// Copyright 2015 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package main
import (
"bytes"
"flag"
"os"
"path/filepath"
"regexp"
"runtime"
"strings"
"testing"
)
func TestMain(m *testing.M) {
// Clear GOPATH so we don't access the user's own packages in the test.
buildCtx.GOPATH = ""
testGOPATH = true // force GOPATH mode; module test is in cmd/go/testdata/script/mod_doc.txt
// Add $GOROOT/src/cmd/doc/testdata explicitly so we can access its contents in the test.
// Normally testdata directories are ignored, but sending it to dirs.scan directly is
// a hack that works around the check.
testdataDir, err := filepath.Abs("testdata")
if err != nil {
panic(err)
}
dirsInit(Dir{"testdata", testdataDir}, Dir{"testdata/nested", filepath.Join(testdataDir, "nested")}, Dir{"testdata/nested/nested", filepath.Join(testdataDir, "nested", "nested")})
os.Exit(m.Run())
}
func maybeSkip(t *testing.T) {
if strings.HasPrefix(runtime.GOOS, "nacl") {
t.Skip("nacl does not have a full file tree")
}
if runtime.GOOS == "darwin" && strings.HasPrefix(runtime.GOARCH, "arm") {
t.Skip("darwin/arm does not have a full file tree")
}
}
type isDotSlashTest struct {
str string
result bool
}
var isDotSlashTests = []isDotSlashTest{
{``, false},
{`x`, false},
{`...`, false},
{`.../`, false},
{`...\`, false},
{`.`, true},
{`./`, true},
{`.\`, true},
{`./x`, true},
{`.\x`, true},
{`..`, true},
{`../`, true},
{`..\`, true},
{`../x`, true},
{`..\x`, true},
}
func TestIsDotSlashPath(t *testing.T) {
for _, test := range isDotSlashTests {
if result := isDotSlash(test.str); result != test.result {
t.Errorf("isDotSlash(%q) = %t; expected %t", test.str, result, test.result)
}
}
}
type test struct {
name string
args []string // Arguments to "[go] doc".
yes []string // Regular expressions that should match.
no []string // Regular expressions that should not match.
}
const p = "cmd/doc/testdata"
var tests = []test{
// Sanity check.
{
"sanity check",
[]string{p},
[]string{`type ExportedType struct`},
nil,
},
// Package dump includes import, package statement.
{
"package clause",
[]string{p},
[]string{`package pkg.*cmd/doc/testdata`},
nil,
},
// Constants.
// Package dump
{
"full package",
[]string{p},
[]string{
`Package comment`,
`const ExportedConstant = 1`, // Simple constant.
`const ConstOne = 1`, // First entry in constant block.
`const ConstFive ...`, // From block starting with unexported constant.
`var ExportedVariable = 1`, // Simple variable.
`var VarOne = 1`, // First entry in variable block.
`func ExportedFunc\(a int\) bool`, // Function.
`func ReturnUnexported\(\) unexportedType`, // Function with unexported return type.
`type ExportedType struct{ ... }`, // Exported type.
`const ExportedTypedConstant ExportedType = iota`, // Typed constant.
`const ExportedTypedConstant_unexported unexportedType`, // Typed constant, exported for unexported type.
`const ConstLeft2 uint64 ...`, // Typed constant using unexported iota.
`const ConstGroup1 unexportedType = iota ...`, // Typed constant using unexported type.
`const ConstGroup4 ExportedType = ExportedType{}`, // Typed constant using exported type.
`const MultiLineConst = ...`, // Multi line constant.
`var MultiLineVar = map\[struct{ ... }\]struct{ ... }{ ... }`, // Multi line variable.
`func MultiLineFunc\(x interface{ ... }\) \(r struct{ ... }\)`, // Multi line function.
`var LongLine = newLongLine\(("someArgument[1-4]", ){4}...\)`, // Long list of arguments.
`type T1 = T2`, // Type alias
},
[]string{
`const internalConstant = 2`, // No internal constants.
