
months: -1,
expected: "2020-12-01",
},
{
inputDate: "2021-01-01",
months: 0,
expected: "2021-01-01",
},
{
inputDate: "2021-01-01",
months: 12,
expected: "2022-01-01",
},
{
inputDate: "2021-01-01",
months: 13,
expected: "2022-02-01",
},
{
inputDate: "2021-01-01",
months: 24,
expected: "2023-01-01",
},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02", tt.inputDate)
result := AddMonth(date, int64(tt.months))
assert.Equal(tt.expected, result.Format("2006-01-02"))
}
}
func TestAddDaySafe(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddDaySafe")
tests := []struct {
inputDate string
days int
expected string
}{
{"2025-01-31", 10, "2025-02-10"},
{"2025-01-01", 30, "2025-01-31"},
{"2025-01-31", 1, "2025-02-01"},
{"2025-02-28", 1, "2025-03-01"},
{"2024-02-29", 1, "2024-03-01"},
{"2024-02-29", 365, "2025-02-28"},
{"2025-01-31", -10, "2025-01-21"},
{"2025-01-01", -30, "2024-12-02"},
{"2025-02-01", -1, "2025-01-31"},
{"2025-03-01", -1, "2025-02-28"},
{"2024-03-01", -1, "2024-02-29"},
{"2025-01-31", -31, "2024-12-31"},
{"2025-12-31", 1, "2026-01-01"},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02", tt.inputDate)
result := AddDaySafe(date, tt.days)
assert.Equal(tt.expected, result.Format("2006-01-02"))
}
}
func TestAddMonthSafe(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddMonthSafe")
tests := []struct {
inputDate string
months int
expected string
}{
{
inputDate: "2025-01-31",
months: 1,
expected: "2025-02-28",
},
{
inputDate: "2025-01-31",
months: -1,
expected: "2024-12-31",
},
{
inputDate: "2025-12-31",
months: 1,
expected: "2026-01-31",
},
{
inputDate: "2025-01-31",
months: -1,
expected: "2024-12-31",
},
{
inputDate: "2024-02-29",
months: 1,
expected: "2024-03-29",
},
{
inputDate: "2024-02-29",
months: -1,
expected: "2024-01-29",
},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02", tt.inputDate)
result := AddMonthSafe(date, tt.months)
assert.Equal(tt.expected, result.Format("2006-01-02"))
}
}
func TestAddYearSafe(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestAddYearSafe")
tests := []struct {
inputDate string
years int
expected string
}{
{
inputDate: "2020-02-29",
years: 1,
expected: "2021-02-28",
},
{
inputDate: "2020-02-29",
years: 2,
expected: "2022-02-28",
},
{
inputDate: "2020-02-29",
years: -1,
expected: "2019-02-28",
},
{
inputDate: "2020-02-29",
years: -2,
expected: "2018-02-28",
},
}
for _, tt := range tests {
date, _ := time.Parse("2006-01-02", tt.inputDate)
result := AddYearSafe(date, tt.years)
assert.Equal(tt.expected, result.Format("2006-01-02"))
}
before2Minutes := AddMinute(now, -2)
diff2 := before2Minutes.Sub(now)
assert.Equal(float64(-2), diff2.Minutes())
}
func TestGetNowDate(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGetNowDate")
expected := time.Now().Format("2006-01-02")
assert.Equal(expected, GetNowDate())
}
func TestGetNowTime(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGetNowTime")
func TestGetNotTime(t *testing.T) {
assert := internal.NewAssert(t, "TestGetNotTime")
expected := time.Now().Format("15:04:05")
assert.Equal(expected, GetNowTime())
}
func TestGetNowDateTime(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGetNowDateTime")
expected := time.Now().Format("2006-01-02 15:04:05")
assert.Equal(expected, GetNowDateTime())
}
func TestGetTodayStartTime(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGetTodayStartTime")
expected := time.Now().Format("2006-01-02") + " 00:00:00"
assert.Equal(expected, GetTodayStartTime())
}
func TestGetTodayEndTime(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGetTodayEndTime")
expected := time.Now().Format("2006-01-02") + " 23:59:59"
assert.Equal(expected, GetTodayEndTime())
}
func TestFormatTimeToStr(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestFormatTimeToStr")
datetime, _ := time.Parse("2006-01-02 15:04:05", "2021-01-02 16:04:08")
cases := []string{
"yyyy-mm-dd hh:mm:ss", "yyyy-mm-dd",
"dd-mm-yy hh:mm:ss", "yyyy/mm/dd hh:mm:ss",
"hh:mm:ss", "yyyy/mm",
"yyyy-mm-dd hh",
}
"hh:mm:ss", "yyyy/mm"}
expected := []string{
"2021-01-02 16:04:08", "2021-01-02",
"02-01-21 16:04:08", "2021/01/02 16:04:08",
"16:04:08", "2021/01",
"2021-01-02 16",
}
"16:04:08", "2021/01"}
for i := 0; i < len(cases); i++ {
actual := FormatTimeToStr(datetime, cases[i])
assert.Equal(expected[i], actual)
}
ds := FormatTimeToStr(datetime, "yyyy-mm-dd hh:mm:ss", "EST")
t.Log(ds)
}
}
func TestFormatStrToTime(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestFormatStrToTime")
formats := []string{
@@ -515,28 +97,22 @@ func TestFormatStrToTime(t *testing.T) {
"dd-mm-yy hh:mm:ss", "yyyy/mm/dd hh:mm:ss",
"yyyy/mm"}
expected := []string{
datetimeStr := []string{
"2021-01-02 16:04:08", "2021-01-02",
"02-01-21 16:04:08", "2021/01/02 16:04:08",
"2021/01"}
for i := 0; i < len(cases); i++ {
actual, err := FormatStrToTime(expected[i], cases[i])
actual, err := FormatStrToTime(datetimeStr[i], cases[i])
if err != nil {
t.Fatal(err)
}
expected, _ := time.Parse(formats[i], expected[i])
expected, _ := time.Parse(formats[i], datetimeStr[i])
assert.Equal(expected, actual)
}
estTime, err := FormatStrToTime("2021-01-02 16:04:08", "yyyy-mm-dd hh:mm:ss", "EST")
t.Log(estTime)
assert.IsNil(err)
}
func TestBeginOfMinute(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBeginOfMinute")
expected := time.Date(2022, 2, 15, 15, 48, 0, 0, time.Local)
@@ -547,8 +123,6 @@ func TestBeginOfMinute(t *testing.T) {
}
func TestEndOfMinute(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfMinute")
expected := time.Date(2022, 2, 15, 15, 48, 59, 999999999, time.Local)
@@ -559,8 +133,6 @@ func TestEndOfMinute(t *testing.T) {
}
func TestBeginOfHour(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBeginOfHour")
expected := time.Date(2022, 2, 15, 15, 0, 0, 0, time.Local)
@@ -571,8 +143,6 @@ func TestBeginOfHour(t *testing.T) {
}
func TestEndOfHour(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfHour")
expected := time.Date(2022, 2, 15, 15, 59, 59, 999999999, time.Local)
@@ -583,8 +153,6 @@ func TestEndOfHour(t *testing.T) {
}
func TestBeginOfDay(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBeginOfDay")
expected := time.Date(2022, 2, 15, 0, 0, 0, 0, time.Local)
@@ -595,8 +163,6 @@ func TestBeginOfDay(t *testing.T) {
}
func TestEndOfDay(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfDay")
expected := time.Date(2022, 2, 15, 23, 59, 59, 999999999, time.Local)
@@ -607,32 +173,26 @@ func TestEndOfDay(t *testing.T) {
}
func TestBeginOfWeek(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBeginOfWeek")
expected := time.Date(2022, 2, 14, 0, 0, 0, 0, time.Local)
expected := time.Date(2022, 2, 13, 0, 0, 0, 0, time.Local)
td := time.Date(2022, 2, 15, 15, 48, 40, 112, time.Local)
actual := BeginOfWeek(td, time.Monday)
actual := BeginOfWeek(td)
assert.Equal(expected, actual)
}
func TestEndOfWeek(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfWeek")
expected := time.Date(2022, 2, 20, 23, 59, 59, 999999999, time.Local)
expected := time.Date(2022, 2, 19, 23, 59, 59, 999999999, time.Local)
td := time.Date(2022, 2, 15, 15, 48, 40, 112, time.Local)
actual := EndOfWeek(td, time.Sunday)
actual := EndOfWeek(td)
assert.Equal(expected, actual)
}
func TestBeginOfMonth(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBeginOfMonth")
expected := time.Date(2022, 2, 1, 0, 0, 0, 0, time.Local)
@@ -643,8 +203,6 @@ func TestBeginOfMonth(t *testing.T) {
}
func TestEndOfMonth(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfMonth")
expected := time.Date(2022, 2, 28, 23, 59, 59, 999999999, time.Local)
@@ -655,8 +213,6 @@ func TestEndOfMonth(t *testing.T) {
}
func TestBeginOfYear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBeginOfYear")
expected := time.Date(2022, 1, 1, 0, 0, 0, 0, time.Local)
@@ -667,8 +223,6 @@ func TestBeginOfYear(t *testing.T) {
}
func TestEndOfYear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfYear")
expected := time.Date(2022, 12, 31, 23, 59, 59, 999999999, time.Local)
@@ -677,269 +231,3 @@ func TestEndOfYear(t *testing.T) {
assert.Equal(expected, actual)
}
func TestIsLeapYear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestEndOfYear")
result1 := IsLeapYear(2000)
result2 := IsLeapYear(2001)
assert.Equal(true, result1)
assert.Equal(false, result2)
}
func TestDayOfYear(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDayOfYear")
date1 := time.Date(2023, 02, 01, 1, 1, 1, 0, time.Local)
result1 := DayOfYear(date1)
assert.Equal(31, result1)
date2 := time.Date(2023, 01, 02, 1, 1, 1, 0, time.Local)
result2 := DayOfYear(date2)
assert.Equal(1, result2)
date3 := time.Date(2023, 01, 01, 1, 1, 1, 0, time.Local)
result3 := DayOfYear(date3)
assert.Equal(0, result3)
}
func TestIsWeekend(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestIsWeekend")
date := time.Date(2023, 06, 03, 0, 0, 0, 0, time.Local)
result := IsWeekend(date)
assert.Equal(true, result)
date1 := time.Date(2023, 06, 04, 0, 0, 0, 0, time.Local)
result1 := IsWeekend(date1)
assert.Equal(true, result1)
date2 := time.Date(2023, 06, 02, 0, 0, 0, 0, time.Local)
result2 := IsWeekend(date2)
assert.Equal(false, result2)
}
func TestNowDateOrTime(t *testing.T) {
t.Parallel()
formats := []string{
"yyyy-mm-dd hh:mm:ss",
"yyyy-mm-dd",
"dd-mm-yy hh:mm:ss",
"yyyy/mm/dd hh:mm:ss",
"hh:mm:ss",
"yyyy/mm",
"yyyy-mm-dd hh",
}
for i := 0; i < len(formats); i++ {
result := NowDateOrTime(formats[i], "UTC")
t.Log(result)
}
}
func TestTimestamp(t *testing.T) {
t.Parallel()
ts1 := Timestamp()
t.Log(ts1)
ts2 := TimestampMilli()
t.Log(ts2)
ts3 := TimestampMicro()
t.Log(ts3)
ts4 := TimestampNano()
t.Log(ts4)
}
func TestTrackFuncTime(t *testing.T) {
defer TrackFuncTime(time.Now())()
var n int
for i := 0; i < 5000000; i++ {
n++
}
}
func TestDaysBetween(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestDaysBetween")
tests := []struct {
start time.Time
end time.Time
expected int
}{
{
start: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.September, 10, 0, 0, 0, 0, time.UTC),
expected: 9,
},
{
start: time.Date(2024, time.September, 10, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
expected: -9,
},
{
start: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
expected: 0,
},
{
start: time.Date(2024, time.January, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.December, 31, 0, 0, 0, 0, time.UTC),
expected: 365,
},
{
start: time.Date(2024, time.March, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.March, 31, 0, 0, 0, 0, time.UTC),
expected: 30,
},
}
for _, tt := range tests {
result := DaysBetween(tt.start, tt.end)
assert.Equal(tt.expected, result)
}
}
func TestGenerateDatetimesBetween(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestGenerateDatetimesBetween")
tests := []struct {
start time.Time
end time.Time
layout string
interval string
expected []string
}{
{
start: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.September, 1, 2, 0, 0, 0, time.UTC),
layout: "2006-01-02 15:04:05",
interval: "30m",
expected: []string{
"2024-09-01 00:00:00",
"2024-09-01 00:30:00",
"2024-09-01 01:00:00",
"2024-09-01 01:30:00",
"2024-09-01 02:00:00",
},
},
{
start: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
layout: "2006-01-02 15:04:05",
interval: "1h",
expected: []string{"2024-09-01 00:00:00"},
},
{
start: time.Date(2024, time.September, 1, 0, 0, 0, 0, time.UTC),
end: time.Date(2024, time.September, 1, 3, 0, 0, 0, time.UTC),
layout: "2006-01-02 15:04:05",
interval: "2h",
expected: []string{
"2024-09-01 00:00:00",
"2024-09-01 02:00:00",
},
},
}
for _, tt := range tests {
result, err := GenerateDatetimesBetween(tt.start, tt.end, tt.layout, tt.interval)
assert.Equal(tt.expected, result)
assert.IsNil(err)
}
t.Run("Invalid interval", func(t *testing.T) {
_, err := GenerateDatetimesBetween(time.Now(), time.Now(), "2006-01-02 15:04:05", "invalid")
if err == nil {
t.Fatal("Expected error, got nil")
}
})
}
func TestMin(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMin")
zeroTime := time.Time{}
now := time.Now()
oneMinuteAgo := now.Add(-time.Minute)
oneMinuteAfter := now.Add(time.Minute)
assert.Equal(zeroTime, Min(zeroTime, now, oneMinuteAgo, oneMinuteAfter))
assert.Equal(zeroTime, Min(now, zeroTime))
assert.Equal(oneMinuteAgo, Min(oneMinuteAgo, now, oneMinuteAfter))
}
func TestMax(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMax")
zeroTime := time.Time{}
now := time.Now()
oneMinuteAgo := now.Add(-time.Minute)
oneMinuteAfter := now.Add(time.Minute)
assert.Equal(oneMinuteAfter, Max(zeroTime, now, oneMinuteAgo, oneMinuteAfter))
assert.Equal(now, Max(now, zeroTime))
assert.Equal(oneMinuteAfter, Max(oneMinuteAgo, now, oneMinuteAfter))
}
func TestMaxMin(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestMinMax")
zeroTime := time.Time{}
now := time.Now()
oneMinuteAgo := now.Add(-time.Minute)
oneMinuteAfter := now.Add(time.Minute)
max, min := MaxMin(zeroTime, now, oneMinuteAgo, oneMinuteAfter)
assert.Equal(zeroTime, min)
assert.Equal(oneMinuteAfter, max)
max, min = MaxMin(now, zeroTime)
assert.Equal(zeroTime, min)
assert.Equal(now, max)
max, min = MaxMin(oneMinuteAgo, now, oneMinuteAfter)
assert.Equal(oneMinuteAgo, min)
assert.Equal(oneMinuteAfter, max)
}
func TestBetweenSeconds(t *testing.T) {
t.Parallel()
assert := internal.NewAssert(t, "TestBetweenSeconds")
today := time.Now()
tomorrow := AddDay(today, 1)
yesterday := AddDay(today, -1)
result1 := BetweenSeconds(today, tomorrow)
result2 := BetweenSeconds(today, yesterday)
assert.Equal(int64(86400), result1)
assert.Equal(int64(-86400), result2)
}

