From 1d4bb7ceb0cef79d68df0bacc913b01e40e6ddd6 Mon Sep 17 00:00:00 2001 From: Michael Muré Date: Wed, 5 Feb 2020 22:03:19 +0100 Subject: migrate to go modules --- .../golang.org/x/tools/go/ast/astutil/enclosing.go | 627 --------------------- .../golang.org/x/tools/go/ast/astutil/imports.go | 481 ---------------- .../golang.org/x/tools/go/ast/astutil/rewrite.go | 477 ---------------- vendor/golang.org/x/tools/go/ast/astutil/util.go | 14 - 4 files changed, 1599 deletions(-) delete mode 100644 vendor/golang.org/x/tools/go/ast/astutil/enclosing.go delete mode 100644 vendor/golang.org/x/tools/go/ast/astutil/imports.go delete mode 100644 vendor/golang.org/x/tools/go/ast/astutil/rewrite.go delete mode 100644 vendor/golang.org/x/tools/go/ast/astutil/util.go (limited to 'vendor/golang.org/x/tools/go/ast') diff --git a/vendor/golang.org/x/tools/go/ast/astutil/enclosing.go b/vendor/golang.org/x/tools/go/ast/astutil/enclosing.go deleted file mode 100644 index 6b7052b8..00000000 --- a/vendor/golang.org/x/tools/go/ast/astutil/enclosing.go +++ /dev/null @@ -1,627 +0,0 @@ -// Copyright 2013 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 astutil - -// This file defines utilities for working with source positions. - -import ( - "fmt" - "go/ast" - "go/token" - "sort" -) - -// PathEnclosingInterval returns the node that encloses the source -// interval [start, end), and all its ancestors up to the AST root. -// -// The definition of "enclosing" used by this function considers -// additional whitespace abutting a node to be enclosed by it. -// In this example: -// -// z := x + y // add them -// <-A-> -// <----B-----> -// -// the ast.BinaryExpr(+) node is considered to enclose interval B -// even though its [Pos()..End()) is actually only interval A. -// This behaviour makes user interfaces more tolerant of imperfect -// input. -// -// This function treats tokens as nodes, though they are not included -// in the result. e.g. PathEnclosingInterval("+") returns the -// enclosing ast.BinaryExpr("x + y"). -// -// If start==end, the 1-char interval following start is used instead. -// -// The 'exact' result is true if the interval contains only path[0] -// and perhaps some adjacent whitespace. It is false if the interval -// overlaps multiple children of path[0], or if it contains only -// interior whitespace of path[0]. -// In this example: -// -// z := x + y // add them -// <--C--> <---E--> -// ^ -// D -// -// intervals C, D and E are inexact. C is contained by the -// z-assignment statement, because it spans three of its children (:=, -// x, +). So too is the 1-char interval D, because it contains only -// interior whitespace of the assignment. E is considered interior -// whitespace of the BlockStmt containing the assignment. -// -// Precondition: [start, end) both lie within the same file as root. -// TODO(adonovan): return (nil, false) in this case and remove precond. -// Requires FileSet; see loader.tokenFileContainsPos. -// -// Postcondition: path is never nil; it always contains at least 'root'. -// -func PathEnclosingInterval(root *ast.File, start, end token.Pos) (path []ast.Node, exact bool) { - // fmt.Printf("EnclosingInterval %d %d\n", start, end) // debugging - - // Precondition: node.[Pos..End) and adjoining whitespace contain [start, end). - var visit func(node ast.Node) bool - visit = func(node ast.Node) bool { - path = append(path, node) - - nodePos := node.Pos() - nodeEnd := node.End() - - // fmt.Printf("visit(%T, %d, %d)\n", node, nodePos, nodeEnd) // debugging - - // Intersect [start, end) with interval of node. - if start < nodePos { - start = nodePos - } - if end > nodeEnd { - end = nodeEnd - } - - // Find sole child that contains [start, end). - children := childrenOf(node) - l := len(children) - for i, child := range children { - // [childPos, childEnd) is unaugmented interval of child. - childPos := child.Pos() - childEnd := child.End() - - // [augPos, augEnd) is whitespace-augmented interval of child. - augPos := childPos - augEnd := childEnd - if i > 0 { - augPos = children[i-1].End() // start of preceding whitespace - } - if i < l-1 { - nextChildPos := children[i+1].Pos() - // Does [start, end) lie between child and next child? - if start >= augEnd && end <= nextChildPos { - return false // inexact match - } - augEnd = nextChildPos // end of following whitespace - } - - // fmt.Printf("\tchild %d: [%d..