`var internalVariable = 2`, // No internal variables.
`func internalFunc(a int) bool`, // No internal functions.
`Comment about exported constant`, // No comment for single constant.
`Comment about exported variable`, // No comment for single variable.
`Comment about block of constants`, // No comment for constant block.
`Comment about block of variables`, // No comment for variable block.
`Comment before ConstOne`, // No comment for first entry in constant block.
`Comment before VarOne`, // No comment for first entry in variable block.
`ConstTwo = 2`, // No second entry in constant block.
`VarTwo = 2`, // No second entry in variable block.
`VarFive = 5`, // From block starting with unexported variable.
`type unexportedType`, // No unexported type.
`unexportedTypedConstant`, // No unexported typed constant.
`\bField`, // No fields.
`Method`, // No methods.
`someArgument[5-8]`, // No truncated arguments.
`type T1 T2`, // Type alias does not display as type declaration.
},
},
// Package dump -all
{
"full package",
[]string{"-all", p},
[]string{
`package pkg .*import`,
`Package comment`,
`CONSTANTS`,
`Comment before ConstOne`,
`ConstOne = 1`,
`ConstTwo = 2 // Comment on line with ConstTwo`,
`ConstFive`,
`ConstSix`,
`Const block where first entry is unexported`,
`ConstLeft2, constRight2 uint64`,
`constLeft3, ConstRight3`,
`ConstLeft4, ConstRight4`,
`Duplicate = iota`,
`const CaseMatch = 1`,
`const Casematch = 2`,
`const ExportedConstant = 1`,
`const MultiLineConst = `,
`MultiLineString1`,
`VARIABLES`,
`Comment before VarOne`,
`VarOne = 1`,
`Comment about block of variables`,
`VarFive = 5`,
`var ExportedVariable = 1`,
`var LongLine = newLongLine\(`,
`var MultiLineVar = map\[struct {`,
`FUNCTIONS`,
`func ExportedFunc\(a int\) bool`,
`Comment about exported function`,
`func MultiLineFunc\(x interface`,
`func ReturnUnexported\(\) unexportedType`,
`TYPES`,
`type ExportedInterface interface`,
`type ExportedStructOneField struct`,
`type ExportedType struct`,
`Comment about exported type`,
`const ConstGroup4 ExportedType = ExportedType`,
`ExportedTypedConstant ExportedType = iota`,
`Constants tied to ExportedType`,
`func ExportedTypeConstructor\(\) \*ExportedType`,
`Comment about constructor for exported type`,
`func ReturnExported\(\) ExportedType`,
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`Comment about exported method`,
`type T1 = T2`,
`type T2 int`,
},
[]string{
`constThree`,
`_, _ uint64 = 2 \* iota, 1 << iota`,
`constLeft1, constRight1`,
`duplicate`,
`varFour`,
`func internalFunc`,
`unexportedField`,
`func \(unexportedType\)`,
},
},
// Package dump -u
{
"full package with u",
[]string{`-u`, p},
[]string{
`const ExportedConstant = 1`, // Simple constant.
`const internalConstant = 2`, // Internal constants.
`func internalFunc\(a int\) bool`, // Internal functions.
`func ReturnUnexported\(\) unexportedType`, // Function with unexported return type.
},
[]string{
`Comment about exported constant`, // No comment for simple constant.
`Comment about block of constants`, // No comment for constant block.
`Comment about internal function`, // No comment for internal function.
`MultiLine(String|Method|Field)`, // No data from multi line portions.
