gf/container/gmap/gmap_z_unit_int_str_test.go

347 lines
7.5 KiB
Go

// Copyright 2017-2019 gf Author(https://github.com/gogf/gf). All Rights Reserved.
//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with gm file,
// You can obtain one at https://github.com/gogf/gf.
package gmap_test
import (
"github.com/gogf/gf/container/garray"
"github.com/gogf/gf/frame/g"
"github.com/gogf/gf/internal/json"
"github.com/gogf/gf/util/gconv"
"testing"
"github.com/gogf/gf/container/gmap"
"github.com/gogf/gf/test/gtest"
)
func getStr() string {
return "z"
}
func Test_IntStrMap_Var(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
var m gmap.IntStrMap
m.Set(1, "a")
t.Assert(m.Get(1), "a")
t.Assert(m.Size(), 1)
t.Assert(m.IsEmpty(), false)
t.Assert(m.GetOrSet(2, "b"), "b")
t.Assert(m.SetIfNotExist(2, "b"), false)
t.Assert(m.SetIfNotExist(3, "c"), true)
t.Assert(m.Remove(2), "b")
t.Assert(m.Contains(2), false)
t.AssertIN(3, m.Keys())
t.AssertIN(1, m.Keys())
t.AssertIN("a", m.Values())
t.AssertIN("c", m.Values())
m_f := gmap.NewIntStrMap()
m_f.Set(1, "2")
m_f.Flip()
t.Assert(m_f.Map(), map[int]string{2: "1"})
m.Clear()
t.Assert(m.Size(), 0)
t.Assert(m.IsEmpty(), true)
})
}
func Test_IntStrMap_Basic(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMap()
m.Set(1, "a")
t.Assert(m.Get(1), "a")
t.Assert(m.Size(), 1)
t.Assert(m.IsEmpty(), false)
t.Assert(m.GetOrSet(2, "b"), "b")
t.Assert(m.SetIfNotExist(2, "b"), false)
t.Assert(m.SetIfNotExist(3, "c"), true)
t.Assert(m.Remove(2), "b")
t.Assert(m.Contains(2), false)
t.AssertIN(3, m.Keys())
t.AssertIN(1, m.Keys())
t.AssertIN("a", m.Values())
t.AssertIN("c", m.Values())
//反转之后不成为以下 map,flip 操作只是翻转原 map
//t.Assert(m.Map(), map[string]int{"a": 1, "c": 3})
m_f := gmap.NewIntStrMap()
m_f.Set(1, "2")
m_f.Flip()
t.Assert(m_f.Map(), map[int]string{2: "1"})
m.Clear()
t.Assert(m.Size(), 0)
t.Assert(m.IsEmpty(), true)
m2 := gmap.NewIntStrMapFrom(map[int]string{1: "a", 2: "b"})
t.Assert(m2.Map(), map[int]string{1: "a", 2: "b"})
})
}
func Test_IntStrMap_Set_Fun(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMap()
m.GetOrSetFunc(1, getStr)
m.GetOrSetFuncLock(2, getStr)
t.Assert(m.Get(1), "z")
t.Assert(m.Get(2), "z")
t.Assert(m.SetIfNotExistFunc(1, getStr), false)
t.Assert(m.SetIfNotExistFunc(3, getStr), true)
t.Assert(m.SetIfNotExistFuncLock(2, getStr), false)
t.Assert(m.SetIfNotExistFuncLock(4, getStr), true)
})
}
func Test_IntStrMap_Batch(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMap()
m.Sets(map[int]string{1: "a", 2: "b", 3: "c"})
t.Assert(m.Map(), map[int]string{1: "a", 2: "b", 3: "c"})
m.Removes([]int{1, 2})
t.Assert(m.Map(), map[int]interface{}{3: "c"})
})
}
func Test_IntStrMap_Iterator(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
expect := map[int]string{1: "a", 2: "b"}
m := gmap.NewIntStrMapFrom(expect)
m.Iterator(func(k int, v string) bool {
t.Assert(expect[k], v)
return true
})
// 断言返回值对遍历控制
i := 0
j := 0
m.Iterator(func(k int, v string) bool {
i++
return true
})
m.Iterator(func(k int, v string) bool {
j++
return false
})
t.Assert(i, 2)
t.Assert(j, 1)
})
}
func Test_IntStrMap_Lock(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
expect := map[int]string{1: "a", 2: "b", 3: "c"}
m := gmap.NewIntStrMapFrom(expect)
m.LockFunc(func(m map[int]string) {
t.Assert(m, expect)
})
m.RLockFunc(func(m map[int]string) {
t.Assert(m, expect)
})
})
}
func Test_IntStrMap_Clone(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
//clone 方法是深克隆
