src/cmd/covdata/subtractintersect.go - go - Git at Google

 // Copyright 2022 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

 // This file contains functions and apis to support the "subtract" and
 // "intersect" subcommands of "go tool covdata".

 import (
 	"flag"
 	"fmt"
 	"internal/coverage"
 	"internal/coverage/decodecounter"
 	"internal/coverage/decodemeta"
 	"internal/coverage/pods"
 	"os"
 	"strings"
 )

 // makeSubtractIntersectOp creates a subtract or intersect operation.
 // 'mode' here must be either "subtract" or "intersect".
 func makeSubtractIntersectOp(mode string) covOperation {
 	outdirflag = flag.String("o", "", "Output directory to write")
 	s := &sstate{
 		mode:  mode,
 		mm:    newMetaMerge(),
 		inidx: -1,
 	}
 	return s
 }

 // sstate holds state needed to implement subtraction and intersection
 // operations on code coverage data files. This type provides methods
 // to implement the CovDataVisitor interface, and is designed to be
 // used in concert with the CovDataReader utility, which abstracts
 // away most of the grubby details of reading coverage data files.
 type sstate struct {
 	mm    *metaMerge
 	inidx int
 	mode  string
 	// Used only for intersection; keyed by pkg/fn ID, it keeps track of
 	// just the set of functions for which we have data in the current
 	// input directory.
 	imm map[pkfunc]struct{}
 }

 func (s *sstate) Usage(msg string) {
 	if len(msg) > 0 {
 		fmt.Fprintf(os.Stderr, "error: %s\n", msg)
 	}
 	fmt.Fprintf(os.Stderr, "usage: go tool covdata %s -i=dir1,dir2 -o=<dir>\n\n", s.mode)
 	flag.PrintDefaults()
 	fmt.Fprintf(os.Stderr, "\nExamples:\n\n")
 	op := "from"
 	if s.mode == intersectMode {
 		op = "with"
 	}
 	fmt.Fprintf(os.Stderr, "  go tool covdata %s -i=dir1,dir2 -o=outdir\n\n", s.mode)
 	fmt.Fprintf(os.Stderr, "  \t%ss dir2 %s dir1, writing result\n", s.mode, op)
 	fmt.Fprintf(os.Stderr, "  \tinto output dir outdir.\n")
 	os.Exit(2)
 }

 func (s *sstate) Setup() {
 	if *indirsflag == "" {
 		usage("select input directories with '-i' option")
 	}
 	indirs := strings.Split(*indirsflag, ",")
 	if s.mode == subtractMode && len(indirs) != 2 {
 		usage("supply exactly two input dirs for subtract operation")
 	}
 	if *outdirflag == "" {
 		usage("select output directory with '-o' option")
 	}
 }

 func (s *sstate) BeginPod(p pods.Pod) {
 	s.mm.beginPod()
 }

 func (s *sstate) EndPod(p pods.Pod) {
 	const pcombine = false
 	s.mm.endPod(pcombine)
 }

 func (s *sstate) EndCounters() {
 	if s.imm != nil {
 		s.pruneCounters()
 	}
 }

 // pruneCounters performs a function-level partial intersection using the
 // current POD counter data (s.mm.pod.pmm) and the intersected data from
 // PODs in previous dirs (s.imm).
 func (s *sstate) pruneCounters() {
 	pkeys := make([]pkfunc, 0, len(s.mm.pod.pmm))
 	for k := range s.mm.pod.pmm {
 		pkeys = append(pkeys, k)
 	}
 	// Remove anything from pmm not found in imm. We don't need to
 	// go the other way (removing things from imm not found in pmm)
 	// since we don't add anything to imm if there is no pmm entry.
 	for _, k := range pkeys {
 		if _, found := s.imm[k]; !found {
 			delete(s.mm.pod.pmm, k)
 		}
 	}
 	s.imm = nil
 }

 func (s *sstate) BeginCounterDataFile(cdf string, cdr *decodecounter.CounterDataReader, dirIdx int) {
 	dbgtrace(2, "visiting counter data file %s diridx %d", cdf, dirIdx)
 	if s.inidx != dirIdx {
 		if s.inidx > dirIdx {
 			// We're relying on having data files presented in
 			// the order they appear in the inputs (e.g. first all
 			// data files from input dir 0, then dir 1, etc).
 			panic("decreasing dir index, internal error")
 		}
 		if dirIdx == 0 {
 			// No need to keep track of the functions in the first
 			// directory, since that info will be replicated in
 			// s.mm.pod.pmm.
 			s.imm = nil
 		} else {
 			// We're now starting to visit the Nth directory, N != 0.
 			if s.mode == intersectMode {
 				if s.imm != nil {
 					s.pruneCounters()
 				}
 				s.imm = make(map[pkfunc]struct{})
 			}
 		}
 		s.inidx = dirIdx
 	}
 }