},
},
// Package dump -u -all
{
"full package",
[]string{"-u", "-all", p},
[]string{
`package pkg .*import`,
`Package comment`,
`CONSTANTS`,
`Comment before ConstOne`,
`ConstOne += 1`,
`ConstTwo += 2 // Comment on line with ConstTwo`,
`constThree = 3 // Comment on line with constThree`,
`ConstFive`,
`const internalConstant += 2`,
`Comment about internal constant`,
`VARIABLES`,
`Comment before VarOne`,
`VarOne += 1`,
`Comment about block of variables`,
`varFour += 4`,
`VarFive += 5`,
`varSix += 6`,
`var ExportedVariable = 1`,
`var LongLine = newLongLine\(`,
`var MultiLineVar = map\[struct {`,
`var internalVariable = 2`,
`Comment about internal variable`,
`FUNCTIONS`,
`func ExportedFunc\(a int\) bool`,
`Comment about exported function`,
`func MultiLineFunc\(x interface`,
`func internalFunc\(a int\) bool`,
`Comment about internal function`,
`func newLongLine\(ss .*string\)`,
`TYPES`,
`type ExportedType struct`,
`type T1 = T2`,
`type T2 int`,
`type unexportedType int`,
`Comment about unexported type`,
`ConstGroup1 unexportedType = iota`,
`ConstGroup2`,
`ConstGroup3`,
`ExportedTypedConstant_unexported unexportedType = iota`,
`Constants tied to unexportedType`,
`const unexportedTypedConstant unexportedType = 1`,
`func ReturnUnexported\(\) unexportedType`,
`func \(unexportedType\) ExportedMethod\(\) bool`,
`func \(unexportedType\) unexportedMethod\(\) bool`,
},
nil,
},
// Single constant.
{
"single constant",
[]string{p, `ExportedConstant`},
[]string{
`Comment about exported constant`, // Include comment.
`const ExportedConstant = 1`,
},
nil,
},
// Single constant -u.
{
"single constant with -u",
[]string{`-u`, p, `internalConstant`},
[]string{
`Comment about internal constant`, // Include comment.
`const internalConstant = 2`,
},
nil,
},
// Block of constants.
{
"block of constants",
[]string{p, `ConstTwo`},
[]string{
`Comment before ConstOne.\n.*ConstOne = 1`, // First...
`ConstTwo = 2.*Comment on line with ConstTwo`, // And second show up.
`Comment about block of constants`, // Comment does too.
},
[]string{
`constThree`, // No unexported constant.
},
},
// Block of constants -u.
{
"block of constants with -u",
[]string{"-u", p, `constThree`},
[]string{
`constThree = 3.*Comment on line with constThree`,
},
nil,
},
// Block of constants -src.
{
"block of constants with -src",
[]string{"-src", p, `ConstTwo`},
[]string{
`Comment about block of constants`, // Top comment.
`ConstOne.*=.*1`, // Each constant seen.
`ConstTwo.*=.*2.*Comment on line with ConstTwo`,
`constThree`, // Even unexported constants.
},
nil,
},
// Block of constants with carryover type from unexported field.
{
"block of constants with carryover type",
[]string{p, `ConstLeft2`},
[]string{
`ConstLeft2, constRight2 uint64`,
`constLeft3, ConstRight3`,
`ConstLeft4, ConstRight4`,
},
nil,
},
// Block of constants -u with carryover type from unexported field.
{
"block of constants with carryover type",
[]string{"-u", p, `ConstLeft2`},
[]string{
`_, _ uint64 = 2 \* iota, 1 << iota`,
`constLeft1, constRight1`,
`ConstLeft2, constRight2`,
`constLeft3, ConstRight3`,
`ConstLeft4, ConstRight4`,
},
nil,
},
// Single variable.
{
"single variable",
[]string{p, `ExportedVariable`},
[]string{
`ExportedVariable`, // Include comment.
`var ExportedVariable = 1`,
},
nil,
},
// Single variable -u.
{
"single variable with -u",
[]string{`-u`, p, `internalVariable`},
[]string{
`Comment about internal variable`, // Include comment.
`var internalVariable = 2`,
},
nil,
},
// Block of variables.
{
"block of variables",
[]string{p, `VarTwo`},
[]string{
`Comment before VarOne.\n.*VarOne = 1`, // First...
`VarTwo = 2.*Comment on line with VarTwo`, // And second show up.
