mirror of
https://github.com/golang/go
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4354ead92e
This pull request fixes several typos in comments. I believe that they're safe enough. Change-Id: Ic7c594bdb89dcd04f8775f225abbc0f966f3728e GitHub-Last-Rev: 2394feb263714c83b419f45eccb3c6c9fdff7fed GitHub-Pull-Request: golang/tools#45 Reviewed-on: https://go-review.googlesource.com/128956 Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
374 lines
12 KiB
Go
374 lines
12 KiB
Go
// Copyright 2014 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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// Package eg implements the example-based refactoring tool whose
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// command-line is defined in golang.org/x/tools/cmd/eg.
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package eg // import "golang.org/x/tools/refactor/eg"
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import (
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"bytes"
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"fmt"
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"go/ast"
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"go/format"
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"go/printer"
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"go/token"
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"go/types"
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"os"
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)
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const Help = `
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This tool implements example-based refactoring of expressions.
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The transformation is specified as a Go file defining two functions,
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'before' and 'after', of identical types. Each function body consists
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of a single statement: either a return statement with a single
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(possibly multi-valued) expression, or an expression statement. The
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'before' expression specifies a pattern and the 'after' expression its
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replacement.
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package P
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import ( "errors"; "fmt" )
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func before(s string) error { return fmt.Errorf("%s", s) }
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func after(s string) error { return errors.New(s) }
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The expression statement form is useful when the expression has no
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result, for example:
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func before(msg string) { log.Fatalf("%s", msg) }
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func after(msg string) { log.Fatal(msg) }
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The parameters of both functions are wildcards that may match any
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expression assignable to that type. If the pattern contains multiple
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occurrences of the same parameter, each must match the same expression
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in the input for the pattern to match. If the replacement contains
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multiple occurrences of the same parameter, the expression will be
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duplicated, possibly changing the side-effects.
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The tool analyses all Go code in the packages specified by the
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arguments, replacing all occurrences of the pattern with the
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substitution.
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So, the transform above would change this input:
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err := fmt.Errorf("%s", "error: " + msg)
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to this output:
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err := errors.New("error: " + msg)
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Identifiers, including qualified identifiers (p.X) are considered to
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match only if they denote the same object. This allows correct
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matching even in the presence of dot imports, named imports and
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locally shadowed package names in the input program.
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Matching of type syntax is semantic, not syntactic: type syntax in the
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pattern matches type syntax in the input if the types are identical.
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Thus, func(x int) matches func(y int).
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This tool was inspired by other example-based refactoring tools,
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'gofmt -r' for Go and Refaster for Java.
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LIMITATIONS
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===========
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EXPRESSIVENESS
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Only refactorings that replace one expression with another, regardless
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of the expression's context, may be expressed. Refactoring arbitrary
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statements (or sequences of statements) is a less well-defined problem
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and is less amenable to this approach.
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A pattern that contains a function literal (and hence statements)
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never matches.
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There is no way to generalize over related types, e.g. to express that
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a wildcard may have any integer type, for example.
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It is not possible to replace an expression by one of a different
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type, even in contexts where this is legal, such as x in fmt.Print(x).
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The struct literals T{x} and T{K: x} cannot both be matched by a single
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template.
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SAFETY
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Verifying that a transformation does not introduce type errors is very
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complex in the general case. An innocuous-looking replacement of one
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constant by another (e.g. 1 to 2) may cause type errors relating to
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array types and indices, for example. The tool performs only very
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superficial checks of type preservation.
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IMPORTS
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Although the matching algorithm is fully aware of scoping rules, the
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replacement algorithm is not, so the replacement code may contain
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incorrect identifier syntax for imported objects if there are dot
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imports, named imports or locally shadowed package names in the input
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program.
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Imports are added as needed, but they are not removed as needed.
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Run 'goimports' on the modified file for now.
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Dot imports are forbidden in the template.
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TIPS
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====
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Sometimes a little creativity is required to implement the desired
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migration. This section lists a few tips and tricks.
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To remove the final parameter from a function, temporarily change the
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function signature so that the final parameter is variadic, as this
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allows legal calls both with and without the argument. Then use eg to
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remove the final argument from all callers, and remove the variadic
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parameter by hand. The reverse process can be used to add a final
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parameter.