 func (s *sstate) EndCounterDataFile(cdf string, cdr *decodecounter.CounterDataReader, dirIdx int) {
 }

 func (s *sstate) VisitFuncCounterData(data decodecounter.FuncPayload) {
 	key := pkfunc{pk: data.PkgIdx, fcn: data.FuncIdx}

 	if *verbflag >= 5 {
 		fmt.Printf("ctr visit fid=%d pk=%d inidx=%d data.Counters=%+v\n", data.FuncIdx, data.PkgIdx, s.inidx, data.Counters)
 	}

 	// If we're processing counter data from the initial (first) input
 	// directory, then just install it into the counter data map
 	// as usual.
 	if s.inidx == 0 {
 		s.mm.visitFuncCounterData(data)
 		return
 	}

 	// If we're looking at counter data from a dir other than
 	// the first, then perform the intersect/subtract.
 	if val, ok := s.mm.pod.pmm[key]; ok {
 		if s.mode == subtractMode {
 			for i := 0; i < len(data.Counters); i++ {
 				if data.Counters[i] != 0 {
 					val.Counters[i] = 0
 				}
 			}
 		} else if s.mode == intersectMode {
 			s.imm[key] = struct{}{}
 			for i := 0; i < len(data.Counters); i++ {
 				if data.Counters[i] == 0 {
 					val.Counters[i] = 0
 				}
 			}
 		}
 	}
 }

 func (s *sstate) VisitMetaDataFile(mdf string, mfr *decodemeta.CoverageMetaFileReader) {
 	if s.mode == intersectMode {
 		s.imm = make(map[pkfunc]struct{})
 	}
 	s.mm.visitMetaDataFile(mdf, mfr)
 }

 func (s *sstate) BeginPackage(pd *decodemeta.CoverageMetaDataDecoder, pkgIdx uint32) {
 	s.mm.visitPackage(pd, pkgIdx, false)
 }

 func (s *sstate) EndPackage(pd *decodemeta.CoverageMetaDataDecoder, pkgIdx uint32) {
 }

 func (s *sstate) VisitFunc(pkgIdx uint32, fnIdx uint32, fd *coverage.FuncDesc) {
 	s.mm.visitFunc(pkgIdx, fnIdx, fd, s.mode, false)
 }

 func (s *sstate) Finish() {
 }
	// Copyright 2022 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

	// This file contains functions and apis to support the "subtract" and
	// "intersect" subcommands of "go tool covdata".

	import (
	"flag"
	"fmt"
	"internal/coverage"
	"internal/coverage/decodecounter"
	"internal/coverage/decodemeta"
	"internal/coverage/pods"
	"os"
	"strings"
	)

	// makeSubtractIntersectOp creates a subtract or intersect operation.
	// 'mode' here must be either "subtract" or "intersect".
	func makeSubtractIntersectOp(mode string) covOperation {
	outdirflag = flag.String("o", "", "Output directory to write")
	s := &sstate{
	mode: mode,
	mm: newMetaMerge(),
	inidx: -1,
	}
	return s
	}

	// sstate holds state needed to implement subtraction and intersection
	// operations on code coverage data files. This type provides methods
	// to implement the CovDataVisitor interface, and is designed to be
	// used in concert with the CovDataReader utility, which abstracts
	// away most of the grubby details of reading coverage data files.
	type sstate struct {
	mm *metaMerge
	inidx int
	mode string
	// Used only for intersection; keyed by pkg/fn ID, it keeps track of
	// just the set of functions for which we have data in the current
	// input directory.
	imm map[pkfunc]struct{}
	}

	func (s *sstate) Usage(msg string) {
	if len(msg) > 0 {
	fmt.Fprintf(os.Stderr, "error: %s\n", msg)
	}
	fmt.Fprintf(os.Stderr, "usage: go tool covdata %s -i=dir1,dir2 -o=<dir>\n\n", s.mode)
	flag.PrintDefaults()
	fmt.Fprintf(os.Stderr, "\nExamples:\n\n")
	op := "from"
	if s.mode == intersectMode {
	op = "with"
	}
	fmt.Fprintf(os.Stderr, " go tool covdata %s -i=dir1,dir2 -o=outdir\n\n", s.mode)
	fmt.Fprintf(os.Stderr, " \t%ss dir2 %s dir1, writing result\n", s.mode, op)
	fmt.Fprintf(os.Stderr, " \tinto output dir outdir.\n")
	os.Exit(2)
	}