90
docs/.vitepress/common.ts
View File

@@ -1,90 +0,0 @@
import { defineConfig, HeadConfig } from 'vitepress'
export const META_IMAGE = '/lancet_logo.png'
export const isProduction = process.env.NETLIFY && process.env.CONTEXT === 'production'
if (process.env.NETLIFY) {
console.log('Netlify build', process.env.CONTEXT)
}
const productionHead: HeadConfig[] = [
[
'script',
{
src: 'https://unpkg.com/thesemetrics@latest',
async: '',
type: 'text/javascript',
},
],
]
const rControl = /[\u0000-\u001f]/g
const rSpecial = /[\s~`!@#$%^&*()\-_+=[\]{}|\\;:"'“”‘’<>,.?/]+/g
const rCombining = /[\u0300-\u036F]/g
/**
* Default slugification function
*/
export const slugify = (str: string): string =>
str
.normalize('NFKD')
// Remove accents
.replace(rCombining, '')
// Remove control characters
.replace(rControl, '')
// Replace special characters
.replace(rSpecial, '-')
// ensure it doesn't start with a number
.replace(/^(\d)/, '_$1')
export const commonConfig = defineConfig({
title: 'Lancet',
appearance: true,
ignoreDeadLinks: true,
markdown: {
theme: {
dark: 'dracula-soft',
light: 'vitesse-light',
},
attrs: {
leftDelimiter: '%{',
rightDelimiter: '}%',
},
anchor: {
slugify,
},
},
head: [
// ['link', { rel: 'icon', type: 'image/svg+xml', href: '/logo.svg' }],
['link', { rel: 'icon', type: 'image/png', href: '/lancet_logo_mini.png' }],
['meta', { name: 'theme-color', content: '#5f67ee' }],
['meta', { name: 'og:type', content: 'website' }],
['meta', { name: 'og:locale', content: 'zh' }],
...(isProduction ? productionHead : []),
],
themeConfig: {
logo: { src: '/lancet_logo_mini.png', width: 24, height: 24 },
outline: [2, 3],
search: {
provider: 'local',
},
socialLinks: [
{
icon: 'github',
link: 'https://github.com/duke-git/lancet',
},
],
footer: {
copyright: 'Copyright © 2023-present Duke Du',
message: '<a href="https://beian.miit.gov.cn/" target="_blank">京ICP备2023022770号-1</a>',
},
},
})