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To add or remove parameters other than the final one, you must do it in
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stages: (1) declare a variant function f' with a different name and the
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desired parameters; (2) use eg to transform calls to f into calls to f',
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changing the arguments as needed; (3) change the declaration of f to
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match f'; (4) use eg to rename f' to f in all calls; (5) delete f'.
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`
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// TODO(adonovan): expand upon the above documentation as an HTML page.
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// A Transformer represents a single example-based transformation.
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type Transformer struct {
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fset *token.FileSet
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verbose bool
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info *types.Info // combined type info for template/input/output ASTs
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seenInfos map[*types.Info]bool
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wildcards map[*types.Var]bool // set of parameters in func before()
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env map[string]ast.Expr // maps parameter name to wildcard binding
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importedObjs map[types.Object]*ast.SelectorExpr // objects imported by after().
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before, after ast.Expr
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afterStmts []ast.Stmt
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allowWildcards bool
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// Working state of Transform():
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nsubsts int // number of substitutions made
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currentPkg *types.Package // package of current call
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}
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// NewTransformer returns a transformer based on the specified template,
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// a single-file package containing "before" and "after" functions as
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// described in the package documentation.
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// tmplInfo is the type information for tmplFile.
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//
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func NewTransformer(fset *token.FileSet, tmplPkg *types.Package, tmplFile *ast.File, tmplInfo *types.Info, verbose bool) (*Transformer, error) {
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// Check the template.
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beforeSig := funcSig(tmplPkg, "before")
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if beforeSig == nil {
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return nil, fmt.Errorf("no 'before' func found in template")
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}
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afterSig := funcSig(tmplPkg, "after")
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if afterSig == nil {
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return nil, fmt.Errorf("no 'after' func found in template")
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}
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// TODO(adonovan): should we also check the names of the params match?
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if !types.Identical(afterSig, beforeSig) {
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return nil, fmt.Errorf("before %s and after %s functions have different signatures",
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beforeSig, afterSig)
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}
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for _, imp := range tmplFile.Imports {
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if imp.Name != nil && imp.Name.Name == "." {
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// Dot imports are currently forbidden. We
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// make the simplifying assumption that all
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// imports are regular, without local renames.
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return nil, fmt.Errorf("dot-import (of %s) in template", imp.Path.Value)
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}
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}
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var beforeDecl, afterDecl *ast.FuncDecl
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for _, decl := range tmplFile.Decls {
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if decl, ok := decl.(*ast.FuncDecl); ok {
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switch decl.Name.Name {
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case "before":
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beforeDecl = decl
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case "after":
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afterDecl = decl
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}
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}
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}
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before, err := soleExpr(beforeDecl)
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if err != nil {
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return nil, fmt.Errorf("before: %s", err)
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}
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afterStmts, after, err := stmtAndExpr(afterDecl)
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if err != nil {
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return nil, fmt.Errorf("after: %s", err)
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}
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wildcards := make(map[*types.Var]bool)
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for i := 0; i < beforeSig.Params().Len(); i++ {
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wildcards[beforeSig.Params().At(i)] = true
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}
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// checkExprTypes returns an error if Tb (type of before()) is not
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// safe to replace with Ta (type of after()).
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//
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// Only superficial checks are performed, and they may result in both
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// false positives and negatives.
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//
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// Ideally, we would only require that the replacement be assignable
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// to the context of a specific pattern occurrence, but the type
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// checker doesn't record that information and it's complex to deduce.
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// A Go type cannot capture all the constraints of a given expression
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// context, which may include the size, constness, signedness,
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// namedness or constructor of its type, and even the specific value
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// of the replacement. (Consider the rule that array literal keys
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// must be unique.) So we cannot hope to prove the safety of a
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// transformation in general.
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Tb := tmplInfo.TypeOf(before)
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Ta := tmplInfo.TypeOf(after)
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if types.AssignableTo(Tb, Ta) {
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// safe: replacement is assignable to pattern.
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} else if tuple, ok := Tb.(*types.Tuple); ok && tuple.Len() == 0 {
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// safe: pattern has void type (must appear in an ExprStmt).
