exec.go - platform/build/kati - Git at Google

 package main

 import (
 	"bytes"
 	"fmt"
 	"io"
 	"os"
 	"path/filepath"
 	"strings"
 	"sync"
 )

 type Executor struct {
 	rules         map[string]*Rule
 	implicitRules []*Rule
 	suffixRules   map[string][]*Rule
 	firstRule     *Rule
 	shell         string
 	vars          Vars
 	varsLock      sync.Mutex
 	// target -> Job, nil means the target is currently being processed.
 	done map[string]*Job

 	wm *WorkerManager

 	currentOutput string
 	currentInputs []string
 	currentStem   string

 	trace          []string
 	buildCnt       int
 	alreadyDoneCnt int
 	noRuleCnt      int
 	upToDateCnt    int
 	runCommandCnt  int
 }

 type AutoVar struct{ ex *Executor }

 func (v AutoVar) Flavor() string  { return "undefined" }
 func (v AutoVar) Origin() string  { return "automatic" }
 func (v AutoVar) IsDefined() bool { panic("not implemented") }
 func (v AutoVar) String() string  { panic("not implemented") }
 func (v AutoVar) Append(*Evaluator, string) Var {
 	panic("must not be called")
 }
 func (v AutoVar) AppendVar(*Evaluator, Var) Var {
 	panic("must not be called")
 }
 func (v AutoVar) Serialize() SerializableVar {
 	panic(fmt.Sprintf("cannot serialize auto var: %q", v))
 }

 type AutoAtVar struct{ AutoVar }

 func (v AutoAtVar) Eval(w io.Writer, ev *Evaluator) {
 	fmt.Fprint(w, v.ex.currentOutput)
 }

 type AutoLessVar struct{ AutoVar }

 func (v AutoLessVar) Eval(w io.Writer, ev *Evaluator) {
 	if len(v.ex.currentInputs) > 0 {
 		fmt.Fprint(w, v.ex.currentInputs[0])
 	}
 }

 type AutoHatVar struct{ AutoVar }

 func (v AutoHatVar) Eval(w io.Writer, ev *Evaluator) {
 	var uniqueInputs []string
 	seen := make(map[string]bool)
 	for _, input := range v.ex.currentInputs {
 		if !seen[input] {
 			seen[input] = true
 			uniqueInputs = append(uniqueInputs, input)
 		}
 	}
 	fmt.Fprint(w, strings.Join(uniqueInputs, " "))
 }

 type AutoPlusVar struct{ AutoVar }

 func (v AutoPlusVar) Eval(w io.Writer, ev *Evaluator) {
 	fmt.Fprint(w, strings.Join(v.ex.currentInputs, " "))
 }

 type AutoStarVar struct{ AutoVar }

 func (v AutoStarVar) Eval(w io.Writer, ev *Evaluator) {
 	// TODO: Use currentStem. See auto_stem_var.mk
 	fmt.Fprint(w, stripExt(v.ex.currentOutput))
 }

 type AutoSuffixDVar struct {
 	AutoVar
 	v Var
 }

 func (v AutoSuffixDVar) Eval(w io.Writer, ev *Evaluator) {
 	var buf bytes.Buffer
 	v.v.Eval(&buf, ev)
 	for i, tok := range splitSpaces(buf.String()) {
 		if i > 0 {
 			w.Write([]byte{' '})
 		}
 		fmt.Fprint(w, filepath.Dir(tok))
 	}
 }

 type AutoSuffixFVar struct {
 	AutoVar
 	v Var
 }

 func (v AutoSuffixFVar) Eval(w io.Writer, ev *Evaluator) {
 	var buf bytes.Buffer
 	v.v.Eval(&buf, ev)
 	for i, tok := range splitSpaces(buf.String()) {
 		if i > 0 {
 			w.Write([]byte{' '})
 		}
 		fmt.Fprint(w, filepath.Base(tok))
 	}
 }

 // TODO(ukai): use time.Time?
 func getTimestamp(filename string) int64 {
 	st, err := os.Stat(filename)
 	if err != nil {
 		return -2
 	}
 	return st.ModTime().Unix()
 }

 func (ex *Executor) makeJobs(n *DepNode, neededBy *Job) error {
 	output := n.Output
 	if neededBy != nil {
 		Log("MakeJob: %s for %s", output, neededBy.n.Output)
 	}
 	ex.buildCnt++
 	if ex.buildCnt%100 == 0 {
 		ex.reportStats()
 	}

 	j, present := ex.done[output]

 	if present {
 		if j == nil {
 			if !n.IsPhony {
 				fmt.Printf("Circular %s <- %s dependency dropped.\n", neededBy.n.Output, n.Output)
 			}
 			if neededBy != nil {
 				neededBy.numDeps--
 			}
 		} else {
 			Log("%s already done: %d", j.n.Output, j.outputTs)
 			if neededBy != nil {
 				ex.wm.ReportNewDep(j, neededBy)
 			}
 		}
 		return nil
 	}