%d)\tcontains interval [%d..%d)?\n", - // i, augPos, augEnd, start, end) // debugging - - // Does augmented child strictly contain [start, end)? - if augPos <= start && end <= augEnd { - _, isToken := child.(tokenNode) - return isToken || visit(child) - } - - // Does [start, end) overlap multiple children? - // i.e. left-augmented child contains start - // but LR-augmented child does not contain end. - if start < childEnd && end > augEnd { - break - } - } - - // No single child contained [start, end), - // so node is the result. Is it exact? - - // (It's tempting to put this condition before the - // child loop, but it gives the wrong result in the - // case where a node (e.g. ExprStmt) and its sole - // child have equal intervals.) - if start == nodePos && end == nodeEnd { - return true // exact match - } - - return false // inexact: overlaps multiple children - } - - if start > end { - start, end = end, start - } - - if start < root.End() && end > root.Pos() { - if start == end { - end = start + 1 // empty interval => interval of size 1 - } - exact = visit(root) - - // Reverse the path: - for i, l := 0, len(path); i < l/2; i++ { - path[i], path[l-1-i] = path[l-1-i], path[i] - } - } else { - // Selection lies within whitespace preceding the - // first (or following the last) declaration in the file. - // The result nonetheless always includes the ast.File. - path = append(path, root) - } - - return -} - -// tokenNode is a dummy implementation of ast.Node for a single token. -// They are used transiently by PathEnclosingInterval but never escape -// this package. -// -type tokenNode struct { - pos token.Pos - end token.Pos -} - -func (n tokenNode) Pos() token.Pos { - return n.pos -} - -func (n tokenNode) End() token.Pos { - return n.end -} - -func tok(pos token.Pos, len int) ast.Node { - return tokenNode{pos, pos + token.Pos(len)} -} - -// childrenOf returns the direct non-nil children of ast.Node n. -// It may include fake ast.Node implementations for bare tokens. -// it is not safe to call (e.g.) ast.Walk on such nodes. -// -func childrenOf(n ast.Node) []ast.Node { - var children []ast.Node - - // First add nodes for all true subtrees. - ast.Inspect(n, func(node ast.Node) bool { - if node == n { // push n - return true // recur - } - if node != nil { // push child - children = append(children, node) - } - return false // no recursion - }) - - // Then add fake Nodes for bare tokens. - switch n := n.(type) { - case *ast.ArrayType: - children = append(children, - tok(n.Lbrack, len("[")), - tok(n.Elt.End(), len("]"))) - - case *ast.AssignStmt: - children = append(children, - tok(n.TokPos, len(n.Tok.String()))) - - case *ast.BasicLit: - children = append(children, - tok(n.ValuePos, len(n.Value))) - - case *ast.BinaryExpr: - children = append(children, tok(n.OpPos, len(n.Op.String()))) - - case *ast.BlockStmt: - children = append(children, - tok(n.Lbrace, len("{")), - tok(n.Rbrace, len("}"))) - - case *ast.BranchStmt: - children = append(children, - tok(n.TokPos, len(n.Tok.String()))) - - case *ast.CallExpr: - children = append(children, - tok(n.Lparen, len("(")), - tok(n.Rparen, len(")"))) - if n.Ellipsis != 0 { - children = append(children, tok(n.Ellipsis, len("..."))) - } - - case *ast.CaseClause: - if n.List == nil { - children = append(children, - tok(n.Case, len("default"))) - } else { - children = append(children, - tok(n.Case, len("case"))) - } - children = append(children, tok(n.Colon, len(":"))) - - case *ast.ChanType: - switch n.Dir { - case ast.RECV: - children = append(children, tok(n.Begin, len("<-chan"))) - case ast.SEND: - children = append(children, tok(n.Begin, len("chan<-"))) - case ast.RECV | ast.SEND: - children = append(children, tok(n.Begin, len("chan"))) - } - - case *ast.CommClause: - if n.Comm == nil { - children = append(children, - tok(n.Case, len("default"))) - } else { - children = append(children, - tok(n.Case, len("case"))) - } - children = append(children, tok(n.Colon, len(":"))) - - case *ast.Comment: - // nop - - case *ast.CommentGroup: - // nop - - case *ast.CompositeLit: - children = append(children, - tok(n.Lbrace, len("{")), - tok(n.Rbrace, len("{"))) - - case *ast.DeclStmt: - // nop - - case *ast.DeferStmt: - children = append(children, - tok(n.Defer, len("defer"))) - - case *ast.Ellipsis: - children = append(children, - tok(n.Ellipsis, len("..."))) - - case *ast.EmptyStmt: - // nop - - case *ast.ExprStmt: - // nop - - case *ast.Field: - // TODO(adonovan): Field.