14
docs/.vitepress/config.mts
View File

@@ -1,14 +0,0 @@
import { defineConfig } from 'vitepress'
import { commonConfig } from './common'
import { zhConfig } from './zh'
import { enConfig } from './en'
// https://vitepress.dev/reference/site-config
export default defineConfig({
...commonConfig,
locales: {
root: { label: '简体中文', lang: 'zh-CN', link: '/', ...zhConfig },
en: { label: 'English', lang: 'en-US', link: '/en/', ...enConfig },
},
})

141
docs/.vitepress/en.ts
View File

@@ -1,141 +0,0 @@
import type { DefaultTheme, LocaleSpecificConfig } from 'vitepress'
export const META_URL = 'https://www.golancet.cn/en/'
export const META_TITLE = 'Lancet'
export const META_DESCRIPTION = 'A powerful util function library of Go'
export const enConfig: LocaleSpecificConfig<DefaultTheme.Config> = {
description: META_DESCRIPTION,
head: [
['meta', { property: 'og:url', content: META_URL }],
['meta', { property: 'og:description', content: META_DESCRIPTION }],
],
themeConfig: {
editLink: {
pattern: 'https://github.com/duke-git/lancet/edit/v2/docs/:path',
text: 'Suggest changes to this page',
},
nav: [
{
text: 'Home',
link: '/en/',
activeMatch: '^/en/',
},
{
text: 'Guide',
link: '/en/guide/introduction',
activeMatch: '^/en/guide/',
},
{ text: 'API', link: '/en/api/overview', activeMatch: '^/en/api/' },
{
text: 'Links',
items: [
{
text: 'Discussion',
link: 'https://github.com/duke-git/lancet/discussions',
},
{
text: 'Changelog',
link: 'https://github.com/duke-git/lancet/releases',
},
{
text: 'Contribution',
link: 'https://github.com/duke-git/lancet/blob/main/CONTRIBUTION.md',
},
],
},
],
sidebar: {
'/en/guide/': [
{
text: 'Introduction',
collapsed: false,
items: [
{
text: 'What is Lancet',
link: '/en/guide/introduction',
},
{
text: 'Getting started',
link: '/en/guide/getting_started',
},
],
},
{
text: 'Contribute Code',
collapsed: false,
items: [
{
text: 'Contribution guide',
link: '/en/guide/contribution_guide',
},
{
text: 'Contributors',
link: '/en/guide/contributors',
},
],
},
{
text: 'API Reference',
link: '/en/api/overview'
},
],
'/en/api/': [
{
text: 'Overview',
items: [{ text: 'API overview', link: '/en/api/overview' }],
},
{
text: 'Packages',
collapsed: false,
items: [
{ text: 'algorithm', link: '/en/api/packages/algorithm' },
{ text: 'compare', link: '/en/api/packages/compare' },
{ text: 'concurrency', link: '/en/api/packages/concurrency' },
{ text: 'condition', link: '/en/api/packages/condition' },
{ text: 'convertor', link: '/en/api/packages/convertor' },
{ text: 'cryptor', link: '/en/api/packages/cryptor' },
{
text: 'datastructure',
collapsed: true,
items: [
{ text: 'list', link: '/en/api/packages/datastructure/list' },
{ text: 'safelist', link: '/en/api/packages/datastructure/copyonwritelist' },
{ text: 'link', link: '/en/api/packages/datastructure/link' },
{ text: 'stack', link: '/en/api/packages/datastructure/stack' },
{ text: 'queue', link: '/en/api/packages/datastructure/queue' },
{ text: 'heap', link: '/en/api/packages/datastructure/heap' },
{ text: 'tree', link: '/en/api/packages/datastructure/tree' },
{ text: 'set', link: '/en/api/packages/datastructure/set' },
{ text: 'hashmap', link: '/en/api/packages/datastructure/hashmap' },
],
},
{ text: 'datetime', link: '/en/api/packages/datetime' },
{ text: 'enum', link: '/en/api/packages/enum' },
{ text: 'eventbus', link: '/en/api/packages/eventbus' },
{ text: 'fileutil', link: '/en/api/packages/fileutil' },
{ text: 'formatter', link: '/en/api/packages/formatter' },
{ text: 'function', link: '/en/api/packages/function' },
{ text: 'mathutil', link: '/en/api/packages/mathutil' },
{ text: 'maputil', link: '/en/api/packages/maputil' },
{ text: 'netutil', link: '/en/api/packages/netutil' },
{ text: 'pointer', link: '/en/api/packages/pointer' },
{ text: 'random', link: '/en/api/packages/random' },
{ text: 'retry', link: '/en/api/packages/retry' },
{ text: 'slice', link: '/en/api/packages/slice' },
{ text: 'stream', link: '/en/api/packages/stream' },
{ text: 'struct', link: '/en/api/packages/struct' },
{ text: 'strutil', link: '/en/api/packages/strutil' },
{ text: 'tuple', link: '/en/api/packages/tuple' },
{ text: 'validator', link: '/en/api/packages/validator' },
{ text: 'system', link: '/en/api/packages/system' },
{ text: 'xerror', link: '/en/api/packages/xerror' },
],
},
],
},
},
}

154
docs/.vitepress/zh.ts
View File

@@ -1,154 +0,0 @@
import type { DefaultTheme, LocaleSpecificConfig } from 'vitepress'
export const META_URL = 'https://www.golancet.cn'
export const META_TITLE = 'Lancet'
export const META_DESCRIPTION = '一个强大的Go语言工具函数库'
export const zhConfig: LocaleSpecificConfig<DefaultTheme.Config> = {
description: META_DESCRIPTION,
head: [
['meta', { property: 'og:url', content: META_URL }],
['meta', { property: 'og:description', content: META_DESCRIPTION }],
],
themeConfig: {
editLink: {
pattern: 'https://github.com/duke-git/lancet/edit/v2/docs/:path',
text: '对本页提出修改建议',
},
outline: {
label: '本页内容',
},
docFooter: {
prev: '上一页',
next: '下一页',
},
nav: [
{
text: '首页',
link: '/',
activeMatch: '^/',
},
{
text: '指南',
link: '/guide/introduction',
activeMatch: '^/guide/',
},
{ text: 'API', link: '/api/overview', activeMatch: '^/api/' },
{
text: '相关链接',
items: [
{
text: '论坛',
link: 'https://github.com/duke-git/lancet/discussions',
},
{
text: '更新日志',
link: 'https://github.com/duke-git/lancet/releases',
},
{
text: '参与贡献',
link: 'https://github.com/duke-git/lancet/blob/main/CONTRIBUTION.zh-CN.md',
},
],
},
],
sidebar: {
'/guide/': [
{
text: '介绍',
collapsed: false,
items: [
{
text: 'Lancet是什么',
link: '/guide/introduction',
},
{
text: '开始',
link: '/guide/getting_started',
},
],
},
{
text: '贡献代码',
collapsed: false,
items: [
{
text: '贡献指南',
link: '/guide/contribution_guide',
},
{
text: '贡献者',
link: '/guide/contributors',
},
],
},
{
text: 'API手册',
link: '/api/overview'
},
],
'/api/': [
{
text: '概览',
items: [{ text: 'API概述', link: '/api/overview' }],
},
{
text: 'API文档',
collapsed: false,
items: [
{ text: '算法', link: '/api/packages/algorithm' },
{ text: '比较器', link: '/api/packages/compare' },
{ text: '并发处理', link: '/api/packages/concurrency' },
{ text: '条件判断', link: '/api/packages/condition' },
{ text: '类型转换', link: '/api/packages/convertor' },
{ text: '加密&解密', link: '/api/packages/cryptor' },
{
text: '数据结构',
collapsed: true,
items: [
{ text: '线性表', link: '/api/packages/datastructure/list' },
{
text: '线性表(线程安全)',
link: '/api/packages/datastructure/copyonwritelist',
},
{ text: '链表', link: '/api/packages/datastructure/link' },
{ text: '栈', link: '/api/packages/datastructure/stack' },
{ text: '队列', link: '/api/packages/datastructure/queue' },
{ text: '堆', link: '/api/packages/datastructure/heap' },
{ text: '树', link: '/api/packages/datastructure/tree' },
{ text: '集合', link: '/api/packages/datastructure/set' },
{ text: 'HashMap', link: '/api/packages/datastructure/hashmap' },
],
},
{ text: '日期&时间', link: '/api/packages/datetime' },
{ text: '事件总线', link: '/api/packages/eventbus' },
{ text: '文件处理', link: '/api/packages/fileutil' },
{ text: '格式化工具', link: '/api/packages/formatter' },
{ text: '函数', link: '/api/packages/function' },
{ text: '数学工具', link: '/api/packages/mathutil' },
{ text: 'Map', link: '/api/packages/maputil' },
{ text: '网络', link: '/api/packages/netutil' },
{ text: '指针', link: '/api/packages/pointer' },
{ text: '随机数', link: '/api/packages/random' },
{ text: '重试', link: '/api/packages/retry' },
{ text: '切片', link: '/api/packages/slice' },
{ text: '流', link: '/api/packages/stream' },
{ text: '结构体', link: '/api/packages/struct' },
{ text: '字符串', link: '/api/packages/strutil' },
{ text: '枚举', link: '/api/packages/enum' },
{ text: '元组', link: '/api/packages/tuple' },
{ text: '验证器', link: '/api/packages/validator' },
{ text: '系统工具函数', link: '/api/packages/system' },
{ text: '错误处理', link: '/api/packages/xerror' },
],
},
],
},
},
}

