/* * Copyright (c) 2013 Dave Collins * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* Test Summary: NOTE: For each test, a nil pointer, a single pointer and double pointer to the base test element are also tested to ensure proper indirection across all types. - Max int8, int16, int32, int64, int - Max uint8, uint16, uint32, uint64, uint - Boolean true and false - Standard complex64 and complex128 - Array containing standard ints - Array containing type with custom formatter on pointer receiver only - Slice containing standard float32 values - Slice containing type with custom formatter on pointer receiver only - Standard string - Nil interface - Map with string keys and int vals - Map with custom formatter type on pointer receiver only keys and vals - Map with interface keys and values - Struct with primitives - Struct that contains another struct - Struct that contains custom type with Stringer pointer interface via both exported and unexported fields - Uintptr to 0 (null pointer) - Uintptr address of real variable - Unsafe.Pointer to 0 (null pointer) - Unsafe.Pointer to address of real variable - Nil channel - Standard int channel - Function with no params and no returns - Function with param and no returns - Function with multiple params and multiple returns - Struct that is circular through self referencing - Structs that are circular through cross referencing - Structs that are indirectly circular */ package spew_test import ( "bytes" "fmt" "github.com/davecgh/go-spew/spew" "testing" "unsafe" ) // custom type to test Stinger interface on pointer receiver. type pstringer string // String implements the Stringer interface for testing invocation of custom // stringers on types with only pointer receivers. func (s *pstringer) String() string { return "stringer " + string(*s) } // xref1 and xref2 are cross referencing structs for testing circular reference // detection. type xref1 struct { ps2 *xref2 } type xref2 struct { ps1 *xref1 } // indirCir1, indirCir2, and indirCir3 are used to generate an indirect circular // reference for testing detection. type indirCir1 struct { ps2 *indirCir2 } type indirCir2 struct { ps3 *indirCir3 } type indirCir3 struct { ps1 *indirCir1 } // dumpTest is used to describe a test to be perfomed against the Dump method. type dumpTest struct { in interface{} want string } // dumpTests houses all of the tests to be performed against the Dump method. var dumpTests = make([]dumpTest, 0) // addDumpTest is a helper method to append the passed input and desired result // to dumpTests func addDumpTest(in interface{}, want string) { test := dumpTest{in, want} dumpTests = append(dumpTests, test) } func addIntDumpTests() { // Max int8. v := int8(127) nv := (*int8)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "int8" vs := "127" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Max int16. v2 := int16(32767) nv2 := (*int16)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "int16" v2s := "32767" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") // Max int32. v3 := int32(2147483647) nv3 := (*int32)(nil) pv3 := &v3 v3Addr := fmt.Sprintf("%p", pv3) pv3Addr := fmt.Sprintf("%p", &pv3) v3t := "int32" v3s := "2147483647" addDumpTest(v3, "("+v3t+") "+v3s+"\n") addDumpTest(pv3, "(*"+v3t+")("+v3Addr+")("+v3s+")\n") addDumpTest(&pv3, "(**"+v3t+")("+pv3Addr+"->"+v3Addr+")("+v3s+")\n") addDumpTest(nv3, "(*"+v3t+")()\n") // Max int64. v4 := int64(9223372036854775807) nv4 := (*int64)(nil) pv4 := &v4 v4Addr := fmt.Sprintf("%p", pv4) pv4Addr := fmt.Sprintf("%p", &pv4) v4t := "int64" v4s := "9223372036854775807" addDumpTest(v4, "("+v4t+") "+v4s+"\n") addDumpTest(pv4, "(*"+v4t+")("+v4Addr+")("+v4s+")\n") addDumpTest(&pv4, "(**"+v4t+")("+pv4Addr+"->"+v4Addr+")("+v4s+")\n") addDumpTest(nv4, "(*"+v4t+")()\n") // Max int. v5 := int(2147483647) nv5 := (*int)(nil) pv5 := &v5 v5Addr := fmt.Sprintf("%p", pv5) pv5Addr := fmt.Sprintf("%p", &pv5) v5t := "int" v5s := "2147483647" addDumpTest(v5, "("+v5t+") "+v5s+"\n") addDumpTest(pv5, "(*"+v5t+")("+v5Addr+")("+v5s+")\n") addDumpTest(&pv5, "(**"+v5t+")("+pv5Addr+"->"+v5Addr+")("+v5s+")\n") addDumpTest(nv5, "(*"+v5t+")()\n") } func addUintDumpTests() { // Max uint8. v := uint8(255) nv := (*uint8)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "uint8" vs := "255" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Max uint16. v2 := uint16(65535) nv2 := (*uint16)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "uint16" v2s := "65535" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") // Max uint32. v3 := uint32(4294967295) nv3 := (*uint32)(nil) pv3 := &v3 v3Addr := fmt.Sprintf("%p", pv3) pv3Addr := fmt.Sprintf("%p", &pv3) v3t := "uint32" v3s := "4294967295" addDumpTest(v3, "("+v3t+") "+v3s+"\n") addDumpTest(pv3, "(*"+v3t+")("+v3Addr+")("+v3s+")\n") addDumpTest(&pv3, "(**"+v3t+")("+pv3Addr+"->"+v3Addr+")("+v3s+")\n") addDumpTest(nv3, "(*"+v3t+")()\n") // Max uint64. v4 := uint64(18446744073709551615) nv4 := (*uint64)(nil) pv4 := &v4 v4Addr := fmt.Sprintf("%p", pv4) pv4Addr := fmt.Sprintf("%p", &pv4) v4t := "uint64" v4s := "18446744073709551615" addDumpTest(v4, "("+v4t+") "+v4s+"\n") addDumpTest(pv4, "(*"+v4t+")("+v4Addr+")("+v4s+")\n") addDumpTest(&pv4, "(**"+v4t+")("+pv4Addr+"->"+v4Addr+")("+v4s+")\n") addDumpTest(nv4, "(*"+v4t+")()\n") // Max uint. v5 := uint(4294967295) nv5 := (*uint)(nil) pv5 := &v5 v5Addr := fmt.Sprintf("%p", pv5) pv5Addr := fmt.Sprintf("%p", &pv5) v5t := "uint" v5s := "4294967295" addDumpTest(v5, "("+v5t+") "+v5s+"\n") addDumpTest(pv5, "(*"+v5t+")("+v5Addr+")("+v5s+")\n") addDumpTest(&pv5, "(**"+v5t+")("+pv5Addr+"->"+v5Addr+")("+v5s+")\n") addDumpTest(nv5, "(*"+v5t+")()\n") } func addBoolDumpTests() { // Boolean true. v := bool(true) nv := (*bool)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "bool" vs := "true" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Boolean false. v2 := bool(false) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "bool" v2s := "false" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") } func addFloatDumpTests() { // Standard float32. v := float32(3.1415) nv := (*float32)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "float32" vs := "3.1415" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Standard float64. v2 := float64(3.1415926) nv2 := (*float64)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "float64" v2s := "3.1415926" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") } func addComplexDumpTests() { // Standard complex64. v := complex(float32(6), -2) nv := (*complex64)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "complex64" vs := "(6-2i)" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Standard complex128. v2 := complex(float64(-6), 2) nv2 := (*complex128)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "complex128" v2s := "(-6+2i)" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") } func addArrayDumpTests() { // Array containing standard ints. v := [3]int{1, 2, 3} nv := (*[3]int)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "int" vs := "{\n (" + vt + ") 1,\n (" + vt + ") 2,\n (" + vt + ") 3\n}" addDumpTest(v, "([3]"+vt+") "+vs+"\n") addDumpTest(pv, "(*[3]"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**[3]"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*[3]"+vt+")()\n") // Array containing type with custom formatter on pointer receiver only. v2 := [3]pstringer{"1", "2", "3"} nv2 := (*[3]pstringer)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "spew_test.pstringer" v2s := "{\n (" + v2t + ") stringer 1,\n (" + v2t + ") stringer 2,\n (" + v2t + ") stringer 3\n}" addDumpTest(v2, "([3]"+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*[3]"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**[3]"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*[3]"+v2t+")()\n") } func addSliceDumpTests() { // Slice containing standard float32 values. v := []float32{3.14, 6.28, 12.56} nv := (*[]float32)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "float32" vs := "{\n (" + vt + ") 3.14,\n (" + vt + ") 6.28,\n (" + vt + ") 12.56\n}" addDumpTest(v, "([]"+vt+") "+vs+"\n") addDumpTest(pv, "(*[]"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**[]"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*[]"+vt+")()\n") // Slice containing type with custom formatter on pointer receiver only. v2 := []pstringer{"1", "2", "3"} nv2 := (*[]pstringer)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "spew_test.pstringer" v2s := "{\n (" + v2t + ") stringer 1,\n (" + v2t + ") stringer 2,\n (" + v2t + ") stringer 3\n}" addDumpTest(v2, "([]"+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*[]"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**[]"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*[]"+v2t+")()\n") } func addStringDumpTests() { // Standard string. v := "test" nv := (*string)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "string" vs := "\"test\"" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") } func addNilInterfaceDumpTests() { // Nil interface. var v interface{} nv := (*interface{})(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "interface {}" vs := "" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") } func addMapDumpTests() { // Map with string keys and int vals. v := map[string]int{"one": 1} nv := (*map[string]int)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "map[string]int" vt1 := "string" vt2 := "int" vs := "{\n (" + vt1 + ") \"one\": (" + vt2 + ") 1\n}" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Map with custom formatter type on pointer receiver only keys and vals. v2 := map[pstringer]pstringer{"one": "1"} nv2 := (*map[pstringer]pstringer)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "map[spew_test.pstringer]spew_test.pstringer" v2t1 := "spew_test.pstringer" v2t2 := "spew_test.pstringer" v2s := "{\n (" + v2t1 + ") stringer one: (" + v2t2 + ") stringer 1\n}" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") // Map with interface keys and values. v3 := map[interface{}]interface{}{"one": 1} nv3 := (*map[interface{}]interface{})(nil) pv3 := &v3 v3Addr := fmt.Sprintf("%p", pv3) pv3Addr := fmt.Sprintf("%p", &pv3) v3t := "map[interface {}]interface {}" v3t1 := "string" v3t2 := "int" v3s := "{\n (" + v3t1 + ") \"one\": (" + v3t2 + ") 1\n}" addDumpTest(v3, "("+v3t+") "+v3s+"\n") addDumpTest(pv3, "(*"+v3t+")("+v3Addr+")("+v3s+")\n") addDumpTest(&pv3, "(**"+v3t+")("+pv3Addr+"->"+v3Addr+")("+v3s+")\n") addDumpTest(nv3, "(*"+v3t+")()\n") } func addStructDumpTests() { // Struct with primitives. type s1 struct { a int8 b uint8 } v := s1{127, 255} nv := (*s1)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "spew_test.s1" vt2 := "int8" vt3 := "uint8" vs := "{\n a: (" + vt2 + ") 127,\n b: (" + vt3 + ") 255\n}" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Struct that contains another struct. type s2 struct { s1 s1 b bool } v2 := s2{s1{127, 255}, true} nv2 := (*s2)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "spew_test.s2" v2t2 := "spew_test.s1" v2t3 := "int8" v2t4 := "uint8" v2t5 := "bool" v2s := "{\n s1: (" + v2t2 + ") {\n a: (" + v2t3 + ") 127,\n b: (" + v2t4 + ") 255\n },\n b: (" + v2t5 + ") true\n}" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") // Struct that contains custom type with Stringer pointer interface via both // exported and unexported fields. type s3 struct { s pstringer S pstringer } v3 := s3{"test", "test2"} nv3 := (*s3)(nil) pv3 := &v3 v3Addr := fmt.Sprintf("%p", pv3) pv3Addr := fmt.Sprintf("%p", &pv3) v3t := "spew_test.s3" v3t2 := "spew_test.pstringer" v3s := "{\n s: (" + v3t2 + ") stringer test,\n S: (" + v3t2 + ") stringer test2\n}" addDumpTest(v3, "("+v3t+") "+v3s+"\n") addDumpTest(pv3, "(*"+v3t+")("+v3Addr+")("+v3s+")\n") addDumpTest(&pv3, "(**"+v3t+")("+pv3Addr+"->"+v3Addr+")("+v3s+")\n") addDumpTest(nv3, "(*"+v3t+")()\n") } func addUintptrDumpTests() { // Null pointer. v := uintptr(0) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "uintptr" vs := "" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") // Address of real variable. i := 1 v2 := uintptr(unsafe.Pointer(&i)) nv2 := (*uintptr)(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "uintptr" v2s := fmt.Sprintf("%p", &i) addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") } func addUnsafePointerDumpTests() { // Null pointer. v := unsafe.Pointer(uintptr(0)) nv := (*unsafe.Pointer)(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "unsafe.Pointer" vs := "" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Address of real variable. i := 1 v2 := unsafe.Pointer(&i) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "unsafe.Pointer" v2s := fmt.Sprintf("%p", &i) addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv, "(*"+vt+")()\n") } func addChanDumpTests() { // Nil channel. var v chan