 	j = &Job{
 		n:       n,
 		ex:      ex,
 		numDeps: len(n.Deps),
 		depsTs:  int64(-1),
 	}
 	if neededBy != nil {
 		j.parents = append(j.parents, neededBy)
 	}

 	ex.done[output] = nil
 	// We iterate n.Deps twice. In the first run, we may modify
 	// numDeps. There will be a race if we do so after the first
 	// ex.makeJobs(d, j).
 	var deps []*DepNode
 	for _, d := range n.Deps {
 		if d.IsOrderOnly && exists(d.Output) {
 			j.numDeps--
 			continue
 		}
 		deps = append(deps, d)
 	}

 	for _, d := range deps {
 		ex.trace = append(ex.trace, d.Output)
 		err := ex.makeJobs(d, j)
 		ex.trace = ex.trace[0 : len(ex.trace)-1]
 		if err != nil {
 			return err
 		}
 	}

 	ex.done[output] = j
 	ex.wm.PostJob(j)

 	return nil
 }

 func (ex *Executor) reportStats() {
 	if !katiLogFlag && !katiStatsFlag {
 		return
 	}

 	LogStats("build=%d alreadyDone=%d noRule=%d, upToDate=%d runCommand=%d",
 		ex.buildCnt, ex.alreadyDoneCnt, ex.noRuleCnt, ex.upToDateCnt, ex.runCommandCnt)
 	if len(ex.trace) > 1 {
 		LogStats("trace=%q", ex.trace)
 	}
 }

 func NewExecutor(vars Vars) *Executor {
 	ex := &Executor{
 		rules:       make(map[string]*Rule),
 		suffixRules: make(map[string][]*Rule),
 		done:        make(map[string]*Job),
 		vars:        vars,
 		wm:          NewWorkerManager(),
 	}
 	// TODO: We should move this to somewhere around evalCmd so that
 	// we can handle SHELL in target specific variables.
 	shellVar := ex.vars.Lookup("SHELL")
 	ex.shell = shellVar.String()
 	for k, v := range map[string]Var{
 		"@": AutoAtVar{AutoVar: AutoVar{ex: ex}},
 		"<": AutoLessVar{AutoVar: AutoVar{ex: ex}},
 		"^": AutoHatVar{AutoVar: AutoVar{ex: ex}},
 		"+": AutoPlusVar{AutoVar: AutoVar{ex: ex}},
 		"*": AutoStarVar{AutoVar: AutoVar{ex: ex}},
 	} {
 		ex.vars[k] = v
 		ex.vars[k+"D"] = AutoSuffixDVar{v: v}
 		ex.vars[k+"F"] = AutoSuffixFVar{v: v}
 	}
 	return ex
 }

 func (ex *Executor) Exec(roots []*DepNode) error {
 	for _, root := range roots {
 		ex.makeJobs(root, nil)
 	}
 	ex.wm.Wait()
 	return nil
 }
	package main

	import (
	"bytes"
	"fmt"
	"io"
	"os"
	"path/filepath"
	"strings"
	"sync"
	)

	type Executor struct {
	rules map[string]*Rule
	implicitRules []*Rule
	suffixRules map[string][]*Rule
	firstRule *Rule
	shell string
	vars Vars
	varsLock sync.Mutex
	// target -> Job, nil means the target is currently being processed.
	done map[string]*Job

	wm *WorkerManager

	currentOutput string
	currentInputs []string
	currentStem string

	trace []string
	buildCnt int
	alreadyDoneCnt int
	noRuleCnt int
	upToDateCnt int
	runCommandCnt int
	}

	type AutoVar struct{ ex *Executor }

	func (v AutoVar) Flavor() string { return "undefined" }
	func (v AutoVar) Origin() string { return "automatic" }
	func (v AutoVar) IsDefined() bool { panic("not implemented") }
	func (v AutoVar) String() string { panic("not implemented") }
	func (v AutoVar) Append(*Evaluator, string) Var {
	panic("must not be called")
	}
	func (v AutoVar) AppendVar(*Evaluator, Var) Var {
	panic("must not be called")
	}
	func (v AutoVar) Serialize() SerializableVar {
	panic(fmt.Sprintf("cannot serialize auto var: %q", v))
	}

	type AutoAtVar struct{ AutoVar }

	func (v AutoAtVar) Eval(w io.Writer, ev *Evaluator) {
	fmt.Fprint(w, v.ex.currentOutput)
	}

	type AutoLessVar struct{ AutoVar }

	func (v AutoLessVar) Eval(w io.Writer, ev *Evaluator) {
	if len(v.ex.currentInputs) > 0 {
	fmt.Fprint(w, v.ex.currentInputs[0])
	}
	}

	type AutoHatVar struct{ AutoVar }

	func (v AutoHatVar) Eval(w io.Writer, ev *Evaluator) {
	var uniqueInputs []string
	seen := make(map[string]bool)
	for _, input := range v.ex.currentInputs {
	if !seen[input] {
	seen[input] = true
	uniqueInputs = append(uniqueInputs, input)
	}
	}
	fmt.Fprint(w, strings.Join(uniqueInputs, " "))
	}

