vendor/cmd/go/internal/test/testflag.go - vgo - Git at Google

 // Copyright 2011 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 test

 import (
 	"flag"
 	"os"
 	"strings"

 	"cmd/go/internal/base"
 	"cmd/go/internal/cfg"
 	"cmd/go/internal/cmdflag"
 	"cmd/go/internal/str"
 	"cmd/go/internal/work"
 )

 const cmd = "test"

 // The flag handling part of go test is large and distracting.
 // We can't use the flag package because some of the flags from
 // our command line are for us, and some are for 6.out, and
 // some are for both.

 // testFlagDefn is the set of flags we process.
 var testFlagDefn = []*cmdflag.Defn{
 	// local.
 	{Name: "c", BoolVar: &testC},
 	{Name: "i", BoolVar: &cfg.BuildI},
 	{Name: "o"},
 	{Name: "cover", BoolVar: &testCover},
 	{Name: "covermode"},
 	{Name: "coverpkg"},
 	{Name: "exec"},
 	{Name: "json", BoolVar: &testJSON},
 	{Name: "vet"},

 	// Passed to 6.out, adding a "test." prefix to the name if necessary: -v becomes -test.v.
 	{Name: "bench", PassToTest: true},
 	{Name: "benchmem", BoolVar: new(bool), PassToTest: true},
 	{Name: "benchtime", PassToTest: true},
 	{Name: "blockprofile", PassToTest: true},
 	{Name: "blockprofilerate", PassToTest: true},
 	{Name: "count", PassToTest: true},
 	{Name: "coverprofile", PassToTest: true},
 	{Name: "cpu", PassToTest: true},
 	{Name: "cpuprofile", PassToTest: true},
 	{Name: "failfast", BoolVar: new(bool), PassToTest: true},
 	{Name: "list", PassToTest: true},
 	{Name: "memprofile", PassToTest: true},
 	{Name: "memprofilerate", PassToTest: true},
 	{Name: "mutexprofile", PassToTest: true},
 	{Name: "mutexprofilefraction", PassToTest: true},
 	{Name: "outputdir", PassToTest: true},
 	{Name: "parallel", PassToTest: true},
 	{Name: "run", PassToTest: true},
 	{Name: "short", BoolVar: new(bool), PassToTest: true},
 	{Name: "timeout", PassToTest: true},
 	{Name: "trace", PassToTest: true},
 	{Name: "v", BoolVar: &testV, PassToTest: true},
 }

 // add build flags to testFlagDefn
 func init() {
 	var cmd base.Command
 	work.AddBuildFlags(&cmd)
 	cmd.Flag.VisitAll(func(f *flag.Flag) {
 		if f.Name == "v" {
 			// test overrides the build -v flag
 			return
 		}
 		testFlagDefn = append(testFlagDefn, &cmdflag.Defn{
 			Name:  f.Name,
 			Value: f.Value,
 		})
 	})
 }

 // testFlags processes the command line, grabbing -x and -c, rewriting known flags
 // to have "test" before them, and reading the command line for the 6.out.
 // Unfortunately for us, we need to do our own flag processing because go test
 // grabs some flags but otherwise its command line is just a holding place for
 // pkg.test's arguments.
 // We allow known flags both before and after the package name list,
 // to allow both
 //	go test fmt -custom-flag-for-fmt-test
 //	go test -x math
 func testFlags(args []string) (packageNames, passToTest []string) {
 	inPkg := false
 	var explicitArgs []string
 	for i := 0; i < len(args); i++ {
 		if !strings.HasPrefix(args[i], "-") {
 			if !inPkg && packageNames == nil {
 				// First package name we've seen.
 				inPkg = true
 			}
 			if inPkg {
 				packageNames = append(packageNames, args[i])
 				continue
 			}
 		}

 		if inPkg {
 			// Found an argument beginning with "-"; end of package list.
 			inPkg = false
 		}