{Doc,Comment,Tag}? - - case *ast.FieldList: - children = append(children, - tok(n.Opening, len("(")), - tok(n.Closing, len(")"))) - - case *ast.File: - // TODO test: Doc - children = append(children, - tok(n.Package, len("package"))) - - case *ast.ForStmt: - children = append(children, - tok(n.For, len("for"))) - - case *ast.FuncDecl: - // TODO(adonovan): FuncDecl.Comment? - - // Uniquely, FuncDecl breaks the invariant that - // preorder traversal yields tokens in lexical order: - // in fact, FuncDecl.Recv precedes FuncDecl.Type.Func. - // - // As a workaround, we inline the case for FuncType - // here and order things correctly. - // - children = nil // discard ast.Walk(FuncDecl) info subtrees - children = append(children, tok(n.Type.Func, len("func"))) - if n.Recv != nil { - children = append(children, n.Recv) - } - children = append(children, n.Name) - if n.Type.Params != nil { - children = append(children, n.Type.Params) - } - if n.Type.Results != nil { - children = append(children, n.Type.Results) - } - if n.Body != nil { - children = append(children, n.Body) - } - - case *ast.FuncLit: - // nop - - case *ast.FuncType: - if n.Func != 0 { - children = append(children, - tok(n.Func, len("func"))) - } - - case *ast.GenDecl: - children = append(children, - tok(n.TokPos, len(n.Tok.String()))) - if n.Lparen != 0 { - children = append(children, - tok(n.Lparen, len("(")), - tok(n.Rparen, len(")"))) - } - - case *ast.GoStmt: - children = append(children, - tok(n.Go, len("go"))) - - case *ast.Ident: - children = append(children, - tok(n.NamePos, len(n.Name))) - - case *ast.IfStmt: - children = append(children, - tok(n.If, len("if"))) - - case *ast.ImportSpec: - // TODO(adonovan): ImportSpec.{Doc,EndPos}? - - case *ast.IncDecStmt: - children = append(children, - tok(n.TokPos, len(n.Tok.String()))) - - case *ast.IndexExpr: - children = append(children, - tok(n.Lbrack, len("{")), - tok(n.Rbrack, len("}"))) - - case *ast.InterfaceType: - children = append(children, - tok(n.Interface, len("interface"))) - - case *ast.KeyValueExpr: - children = append(children, - tok(n.Colon, len(":"))) - - case *ast.LabeledStmt: - children = append(children, - tok(n.Colon, len(":"))) - - case *ast.MapType: - children = append(children, - tok(n.Map, len("map"))) - - case *ast.ParenExpr: - children = append(children, - tok(n.Lparen, len("(")), - tok(n.Rparen, len(")"))) - - case *ast.RangeStmt: - children = append(children, - tok(n.For, len("for")), - tok(n.TokPos, len(n.Tok.String()))) - - case *ast.ReturnStmt: - children = append(children, - tok(n.Return, len("return"))) - - case *ast.SelectStmt: - children = append(children, - tok(n.Select, len("select"))) - - case *ast.SelectorExpr: - // nop - - case *ast.SendStmt: - children = append(children, - tok(n.Arrow, len("<-"))) - - case *ast.SliceExpr: - children = append(children, - tok(n.Lbrack, len("[")), - tok(n.Rbrack, len("]"))) - - case *ast.StarExpr: - children = append(children, tok(n.Star, len("*"))) - - case *ast.StructType: - children = append(children, tok(n.Struct, len("struct"))) - - case *ast.SwitchStmt: - children = append(children, tok(n.Switch, len("switch"))) - - case *ast.TypeAssertExpr: - children = append(children, - tok(n.Lparen-1, len(".")), - tok(n.Lparen, len("(")), - tok(n.Rparen, len(")"))) - - case *ast.TypeSpec: - // TODO(adonovan): TypeSpec.{Doc,Comment}? - - case *ast.TypeSwitchStmt: - children = append(children, tok(n.Switch, len("switch"))) - - case *ast.UnaryExpr: - children = append(children, tok(n.OpPos, len(n.Op.String()))) - - case *ast.ValueSpec: - // TODO(adonovan): ValueSpec.{Doc,Comment}? - - case *ast.BadDecl, *ast.BadExpr, *ast.BadStmt: - // nop - } - - // TODO(adonovan): opt: merge the logic of ast.Inspect() into - // the switch above so we can make interleaved callbacks for - // both Nodes and Tokens in the right order and avoid the need - // to sort. - sort.Sort(byPos(children)) - - return children -} - -type byPos []ast.Node - -func (sl byPos) Len() int { - return len(sl) -} -func (sl byPos) Less(i, j int) bool { - return sl[i].Pos() < sl[j].Pos() -} -func (sl byPos) Swap(i, j int) { - sl[i], sl[j] = sl[j], sl[i] -} - -// NodeDescription returns a description of the concrete type of n suitable -// for a user interface. -// -// TODO(adonovan): in some cases (e.g. Field, FieldList, Ident, -// StarExpr) we could be much more specific given the path to the AST -// root. Perhaps we should do that. -// -func NodeDescription(n ast.Node) string { - switch n := n.