70
docs/api/overview.md
View File

@@ -1,70 +0,0 @@
---
outline: deep
---
# API 概述
<b>lancet柳叶刀是一个功能强大、全面、高效、可复用的 go 语言工具函数库。包含 25 个包,超过 600 个工具函数。功能涵盖字符串处理、切片处理、网络、并发、加解密、文件处理、时间/日期、流处理、迭代器等等。</b>
<style>
.package-title {
color: black;
font-size: 18px;
text-align: center;
font-weight: bold;
}
.package-container {
font-size: 16px;
border: 1px dashed;
padding: 10px;
text-align: center;
}
.package-cell {
height: 40px;
width: 140px;
display: inline-block;
vertical-align: middle;
line-height: 40px;
background: #6cadf5;
border: 1px solid;
margin-right: 10px;
margin-bottom: 10px;
border-radius: 6px;
font-weight: bold;
}
</style>
<div>
<p class="package-title">lancet功能模块</p>
<div class="package-container">
<div class="package-cell">algorithm</div>
<div class="package-cell">compare</div>
<div class="package-cell">concurrency</div>
<div class="package-cell">condition</div>
<div class="package-cell">convertor</div>
<div class="package-cell">cryptor</div>
<div class="package-cell">datastructure</div>
<div class="package-cell">datetime</div>
<div class="package-cell">enum</div>
<div class="package-cell">eventbus</div>
<div class="package-cell">fileutil</div>
<div class="package-cell">formatter</div>
<div class="package-cell">function</div>
<div class="package-cell">iterator</div>
<div class="package-cell">maputil</div>
<div class="package-cell">mathutil</div>
<div class="package-cell">netutil</div>
<div class="package-cell">pointer</div>
<div class="package-cell">random</div>
<div class="package-cell">retry</div>
<div class="package-cell">slice</div>
<div class="package-cell">stream</div>
<div class="package-cell">structs</div>
<div class="package-cell">strutil</div>
<div class="package-cell">system</div>
<div class="package-cell">tuple</div>
<div class="package-cell">validator</div>
<div class="package-cell">xerror</div>
</div>
</div>

636
docs/api/packages/algorithm.md
View File

@@ -1,636 +0,0 @@
# Algorithm
algorithm 算法包实现一些基本算法sortsearchlrucache。
<div STYLE="page-break-after: always;"></div>
## 源码
- [https://github.com/duke-git/lancet/blob/main/algorithm/sort.go](https://github.com/duke-git/lancet/blob/main/algorithm/sort.go)
- [https://github.com/duke-git/lancet/blob/main/algorithm/search.go](https://github.com/duke-git/lancet/blob/main/algorithm/search.go)
- [https://github.com/duke-git/lancet/blob/main/algorithm/lrucache.go](https://github.com/duke-git/lancet/blob/main/algorithm/lrucache.go)
<div STYLE="page-break-after: always;"></div>
## 用法
```go
import (
"github.com/duke-git/lancet/v2/algorithm"
)
```
<div STYLE="page-break-after: always;"></div>
## 目录
- [BubbleSort](#BubbleSort)
- [InsertionSort](#InsertionSort)
- [SelectionSort](#SelectionSort)
- [ShellSort](#ShellSort)
- [QuickSort](#QuickSort)
- [HeapSort](#HeapSort)
- [MergeSort](#MergeSort)
- [CountSort](#CountSort)
- [BinarySearch](#BinarySearch)
- [BinaryIterativeSearch](#BinaryIterativeSearch)
- [LinearSearch](#LinearSearch)
- [LRUCache](#LRUCache)
<div STYLE="page-break-after: always;"></div>
## 文档
### <span id="BubbleSort">BubbleSort</span>
<p>冒泡排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func BubbleSort[T any](slice []T, comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/GNdv7Jg2Taj)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
algorithm.BubbleSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="InsertionSort">InsertionSort</span>
<p>插入排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func InsertionSort[T any](slice []T, comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/G5LJiWgJJW6)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type people struct {
Name string
Age int
}
// PeopleAageComparator sort people slice by age field
type peopleAgeComparator struct{}
// Compare implements github.com/duke-git/lancet/constraints/constraints.go/Comparator
func (pc *peopleAgeComparator) Compare(v1 any, v2 any) int {
p1, _ := v1.(people)
p2, _ := v2.(people)
//ascending order
if p1.Age < p2.Age {
return -1
} else if p1.Age > p2.Age {
return 1
}
return 0
}
func main() {
peoples := []people{
{Name: "a", Age: 20},
{Name: "b", Age: 10},
{Name: "c", Age: 17},
{Name: "d", Age: 8},
{Name: "e", Age: 28},
}
comparator := &peopleAgeComparator{}
algorithm.InsertionSort(peoples, comparator)
fmt.Println(peoples)
// Output:
// [{d 8} {b 10} {c 17} {a 20} {e 28}]
}
```
### <span id="SelectionSort">SelectionSort</span>
<p>选择排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func SelectionSort[T any](slice []T, comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/oXovbkekayS)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
algorithm.SelectionSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="ShellSort">ShellSort</span>
<p>希尔排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func ShellSort[T any](slice []T, comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/3ibkszpJEu3)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
algorithm.ShellSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="QuickSort">QuickSort</span>
<p>快速排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func QuickSort[T any](slice []T comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/7Y7c1Elk3ax)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
algorithm.QuickSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="HeapSort">HeapSort</span>
<p>堆排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func HeapSort[T any](slice []T, comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/u6Iwa1VZS_f)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
algorithm.HeapSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="MergeSort">MergeSort</span>
<p>归并排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func MergeSort[T any](slice []T, comparator constraints.Comparator)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/ydinn9YzUJn)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
algorithm.MergeSort(numbers, comparator)
fmt.Println(numbers)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="CountSort">CountSort</span>
<p>计数排序参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func CountSort[T any](slice []T, comparator constraints.Comparator) []T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/tB-Umgm0DrP)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{2, 1, 5, 3, 6, 4}
comparator := &intComparator{}
sortedNums := algorithm.CountSort(numbers, comparator)
fmt.Println(sortedNums)
// Output:
// [1 2 3 4 5 6]
}
```
### <span id="BinarySearch">BinarySearch</span>
<p>二分递归查找,返回元素索引,未找到元素返回-1参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func BinarySearch[T any](sortedSlice []T, target T, lowIndex, highIndex int, comparator constraints.Comparator) int
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/t6MeGiUSN47)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{1, 2, 3, 4, 5, 6, 7, 8}
comparator := &intComparator{}
result1 := algorithm.BinarySearch(numbers, 5, 0, len(numbers)-1, comparator)
result2 := algorithm.BinarySearch(numbers, 9, 0, len(numbers)-1, comparator)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 4
// -1
}
```
### <span id="BinaryIterativeSearch">BinaryIterativeSearch</span>
<p>二分迭代查找,返回元素索引,未找到元素返回-1参数comparator需要实现包constraints.Comparator。</p>
<b>函数签名:</b>
```go
func BinaryIterativeSearch[T any](sortedSlice []T, target T, lowIndex, highIndex int, comparator constraints.Comparator) int
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/Anozfr8ZLH3)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
type intComparator struct{}
func (c *intComparator) Compare(v1 any, v2 any) int {
val1, _ := v1.(int)
val2, _ := v2.(int)
//ascending order
if val1 < val2 {
return -1
} else if val1 > val2 {
return 1
}
return 0
}
func main() {
numbers := []int{1, 2, 3, 4, 5, 6, 7, 8}
comparator := &intComparator{}
result1 := algorithm.BinaryIterativeSearch(numbers, 5, 0, len(numbers)-1, comparator)
result2 := algorithm.BinaryIterativeSearch(numbers, 9, 0, len(numbers)-1, comparator)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 4
// -1
}
```
### <span id="LinearSearch">LinearSearch</span>
<p>基于传入的相等函数线性查找元素,返回元素索引,未找到元素返回-1。</p>
<b>函数签名:</b>
```go
func LinearSearch[T any](slice []T, target T, equal func(a, b T) bool) int
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/IsS7rgn5s3x)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
func main() {
numbers := []int{3, 4, 5, 3, 2, 1}
equalFunc := func(a, b int) bool {
return a == b
}
result1 := algorithm.LinearSearch(numbers, 3, equalFunc)
result2 := algorithm.LinearSearch(numbers, 6, equalFunc)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 0
// -1
}
```
### <span id="LRUCache">LRUCache</span>
<p>lru算法实现缓存。</p>
<b>函数签名:</b>
```go
func NewLRUCache[K comparable, V any](capacity int) *LRUCache[K, V]
func (l *LRUCache[K, V]) Get(key K) (V, bool)
func (l *LRUCache[K, V]) Put(key K, value V)
func (l *LRUCache[K, V]) Delete(key K) bool
func (l *LRUCache[K, V]) Len() int
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/-EZjgOURufP)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/algorithm"
)
func main() {
cache := algorithm.NewLRUCache[int, int](2)
cache.Put(1, 1)
cache.Put(2, 2)
result1, ok1 := cache.Get(1)
result2, ok2 := cache.Get(2)
result3, ok3 := cache.Get(3)
fmt.Println(result1, ok1)
fmt.Println(result2, ok2)
fmt.Println(result3, ok3)
fmt.Println(cache.Len())
ok := cache.Delete(2)
fmt.Println(ok)
// Output:
// 1 true
// 2 true
// 0 false
// 2
// true
}
```

375
docs/api/packages/compare.md
View File

@@ -1,375 +0,0 @@
# Compare
compare包提供几个轻量级的类型比较函数。
<div STYLE="page-break-after: always;"></div>
## 源码:
- [https://github.com/duke-git/lancet/blob/main/compare/compare.go](https://github.com/duke-git/lancet/blob/main/compare/compare.go)
- [https://github.com/duke-git/lancet/blob/main/compare/compare_internal.go](https://github.com/duke-git/lancet/blob/main/compare/compare_internal.go)
<div STYLE="page-break-after: always;"></div>
## 用法:
```go
import (
"github.com/duke-git/lancet/v2/condition"
)
```
<div STYLE="page-break-after: always;"></div>
## 目录
- [Equal](#Equal)
- [EqualValue](#EqualValue)
- [LessThan](#LessThan)
- [GreaterThan](#GreaterThan)
- [LessOrEqual](#LessOrEqual)
- [GreaterOrEqual](#GreaterOrEqual)
- [InDelta](#InDelta)
<div STYLE="page-break-after: always;"></div>
## 文档
### <span id="Equal">Equal</span>
<p>检查两个值是否相等(检查类型和值)</p>
<b>函数签名:</b>
```go
func Equal(left, right any) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/wmVxR-to4lz)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := compare.Equal(1, 1)
result2 := compare.Equal("1", "1")
result3 := compare.Equal([]int{1, 2, 3}, []int{1, 2, 3})
result4 := compare.Equal(map[int]string{1: "a", 2: "b"}, map[int]string{1: "a", 2: "b"})
result5 := compare.Equal(1, "1")
result6 := compare.Equal(1, int64(1))
result7 := compare.Equal([]int{1, 2}, []int{1, 2, 3})
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
// true
// true
// true
// true
// false
// false
// false
}
```
### <span id="EqualValue">EqualValue</span>
<p>检查两个值是否相等(只检查值)</p>
<b>函数签名:</b>
```go
func EqualValue(left, right any) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/fxnna_LLD9u)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := compare.EqualValue(1, 1)
result2 := compare.EqualValue(int(1), int64(1))
result3 := compare.EqualValue(1, "1")
result4 := compare.EqualValue(1, "2")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
// Output:
// true
// true
// true
// false
}
```
### <span id="LessThan">LessThan</span>
<p>验证参数`left`的值是否小于参数`right`的值。</p>
<b>函数签名:</b>
```go
func LessThan(left, right any) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/cYh7FQQj0ne)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := compare.LessThan(1, 2)
result2 := compare.LessThan(1.1, 2.2)
result3 := compare.LessThan("a", "b")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := compare.LessThan(time1, time2)
result5 := compare.LessThan(2, 1)
result6 := compare.LessThan(1, int64(2))
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// true
// true
// true
// true
// false
// false
}
```
### <span id="GreaterThan">GreaterThan</span>
<p>验证参数`left`的值是否大于参数`right`的值。</p>
<b>函数签名:</b>
```go
func GreaterThan(left, right any) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/9-NYDFZmIMp)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := compare.GreaterThan(2, 1)
result2 := compare.GreaterThan(2.2, 1.1)
result3 := compare.GreaterThan("b", "a")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := compare.GreaterThan(time2, time1)
result5 := compare.GreaterThan(1, 2)
result6 := compare.GreaterThan(int64(2), 1)
result7 := compare.GreaterThan("b", "c")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
// true
// true
// true
// true
// false
// false
// false
}
```
### <span id="LessOrEqual">LessOrEqual</span>
<p>验证参数`left`的值是否小于或等于参数`right`的值。</p>
<b>函数签名:</b>
```go
func LessOrEqual(left, right any) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/e4T_scwoQzp)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := compare.LessOrEqual(1, 1)
result2 := compare.LessOrEqual(1.1, 2.2)
result3 := compare.LessOrEqual("a", "b")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := compare.LessOrEqual(time1, time2)
result5 := compare.LessOrEqual(2, 1)
result6 := compare.LessOrEqual(1, int64(2))
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// true
// true
// true
// true
// false
// false
}
```
### <span id="GreaterOrEqual">GreaterOrEqual</span>
<p>验证参数`left`的值是否大于或参数`right`的值。</p>
<b>函数签名:</b>
```go
func GreaterOrEqual(left, right any) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/vx8mP0U8DFk)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := compare.GreaterOrEqual(1, 1)
result2 := compare.GreaterOrEqual(2.2, 1.1)
result3 := compare.GreaterOrEqual("b", "b")
time1 := time.Now()
time2 := time1.Add(time.Second)
result4 := compare.GreaterOrEqual(time2, time1)
result5 := compare.GreaterOrEqual(1, 2)
result6 := compare.GreaterOrEqual(int64(2), 1)
result7 := compare.GreaterOrEqual("b", "c")
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
fmt.Println(result7)
// Output:
// true
// true
// true
// true
// false
// false
// false
}
```
### <span id="InDelta">InDelta</span>
<p>检查增量内两个值是否相等。</p>
<b>函数签名:</b>
```go
func InDelta[T constraints.Integer | constraints.Float](left, right T, delta float64) bool
```
<b>示例: <span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/TuDdcNtMkjo)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/compare"
)
func main() {
result1 := InDelta(1, 1, 0)
result2 := InDelta(1, 2, 0)
result3 := InDelta(2.0/3.0, 0.66667, 0.001)
result4 := InDelta(2.0/3.0, 0.0, 0.001)
result5 := InDelta(float64(74.96)-float64(20.48), 54.48, 0)
result6 := InDelta(float64(74.96)-float64(20.48), 54.48, 1e-14)
fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
fmt.Println(result4)
fmt.Println(result5)
fmt.Println(result6)
// Output:
// true
// false
// true
// false
// false
// true
}
```

