mirror of
https://github.com/golang/go
synced 2024-11-18 19:24:39 -07:00
78efac5f33
R=golang-dev, rsc CC=golang-dev https://golang.org/cl/10710044
536 lines
15 KiB
Go
536 lines
15 KiB
Go
// Copyright 2013 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Cover is a program for analyzing the coverage profiles generated by
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// 'go test -coverprofile'.
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//
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// Cover is also used by 'go test -cover' to rewrite the source code with
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// annotations to track which parts of each function are executed.
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// It operates on one Go source file at a time, computing approximate
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// basic block information by studying the source. It is thus more portable
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// than binary-rewriting coverage tools, but also a little less capable.
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// For instance, it does not probe inside && and || expressions, and can
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// be mildly confused by single statements with multiple function literals.
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package main
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import (
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"bytes"
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"flag"
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"fmt"
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"go/ast"
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"go/parser"
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"go/printer"
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"go/token"
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"io"
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"io/ioutil"
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"log"
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"os"
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"sort"
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"strconv"
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)
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const usageMessage = "" +
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`Usage of 'go tool cover':
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Given a coverage profile produced by 'go test -coverprofile=c.out', open
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a web browser displaying annotated source code:
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go tool cover -html=c.out
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The same, but write the generated HTML to a file instead of starting a browser:
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go tool cover -html=c.out -o coverage.html
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Generate modified source code with coverage annotations (what go test -cover does):
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go tool cover -mode=set -var=CoverageVariableName program.go
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`
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func usage() {
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fmt.Fprintln(os.Stderr, usageMessage)
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fmt.Fprintln(os.Stderr, "Flags:")
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flag.PrintDefaults()
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os.Exit(2)
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}
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var (
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mode = flag.String("mode", "", "coverage mode: set, count, atomic")
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varVar = flag.String("var", "GoCover", "name of coverage variable to generate")
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output = flag.String("o", "", "file for output (static HTML or annotated Go source); default: stdout")
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htmlOut = flag.String("html", "", "generate HTML representation of coverage profile")
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)
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var profile string // The profile to read; the value of -html but stored separately for future flexibility.
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var counterStmt func(*File, ast.Expr) ast.Stmt
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const (
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atomicPackagePath = "sync/atomic"
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atomicPackageName = "_cover_atomic_"
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)
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func main() {
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flag.Usage = usage
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flag.Parse()
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profile = *htmlOut
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// Must either display a profile or rewrite Go source.
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if (profile == "") == (*mode == "") {
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flag.Usage()
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}
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// Generate HTML.
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if *htmlOut != "" {
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if flag.NArg() != 0 {
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flag.Usage()
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}
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err := htmlOutput(profile, *output)
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if err != nil {
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fmt.Fprintf(os.Stderr, "cover: %v\n", err)
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os.Exit(2)
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}
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return
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}
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// Generate coverage-annotated source.
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switch *mode {
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case "set":
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counterStmt = setCounterStmt
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case "count":
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counterStmt = incCounterStmt
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case "atomic":
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counterStmt = atomicCounterStmt
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default:
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flag.Usage()
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}
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if flag.NArg() != 1 {
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flag.Usage()
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}
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cover(flag.Arg(0))
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}
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// Block represents the information about a basic block to be recorded in the analysis.
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// Note: Our definition of basic block is based on control structures; we don't break
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// apart && and ||. We could but it doesn't seem important enough to bother.
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type Block struct {
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startByte token.Pos
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endByte token.Pos
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numStmt int
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}
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// File is a wrapper for the state of a file used in the parser.
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// The basic parse tree walker is a method of this type.
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type File struct {
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fset *token.FileSet
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name string // Name of file.
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astFile *ast.File
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blocks []Block
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atomicPkg string // Package name for "sync/atomic" in this file.
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}
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// Visit implements the ast.Visitor interface.
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func (f *File) Visit(node ast.Node) ast.Visitor {
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switch n := node.(type) {
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case *ast.BlockStmt:
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// If it's a switch or select, the body is a list of case clauses; don't tag the block itself.
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if len(n.List) > 0 {
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switch n.List[0].(type) {
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case *ast.CaseClause: // switch
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for _, n := range n.List {
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clause := n.(*ast.CaseClause)
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clause.Body = f.addCounters(clause.Pos(), clause.End(), clause.Body, false)
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}
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return f
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case *ast.CommClause: // select
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for _, n := range n.List {
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clause := n.(*ast.CommClause)
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clause.Body = f.addCounters(clause.Pos(), clause.End(), clause.Body, false)
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}
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return f
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}
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}
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n.List = f.addCounters(n.Lbrace, n.Rbrace+1, n.List, true) // +1 to step past closing brace.