	func (s *sstate) Setup() {
	if *indirsflag == "" {
	usage("select input directories with '-i' option")
	}
	indirs := strings.Split(*indirsflag, ",")
	if s.mode == subtractMode && len(indirs) != 2 {
	usage("supply exactly two input dirs for subtract operation")
	}
	if *outdirflag == "" {
	usage("select output directory with '-o' option")
	}
	}

	func (s *sstate) BeginPod(p pods.Pod) {
	s.mm.beginPod()
	}

	func (s *sstate) EndPod(p pods.Pod) {
	const pcombine = false
	s.mm.endPod(pcombine)
	}

	func (s *sstate) EndCounters() {
	if s.imm != nil {
	s.pruneCounters()
	}
	}

	// pruneCounters performs a function-level partial intersection using the
	// current POD counter data (s.mm.pod.pmm) and the intersected data from
	// PODs in previous dirs (s.imm).
	func (s *sstate) pruneCounters() {
	pkeys := make([]pkfunc, 0, len(s.mm.pod.pmm))
	for k := range s.mm.pod.pmm {
	pkeys = append(pkeys, k)
	}
	// Remove anything from pmm not found in imm. We don't need to
	// go the other way (removing things from imm not found in pmm)
	// since we don't add anything to imm if there is no pmm entry.
	for _, k := range pkeys {
	if _, found := s.imm[k]; !found {
	delete(s.mm.pod.pmm, k)
	}
	}
	s.imm = nil
	}

	func (s sstate) BeginCounterDataFile(cdf string, cdr decodecounter.CounterDataReader, dirIdx int) {
	dbgtrace(2, "visiting counter data file %s diridx %d", cdf, dirIdx)
	if s.inidx != dirIdx {
	if s.inidx > dirIdx {
	// We're relying on having data files presented in
	// the order they appear in the inputs (e.g. first all
	// data files from input dir 0, then dir 1, etc).
	panic("decreasing dir index, internal error")
	}
	if dirIdx == 0 {
	// No need to keep track of the functions in the first
	// directory, since that info will be replicated in
	// s.mm.pod.pmm.
	s.imm = nil
	} else {
	// We're now starting to visit the Nth directory, N != 0.
	if s.mode == intersectMode {
	if s.imm != nil {
	s.pruneCounters()
	}
	s.imm = make(map[pkfunc]struct{})
	}
	}
	s.inidx = dirIdx
	}
	}

	func (s sstate) EndCounterDataFile(cdf string, cdr decodecounter.CounterDataReader, dirIdx int) {
	}

	func (s *sstate) VisitFuncCounterData(data decodecounter.FuncPayload) {
	key := pkfunc{pk: data.PkgIdx, fcn: data.FuncIdx}

	if *verbflag >= 5 {
	fmt.Printf("ctr visit fid=%d pk=%d inidx=%d data.Counters=%+v\n", data.FuncIdx, data.PkgIdx, s.inidx, data.Counters)
	}

	// If we're processing counter data from the initial (first) input
	// directory, then just install it into the counter data map
	// as usual.
	if s.inidx == 0 {
	s.mm.visitFuncCounterData(data)
	return
	}

	// If we're looking at counter data from a dir other than
	// the first, then perform the intersect/subtract.
	if val, ok := s.mm.pod.pmm[key]; ok {
	if s.mode == subtractMode {
	for i := 0; i < len(data.Counters); i++ {
	if data.Counters[i] != 0 {
	val.Counters[i] = 0
	}
	}
	} else if s.mode == intersectMode {
	s.imm[key] = struct{}{}
	for i := 0; i < len(data.Counters); i++ {
	if data.Counters[i] == 0 {
	val.Counters[i] = 0
	}
	}
	}
	}
	}

	func (s sstate) VisitMetaDataFile(mdf string, mfr decodemeta.CoverageMetaFileReader) {
	if s.mode == intersectMode {
	s.imm = make(map[pkfunc]struct{})
	}
	s.mm.visitMetaDataFile(mdf, mfr)
	}

	func (s sstate) BeginPackage(pd decodemeta.CoverageMetaDataDecoder, pkgIdx uint32) {
	s.mm.visitPackage(pd, pkgIdx, false)
	}

	func (s sstate) EndPackage(pd decodemeta.CoverageMetaDataDecoder, pkgIdx uint32) {
	}

	func (s sstate) VisitFunc(pkgIdx uint32, fnIdx uint32, fd coverage.FuncDesc) {
	s.mm.visitFunc(pkgIdx, fnIdx, fd, s.mode, false)
	}

	func (s *sstate) Finish() {
	}