`Comment about block of variables`, // Comment does too.
},
[]string{
`varThree= 3`, // No unexported variable.
},
},
// Block of variables -u.
{
"block of variables with -u",
[]string{"-u", p, `varThree`},
[]string{
`varThree = 3.*Comment on line with varThree`,
},
nil,
},
// Function.
{
"function",
[]string{p, `ExportedFunc`},
[]string{
`Comment about exported function`, // Include comment.
`func ExportedFunc\(a int\) bool`,
},
nil,
},
// Function -u.
{
"function with -u",
[]string{"-u", p, `internalFunc`},
[]string{
`Comment about internal function`, // Include comment.
`func internalFunc\(a int\) bool`,
},
nil,
},
// Function with -src.
{
"function with -src",
[]string{"-src", p, `ExportedFunc`},
[]string{
`Comment about exported function`, // Include comment.
`func ExportedFunc\(a int\) bool`,
`return true != false`, // Include body.
},
nil,
},
// Type.
{
"type",
[]string{p, `ExportedType`},
[]string{
`Comment about exported type`, // Include comment.
`type ExportedType struct`, // Type definition.
`Comment before exported field.*\n.*ExportedField +int` +
`.*Comment on line with exported field`,
`ExportedEmbeddedType.*Comment on line with exported embedded field`,
`Has unexported fields`,
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`const ExportedTypedConstant ExportedType = iota`, // Must include associated constant.
`func ExportedTypeConstructor\(\) \*ExportedType`, // Must include constructor.
`io.Reader.*Comment on line with embedded Reader`,
},
[]string{
`unexportedField`, // No unexported field.
`int.*embedded`, // No unexported embedded field.
`Comment about exported method`, // No comment about exported method.
`unexportedMethod`, // No unexported method.
`unexportedTypedConstant`, // No unexported constant.
`error`, // No embedded error.
},
},
// Type with -src. Will see unexported fields.
{
"type",
[]string{"-src", p, `ExportedType`},
[]string{
`Comment about exported type`, // Include comment.
`type ExportedType struct`, // Type definition.
`Comment before exported field`,
`ExportedField.*Comment on line with exported field`,
`ExportedEmbeddedType.*Comment on line with exported embedded field`,
`unexportedType.*Comment on line with unexported embedded field`,
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`const ExportedTypedConstant ExportedType = iota`, // Must include associated constant.
`func ExportedTypeConstructor\(\) \*ExportedType`, // Must include constructor.
`io.Reader.*Comment on line with embedded Reader`,
},
[]string{
`Comment about exported method`, // No comment about exported method.
`unexportedMethod`, // No unexported method.
`unexportedTypedConstant`, // No unexported constant.
},
},
// Type -all.
{
"type",
[]string{"-all", p, `ExportedType`},
[]string{
`type ExportedType struct {`, // Type definition as source.
`Comment about exported type`, // Include comment afterwards.
`const ConstGroup4 ExportedType = ExportedType\{\}`, // Related constants.
`ExportedTypedConstant ExportedType = iota`,
`Constants tied to ExportedType`,
`func ExportedTypeConstructor\(\) \*ExportedType`,
`Comment about constructor for exported type.`,
`func ReturnExported\(\) ExportedType`,
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`Comment about exported method.`,
`func \(ExportedType\) Uncommented\(a int\) bool\n\n`, // Ensure line gap after method with no comment
},
[]string{
`unexportedType`,
},
},
// Type T1 dump (alias).
{
"type T1",
[]string{p + ".T1"},
[]string{
`type T1 = T2`,
},
[]string{
`type T1 T2`,
`type ExportedType`,
},
},
// Type -u with unexported fields.
{
"type with unexported fields and -u",
[]string{"-u", p, `ExportedType`},
[]string{
`Comment about exported type`, // Include comment.
`type ExportedType struct`, // Type definition.