	type AutoPlusVar struct{ AutoVar }

	func (v AutoPlusVar) Eval(w io.Writer, ev *Evaluator) {
	fmt.Fprint(w, strings.Join(v.ex.currentInputs, " "))
	}

	type AutoStarVar struct{ AutoVar }

	func (v AutoStarVar) Eval(w io.Writer, ev *Evaluator) {
	// TODO: Use currentStem. See auto_stem_var.mk
	fmt.Fprint(w, stripExt(v.ex.currentOutput))
	}

	type AutoSuffixDVar struct {
	AutoVar
	v Var
	}

	func (v AutoSuffixDVar) Eval(w io.Writer, ev *Evaluator) {
	var buf bytes.Buffer
	v.v.Eval(&buf, ev)
	for i, tok := range splitSpaces(buf.String()) {
	if i > 0 {
	w.Write([]byte{' '})
	}
	fmt.Fprint(w, filepath.Dir(tok))
	}
	}

	type AutoSuffixFVar struct {
	AutoVar
	v Var
	}

	func (v AutoSuffixFVar) Eval(w io.Writer, ev *Evaluator) {
	var buf bytes.Buffer
	v.v.Eval(&buf, ev)
	for i, tok := range splitSpaces(buf.String()) {
	if i > 0 {
	w.Write([]byte{' '})
	}
	fmt.Fprint(w, filepath.Base(tok))
	}
	}

	// TODO(ukai): use time.Time?
	func getTimestamp(filename string) int64 {
	st, err := os.Stat(filename)
	if err != nil {
	return -2
	}
	return st.ModTime().Unix()
	}

	func (ex Executor) makeJobs(n DepNode, neededBy *Job) error {
	output := n.Output
	if neededBy != nil {
	Log("MakeJob: %s for %s", output, neededBy.n.Output)
	}
	ex.buildCnt++
	if ex.buildCnt%100 == 0 {
	ex.reportStats()
	}

	j, present := ex.done[output]

	if present {
	if j == nil {
	if !n.IsPhony {
	fmt.Printf("Circular %s <- %s dependency dropped.\n", neededBy.n.Output, n.Output)
	}
	if neededBy != nil {
	neededBy.numDeps--
	}
	} else {
	Log("%s already done: %d", j.n.Output, j.outputTs)
	if neededBy != nil {
	ex.wm.ReportNewDep(j, neededBy)
	}
	}
	return nil
	}

	j = &Job{
	n: n,
	ex: ex,
	numDeps: len(n.Deps),
	depsTs: int64(-1),
	}
	if neededBy != nil {
	j.parents = append(j.parents, neededBy)
	}

	ex.done[output] = nil
	// We iterate n.Deps twice. In the first run, we may modify
	// numDeps. There will be a race if we do so after the first
	// ex.makeJobs(d, j).
	var deps []*DepNode
	for _, d := range n.Deps {
	if d.IsOrderOnly && exists(d.Output) {
	j.numDeps--
	continue
	}
	deps = append(deps, d)
	}

	for _, d := range deps {
	ex.trace = append(ex.trace, d.Output)
	err := ex.makeJobs(d, j)
	ex.trace = ex.trace[0 : len(ex.trace)-1]
	if err != nil {
	return err
	}
	}

	ex.done[output] = j
	ex.wm.PostJob(j)

	return nil
	}

	func (ex *Executor) reportStats() {
	if !katiLogFlag && !katiStatsFlag {
	return
	}

	LogStats("build=%d alreadyDone=%d noRule=%d, upToDate=%d runCommand=%d",
	ex.buildCnt, ex.alreadyDoneCnt, ex.noRuleCnt, ex.upToDateCnt, ex.runCommandCnt)
	if len(ex.trace) > 1 {
	LogStats("trace=%q", ex.trace)
	}
	}

	func NewExecutor(vars Vars) *Executor {
	ex := &Executor{
	rules: make(map[string]*Rule),
	suffixRules: make(map[string][]*Rule),
	done: make(map[string]*Job),
	vars: vars,
	wm: NewWorkerManager(),
	}
	// TODO: We should move this to somewhere around evalCmd so that
	// we can handle SHELL in target specific variables.
	shellVar := ex.vars.Lookup("SHELL")
	ex.shell = shellVar.String()
	for k, v := range map[string]Var{
	"@": AutoAtVar{AutoVar: AutoVar{ex: ex}},
	"<": AutoLessVar{AutoVar: AutoVar{ex: ex}},
	"^": AutoHatVar{AutoVar: AutoVar{ex: ex}},
	"+": AutoPlusVar{AutoVar: AutoVar{ex: ex}},
	"*": AutoStarVar{AutoVar: AutoVar{ex: ex}},
	} {
	ex.vars[k] = v
	ex.vars[k+"D"] = AutoSuffixDVar{v: v}
	ex.vars[k+"F"] = AutoSuffixFVar{v: v}
	}
	return ex
	}

	func (ex Executor) Exec(roots []DepNode) error {
	for _, root := range roots {
	ex.makeJobs(root, nil)
	}
	ex.wm.Wait()
	return nil
	}