852
docs/api/packages/concurrency.md
View File

@@ -1,852 +0,0 @@
# Concurrency
并发包包含一些支持并发编程的功能。例如goroutine, channel 等。
<div STYLE="page-break-after: always;"></div>
## 源码:
- [https://github.com/duke-git/lancet/blob/main/concurrency/channel.go](https://github.com/duke-git/lancet/blob/main/concurrency/channel.go)
- [https://github.com/duke-git/lancet/blob/main/concurrency/keyed_locker.go](https://github.com/duke-git/lancet/blob/main/concurrency/keyed_locker.go)
<div STYLE="page-break-after: always;"></div>
## 用法:
```go
import (
"github.com/duke-git/lancet/v2/concurrency"
)
```
<div STYLE="page-break-after: always;"></div>
## 目录
### Channel
- [NewChannel](#NewChannel)
- [Bridge](#Bridge)
- [FanIn](#FanIn)
- [Generate](#Generate)
- [Or](#Or)
- [OrDone](#OrDone)
- [Repeat](#Repeat)
- [RepeatFn](#RepeatFn)
- [Take](#Take)
- [Tee](#Tee)
### KeyedLocker
- [NewKeyedLocker](#NewKeyedLocker)
- [KeyedLocker_Do](#Do)
- [NewRWKeyedLocker](#NewRWKeyedLocker)
- [RLock](#RLock)
- [Lock](#Lock)
- [NewTryKeyedLocker](#NewTryKeyedLocker)
- [TryLock](#TryLock)
- [Unlock](#Unlock)
<div STYLE="page-break-after: always;"></div>
## 文档
### Channel
### <span id="NewChannel">NewChannel</span>
<p>返回一个Channel指针实例</p>
<b>函数签名:</b>
```go
type Channel[T any] struct
func NewChannel[T any]() *Channel[T]
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/7aB4KyMMp9A)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
c := concurrency.NewChannel[int]()
}
```
### <span id="Bridge">Bridge</span>
<p>将多个channel链接到一个channel直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) Bridge(ctx context.Context, chanStream <-chan <-chan T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/qmWSy1NVF-Y)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := concurrency.NewChannel[int]()
genVals := func() <-chan <-chan int {
out := make(chan (<-chan int))
go func() {
defer close(out)
for i := 1; i <= 5; i++ {
stream := make(chan int, 1)
stream <- i
close(stream)
out <- stream
}
}()
return out
}
for v := range c.Bridge(ctx, genVals()) {
fmt.Println(v)
}
// Output:
// 1
// 2
// 3
// 4
// 5
}
```
### <span id="FanIn">FanIn</span>
<p>将多个channel合并为一个channel直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) FanIn(ctx context.Context, channels ...<-chan T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/2VYFMexEvTm)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := concurrency.NewChannel[int]()
channels := make([]<-chan int, 2)
for i := 0; i < 2; i++ {
channels[i] = c.Take(ctx, c.Repeat(ctx, i), 2)
}
chs := c.FanIn(ctx, channels...)
for v := range chs {
fmt.Println(v) //1 1 0 0 or 0 0 1 1
}
}
```
### <span id="Generate">Generate</span>
<p>根据传入的值生成channel.</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) Generate(ctx context.Context, values ...T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/7aB4KyMMp9A)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := concurrency.NewChannel[int]()
intStream := c.Generate(ctx, 1, 2, 3)
fmt.Println(<-intStream)
fmt.Println(<-intStream)
fmt.Println(<-intStream)
// Output:
// 1
// 2
// 3
}
```
### <span id="Repeat">Repeat</span>
<p>返回一个channel将参数`values`重复放入channel直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) Repeat(ctx context.Context, values ...T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/k5N_ALVmYjE)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := concurrency.NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1, 2), 4)
for v := range intStream {
fmt.Println(v)
}
// Output:
// 1
// 2
// 1
// 2
}
```
### <span id="RepeatFn">RepeatFn</span>
<p>返回一个channel重复执行函数fn并将结果放入返回的channel直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) RepeatFn(ctx context.Context, fn func() T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/4J1zAWttP85)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
fn := func() string {
return "hello"
}
c := concurrency.NewChannel[string]()
intStream := c.Take(ctx, c.RepeatFn(ctx, fn), 3)
for v := range intStream {
fmt.Println(v)
}
// Output:
// hello
// hello
// hello
}
```
### <span id="Or">Or</span>
<p>将一个或多个channel读取到一个channel中当任何读取channel关闭时将结束读取。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) Or(channels ...<-chan T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/Wqz9rwioPww)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
sig := func(after time.Duration) <-chan any {
c := make(chan any)
go func() {
defer close(c)
time.Sleep(after)
}()
return c
}
start := time.Now()
c := concurrency.NewChannel[any]()
<-c.Or(
sig(1*time.Second),
sig(2*time.Second),
sig(3*time.Second),
)
fmt.Println("done after %v", time.Since(start)) //1.003s
}
```
### <span id="OrDone">OrDone</span>
<p>将一个channel读入另一个channel直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) OrDone(ctx context.Context, channel <-chan T) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/lm_GoS6aDjo)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := concurrency.NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1), 3)
for v := range c.OrDone(ctx, intStream) {
fmt.Println(v)
}
// Output:
// 1
// 1
// 1
}
```
### <span id="Take">Take</span>
<p>返回一个channel其值从另一个channel获取直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) Take(ctx context.Context, valueStream <-chan T, number int) <-chan T
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/9Utt-1pDr2J)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
numbers := make(chan int, 5)
numbers <- 1
numbers <- 2
numbers <- 3
numbers <- 4
numbers <- 5
defer close(numbers)
c := concurrency.NewChannel[int]()
intStream := c.Take(ctx, numbers, 3)
for v := range intStream {
fmt.Println(v)
}
// Output:
// 1
// 2
// 3
}
```
### <span id="Tee">Tee</span>
<p>将一个channel分成两个channel直到取消上下文。</p>
<b>函数签名:</b>
```go
func (c *Channel[T]) Tee(ctx context.Context, in <-chan T) (<-chan T, <-chan T)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/3TQPKnCirrP)</span></b>
```go
package main
import (
"context"
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
c := concurrency.NewChannel[int]()
intStream := c.Take(ctx, c.Repeat(ctx, 1), 2)
ch1, ch2 := c.Tee(ctx, intStream)
for v := range ch1 {
fmt.Println(v)
fmt.Println(<-ch2)
}
// Output:
// 1
// 1
// 1
// 1
}
```
### KeyedLocker
### <span id="NewKeyedLocker">NewKeyedLocker</span>
<p>NewKeyedLocker创建一个新的KeyedLocker并为锁的过期设置指定的 TTL。KeyedLocker 是一个简单的键值锁实现,允许非阻塞的锁获取。</p>
<b>函数签名:</b>
```go
func NewKeyedLocker[K comparable](ttl time.Duration) *KeyedLocker[K]
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/GzeyC33T5rw)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewKeyedLocker[string](2 * time.Second)
task := func() {
fmt.Println("Executing task...")
time.Sleep(1 * time.Second)
fmt.Println("Task completed.")
}
ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second)
defer cancel()
if err := locker.Do(ctx, "mykey", task); err != nil {
log.Fatalf("Error executing task: %v\n", err)
} else {
fmt.Println("Task successfully executed.")
}
ctx2, cancel2 := context.WithTimeout(context.Background(), 3*time.Second)
defer cancel2()
if err := locker.Do(ctx2, "mykey", task); err != nil {
log.Fatalf("Error executing task: %v\n", err)
} else {
fmt.Println("Task successfully executed.")
}
// Output:
// Executing task...
// Task completed.
// Task successfully executed.
// Executing task...
// Task completed.
// Task successfully executed.
}
```
### <span id="Do">Do</span>
<p>为指定的键获取锁并执行提供的函数。</p>
<b>函数签名:</b>
```go
func (l *KeyedLocker[K]) Do(ctx context.Context, key K, fn func()) error
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/GzeyC33T5rw)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewKeyedLocker[string](2 * time.Second)
task := func() {
fmt.Println("Executing task...")
time.Sleep(1 * time.Second)
fmt.Println("Task completed.")
}
ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second)
defer cancel()
if err := locker.Do(ctx, "mykey", task); err != nil {
log.Fatalf("Error executing task: %v\n", err)
} else {
fmt.Println("Task successfully executed.")
}
ctx2, cancel2 := context.WithTimeout(context.Background(), 3*time.Second)
defer cancel2()
if err := locker.Do(ctx2, "mykey", task); err != nil {
log.Fatalf("Error executing task: %v\n", err)
} else {
fmt.Println("Task successfully executed.")
}
// Output:
// Executing task...
// Task completed.
// Task successfully executed.
// Executing task...
// Task completed.
// Task successfully executed.
}
```
### <span id="NewRWKeyedLocker">NewRWKeyedLocker</span>
<p>NewRWKeyedLocker创建一个新的RWKeyedLocker并为锁的过期设置指定的 TTL。RWKeyedLocker 是一个简单的键值读写锁实现,允许非阻塞的锁获取。</p>
<b>函数签名:</b>
```go
func NewRWKeyedLocker[K comparable](ttl time.Duration) *RWKeyedLocker[K]
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/CkaJWWwZm9)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewRWKeyedLocker[string](2 * time.Second)
// Simulate a key
key := "resource_key"
fn := func() {
fmt.Println("Starting write operation...")
// Simulate write operation, assuming it takes 2 seconds
time.Sleep(200 * time.Millisecond)
fmt.Println("Write operation completed!")
}
// Acquire the write lock and execute the operation