 		f, value, extraWord := cmdflag.Parse(cmd, testFlagDefn, args, i)
 		if f == nil {
 			// This is a flag we do not know; we must assume
 			// that any args we see after this might be flag
 			// arguments, not package names.
 			inPkg = false
 			if packageNames == nil {
 				// make non-nil: we have seen the empty package list
 				packageNames = []string{}
 			}
 			if args[i] == "-args" || args[i] == "--args" {
 				// -args or --args signals that everything that follows
 				// should be passed to the test.
 				explicitArgs = args[i+1:]
 				break
 			}
 			passToTest = append(passToTest, args[i])
 			continue
 		}
 		if f.Value != nil {
 			if err := f.Value.Set(value); err != nil {
 				base.Fatalf("invalid flag argument for -%s: %v", f.Name, err)
 			}
 		} else {
 			// Test-only flags.
 			// Arguably should be handled by f.Value, but aren't.
 			switch f.Name {
 			// bool flags.
 			case "c", "i", "v", "cover", "json":
 				cmdflag.SetBool(cmd, f.BoolVar, value)
 				if f.Name == "json" && testJSON {
 					passToTest = append(passToTest, "-test.v=true")
 				}
 			case "o":
 				testO = value
 				testNeedBinary = true
 			case "exec":
 				xcmd, err := str.SplitQuotedFields(value)
 				if err != nil {
 					base.Fatalf("invalid flag argument for -%s: %v", f.Name, err)
 				}
 				work.ExecCmd = xcmd
 			case "bench":
 				// record that we saw the flag; don't care about the value
 				testBench = true
 			case "list":
 				testList = true
 			case "timeout":
 				testTimeout = value
 			case "blockprofile", "cpuprofile", "memprofile", "mutexprofile":
 				testProfile = "-" + f.Name
 				testNeedBinary = true
 			case "trace":
 				testProfile = "-trace"
 			case "coverpkg":
 				testCover = true
 				if value == "" {
 					testCoverPaths = nil
 				} else {
 					testCoverPaths = strings.Split(value, ",")
 				}
 			case "coverprofile":
 				testCover = true
 				testCoverProfile = value
 			case "covermode":
 				switch value {
 				case "set", "count", "atomic":
 					testCoverMode = value
 				default:
 					base.Fatalf("invalid flag argument for -covermode: %q", value)
 				}
 				testCover = true
 			case "outputdir":
 				testOutputDir = value
 			case "vet":
 				testVetList = value
 			}
 		}
 		if extraWord {
 			i++
 		}
 		if f.PassToTest {
 			passToTest = append(passToTest, "-test."+f.Name+"="+value)
 		}
 	}

 	if testCoverMode == "" {
 		testCoverMode = "set"
 		if cfg.BuildRace {
 			// Default coverage mode is atomic when -race is set.
 			testCoverMode = "atomic"
 		}
 	}

 	if testVetList != "" && testVetList != "off" {
 		if strings.Contains(testVetList, "=") {
 			base.Fatalf("-vet argument cannot contain equal signs")
 		}
 		if strings.Contains(testVetList, " ") {
 			base.Fatalf("-vet argument is comma-separated list, cannot contain spaces")
 		}
 		list := strings.Split(testVetList, ",")
 		for i, arg := range list {
 			list[i] = "-" + arg
 		}
 		testVetFlags = list
 	}

 	if cfg.BuildRace && testCoverMode != "atomic" {
 		base.Fatalf(`-covermode must be "atomic", not %q, when -race is enabled`, testCoverMode)
 	}

 	// Tell the test what directory we're running in, so it can write the profiles there.
 	if testProfile != "" && testOutputDir == "" {
 		dir, err := os.Getwd()
 		if err != nil {
 			base.Fatalf("error from os.Getwd: %s", err)
 		}
 		passToTest = append(passToTest, "-test.outputdir", dir)
 	}

 	passToTest = append(passToTest, explicitArgs...)
 	return
 }
	// Copyright 2011 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 test

	import (
	"flag"
	"os"
	"strings"

	"cmd/go/internal/base"
	"cmd/go/internal/cfg"
	"cmd/go/internal/cmdflag"
	"cmd/go/internal/str"
	"cmd/go/internal/work"
	)

	const cmd = "test"

	// The flag handling part of go test is large and distracting.
	// We can't use the flag package because some of the flags from
	// our command line are for us, and some are for 6.out, and
	// some are for both.

	// testFlagDefn is the set of flags we process.
	var testFlagDefn = []*cmdflag.Defn{
	// local.
	{Name: "c", BoolVar: &testC},
	{Name: "i", BoolVar: &cfg.BuildI},
	{Name: "o"},
	{Name: "cover", BoolVar: &testCover},
	{Name: "covermode"},
	{Name: "coverpkg"},
	{Name: "exec"},
	{Name: "json", BoolVar: &testJSON},
	{Name: "vet"},

	// Passed to 6.out, adding a "test." prefix to the name if necessary: -v becomes -test.v.
	{Name: "bench", PassToTest: true},
	{Name: "benchmem", BoolVar: new(bool), PassToTest: true},
	{Name: "benchtime", PassToTest: true},
	{Name: "blockprofile", PassToTest: true},
	{Name: "blockprofilerate", PassToTest: true},
	{Name: "count", PassToTest: true},
	{Name: "coverprofile", PassToTest: true},
	{Name: "cpu", PassToTest: true},
	{Name: "cpuprofile", PassToTest: true},
	{Name: "failfast", BoolVar: new(bool), PassToTest: true},
	{Name: "list", PassToTest: true},
	{Name: "memprofile", PassToTest: true},
	{Name: "memprofilerate", PassToTest: true},
	{Name: "mutexprofile", PassToTest: true},
	{Name: "mutexprofilefraction", PassToTest: true},
	{Name: "outputdir", PassToTest: true},
	{Name: "parallel", PassToTest: true},
	{Name: "run", PassToTest: true},
	{Name: "short", BoolVar: new(bool), PassToTest: true},
	{Name: "timeout", PassToTest: true},
	{Name: "trace", PassToTest: true},
	{Name: "v", BoolVar: &testV, PassToTest: true},
	}