`Comment before exported field.*\n.*ExportedField +int`,
`unexportedField.*int.*Comment on line with unexported field`,
`ExportedEmbeddedType.*Comment on line with exported embedded field`,
`\*ExportedEmbeddedType.*Comment on line with exported embedded \*field`,
`\*qualified.ExportedEmbeddedType.*Comment on line with exported embedded \*selector.field`,
`unexportedType.*Comment on line with unexported embedded field`,
`\*unexportedType.*Comment on line with unexported embedded \*field`,
`io.Reader.*Comment on line with embedded Reader`,
`error.*Comment on line with embedded error`,
`func \(ExportedType\) unexportedMethod\(a int\) bool`,
`unexportedTypedConstant`,
},
[]string{
`Has unexported fields`,
},
},
// Unexported type with -u.
{
"unexported type with -u",
[]string{"-u", p, `unexportedType`},
[]string{
`Comment about unexported type`, // Include comment.
`type unexportedType int`, // Type definition.
`func \(unexportedType\) ExportedMethod\(\) bool`,
`func \(unexportedType\) unexportedMethod\(\) bool`,
`ExportedTypedConstant_unexported unexportedType = iota`,
`const unexportedTypedConstant unexportedType = 1`,
},
nil,
},
// Interface.
{
"interface type",
[]string{p, `ExportedInterface`},
[]string{
`Comment about exported interface`, // Include comment.
`type ExportedInterface interface`, // Interface definition.
`Comment before exported method.*\n.*ExportedMethod\(\)` +
`.*Comment on line with exported method`,
`io.Reader.*Comment on line with embedded Reader`,
`error.*Comment on line with embedded error`,
`Has unexported methods`,
},
[]string{
`unexportedField`, // No unexported field.
`Comment about exported method`, // No comment about exported method.
`unexportedMethod`, // No unexported method.
`unexportedTypedConstant`, // No unexported constant.
},
},
// Interface -u with unexported methods.
{
"interface type with unexported methods and -u",
[]string{"-u", p, `ExportedInterface`},
[]string{
`Comment about exported interface`, // Include comment.
`type ExportedInterface interface`, // Interface definition.
`Comment before exported method.*\n.*ExportedMethod\(\)` +
`.*Comment on line with exported method`,
`unexportedMethod\(\).*Comment on line with unexported method`,
`io.Reader.*Comment on line with embedded Reader`,
`error.*Comment on line with embedded error`,
},
[]string{
`Has unexported methods`,
},
},
// Interface method.
{
"interface method",
[]string{p, `ExportedInterface.ExportedMethod`},
[]string{
`Comment before exported method.*\n.*ExportedMethod\(\)` +
`.*Comment on line with exported method`,
},
[]string{
`Comment about exported interface`,
},
},
// Interface method at package level.
{
"interface method at package level",
[]string{p, `ExportedMethod`},
[]string{
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`Comment about exported method`,
},
[]string{
`Comment before exported method.*\n.*ExportedMethod\(\)` +
`.*Comment on line with exported method`,
},
},
// Method.
{
"method",
[]string{p, `ExportedType.ExportedMethod`},
[]string{
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`Comment about exported method`,
},
nil,
},
// Method with -u.
{
"method with -u",
[]string{"-u", p, `ExportedType.unexportedMethod`},
[]string{
`func \(ExportedType\) unexportedMethod\(a int\) bool`,
`Comment about unexported method`,
},
nil,
},
// Method with -src.
{
"method with -src",
[]string{"-src", p, `ExportedType.ExportedMethod`},
[]string{
`func \(ExportedType\) ExportedMethod\(a int\) bool`,
`Comment about exported method`,
`return true != true`,
},
nil,
},
// Field.
{
"field",
[]string{p, `ExportedType.ExportedField`},
[]string{
`type ExportedType struct`,
`ExportedField int`,
`Comment before exported field`,
`Comment on line with exported field`,
`other fields elided`,
},
nil,
},
// Field with -u.