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
// Execute the lock operation with a 3-second timeout
err := locker.Lock(ctx, key, fn)
if err != nil {
return
}
//output:
//Starting write operation...
//Write operation completed!
}
```
### <span id="RLock">RLock</span>
<p>RLock为指定的键获取读锁并执行提供的函数。</p>
<b>函数签名:</b>
```go
func (l *RWKeyedLocker[K]) RLock(ctx context.Context, key K, fn func()) error
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/ZrCr8sMo77T)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewRWKeyedLocker[string](2 * time.Second)
// Simulate a key
key := "resource_key"
fn := func() {
fmt.Println("Starting write operation...")
// Simulate write operation, assuming it takes 2 seconds
time.Sleep(200 * time.Millisecond)
fmt.Println("Write operation completed!")
}
// Acquire the write lock and execute the operation
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
// Execute the lock operation with a 3-second timeout
err := locker.RLock(ctx, key, fn)
if err != nil {
return
}
//output:
//Starting write operation...
//Write operation completed!
}
```
### <span id="Lock">Lock</span>
<p>Lock为指定的键获取锁并执行提供的函数。</p>
<b>函数签名:</b>
```go
func (l *RWKeyedLocker[K]) Lock(ctx context.Context, key K, fn func()) error
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/WgAcXbOPKGk)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := NewRWKeyedLocker[string](2 * time.Second)
// Simulate a key
key := "resource_key"
fn := func() {
fmt.Println("Starting write operation...")
// Simulate write operation, assuming it takes 2 seconds
time.Sleep(200 * time.Millisecond)
fmt.Println("Write operation completed!")
}
// Acquire the write lock and execute the operation
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
// Execute the lock operation with a 3-second timeout
err := locker.Lock(ctx, key, fn)
if err != nil {
return
}
//output:
//Starting write operation...
//Write operation completed!
}
```
### <span id="NewTryKeyedLocker">NewTryKeyedLocker</span>
<p>创建一个TryKeyedLocker实例TryKeyedLocker是KeyedLocker的非阻塞版本。</p>
<b>函数签名:</b>
```go
func NewTryKeyedLocker[K comparable]() *TryKeyedLocker[K]
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/VG9qLvyetE2)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewTryKeyedLocker[string]()
key := "resource_key"
if locker.TryLock(key) {
fmt.Println("Lock acquired")
time.Sleep(1 * time.Second)
// Unlock after work is done
locker.Unlock(key)
fmt.Println("Lock released")
} else {
fmt.Println("Lock failed")
}
//output:
//Lock acquired
//Lock released
}
```
### <span id="TryLock">TryLock</span>
<p>TryLock尝试获取指定键的锁。如果锁成功获取则返回true否则返回false。</p>
<b>函数签名:</b>
```go
func (l *TryKeyedLocker[K]) TryLock(key K) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/VG9qLvyetE2)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewTryKeyedLocker[string]()
key := "resource_key"
if locker.TryLock(key) {
fmt.Println("Lock acquired")
time.Sleep(1 * time.Second)
// Unlock after work is done
locker.Unlock(key)
fmt.Println("Lock released")
} else {
fmt.Println("Lock failed")
}
//output:
//Lock acquired
//Lock released
}
```
### <span id="Unlock">Unlock</span>
<p>释放指定键的锁。</p>
<b>函数签名:</b>
```go
func (l *TryKeyedLocker[K]) Unlock(key K)
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/VG9qLvyetE2)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/concurrency"
)
func main() {
locker := concurrency.NewTryKeyedLocker[string]()
key := "resource_key"
if locker.TryLock(key) {
fmt.Println("Lock acquired")
time.Sleep(1 * time.Second)
// Unlock after work is done
locker.Unlock(key)
fmt.Println("Lock released")
} else {
fmt.Println("Lock failed")
}
//output:
//Lock acquired
//Lock released
}
```

335
docs/api/packages/condition.md
View File

@@ -1,335 +0,0 @@
# Condition
condition包含一些用于条件判断的函数。这个包的实现参考了carlmjohnson的truthy包的实现更多有用的信息可以在[truthy](https://github.com/carlmjohnson/truthy)中找到感谢carlmjohnson。
<div STYLE="page-break-after: always;"></div>
## 源码:
- [https://github.com/duke-git/lancet/blob/main/condition/condition.go](https://github.com/duke-git/lancet/blob/main/condition/condition.go)
<div STYLE="page-break-after: always;"></div>
## 用法:
```go
import (
"github.com/duke-git/lancet/v2/condition"
)
```
<div STYLE="page-break-after: always;"></div>
## 目录
- [Bool](#Bool)
- [And](#And)
- [Or](#Or)
- [Xor](#Generate)
- [Nor](#Nor)
- [Xnor](#Xnor)
- [Nand](#Nand)
- [Ternary](#Ternary)
- [TernaryOperator<sup>deprecated</sup>](#TernaryOperator)
<div STYLE="page-break-after: always;"></div>
## 文档
### <span id="Bool">Bool</span>
<p>返回传入参数的bool值.<br/>
如果出入类型参数含有Bool方法, 会调用该方法并返回<br/>
如果传入类型参数有IsZero方法, 返回IsZero方法返回值的取反<br/>
slices和map的length大于0时返回true否则返回false<br/>
其他类型会判断是否是零值</p>
<b>函数签名:</b>
```go
func Bool[T any](value T) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/ETzeDJRSvhm)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
// bool
result1 := condition.Bool(false)
result2 := condition.Bool(true)
fmt.Println(result1) // false
fmt.Println(result2) // true
// integer
result3 := condition.Bool(0)
result4 := condition.Bool(1)
fmt.Println(result3) // false
fmt.Println(result4) // true
// string
result5 := condition.Bool("")
result6 := condition.Bool(" ")
fmt.Println(result5) // false
fmt.Println(result6) // true
// slice
nums := []int{}
result7 := condition.Bool(nums)
nums = append(nums, 1, 2)
result8 := condition.Bool(nums)
fmt.Println(result7) // false
fmt.Println(result8) // true
// struct
result9 = condition.Bool(struct{}{})
fmt.Println(result8) // false
// Output:
// false
// true
// false
// true
// false
// true
// false
// true
// false
}
```
### <span id="And">And</span>
<p>逻辑且操作当切仅当a和b都为true时返回true</p>
<b>函数签名:</b>
```go
func And[T, U any](a T, b U) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/W1SSUmt6pvr)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
fmt.Println(condition.And(0, 1)) // false
fmt.Println(condition.And(0, "")) // false
fmt.Println(condition.And(0, "0")) // false
fmt.Println(condition.And(1, "0")) // true
}
```
### <span id="Or">Or</span>
<p>逻辑或操作当切仅当a和b都为false时返回false</p>
<b>函数签名:</b>
```go
func Or[T, U any](a T, b U) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/UlQTxHaeEkq)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
fmt.Println(condition.Or(0, "")) // false
fmt.Println(condition.Or(0, 1)) // true
fmt.Println(condition.Or(0, "0")) // true
fmt.Println(condition.Or(1, "0")) // true
}
```
### <span id="Xor">Xor</span>
<p>逻辑异或操作a和b相同返回falsea和b不相同返回true</p>
<b>函数签名:</b>
```go
func Xor[T, U any](a T, b U) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/gObZrW7ZbG8)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
fmt.Println(condition.Xor(0, 0)) // false
fmt.Println(condition.Xor(0, 1)) // true
fmt.Println(condition.Xor(1, 0)) // true
fmt.Println(condition.Xor(1, 1)) // false
}
```
### <span id="Nor">Nor</span>
<p>异或的取反操作</p>
<b>函数签名:</b>
```go
func Nor[T, U any](a T, b U) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/g2j08F_zZky)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
fmt.Println(condition.Nor(0, 0)) // true
fmt.Println(condition.Nor(0, 1)) // false
fmt.Println(condition.Nor(1, 0)) // false
fmt.Println(condition.Nor(1, 1)) // false
}
```
### <span id="Xnor">Xnor</span>
<p>如果a和b都是真的或a和b均是假的则返回true。</p>
<b>函数签名:</b>
```go
func Xnor[T, U any](a T, b U) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/OuDB9g51643)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
fmt.Println(condition.Xnor(0, 0)) // true
fmt.Println(condition.Xnor(0, 1)) // false
fmt.Println(condition.Xnor(1, 0)) // false
fmt.Println(condition.Xnor(1, 1)) // true
}
```
### <span id="Nand">Nand</span>
<p>如果a和b都为真返回false否则返回true</p>
<b>函数签名:</b>
```go
func Nand[T, U any](a T, b U) bool
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/vSRMLxLIbq8)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
fmt.Println(condition.Nand(0, 0)) // true
fmt.Println(condition.Nand(0, 1)) // true
fmt.Println(condition.Nand(1, 0)) // true
fmt.Println(condition.Nand(1, 1)) // false
}
```
### <span id="Ternary">Ternary</span>
<p>三元运算符。</p>
<b>函数签名:</b>
```go
func Ternary[T, U any](isTrue T, ifValue U, elseValue U) U
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/ElllPZY0guT)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
conditionTrue := 2 > 1
result1 := condition.Ternary(conditionTrue, 0, 1)
conditionFalse := 2 > 3
result2 := condition.Ternary(conditionFalse, 0, 1)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 0
// 1
}
```
### <span id="TernaryOperator">TernaryOperator</span>
<p>三元运算符</p>
> ⚠️ 本函数已弃用,使用`Ternary`代替。
<b>函数签名:</b>
```go
func TernaryOperator[T, U any](isTrue T, ifValue U, elseValue U) U
```
<b>示例:<span style="float:right;display:inline-block;">[运行](https://go.dev/play/p/ElllPZY0guT)</span></b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/condition"
)
func main() {
conditionTrue := 2 > 1
result1 := condition.TernaryOperator(conditionTrue, 0, 1)
conditionFalse := 2 > 3
result2 := condition.TernaryOperator(conditionFalse, 0, 1)
fmt.Println(result1)
fmt.Println(result2)
// Output:
// 0
// 1
}
```