(type) { - case *ast.ArrayType: - return "array type" - case *ast.AssignStmt: - return "assignment" - case *ast.BadDecl: - return "bad declaration" - case *ast.BadExpr: - return "bad expression" - case *ast.BadStmt: - return "bad statement" - case *ast.BasicLit: - return "basic literal" - case *ast.BinaryExpr: - return fmt.Sprintf("binary %s operation", n.Op) - case *ast.BlockStmt: - return "block" - case *ast.BranchStmt: - switch n.Tok { - case token.BREAK: - return "break statement" - case token.CONTINUE: - return "continue statement" - case token.GOTO: - return "goto statement" - case token.FALLTHROUGH: - return "fall-through statement" - } - case *ast.CallExpr: - if len(n.Args) == 1 && !n.Ellipsis.IsValid() { - return "function call (or conversion)" - } - return "function call" - case *ast.CaseClause: - return "case clause" - case *ast.ChanType: - return "channel type" - case *ast.CommClause: - return "communication clause" - case *ast.Comment: - return "comment" - case *ast.CommentGroup: - return "comment group" - case *ast.CompositeLit: - return "composite literal" - case *ast.DeclStmt: - return NodeDescription(n.Decl) + " statement" - case *ast.DeferStmt: - return "defer statement" - case *ast.Ellipsis: - return "ellipsis" - case *ast.EmptyStmt: - return "empty statement" - case *ast.ExprStmt: - return "expression statement" - case *ast.Field: - // Can be any of these: - // struct {x, y int} -- struct field(s) - // struct {T} -- anon struct field - // interface {I} -- interface embedding - // interface {f()} -- interface method - // func (A) func(B) C -- receiver, param(s), result(s) - return "field/method/parameter" - case *ast.FieldList: - return "field/method/parameter list" - case *ast.File: - return "source file" - case *ast.ForStmt: - return "for loop" - case *ast.FuncDecl: - return "function declaration" - case *ast.FuncLit: - return "function literal" - case *ast.FuncType: - return "function type" - case *ast.GenDecl: - switch n.Tok { - case token.IMPORT: - return "import declaration" - case token.CONST: - return "constant declaration" - case token.TYPE: - return "type declaration" - case token.VAR: - return "variable declaration" - } - case *ast.GoStmt: - return "go statement" - case *ast.Ident: - return "identifier" - case *ast.IfStmt: - return "if statement" - case *ast.ImportSpec: - return "import specification" - case *ast.IncDecStmt: - if n.Tok == token.INC { - return "increment statement" - } - return "decrement statement" - case *ast.IndexExpr: - return "index expression" - case *ast.InterfaceType: - return "interface type" - case *ast.KeyValueExpr: - return "key/value association" - case *ast.LabeledStmt: - return "statement label" - case *ast.MapType: - return "map type" - case *ast.Package: - return "package" - case *ast.ParenExpr: - return "parenthesized " + NodeDescription(n.X) - case *ast.RangeStmt: - return "range loop" - case *ast.ReturnStmt: - return "return statement" - case *ast.SelectStmt: - return "select statement" - case *ast.SelectorExpr: - return "selector" - case *ast.SendStmt: - return "channel send" - case *ast.SliceExpr: - return "slice expression" - case *ast.StarExpr: - return "*-operation" // load/store expr or pointer type - case *ast.StructType: - return "struct type" - case *ast.SwitchStmt: - return "switch statement" - case *ast.TypeAssertExpr: - return "type assertion" - case *ast.TypeSpec: - return "type specification" - case *ast.TypeSwitchStmt: - return "type switch" - case *ast.UnaryExpr: - return fmt.Sprintf("unary %s operation", n.Op) - case *ast.ValueSpec: - return "value specification" - - } - panic(fmt.Sprintf("unexpected node type: %T", n)) -} diff --git a/vendor/golang.org/x/tools/go/ast/astutil/imports.go b/vendor/golang.org/x/tools/go/ast/astutil/imports.go deleted file mode 100644 index 3e4b1953..00000000 --- a/vendor/golang.org/x/tools/go/ast/astutil/imports.go +++ /dev/null @@ -1,481 +0,0 @@ -// Copyright 2013 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 astutil contains common utilities for working with the Go AST. -package astutil // import "golang.org/x/tools/go/ast/astutil" - -import ( - "fmt" - "go/ast" - "go/token" - "strconv" - "strings" -) - -// AddImport adds the import path to