m := gmap.NewIntStrMapFrom(map[int]string{1: "a", 2: "b", 3: "c"})
m_clone := m.Clone()
m.Remove(1)
//修改原 map,clone 后的 map 不影响
t.AssertIN(1, m_clone.Keys())
m_clone.Remove(2)
//修改clone map,原 map 不影响
t.AssertIN(2, m.Keys())
})
}
func Test_IntStrMap_Merge(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m1 := gmap.NewIntStrMap()
m2 := gmap.NewIntStrMap()
m1.Set(1, "a")
m2.Set(2, "b")
m1.Merge(m2)
t.Assert(m1.Map(), map[int]string{1: "a", 2: "b"})
})
}
func Test_IntStrMap_Map(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMap()
m.Set(1, "0")
m.Set(2, "2")
t.Assert(m.Get(1), "0")
t.Assert(m.Get(2), "2")
data := m.Map()
t.Assert(data[1], "0")
t.Assert(data[2], "2")
data[3] = "3"
t.Assert(m.Get(3), "3")
m.Set(4, "4")
t.Assert(data[4], "4")
})
}
func Test_IntStrMap_MapCopy(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMap()
m.Set(1, "0")
m.Set(2, "2")
t.Assert(m.Get(1), "0")
t.Assert(m.Get(2), "2")
data := m.MapCopy()
t.Assert(data[1], "0")
t.Assert(data[2], "2")
data[3] = "3"
t.Assert(m.Get(3), "")
m.Set(4, "4")
t.Assert(data[4], "")
})
}
func Test_IntStrMap_FilterEmpty(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMap()
m.Set(1, "")
m.Set(2, "2")
t.Assert(m.Size(), 2)
t.Assert(m.Get(2), "2")
m.FilterEmpty()
t.Assert(m.Size(), 1)
t.Assert(m.Get(2), "2")
})
}
func Test_IntStrMap_Json(t *testing.T) {
// Marshal
gtest.C(t, func(t *gtest.T) {
data := g.MapIntStr{
1: "v1",
2: "v2",
}
m1 := gmap.NewIntStrMapFrom(data)
b1, err1 := json.Marshal(m1)
b2, err2 := json.Marshal(data)
t.Assert(err1, err2)
t.Assert(b1, b2)
})
// Unmarshal
gtest.C(t, func(t *gtest.T) {
data := g.MapIntStr{
1: "v1",
2: "v2",
}
b, err := json.Marshal(data)
t.Assert(err, nil)
m := gmap.NewIntStrMap()
err = json.Unmarshal(b, m)
t.Assert(err, nil)
t.Assert(m.Get(1), data[1])
t.Assert(m.Get(2), data[2])
})
}
func Test_IntStrMap_Pop(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMapFrom(g.MapIntStr{
1: "v1",
2: "v2",
})
t.Assert(m.Size(), 2)
k1, v1 := m.Pop()
t.AssertIN(k1, g.Slice{1, 2})
t.AssertIN(v1, g.Slice{"v1", "v2"})
t.Assert(m.Size(), 1)
k2, v2 := m.Pop()
t.AssertIN(k2, g.Slice{1, 2})
t.AssertIN(v2, g.Slice{"v1", "v2"})
t.Assert(m.Size(), 0)
t.AssertNE(k1, k2)
t.AssertNE(v1, v2)
})
}
func Test_IntStrMap_Pops(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
m := gmap.NewIntStrMapFrom(g.MapIntStr{
1: "v1",
2: "v2",
3: "v3",
})
t.Assert(m.Size(), 3)
kArray := garray.New()
vArray := garray.New()
for k, v := range m.Pops(1) {
t.AssertIN(k, g.Slice{1, 2, 3})
t.AssertIN(v, g.Slice{"v1", "v2", "v3"})
kArray.Append(k)
vArray.Append(v)
}
t.Assert(m.Size(), 2)
for k, v := range m.Pops(2) {
t.AssertIN(k, g.Slice{1, 2, 3})
t.AssertIN(v, g.Slice{"v1", "v2", "v3"})
kArray.Append(k)
vArray.Append(v)
}
t.Assert(m.Size(), 0)
t.Assert(kArray.Unique().Len(), 3)
t.Assert(vArray.Unique().Len(), 3)
})
}
func TestIntStrMap_UnmarshalValue(t *testing.T) {
type V struct {
Name string
Map *gmap.IntStrMap
}
// JSON
gtest.C(t, func(t *gtest.T) {
var v *V
err := gconv.Struct(map[string]interface{}{
"name": "john",
"map": []byte(`{"1":"v1","2":"v2"}`),
}, &v)
t.Assert(err, nil)
t.Assert(v.Name, "john")
t.Assert(v.Map.Size(), 2)
t.Assert(v.Map.Get(1), "v1")
t.Assert(v.Map.Get(2), "v2")
})
// Map
gtest.C(t, func(t *gtest.T) {
var v *V
err := gconv.Struct(map[string]interface{}{
"name": "john",
"map": g.MapIntAny{
1: "v1",
2: "v2",
},
}, &v)
t.Assert(err, nil)
t.Assert(v.Name, "john")
t.Assert(v.Map.Size(), 2)
t.Assert(v.Map.Get(1), "v1")
t.Assert(v.Map.Get(2), "v2")
})
}