	// add build flags to testFlagDefn
	func init() {
	var cmd base.Command
	work.AddBuildFlags(&cmd)
	cmd.Flag.VisitAll(func(f *flag.Flag) {
	if f.Name == "v" {
	// test overrides the build -v flag
	return
	}
	testFlagDefn = append(testFlagDefn, &cmdflag.Defn{
	Name: f.Name,
	Value: f.Value,
	})
	})
	}

	// testFlags processes the command line, grabbing -x and -c, rewriting known flags
	// to have "test" before them, and reading the command line for the 6.out.
	// Unfortunately for us, we need to do our own flag processing because go test
	// grabs some flags but otherwise its command line is just a holding place for
	// pkg.test's arguments.
	// We allow known flags both before and after the package name list,
	// to allow both
	// go test fmt -custom-flag-for-fmt-test
	// go test -x math
	func testFlags(args []string) (packageNames, passToTest []string) {
	inPkg := false
	var explicitArgs []string
	for i := 0; i < len(args); i++ {
	if !strings.HasPrefix(args[i], "-") {
	if !inPkg && packageNames == nil {
	// First package name we've seen.
	inPkg = true
	}
	if inPkg {
	packageNames = append(packageNames, args[i])
	continue
	}
	}

	if inPkg {
	// Found an argument beginning with "-"; end of package list.
	inPkg = false
	}

	f, value, extraWord := cmdflag.Parse(cmd, testFlagDefn, args, i)
	if f == nil {
	// This is a flag we do not know; we must assume
	// that any args we see after this might be flag
	// arguments, not package names.
	inPkg = false
	if packageNames == nil {
	// make non-nil: we have seen the empty package list
	packageNames = []string{}
	}
	if args[i] == "-args" \|\| args[i] == "--args" {
	// -args or --args signals that everything that follows
	// should be passed to the test.
	explicitArgs = args[i+1:]
	break
	}
	passToTest = append(passToTest, args[i])
	continue
	}
	if f.Value != nil {
	if err := f.Value.Set(value); err != nil {
	base.Fatalf("invalid flag argument for -%s: %v", f.Name, err)
	}
	} else {
	// Test-only flags.
	// Arguably should be handled by f.Value, but aren't.
	switch f.Name {
	// bool flags.
	case "c", "i", "v", "cover", "json":
	cmdflag.SetBool(cmd, f.BoolVar, value)
	if f.Name == "json" && testJSON {
	passToTest = append(passToTest, "-test.v=true")
	}
	case "o":
	testO = value
	testNeedBinary = true
	case "exec":
	xcmd, err := str.SplitQuotedFields(value)
	if err != nil {
	base.Fatalf("invalid flag argument for -%s: %v", f.Name, err)
	}
	work.ExecCmd = xcmd
	case "bench":
	// record that we saw the flag; don't care about the value
	testBench = true
	case "list":
	testList = true
	case "timeout":
	testTimeout = value
	case "blockprofile", "cpuprofile", "memprofile", "mutexprofile":
	testProfile = "-" + f.Name
	testNeedBinary = true
	case "trace":
	testProfile = "-trace"
	case "coverpkg":
	testCover = true
	if value == "" {
	testCoverPaths = nil
	} else {
	testCoverPaths = strings.Split(value, ",")
	}
	case "coverprofile":
	testCover = true
	testCoverProfile = value
	case "covermode":
	switch value {
	case "set", "count", "atomic":
	testCoverMode = value
	default:
	base.Fatalf("invalid flag argument for -covermode: %q", value)
	}
	testCover = true
	case "outputdir":
	testOutputDir = value
	case "vet":
	testVetList = value
	}
	}
	if extraWord {
	i++
	}
	if f.PassToTest {
	passToTest = append(passToTest, "-test."+f.Name+"="+value)
	}
	}

	if testCoverMode == "" {
	testCoverMode = "set"
	if cfg.BuildRace {
	// Default coverage mode is atomic when -race is set.
	testCoverMode = "atomic"
	}
	}

	if testVetList != "" && testVetList != "off" {
	if strings.Contains(testVetList, "=") {
	base.Fatalf("-vet argument cannot contain equal signs")
	}
	if strings.Contains(testVetList, " ") {
	base.Fatalf("-vet argument is comma-separated list, cannot contain spaces")
	}
	list := strings.Split(testVetList, ",")
	for i, arg := range list {
	list[i] = "-" + arg
	}
	testVetFlags = list
	}

	if cfg.BuildRace && testCoverMode != "atomic" {
	base.Fatalf(`-covermode must be "atomic", not %q, when -race is enabled`, testCoverMode)
	}

	// Tell the test what directory we're running in, so it can write the profiles there.
	if testProfile != "" && testOutputDir == "" {
	dir, err := os.Getwd()
	if err != nil {
	base.Fatalf("error from os.Getwd: %s", err)
	}
	passToTest = append(passToTest, "-test.outputdir", dir)
	}

	passToTest = append(passToTest, explicitArgs...)
	return
	}