the file f, if absent. -func AddImport(fset *token.FileSet, f *ast.File, path string) (added bool) { - return AddNamedImport(fset, f, "", path) -} - -// AddNamedImport adds the import with the given name and path to the file f, if absent. -// If name is not empty, it is used to rename the import. -// -// For example, calling -// AddNamedImport(fset, f, "pathpkg", "path") -// adds -// import pathpkg "path" -func AddNamedImport(fset *token.FileSet, f *ast.File, name, path string) (added bool) { - if imports(f, name, path) { - return false - } - - newImport := &ast.ImportSpec{ - Path: &ast.BasicLit{ - Kind: token.STRING, - Value: strconv.Quote(path), - }, - } - if name != "" { - newImport.Name = &ast.Ident{Name: name} - } - - // Find an import decl to add to. - // The goal is to find an existing import - // whose import path has the longest shared - // prefix with path. - var ( - bestMatch = -1 // length of longest shared prefix - lastImport = -1 // index in f.Decls of the file's final import decl - impDecl *ast.GenDecl // import decl containing the best match - impIndex = -1 // spec index in impDecl containing the best match - - isThirdPartyPath = isThirdParty(path) - ) - for i, decl := range f.Decls { - gen, ok := decl.(*ast.GenDecl) - if ok && gen.Tok == token.IMPORT { - lastImport = i - // Do not add to import "C", to avoid disrupting the - // association with its doc comment, breaking cgo. - if declImports(gen, "C") { - continue - } - - // Match an empty import decl if that's all that is available. - if len(gen.Specs) == 0 && bestMatch == -1 { - impDecl = gen - } - - // Compute longest shared prefix with imports in this group and find best - // matched import spec. - // 1. Always prefer import spec with longest shared prefix. - // 2. While match length is 0, - // - for stdlib package: prefer first import spec. - // - for third party package: prefer first third party import spec. - // We cannot use last import spec as best match for third party package - // because grouped imports are usually placed last by goimports -local - // flag. - // See issue #19190. - seenAnyThirdParty := false - for j, spec := range gen.Specs { - impspec := spec.(*ast.ImportSpec) - p := importPath(impspec) - n := matchLen(p, path) - if n > bestMatch || (bestMatch == 0 && !seenAnyThirdParty && isThirdPartyPath) { - bestMatch = n - impDecl = gen - impIndex = j - } - seenAnyThirdParty = seenAnyThirdParty || isThirdParty(p) - } - } - } - - // If no import decl found, add one after the last import. - if impDecl == nil { - impDecl = &ast.GenDecl{ - Tok: token.IMPORT, - } - if lastImport >= 0 { - impDecl.TokPos = f.Decls[lastImport].End() - } else { - // There are no existing imports. - // Our new import, preceded by a blank line, goes after the package declaration - // and after the comment, if any, that starts on the same line as the - // package declaration. - impDecl.TokPos = f.Package - - file := fset.File(f.Package) - pkgLine := file.Line(f.Package) - for _, c := range f.Comments { - if file.Line(c.Pos()) > pkgLine { - break - } - // +2 for a blank line - impDecl.TokPos = c.End() + 2 - } - } - f.Decls = append(f.Decls, nil) - copy(f.Decls[lastImport+2:], f.Decls[lastImport+1:]) - f.Decls[lastImport+1] = impDecl - } - - // Insert new import at insertAt. - insertAt := 0 - if impIndex >= 0 { - // insert after the found import - insertAt = impIndex + 1 - } - impDecl.Specs = append(impDecl.Specs, nil) - copy(impDecl.Specs[insertAt+1:], impDecl.Specs[insertAt:]) - impDecl.Specs[insertAt] = newImport - pos := impDecl.Pos() - if insertAt > 0 { - // If there is a comment after an existing import, preserve the comment - // position by adding the new import after the comment. - if spec, ok := impDecl.Specs[insertAt-1].(*ast.ImportSpec); ok && spec.Comment != nil { - pos = spec.Comment.End() - } else { - // Assign same position as the previous import, - // so that the sorter sees it as being in the same block. - pos = impDecl.Specs[insertAt-1].Pos() - } - } - if newImport.Name != nil { - newImport.Name.NamePos = pos - } - newImport.Path.ValuePos = pos - newImport.EndPos = pos - - // Clean up parens. impDecl contains at least one spec. - if len(impDecl.Specs) == 1 { - // Remove unneeded parens. - impDecl.Lparen = token.NoPos - } else if !impDecl.Lparen.IsValid() { - // impDecl needs parens added. - impDecl.Lparen = impDecl.Specs[0].Pos() - } - - f.Imports = append(f.Imports, newImport) - - if len(f.Decls) <= 1 { - return true - } - - // Merge all the import declarations into the first one. - var first *ast.GenDecl - for i := 0; i < len(f.Decls); i++ { - decl := f.Decls[i] - gen, ok := decl.