// 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 ( "encoding/json" "github.com/gogf/gf/container/garray" "github.com/gogf/gf/frame/g" "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") }) }