// Copyright 2017 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 this file, // You can obtain one at https://github.com/gogf/gf. package gparser_test import ( "github.com/gogf/gf/g" "github.com/gogf/gf/g/encoding/gparser" "github.com/gogf/gf/g/test/gtest" "testing" ) func Test_New(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.Assert(j.Get("n"), "123456789") gtest.Assert(j.Get("m"), g.Map{"k" : "v"}) gtest.Assert(j.Get("a"), g.Slice{1, 2, 3}) }) } func Test_NewUnsafe(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.NewUnsafe(data) gtest.Assert(j.Get("n"), "123456789") gtest.Assert(j.Get("m"), g.Map{"k" : "v"}) gtest.Assert(j.Get("m.k"), "v") gtest.Assert(j.Get("a"), g.Slice{1, 2, 3}) gtest.Assert(j.Get("a.1"), 2) }) } func Test_Encode(t *testing.T) { value := g.Slice{1, 2, 3} gtest.Case(t, func() { b, err := gparser.VarToJson(value) gtest.Assert(err, nil) gtest.Assert(b, []byte(`[1,2,3]`)) }) } func Test_Decode(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.Assert(j.Get("n"), "123456789") gtest.Assert(j.Get("m"), g.Map{"k" : "v"}) gtest.Assert(j.Get("m.k"), "v") gtest.Assert(j.Get("a"), g.Slice{1, 2, 3}) gtest.Assert(j.Get("a.1"), 2) }) } func Test_SplitChar(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) j.SetSplitChar(byte('#')) gtest.AssertNE(j, nil) gtest.Assert(j.Get("n"), "123456789") gtest.Assert(j.Get("m"), g.Map{"k" : "v"}) gtest.Assert(j.Get("m#k"), "v") gtest.Assert(j.Get("a"), g.Slice{1, 2, 3}) gtest.Assert(j.Get("a#1"), 2) }) } func Test_ViolenceCheck(t *testing.T) { data := []byte(`{"m":{"a":[1,2,3], "v1.v2":"4"}}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.Assert(j.Get("m.a.2"), 3) gtest.Assert(j.Get("m.v1.v2"), nil) j.SetViolenceCheck(true) gtest.Assert(j.Get("m.v1.v2"), 4) }) } func Test_GetToVar(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { var m map[string]string var n int var a []int j := gparser.New(data) gtest.AssertNE(j, nil) j.GetToVar("n", &n) j.GetToVar("m", &m) j.GetToVar("a", &a) gtest.Assert(n, "123456789") gtest.Assert(m, g.Map{"k" : "v"}) gtest.Assert(a, g.Slice{1, 2, 3}) }) } func Test_GetMap(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.Assert(j.GetMap("n"), g.Map{}) gtest.Assert(j.GetMap("m"), g.Map{"k" : "v"}) gtest.Assert(j.GetMap("a"), g.Map{}) }) } func Test_GetArray(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.Assert(j.GetArray("n"), g.Array{123456789}) gtest.Assert(j.GetArray("m"), g.Array{g.Map{"k":"v"}}) gtest.Assert(j.GetArray("a"), g.Array{1,2,3}) }) } func Test_GetString(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.AssertEQ(j.GetString("n"), "123456789") gtest.AssertEQ(j.GetString("m"), `{"k":"v"}`) gtest.AssertEQ(j.GetString("a"), `[1,2,3]`) gtest.AssertEQ(j.GetString("i"), "") }) } func Test_GetStrings(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.AssertEQ(j.GetStrings("n"), g.SliceStr{"123456789"}) gtest.AssertEQ(j.GetStrings("m"), g.SliceStr{`{"k":"v"}`}) gtest.AssertEQ(j.GetStrings("a"), g.SliceStr{"1", "2", "3"}) gtest.AssertEQ(j.GetStrings("i"), g.SliceStr{}) }) } func Test_GetInterfaces(t *testing.T) { data := []byte(`{"n":123456789, "m":{"k":"v"}, "a":[1,2,3]}`) gtest.Case(t, func() { j := gparser.New(data) gtest.AssertNE(j, nil) gtest.AssertEQ(j.GetInterfaces("n"), g.Array{123456789}) gtest.AssertEQ(j.GetInterfaces("m"), g.Array{g.Map{"k":"v"}}) gtest.AssertEQ(j.GetInterfaces("a"), g.Array{1,2,3}) }) } func Test_Len(t *testing.T) { gtest.Case(t, func() { p := gparser.New(nil) p.Append("a", 1) p.Append("a", 2) gtest.Assert(p.Len("a"), 2) }) gtest.Case(t, func() { p := gparser.New(nil) p.Append("a.b", 1) p.Append("a.c", 2) gtest.Assert(p.Len("a"), 2) }) gtest.Case(t, func() { p := gparser.New(nil) p.Set("a", 1) gtest.Assert(p.Len("a"), -1) }) } func Test_Append(t *testing.T) { gtest.Case(t, func() { p := gparser.New(nil) p.Append("a", 1) p.Append("a", 2) gtest.Assert(p.Get("a"), g.Slice{1, 2}) }) gtest.Case(t, func() { p := gparser.New(nil) p.Append("a.b", 1) p.Append("a.c", 2) gtest.Assert(p.Get("a"), g.Map{ "b" : g.Slice{1}, "c" : g.Slice{2}, }) }) gtest.Case(t, func() { p := gparser.New(nil) p.Set("a", 1) err := p.Append("a", 2) gtest.AssertNE(err, nil) gtest.Assert(p.Get("a"), 1) }) }