(*ast.GenDecl) - if !ok || gen.Tok != token.IMPORT || declImports(gen, "C") { - continue - } - if first == nil { - first = gen - continue // Don't touch the first one. - } - // We now know there is more than one package in this import - // declaration. Ensure that it ends up parenthesized. - first.Lparen = first.Pos() - // Move the imports of the other import declaration to the first one. - for _, spec := range gen.Specs { - spec.(*ast.ImportSpec).Path.ValuePos = first.Pos() - first.Specs = append(first.Specs, spec) - } - f.Decls = append(f.Decls[:i], f.Decls[i+1:]...) - i-- - } - - return true -} - -func isThirdParty(importPath string) bool { - // Third party package import path usually contains "." (".com", ".org", ...) - // This logic is taken from golang.org/x/tools/imports package. - return strings.Contains(importPath, ".") -} - -// DeleteImport deletes the import path from the file f, if present. -// If there are duplicate import declarations, all matching ones are deleted. -func DeleteImport(fset *token.FileSet, f *ast.File, path string) (deleted bool) { - return DeleteNamedImport(fset, f, "", path) -} - -// DeleteNamedImport deletes the import with the given name and path from the file f, if present. -// If there are duplicate import declarations, all matching ones are deleted. -func DeleteNamedImport(fset *token.FileSet, f *ast.File, name, path string) (deleted bool) { - var delspecs []*ast.ImportSpec - var delcomments []*ast.CommentGroup - - // Find the import nodes that import path, if any. - for i := 0; i < len(f.Decls); i++ { - decl := f.Decls[i] - gen, ok := decl.(*ast.GenDecl) - if !ok || gen.Tok != token.IMPORT { - continue - } - for j := 0; j < len(gen.Specs); j++ { - spec := gen.Specs[j] - impspec := spec.(*ast.ImportSpec) - if importName(impspec) != name || importPath(impspec) != path { - continue - } - - // We found an import spec that imports path. - // Delete it. - delspecs = append(delspecs, impspec) - deleted = true - copy(gen.Specs[j:], gen.Specs[j+1:]) - gen.Specs = gen.Specs[:len(gen.Specs)-1] - - // If this was the last import spec in this decl, - // delete the decl, too. - if len(gen.Specs) == 0 { - copy(f.Decls[i:], f.Decls[i+1:]) - f.Decls = f.Decls[:len(f.Decls)-1] - i-- - break - } else if len(gen.Specs) == 1 { - if impspec.Doc != nil { - delcomments = append(delcomments, impspec.Doc) - } - if impspec.Comment != nil { - delcomments = append(delcomments, impspec.Comment) - } - for _, cg := range f.Comments { - // Found comment on the same line as the import spec. - if cg.End() < impspec.Pos() && fset.Position(cg.End()).Line == fset.Position(impspec.Pos()).Line { - delcomments = append(delcomments, cg) - break - } - } - - spec := gen.Specs[0].(*ast.ImportSpec) - - // Move the documentation right after the import decl. - if spec.Doc != nil { - for fset.Position(gen.TokPos).Line+1 < fset.Position(spec.Doc.Pos()).Line { - fset.File(gen.TokPos).MergeLine(fset.Position(gen.TokPos).Line) - } - } - for _, cg := range f.Comments { - if cg.End() < spec.Pos() && fset.Position(cg.End()).Line == fset.Position(spec.Pos()).Line { - for fset.Position(gen.TokPos).Line+1 < fset.Position(spec.Pos()).Line { - fset.File(gen.TokPos).MergeLine(fset.Position(gen.TokPos).Line) - } - break - } - } - } - if j > 0 { - lastImpspec := gen.Specs[j-1].(*ast.ImportSpec) - lastLine := fset.Position(lastImpspec.Path.ValuePos).Line - line := fset.Position(impspec.Path.ValuePos).Line - - // We deleted an entry but now there may be - // a blank line-sized hole where the import was. - if line-lastLine > 1 { - // There was a blank line immediately preceding the deleted import, - // so there's no need to close the hole. - // Do nothing. - } else if line != fset.File(gen.Rparen).LineCount() { - // There was no blank line. Close the hole. - fset.File(gen.Rparen).MergeLine(line) - } - } - j-- - } - } - - // Delete imports from f.Imports. - for i := 0; i < len(f.Imports); i++ { - imp := f.Imports[i] - for j, del := range delspecs { - if imp == del { - copy(f.Imports[i:], f.Imports[i+1:]) - f.Imports = f.Imports[:len(f.Imports)-1] - copy(delspecs[j:], delspecs[j+1:]) - delspecs = delspecs[:len(delspecs)-1] - i-- - break - } - } - } - - // Delete comments from f.Comments. - for i := 0; i < len(f.Comments); i++ { - cg := f.Comments[i] - for j, del := range delcomments { - if cg == del { - copy(f.Comments[i:], f.Comments[i+1:]) - f.Comments = f.Comments[:len(f.Comments)-1] - copy(delcomments[j:], delcomments[j+1:]) - delcomments = delcomments[:len(delcomments)-1] - i-- - break - } - } - } - - if len(delspecs) > 0 { - panic(fmt.Sprintf("deleted specs from Decls but not Imports: %v", delspecs)) - } - - return -} - -// RewriteImport rewrites any import of path oldPath to path newPath. -func RewriteImport(fset *token.FileSet, f *ast.File, oldPath, newPath string) (rewrote bool) { - for _, imp := range f.Imports { - if importPath(imp) == oldPath { - rewrote = true - // record old End, because the default is to compute - // it using the length of imp.Path.Value. - imp.EndPos = imp.End() - imp.Path.Value = strconv.Quote(newPath) - } - } - return -} - -// UsesImport reports whether a given import is used. -func UsesImport(f *ast.File, path string) (used bool) { - spec := importSpec(f, path) - if spec == nil { - return - } - - name := spec.Name.String() - switch name { - case "": - // If the package name is not explicitly specified, - // make an educated guess. This is not guaranteed to be correct. - lastSlash := strings.LastIndex(path, "/") - if lastSlash == -1 { - name = path - } else { - name = path[lastSlash+1:] - } - case "_", ".": - // Not sure if this import is used - err on the side of caution. - return true - } - - ast.Walk(visitFn(func(n ast.Node) { - sel, ok := n.(*ast.SelectorExpr) - if ok && isTopName(sel.X, name) { - used = true - } - }), f) - - return -} - -type visitFn func(node ast.Node) - -func (fn visitFn) Visit(node ast.Node) ast.Visitor { - fn(node) - return fn -} - -// imports reports whether f has an import with the specified name and path. -func imports(f *ast.File, name, path string) bool { - for _, s := range f.Imports { - if importName(s) == name && importPath(s) == path { - return true - } - } - return false -} - -// importSpec returns the import spec if f imports path, -// or nil otherwise. -func importSpec(f *ast.File, path string) *ast.ImportSpec { - for _, s := range f.Imports { - if importPath(s) == path { - return s - } - } - return nil -} - -// importName returns the name of s, -// or "" if the import is not named. -func importName(s *ast.ImportSpec) string { - if s.Name == nil { - return "" - } - return s.Name.Name -} - -// importPath returns the unquoted import path of s, -// or "" if the path is not properly quoted. -func importPath(s *ast.ImportSpec) string { - t, err := strconv.Unquote(s.Path.Value) - if err != nil { - return "" - } - return t -} - -// declImports reports whether gen contains an import of path. -func declImports(gen *ast.GenDecl, path string) bool { - if gen.Tok != token.IMPORT { - return false - } - for _, spec := range gen.Specs { - impspec := spec.(*ast.ImportSpec) - if importPath(impspec) == path { - return true - } - } - return false -} - -// matchLen returns the length of the longest path segment prefix shared by x and y. -func matchLen(x, y string) int { - n := 0 - for i := 0; i < len(x) && i < len(y) && x[i] == y[i]; i++ { - if x[i] == '/' { - n++ - } - } - return n -} - -// isTopName returns true if n is a top-level unresolved identifier with the given name. -func isTopName(n ast.Expr, name string) bool { - id, ok := n.(*ast.Ident) - return ok && id.Name == name && id.Obj == nil -} - -// Imports returns the file imports grouped by paragraph. -func Imports(fset *token.FileSet, f *ast.File) [][]*ast.ImportSpec { - var groups [][]*ast.ImportSpec - - for _, decl := range f.Decls { - genDecl, ok := decl.(*ast.GenDecl) - if !ok || genDecl.Tok != token.IMPORT { - break - } - - group := []*ast.ImportSpec{} - - var lastLine int - for _, spec := range genDecl.Specs { - importSpec := spec.