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case *ast.SelectStmt:
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// Don't annotate an empty select - creates a syntax error.
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if n.Body == nil || len(n.Body.List) == 0 {
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return nil
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}
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case *ast.SwitchStmt:
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// Don't annotate an empty switch - creates a syntax error.
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if n.Body == nil || len(n.Body.List) == 0 {
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return nil
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}
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}
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return f
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}
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// unquote returns the unquoted string.
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func unquote(s string) string {
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t, err := strconv.Unquote(s)
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if err != nil {
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log.Fatalf("cover: improperly quoted string %q\n", s)
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}
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return t
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}
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// addImport adds an import for the specified path, if one does not already exist, and returns
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// the local package name.
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func (f *File) addImport(path string) string {
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// Does the package already import it?
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for _, s := range f.astFile.Imports {
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if unquote(s.Path.Value) == path {
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return s.Name.Name
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}
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}
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newImport := &ast.ImportSpec{
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Name: ast.NewIdent(atomicPackageName),
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Path: &ast.BasicLit{
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Kind: token.STRING,
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Value: fmt.Sprintf("%q", path),
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},
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}
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impDecl := &ast.GenDecl{
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Tok: token.IMPORT,
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Specs: []ast.Spec{
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newImport,
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},
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}
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// Make the new import the first Decl in the file.
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astFile := f.astFile
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astFile.Decls = append(astFile.Decls, nil)
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copy(astFile.Decls[1:], astFile.Decls[0:])
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astFile.Decls[0] = impDecl
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astFile.Imports = append(astFile.Imports, newImport)
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// Now refer to the package, just in case it ends up unused.
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// That is, append to the end of the file the declaration
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// var _ = _cover_atomic_.AddUint32
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reference := &ast.GenDecl{
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Tok: token.VAR,
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Specs: []ast.Spec{
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&ast.ValueSpec{
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Names: []*ast.Ident{
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ast.NewIdent("_"),
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},
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Values: []ast.Expr{
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&ast.SelectorExpr{
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X: ast.NewIdent(atomicPackageName),
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Sel: ast.NewIdent("AddUint32"),
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},
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},
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},
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},
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}
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astFile.Decls = append(astFile.Decls, reference)
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return atomicPackageName
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}
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func cover(name string) {
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fs := token.NewFileSet()
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f, err := os.Open(name)
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if err != nil {
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log.Fatalf("cover: %s: %s", name, err)
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}
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defer f.Close()
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data, err := ioutil.ReadAll(f)
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if err != nil {
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log.Fatalf("cover: %s: %s", name, err)
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}
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parsedFile, err := parser.ParseFile(fs, name, bytes.NewReader(data), 0)
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if err != nil {
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log.Fatalf("cover: %s: %s", name, err)
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}
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file := &File{
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fset: fs,
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name: name,
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astFile: parsedFile,
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}
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if *mode == "atomic" {
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file.atomicPkg = file.addImport(atomicPackagePath)
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}
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ast.Walk(file, file.astFile)
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fd := os.Stdout
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if *output != "" {
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var err error
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fd, err = os.Create(*output)
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if err != nil {
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log.Fatalf("cover: %s", err)
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}
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}
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file.print(fd)
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// After printing the source tree, add some declarations for the counters etc.
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// We could do this by adding to the tree, but it's easier just to print the text.
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file.addVariables(fd)
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}
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func (f *File) print(w io.Writer) {
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printer.Fprint(w, f.fset, f.astFile)
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}
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// intLiteral returns an ast.BasicLit representing the integer value.
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func (f *File) intLiteral(i int) *ast.BasicLit {
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node := &ast.BasicLit{
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Kind: token.INT,
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Value: fmt.Sprint(i),
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}
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return node
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}
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// index returns an ast.BasicLit representing the number of counters present.
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func (f *File) index() *ast.BasicLit {
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return f.intLiteral(len(f.blocks))
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}
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// setCounterStmt returns the expression: __count[23] = 1.
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func setCounterStmt(f *File, counter ast.Expr) ast.Stmt {
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return &ast.AssignStmt{
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Lhs: []ast.Expr{counter},
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Tok: token.ASSIGN,
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Rhs: []ast.Expr{f.intLiteral(1)},
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}
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}
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// incCounterStmt returns the expression: __count[23]++.