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# CopyOnWriteList
CopyOnWriteList 是一个线程安全的 List 实现,底层使用 go 切片。写入时,会复制一份新的切片,写入完成后,再将新的切片赋值给原来的切片。读取时,直接读取原来的切片。
## 源码
- [https://github.com/duke-git/lancet/blob/main/datastructure/list/copyonwritelist.go](https://github.com/duke-git/lancet/blob/main/datastructure/list/copyonwritelist.go)
## 用法
```go
import (
"github.com/duke-git/lancet/datastructure/list"
)
```
<div STYLE="page-break-after: always;"></div>
## 目录
- [NewCopyOnWriteList](#NewCopyOnWriteList)
- [Size](#Size)
- [Get](#Get)
- [Set](#Set)
- [Remove](#Remove)
- [IndexOf](#IndexOf)
- [LastIndexOf](#LastIndexOf)
- [IndexOfFunc](#IndexOfFunc)
- [LastIndexOfFunc](#LastIndexOfFunc)
- [IsEmpty](#IsEmpty)
- [Contain](#Contain)
- [ValueOf](#ValueOf)
- [Add](#Add)
- [AddAll](#AddAll)
- [AddByIndex](#AddByIndex)
- [DeleteAt](#DeleteAt)
- [DeleteIf](#DeleteIf)
- [DeleteBy](#DeleteBy)
- [DeleteRange](#DeleteRange)
- [Equal](#Equal)
## 文档
### NewCopyOnWriteList
返回一个具有空切片的 CopyOnWriteList。
```go
type CopyOnWriteList[T any] struct {
data []T
lock sync.Locker
}
func NewCopyOnWriteList() *CopyOnWriteList
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l)
}
```
### Size
返回 CopyOnWriteList 的长度。
```go
func (l *CopyOnWriteList[T]) Size() int
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l.Size())
}
```
### Get
返回列表中指定位置的元素
```go
func (c *CopyOnWriteList[T]) Get(index int) *T
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l.Get(2))
}
```
### Set
将此列表中指定位置的元素替换为指定元素。
```go
func (c *CopyOnWriteList[T]) Set(index int, e T) (oldValue *T, ok bool)
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l.Set(2, 4))
}
```
### Remove
### IndexOf
返回列表中值的索引,如果没有找到返回-1。
```go
func (c *CopyOnWriteList[T]) IndexOf(e T) int
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l.IndexOf(1))
}
```
### LastIndexOf
返回指定元素在此列表中最后出现的索引,如果此列表不包含该元素,则返回-1。
```go
func (c *CopyOnWriteList[T]) LastIndexOf(e T) int
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3,1})
fmt.Println(l.LastIndexOf(1))
}
```
### <span id="IndexOfFunc">IndexOfFunc</span>
<p>返回第一个满足判断函数f(v)的元素的索引,如果找不到则返回-1。</p>
<b>函数签名:</b>
```go
func (l *CopyOnWriteList[T]) IndexOfFunc(f func(T) bool) int
```
<b>示例:</b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1, 2, 3})
fmt.Println(l.IndexOfFunc(func(a int) bool { return a == 1 })) //0
fmt.Println(l.IndexOfFunc(func(a int) bool { return a == 0 })) //-1
}
```
### <span id="LastIndexOfFunc">LastIndexOfFunc</span>
<p>返回最后一个满足判断函数f(v)的元素的索引,如果找不到则返回-1。</p>
<b>函数签名:</b>
```go
func (l *CopyOnWriteList[T]) LastIndexOfFunc(f func(T) bool) int
```
<b>示例:</b>
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/v2/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1, 2, 3, 1})
fmt.Println(l.LastIndexOfFunc(func(a int) bool { return a == 1 })) // 3
fmt.Println(l.LastIndexOfFunc(func(a int) bool { return a == 0 })) //-1
}
```
### IsEmpty
如果此列表不包含任何元素,则返回 true。
```go
func (c *CopyOnWriteList[T]) IsEmpty() bool
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{})
fmt.Println(l.IsEmpty())
}
```
### Contain
判断 CopyOnWriteList 是否包含某个元素
```go
func (c *CopyOnWriteList[T]) Contain(e T) bool
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l.Contain(1))
}
```
### ValueOf
返回列表中索引处的值指针
```go
func (c *CopyOnWriteList[T]) ValueOf(index int) []T
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
fmt.Println(l.ValueOf(2))
}
```
### Add
将指定的元素追加到此列表的末尾。
```go
func (c *CopyOnWriteList[T]) Add(e T) bool
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
l.Add(4)
fmt.Println(l.getList())
}
```
### AddAll
将指定集合中的所有元素追加到此列表的末尾
```go
func (c *CopyOnWriteList[T]) AddAll(e []T) bool
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
l.AddAll([]int{4,5,6})
fmt.Println(l.getList())
}
```
### AddByIndex
将指定元素插入此列表中的指定位置。
```go
func (c *CopyOnWriteList[T]) AddByIndex(index int, e T) bool
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
list.AddByIndex(2, 6)
fmt.Println(l.getList())
}
```
### DeleteAt
移除此列表中指定位置的元素。
```go
func (c *CopyOnWriteList[T]) DeleteAt(index int) (oldValue *T, ok bool)
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
list.DeleteAt(2)
fmt.Println(l.getList())
}
```
### DeleteIf
从此列表中删除第一个出现的指定元素(如果该元素存在)。
```go
func (c *CopyOnWriteList[T]) DeleteIf(f func(T) bool) (oldValue *T, ok bool)
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
list.DeleteIf(func(i int) bool {
return i == 2
})
fmt.Println(l.getList())
}
```
### DeleteBy
从此列表中删除第一个出现的指定元素(如果该元素存在)。
```go
func (c *CopyOnWriteList[T]) DeleteBy(e T) (*T bool)
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3})
list.DeleteBy(2)
fmt.Println(l.getList())
}
```
### DeleteRange
从该列表中删除索引介于 fromIndex(包含)和 toIndex(不包含)之间的所有元素。
(左闭右开)。
```go
func (c *CopyOnWriteList[T]) DeleteRange(start int, end int)
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3,4,5,6,7,8,9})
list.DeleteRange(2, 5)
fmt.Println(l.getList())
}
```
### Equal
如果指定的对象等于此列表,则返回 true。
```go
func (c *CopyOnWriteList[T]) Equal(e []T) bool
```
#### 示例
```go
package main
import (
"fmt"
"github.com/duke-git/lancet/datastructure/list"
)
func main() {
l := list.NewCopyOnWriteList([]int{1,2,3,4,5,6,7,8,9})
fmt.Println(l.Equal([]int{1,2,3,4,5,6,7,8,9}))
}
```