int pv := &v nv := (*chan int)(nil) vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "chan int" vs := "" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Real channel. v2 := make(chan int) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "chan int" v2s := fmt.Sprintf("%p", v2) addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") } func addFuncDumpTests() { // Function with no params and no returns. v := addIntDumpTests nv := (*func())(nil) pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "func()" vs := fmt.Sprintf("%p", v) addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs+")\n") addDumpTest(nv, "(*"+vt+")()\n") // Function with param and no returns. v2 := TestDump nv2 := (*func(*testing.T))(nil) pv2 := &v2 v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "func(*testing.T)" v2s := fmt.Sprintf("%p", v2) addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s+")\n") addDumpTest(nv2, "(*"+v2t+")()\n") // Function with multiple params and multiple returns. var v3 = func(i int, s string) (b bool, err error) { return true, nil } nv3 := (*func(int, string)(bool, error))(nil) pv3 := &v3 v3Addr := fmt.Sprintf("%p", pv3) pv3Addr := fmt.Sprintf("%p", &pv3) v3t := "func(int, string) (bool, error)" v3s := fmt.Sprintf("%p", v3) addDumpTest(v3, "("+v3t+") "+v3s+"\n") addDumpTest(pv3, "(*"+v3t+")("+v3Addr+")("+v3s+")\n") addDumpTest(&pv3, "(**"+v3t+")("+pv3Addr+"->"+v3Addr+")("+v3s+")\n") addDumpTest(nv3, "(*"+v3t+")()\n") } func addCircularDumpTests() { // Struct that is circular through self referencing. type circular struct { c *circular } v := circular{nil} v.c = &v pv := &v vAddr := fmt.Sprintf("%p", pv) pvAddr := fmt.Sprintf("%p", &pv) vt := "spew_test.circular" vs := "{\n c: (*" + vt + ")(" + vAddr + ")({\n c: (*" + vt + ")(" + vAddr + ")()\n })\n}" vs2 := "{\n c: (*" + vt + ")(" + vAddr + ")()\n}" addDumpTest(v, "("+vt+") "+vs+"\n") addDumpTest(pv, "(*"+vt+")("+vAddr+")("+vs2+")\n") addDumpTest(&pv, "(**"+vt+")("+pvAddr+"->"+vAddr+")("+vs2+")\n") // Structs that are circular through cross referencing. v2 := xref1{nil} ts2 := xref2{&v2} v2.ps2 = &ts2 pv2 := &v2 ts2Addr := fmt.Sprintf("%p", &ts2) v2Addr := fmt.Sprintf("%p", pv2) pv2Addr := fmt.Sprintf("%p", &pv2) v2t := "spew_test.xref1" v2t2 := "spew_test.xref2" v2s := "{\n ps2: (*" + v2t2 + ")(" + ts2Addr + ")({\n ps1: (*" + v2t + ")(" + v2Addr + ")({\n ps2: (*" + v2t2 + ")(" + ts2Addr + ")()\n })\n })\n}" v2s2 := "{\n ps2: (*" + v2t2 + ")(" + ts2Addr + ")({\n ps1: (*" + v2t + ")(" + v2Addr + ")()\n })\n}" addDumpTest(v2, "("+v2t+") "+v2s+"\n") addDumpTest(pv2, "(*"+v2t+")("+v2Addr+")("+v2s2+")\n") addDumpTest(&pv2, "(**"+v2t+")("+pv2Addr+"->"+v2Addr+")("+v2s2+")\n") // Structs that are indirectly circular. v3 := indirCir1{nil} tic2 := indirCir2{nil} tic3 := indirCir3{&v3} tic2.ps3 = &tic3 v3.ps2 = &tic2 pv3 := &v3 tic2Addr := fmt.Sprintf("%p", &tic2) tic3Addr := fmt.Sprintf("%p", &tic3) v3Addr := fmt.Sprintf("%p", pv3) pv3Addr := fmt.Sprintf("%p", &pv3) v3t := "spew_test.indirCir1" v3t2 := "spew_test.indirCir2" v3t3 := "spew_test.indirCir3" v3s := "{\n ps2: (*" + v3t2 + ")(" + tic2Addr + ")({\n ps3: (*" + v3t3 + ")(" + tic3Addr + ")({\n ps1: (*" + v3t + ")(" + v3Addr + ")({\n ps2: (*" + v3t2 + ")(" + tic2Addr + ")()\n })\n })\n })\n}" v3s2 := "{\n ps2: (*" + v3t2 + ")(" + tic2Addr + ")({\n ps3: (*" + v3t3 + ")(" + tic3Addr + ")({\n ps1: (*" + v3t + ")(" + v3Addr + ")()\n })\n })\n}" addDumpTest(v3, "("+v3t+") "+v3s+"\n") addDumpTest(pv3, "(*"+v3t+")("+v3Addr+")("+v3s2+")\n") addDumpTest(&pv3, "(**"+v3t+")("+pv3Addr+"->"+v3Addr+")("+v3s2+")\n") } // TestDump executes all of the tests described by dumpTests. func TestDump(t *testing.T) { // Setup tests. addIntDumpTests() addUintDumpTests() addBoolDumpTests() addFloatDumpTests() addComplexDumpTests() addArrayDumpTests() addSliceDumpTests() addStringDumpTests() addNilInterfaceDumpTests() addMapDumpTests() addStructDumpTests() addUintptrDumpTests() addUnsafePointerDumpTests() addChanDumpTests() addFuncDumpTests() addCircularDumpTests() t.Logf("Running %d tests", len(dumpTests)) for i, test := range dumpTests { buf := new(bytes.Buffer) spew.Fdump(buf, test.in) s := buf.String() if test.want != s { t.Errorf("Dump #%d\n got: %s want: %s", i, s, test.want) continue } } }