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func incCounterStmt(f *File, counter ast.Expr) ast.Stmt {
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return &ast.IncDecStmt{
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X: counter,
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Tok: token.INC,
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}
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}
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// atomicCounterStmt returns the expression: atomic.AddUint32(&__count[23], 1)
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func atomicCounterStmt(f *File, counter ast.Expr) ast.Stmt {
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return &ast.ExprStmt{
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X: &ast.CallExpr{
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Fun: &ast.SelectorExpr{
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X: ast.NewIdent(f.atomicPkg),
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Sel: ast.NewIdent("AddUint32"),
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},
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Args: []ast.Expr{&ast.UnaryExpr{
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Op: token.AND,
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X: counter,
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},
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f.intLiteral(1),
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},
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},
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}
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}
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// newCounter creates a new counter expression of the appropriate form.
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func (f *File) newCounter(start, end token.Pos, numStmt int) ast.Stmt {
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counter := &ast.IndexExpr{
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X: &ast.SelectorExpr{
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X: ast.NewIdent(*varVar),
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Sel: ast.NewIdent("Count"),
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},
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Index: f.index(),
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}
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stmt := counterStmt(f, counter)
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f.blocks = append(f.blocks, Block{start, end, numStmt})
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return stmt
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}
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// addCounters takes a list of statements and adds counters to the beginning of
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// each basic block at the top level of that list. For instance, given
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//
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// S1
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// if cond {
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// S2
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// }
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// S3
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//
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// counters will be added before S1 and before S3. The block containing S2
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// will be visited in a separate call.
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// TODO: Nested simple blocks get unecessary (but correct) counters
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func (f *File) addCounters(pos, blockEnd token.Pos, list []ast.Stmt, extendToClosingBrace bool) []ast.Stmt {
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// Special case: make sure we add a counter to an empty block. Can't do this below
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// or we will add a counter to an empty statement list after, say, a return statement.
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if len(list) == 0 {
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return []ast.Stmt{f.newCounter(pos, blockEnd, 0)}
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}
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// We have a block (statement list), but it may have several basic blocks due to the
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// appearance of statements that affect the flow of control.
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var newList []ast.Stmt
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for {
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// Find first statement that affects flow of control (break, continue, if, etc.).
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// It will be the last statement of this basic block.
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var last int
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end := blockEnd
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for last = 0; last < len(list); last++ {
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end = f.statementBoundary(list[last])
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if f.endsBasicSourceBlock(list[last]) {
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extendToClosingBrace = false // Block is broken up now.
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last++
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break
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}
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}
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if extendToClosingBrace {
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end = blockEnd
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}
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if pos != end { // Can have no source to cover if e.g. blocks abut.
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newList = append(newList, f.newCounter(pos, end, last))
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}
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newList = append(newList, list[0:last]...)
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list = list[last:]
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if len(list) == 0 {
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break
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}
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pos = list[0].Pos()
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}
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return newList
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}
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// statementBoundary finds the location in s that terminates the current basic
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// block in the source.
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func (f *File) statementBoundary(s ast.Stmt) token.Pos {
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// Control flow statements are easy.
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switch s := s.(type) {
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case *ast.BlockStmt:
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// Treat blocks like basic blocks to avoid overlapping counters.
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return s.Lbrace
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case *ast.IfStmt:
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return s.Body.Lbrace
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case *ast.ForStmt:
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return s.Body.Lbrace
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case *ast.LabeledStmt:
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return f.statementBoundary(s.Stmt)
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case *ast.RangeStmt:
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return s.Body.Lbrace
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case *ast.SwitchStmt:
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return s.Body.Lbrace
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case *ast.SelectStmt:
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return s.Body.Lbrace
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case *ast.TypeSwitchStmt:
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return s.Body.Lbrace
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}
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// If not a control flow statement, it is a declaration, expression, call, etc. and it may have a function literal.
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// If it does, that's tricky because we want to exclude the body of the function from this block.
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// Draw a line at the start of the body of the first function literal we find.
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// TODO: what if there's more than one? Probably doesn't matter much.
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var literal funcLitFinder
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ast.Walk(&literal, s)
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if literal.found() {
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return token.Pos(literal)
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}
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return s.End()
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}
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// endsBasicSourceBlock reports whether s changes the flow of control: break, if, etc.,
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// or if it's just problematic, for instance contains a function literal, which will complicate
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// accounting due to the block-within-an expression.
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func (f *File) endsBasicSourceBlock(s ast.Stmt) bool {
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switch s := s.(type) {
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case *ast.BlockStmt:
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// Treat blocks like basic blocks to avoid overlapping counters.