{
"method with -u",
[]string{"-u", p, `ExportedType.unexportedField`},
[]string{
`unexportedField int`,
`Comment on line with unexported field`,
},
nil,
},
// Field of struct with only one field.
{
"single-field struct",
[]string{p, `ExportedStructOneField.OnlyField`},
[]string{`the only field`},
[]string{`other fields elided`},
},
// Case matching off.
{
"case matching off",
[]string{p, `casematch`},
[]string{
`CaseMatch`,
`Casematch`,
},
nil,
},
// Case matching on.
{
"case matching on",
[]string{"-c", p, `Casematch`},
[]string{
`Casematch`,
},
[]string{
`CaseMatch`,
},
},
// No dups with -u. Issue 21797.
{
"case matching on, no dups",
[]string{"-u", p, `duplicate`},
[]string{
`Duplicate`,
`duplicate`,
},
[]string{
"\\)\n+const", // This will appear if the const decl appears twice.
},
},
{
"non-imported: pkg.sym",
[]string{"nested.Foo"},
[]string{"Foo struct"},
nil,
},
{
"non-imported: pkg only",
[]string{"nested"},
[]string{"Foo struct"},
nil,
},
{
"non-imported: pkg sym",
[]string{"nested", "Foo"},
[]string{"Foo struct"},
nil,
},
{
"formatted doc on function",
[]string{p, "ExportedFormattedDoc"},
[]string{
`func ExportedFormattedDoc\(a int\) bool`,
` Comment about exported function with formatting\.
Example
fmt\.Println\(FormattedDoc\(\)\)
Text after pre-formatted block\.`,
},
nil,
},
{
"formatted doc on type field",
[]string{p, "ExportedFormattedType.ExportedField"},
[]string{
`type ExportedFormattedType struct`,
` // Comment before exported field with formatting\.
//[ ]
// Example
//[ ]
// a\.ExportedField = 123
//[ ]
// Text after pre-formatted block\.`,
`ExportedField int`,
},
nil,
},
}
func TestDoc(t *testing.T) {
maybeSkip(t)
for _, test := range tests {
var b bytes.Buffer
var flagSet flag.FlagSet
err := do(&b, &flagSet, test.args)
if err != nil {
t.Fatalf("%s %v: %s\n", test.name, test.args, err)
}
output := b.Bytes()
failed := false
for j, yes := range test.yes {
re, err := regexp.Compile(yes)
if err != nil {
t.Fatalf("%s.%d: compiling %#q: %s", test.name, j, yes, err)
}
if !re.Match(output) {
t.Errorf("%s.%d: no match for %s %#q", test.name, j, test.args, yes)
failed = true
}
}
for j, no := range test.no {
re, err := regexp.Compile(no)
if err != nil {
t.Fatalf("%s.%d: compiling %#q: %s", test.name, j, no, err)
}
if re.Match(output) {
t.Errorf("%s.%d: incorrect match for %s %#q", test.name, j, test.args, no)
failed = true
}
}
if bytes.Count(output, []byte("TYPES\n")) > 1 {
t.Fatalf("%s: repeating headers", test.name)
}
if failed {
t.Logf("\n%s", output)
}
}
}
// Test the code to try multiple packages. Our test case is
// go doc rand.Float64
// This needs to find math/rand.Float64; however crypto/rand, which doesn't
// have the symbol, usually appears first in the directory listing.
func TestMultiplePackages(t *testing.T) {
if testing.Short() {
t.Skip("scanning file system takes too long")
}
maybeSkip(t)
var b bytes.Buffer // We don't care about the output.
// Make sure crypto/rand does not have the symbol.
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"crypto/rand.float64"})
if err == nil {
t.Errorf("expected error from crypto/rand.float64")
} else if !strings.Contains(err.Error(), "no symbol float64") {
t.Errorf("unexpected error %q from crypto/rand.float64", err)
}
}
// Make sure math/rand does have the symbol.
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"math/rand.float64"})
if err != nil {
t.Errorf("unexpected error %q from math/rand.float64", err)
}
}
// Try the shorthand.