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# HashMap
HashMap 数据结构实现
<div STYLE="page-break-after: always;"></div>
## 源码
- [https://github.com/duke-git/lancet/blob/main/datastructure/hashmap/hashmap.go](https://github.com/duke-git/lancet/blob/main/datastructure/hashmap/hashmap.go)
<div STYLE="page-break-after: always;"></div>
## 用法
```go
import (
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
```
<div STYLE="page-break-after: always;"></div>
## 目录
- [NewHashMap](#NewHashMap)
- [NewHashMapWithCapacity](#NewHashMapWithCapacity)
- [Get](#Get)
- [Put](#Put)
- [Delete](#Delete)
- [Contains](#Contains)
- [Iterate](#Iterate)
- [Keys](#Keys)
- [Values](#Values)
- [FilterByValue](#FilterByValue)
<div STYLE="page-break-after: always;"></div>
## API 文档
### <span id="NewHashMap">NewHashMap</span>
<p>新建默认容量1 &lt&lt 10的HashMap指针实例</p>
<b>函数签名:</b>
```go
func NewHashMap() *HashMap
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
fmt.Println(hm)
}
```
### <span id="NewHashMapWithCapacity">NewHashMapWithCapacity</span>
<p>新建指定容量和长度的HashMap指针实例.</p>
<b>函数签名:</b>
```go
func NewHashMapWithCapacity(size, capacity uint64) *HashMap
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMapWithCapacity(uint64(100), uint64(1000))
fmt.Println(hm)
}
```
### <span id="Get">Get</span>
<p>在hashmap中根据key获取值</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Get(key any) any
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
val := hm.Get("a")
fmt.Println(val) //nil
}
```
### <span id="Put">Put</span>
<p>将key-value放入hashmap中</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Put(key any, value any) any
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
hm.Put("a", 1)
val := hm.Get("a")
fmt.Println(val) //1
}
```
### <span id="Delete">Delete</span>
<p>将指定的key从hashmap中删除</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Delete(key any)
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
hm.Put("a", 1)
val := hm.Get("a")
fmt.Println(val) //1
hm.Delete("a")
val = hm.Get("a")
fmt.Println(val) //nil
}
```
### <span id="Contains">Contains</span>
<p>判断hashmap中是否包含指定的key</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Contains(key any) bool
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
hm.Put("a", 1)
fmt.Println(hm.Contains("a")) //true
fmt.Println(hm.Contains("b")) //false
}
```
### <span id="Iterate">Iterate</span>
<p>迭代hashmap对每个key和value执行iteratee函数</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Iterate(iteratee func(key, value any))
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
hm.Iterate(func(key, value any) {
fmt.Println(key)
fmt.Println(value)
})
}
```
### <span id="Keys">Keys</span>
<p>返回hashmap所有key的切片 (随机顺序)</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Keys() []any
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
keys := hm.Keys()
fmt.Println(keys) //[]interface{"a", "b", "c"}
}
```
### <span id="Values">Values</span>
<p>返回hashmap所有值的切片 (随机顺序)。</p>
<b>函数签名:</b>
```go
func (hm *HashMap) Values() []any
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := heap.NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
values := hm.Values()
fmt.Println(values) //[]interface{2, 1, 3}
}
```
### <span id="FilterByValue">FilterByValue</span>
<p>返回一个过滤后的HashMap。 如果任何值与 perdicate 函数不匹配,则返回 nil否则返回包含选定值的 HashMap。</p>
<b>函数签名:</b>
```go
func (hm *HashMap) FilterByValue(perdicate func(value any) bool) *HashMap
```
<b>示例:</b>
```go
package main
import (
"fmt"
hashmap "github.com/duke-git/lancet/v2/datastructure/hashmap"
)
func main() {
hm := hashmap.NewHashMap()
hm.Put("a", 1)
hm.Put("b", 2)
hm.Put("c", 3)
hm.Put("d", 4)
hm.Put("e", 5)
hm.Put("f", 6)
filteredHM := hm.FilterByValue(func(value any) bool {
return value.(int) == 1 || value.(int) == 3
})
fmt.Println(filteredHM.Size()) //2
}
```

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