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} else {
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return nil, fmt.Errorf("%s is not a safe replacement for %s", Ta, Tb)
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}
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tr := &Transformer{
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fset: fset,
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verbose: verbose,
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wildcards: wildcards,
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allowWildcards: true,
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seenInfos: make(map[*types.Info]bool),
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importedObjs: make(map[types.Object]*ast.SelectorExpr),
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before: before,
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after: after,
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afterStmts: afterStmts,
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}
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// Combine type info from the template and input packages, and
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// type info for the synthesized ASTs too. This saves us
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// having to book-keep where each ast.Node originated as we
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// construct the resulting hybrid AST.
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tr.info = &types.Info{
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Types: make(map[ast.Expr]types.TypeAndValue),
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Defs: make(map[*ast.Ident]types.Object),
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Uses: make(map[*ast.Ident]types.Object),
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Selections: make(map[*ast.SelectorExpr]*types.Selection),
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}
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mergeTypeInfo(tr.info, tmplInfo)
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// Compute set of imported objects required by after().
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// TODO(adonovan): reject dot-imports in pattern
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ast.Inspect(after, func(n ast.Node) bool {
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if n, ok := n.(*ast.SelectorExpr); ok {
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if _, ok := tr.info.Selections[n]; !ok {
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// qualified ident
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obj := tr.info.Uses[n.Sel]
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tr.importedObjs[obj] = n
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return false // prune
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}
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}
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return true // recur
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})
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return tr, nil
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}
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// WriteAST is a convenience function that writes AST f to the specified file.
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func WriteAST(fset *token.FileSet, filename string, f *ast.File) (err error) {
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fh, err := os.Create(filename)
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if err != nil {
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return err
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}
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defer func() {
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if err2 := fh.Close(); err != nil {
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err = err2 // prefer earlier error
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}
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}()
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return format.Node(fh, fset, f)
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}
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// -- utilities --------------------------------------------------------
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// funcSig returns the signature of the specified package-level function.
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func funcSig(pkg *types.Package, name string) *types.Signature {
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if f, ok := pkg.Scope().Lookup(name).(*types.Func); ok {
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return f.Type().(*types.Signature)
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}
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return nil
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}
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// soleExpr returns the sole expression in the before/after template function.
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func soleExpr(fn *ast.FuncDecl) (ast.Expr, error) {
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if fn.Body == nil {
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return nil, fmt.Errorf("no body")
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}
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if len(fn.Body.List) != 1 {
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return nil, fmt.Errorf("must contain a single statement")
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}
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switch stmt := fn.Body.List[0].(type) {
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case *ast.ReturnStmt:
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if len(stmt.Results) != 1 {
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return nil, fmt.Errorf("return statement must have a single operand")
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}
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return stmt.Results[0], nil
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case *ast.ExprStmt:
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return stmt.X, nil
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}
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return nil, fmt.Errorf("must contain a single return or expression statement")
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}
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// stmtAndExpr returns the expression in the last return statement as well as the preceding lines.
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func stmtAndExpr(fn *ast.FuncDecl) ([]ast.Stmt, ast.Expr, error) {
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if fn.Body == nil {
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return nil, nil, fmt.Errorf("no body")
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}
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n := len(fn.Body.List)
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if n == 0 {
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return nil, nil, fmt.Errorf("must contain at least one statement")
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}
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stmts, last := fn.Body.List[:n-1], fn.Body.List[n-1]
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switch last := last.(type) {
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case *ast.ReturnStmt:
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if len(last.Results) != 1 {
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return nil, nil, fmt.Errorf("return statement must have a single operand")
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}
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return stmts, last.Results[0], nil
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case *ast.ExprStmt:
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return stmts, last.X, nil
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}
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return nil, nil, fmt.Errorf("must end with a single return or expression statement")
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}
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// mergeTypeInfo adds type info from src to dst.
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func mergeTypeInfo(dst, src *types.Info) {
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for k, v := range src.Types {
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dst.Types[k] = v
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}
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for k, v := range src.Defs {
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dst.Defs[k] = v
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}
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for k, v := range src.Uses {
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dst.Uses[k] = v
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}
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for k, v := range src.Selections {
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dst.Selections[k] = v
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}
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}
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// (debugging only)
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func astString(fset *token.FileSet, n ast.Node) string {
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var buf bytes.Buffer
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printer.Fprint(&buf, fset, n)
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return buf.String()
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}
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