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"rand.float64"})
if err != nil {
t.Errorf("unexpected error %q from rand.float64", err)
}
}
// Now try a missing symbol. We should see both packages in the error.
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"rand.doesnotexit"})
if err == nil {
t.Errorf("expected error from rand.doesnotexit")
} else {
errStr := err.Error()
if !strings.Contains(errStr, "no symbol") {
t.Errorf("error %q should contain 'no symbol", errStr)
}
if !strings.Contains(errStr, "crypto/rand") {
t.Errorf("error %q should contain crypto/rand", errStr)
}
if !strings.Contains(errStr, "math/rand") {
t.Errorf("error %q should contain math/rand", errStr)
}
}
}
}
// Test the code to look up packages when given two args. First test case is
// go doc binary BigEndian
// This needs to find encoding/binary.BigEndian, which means
// finding the package encoding/binary given only "binary".
// Second case is
// go doc rand Float64
// which again needs to find math/rand and not give up after crypto/rand,
// which has no such function.
func TestTwoArgLookup(t *testing.T) {
if testing.Short() {
t.Skip("scanning file system takes too long")
}
maybeSkip(t)
var b bytes.Buffer // We don't care about the output.
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"binary", "BigEndian"})
if err != nil {
t.Errorf("unexpected error %q from binary BigEndian", err)
}
}
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"rand", "Float64"})
if err != nil {
t.Errorf("unexpected error %q from rand Float64", err)
}
}
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"bytes", "Foo"})
if err == nil {
t.Errorf("expected error from bytes Foo")
} else if !strings.Contains(err.Error(), "no symbol Foo") {
t.Errorf("unexpected error %q from bytes Foo", err)
}
}
{
var flagSet flag.FlagSet
err := do(&b, &flagSet, []string{"nosuchpackage", "Foo"})
if err == nil {
// actually present in the user's filesystem
} else if !strings.Contains(err.Error(), "no such package") {
t.Errorf("unexpected error %q from nosuchpackage Foo", err)
}
}
}
// Test the code to look up packages when the first argument starts with "./".
// Our test case is in effect "cd src/text; doc ./template". This should get
// text/template but before Issue 23383 was fixed would give html/template.
func TestDotSlashLookup(t *testing.T) {
if testing.Short() {
t.Skip("scanning file system takes too long")
}
maybeSkip(t)
where, err := os.Getwd()
if err != nil {
t.Fatal(err)
}
defer func() {
if err := os.Chdir(where); err != nil {
t.Fatal(err)
}
}()
if err := os.Chdir(filepath.Join(buildCtx.GOROOT, "src", "text")); err != nil {
t.Fatal(err)
}
var b bytes.Buffer
var flagSet flag.FlagSet
err = do(&b, &flagSet, []string{"./template"})
if err != nil {
t.Errorf("unexpected error %q from ./template", err)
}
// The output should contain information about the text/template package.
const want = `package template // import "text/template"`
output := b.String()
if !strings.HasPrefix(output, want) {
t.Fatalf("wrong package: %.*q...", len(want), output)
}
}
type trimTest struct {
path string
prefix string
result string
ok bool
}
var trimTests = []trimTest{
{"", "", "", true},
{"/usr/gopher", "/usr/gopher", "/usr/gopher", true},
{"/usr/gopher/bar", "/usr/gopher", "bar", true},
{"/usr/gopherflakes", "/usr/gopher", "/usr/gopherflakes", false},
{"/usr/gopher/bar", "/usr/zot", "/usr/gopher/bar", false},
}
func TestTrim(t *testing.T) {
for _, test := range trimTests {
result, ok := trim(test.path, test.prefix)
if ok != test.ok {
t.Errorf("%s %s expected %t got %t", test.path, test.prefix, test.ok, ok)
continue
}
if result != test.result {
t.Errorf("%s %s expected %q got %q", test.path, test.prefix, test.result, result)
continue
}
}
}
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