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return true
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case *ast.BranchStmt:
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return true
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case *ast.ForStmt:
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return true
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case *ast.IfStmt:
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return true
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case *ast.LabeledStmt:
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return f.endsBasicSourceBlock(s.Stmt)
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case *ast.RangeStmt:
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return true
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case *ast.SwitchStmt:
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return true
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case *ast.SelectStmt:
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return true
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case *ast.TypeSwitchStmt:
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return true
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}
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var literal funcLitFinder
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ast.Walk(&literal, s)
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return literal.found()
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}
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// funcLitFinder implements the ast.Visitor pattern to find the location of any
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// function literal in a subtree.
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type funcLitFinder token.Pos
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func (f *funcLitFinder) Visit(node ast.Node) (w ast.Visitor) {
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if f.found() {
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return nil // Prune search.
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}
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switch n := node.(type) {
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case *ast.FuncLit:
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*f = funcLitFinder(n.Body.Lbrace)
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return nil // Prune search.
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}
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return f
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}
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func (f *funcLitFinder) found() bool {
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return token.Pos(*f) != token.NoPos
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}
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// Sort interface for []block1; used for self-check in addVariables.
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type block1 struct {
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Block
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index int
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}
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type blockSlice []block1
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func (b blockSlice) Len() int { return len(b) }
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func (b blockSlice) Less(i, j int) bool { return b[i].startByte < b[j].startByte }
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func (b blockSlice) Swap(i, j int) { b[i], b[j] = b[j], b[i] }
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// addVariables adds to the end of the file the declarations to set up the counter and position variables.
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func (f *File) addVariables(w io.Writer) {
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// Self-check: Verify that the instrumented basic blocks are disjoint.
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t := make([]block1, len(f.blocks))
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for i := range f.blocks {
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t[i].Block = f.blocks[i]
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t[i].index = i
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}
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sort.Sort(blockSlice(t))
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for i := 1; i < len(t); i++ {
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if t[i-1].endByte > t[i].startByte {
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fmt.Fprintf(os.Stderr, "cover: internal error: block %d overlaps block %d\n", t[i-1].index, t[i].index)
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fmt.Fprintf(os.Stderr, "\t%s:#%d,#%d %s:#%d,#%d\n", f.name, t[i-1].startByte, t[i-1].endByte, f.name, t[i].startByte, t[i].endByte)
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}
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}
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// Declare the coverage struct as a package-level variable.
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fmt.Fprintf(w, "\nvar %s = struct {\n", *varVar)
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fmt.Fprintf(w, "\tCount [%d]uint32\n", len(f.blocks))
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fmt.Fprintf(w, "\tPos [3 * %d]uint32\n", len(f.blocks))
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fmt.Fprintf(w, "\tNumStmt [%d]uint16\n", len(f.blocks))
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fmt.Fprintf(w, "} {\n")
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// Initialize the position array field.
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fmt.Fprintf(w, "\tPos: [3 * %d]uint32{\n", len(f.blocks))
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// A nice long list of positions. Each position is encoded as follows to reduce size:
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// - 32-bit starting line number
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// - 32-bit ending line number
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// - (16 bit ending column number << 16) | (16-bit starting column number).
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for i, block := range f.blocks {
|
|
start := f.fset.Position(block.startByte)
|
|
end := f.fset.Position(block.endByte)
|
|
fmt.Fprintf(w, "\t\t%d, %d, %#x, // %d\n", start.Line, end.Line, (end.Column&0xFFFF)<<16|(start.Column&0xFFFF), i)
|
|
}
|
|
|
|
// Close the position array.
|
|
fmt.Fprintf(w, "\t},\n")
|
|
|
|
// Initialize the position array field.
|
|
fmt.Fprintf(w, "\tNumStmt: [%d]uint16{\n", len(f.blocks))
|
|
|
|
// A nice long list of statements-per-block, so we can give a conventional
|
|
// valuation of "percent covered". To save space, it's a 16-bit number, so we
|
|
// clamp it if it overflows - won't matter in practice.
|
|
for i, block := range f.blocks {
|
|
n := block.numStmt
|
|
if n > 1<<16-1 {
|
|
n = 1<<16 - 1
|
|
}
|
|
fmt.Fprintf(w, "\t\t%d, // %d\n", n, i)
|
|
}
|
|
|
|
// Close the statements-per-block array.
|
|
fmt.Fprintf(w, "\t},\n")
|
|
|
|
// Close the struct initialization.
|
|
fmt.Fprintf(w, "}\n")
|
|
}
|