(*ast.ImportSpec) - pos := importSpec.Path.ValuePos - line := fset.Position(pos).Line - if lastLine > 0 && pos > 0 && line-lastLine > 1 { - groups = append(groups, group) - group = []*ast.ImportSpec{} - } - group = append(group, importSpec) - lastLine = line - } - groups = append(groups, group) - } - - return groups -} diff --git a/vendor/golang.org/x/tools/go/ast/astutil/rewrite.go b/vendor/golang.org/x/tools/go/ast/astutil/rewrite.go deleted file mode 100644 index cf72ea99..00000000 --- a/vendor/golang.org/x/tools/go/ast/astutil/rewrite.go +++ /dev/null @@ -1,477 +0,0 @@ -// Copyright 2017 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 astutil - -import ( - "fmt" - "go/ast" - "reflect" - "sort" -) - -// An ApplyFunc is invoked by Apply for each node n, even if n is nil, -// before and/or after the node's children, using a Cursor describing -// the current node and providing operations on it. -// -// The return value of ApplyFunc controls the syntax tree traversal. -// See Apply for details. -type ApplyFunc func(*Cursor) bool - -// Apply traverses a syntax tree recursively, starting with root, -// and calling pre and post for each node as described below. -// Apply returns the syntax tree, possibly modified. -// -// If pre is not nil, it is called for each node before the node's -// children are traversed (pre-order). If pre returns false, no -// children are traversed, and post is not called for that node. -// -// If post is not nil, and a prior call of pre didn't return false, -// post is called for each node after its children are traversed -// (post-order). If post returns false, traversal is terminated and -// Apply returns immediately. -// -// Only fields that refer to AST nodes are considered children; -// i.e., token.Pos, Scopes, Objects, and fields of basic types -// (strings, etc.) are ignored. -// -// Children are traversed in the order in which they appear in the -// respective node's struct definition. A package's files are -// traversed in the filenames' alphabetical order. -// -func Apply(root ast.Node, pre, post ApplyFunc) (result ast.Node) { - parent := &struct{ ast.Node }{root} - defer func() { - if r := recover(); r != nil && r != abort { - panic(r) - } - result = parent.Node - }() - a := &application{pre: pre, post: post} - a.apply(parent, "Node", nil, root) - return -} - -var abort = new(int) // singleton, to signal termination of Apply - -// A Cursor describes a node encountered during Apply. -// Information about the node and its parent is available -// from the Node, Parent, Name, and Index methods. -// -// If p is a variable of type and value of the current parent node -// c.Parent(), and f is the field identifier with name c.Name(), -// the following invariants hold: -// -// p.f == c.Node() if c.Index() < 0 -// p.f[c.Index()] == c.Node() if c.Index() >= 0 -// -// The methods Replace, Delete, InsertBefore, and InsertAfter -// can be used to change the AST without disrupting Apply. -type Cursor struct { - parent ast.Node - name string - iter *iterator // valid if non-nil - node ast.Node -} - -// Node returns the current Node. -func (c *Cursor) Node() ast.Node { return c.node } - -// Parent returns the parent of the current Node. -func (c *Cursor) Parent() ast.Node { return c.parent } - -// Name returns the name of the parent Node field that contains the current Node. -// If the parent is a *ast.Package and the current Node is a *ast.File, Name returns -// the filename for the current Node. -func (c *Cursor) Name() string { return c.name } - -// Index reports the index >= 0 of the current Node in the slice of Nodes that -// contains it, or a value < 0 if the current Node is not part of a slice. -// The index of the current node changes if InsertBefore is called while -// processing the current node. -func (c *Cursor) Index() int { - if c.iter != nil { - return c.iter.index - } - return -1 -} - -// field returns the current node's parent field value. -func (c *Cursor) field() reflect.Value { - return reflect.Indirect(reflect.ValueOf(c.parent)).FieldByName(c.name) -} - -// Replace replaces the current Node with n. -// The replacement node is not walked by Apply. -func (c *Cursor) Replace(n ast.Node) { - if _, ok := c.node.(*ast.File); ok { - file, ok := n.(*ast.File) - if !ok { - panic("attempt to replace *ast.File with non-*ast.File") - } - c.parent.(*ast.Package).Files[c.name] = file - return - } - - v := c.field() - if i := c.Index(); i >= 0 { - v = v.Index(i) - } - v.Set(reflect.ValueOf(n)) -} - -// Delete deletes the current Node from its containing slice. -// If the current Node is not part of a slice, Delete panics. -// As a special case, if the current node is a package file, -// Delete removes it from the package's Files map. -func (c *Cursor) Delete() { - if _, ok := c.node.(*ast.File); ok { - delete(c.parent.(*ast.Package).Files, c.name) - return - } - - i := c.Index() - if i < 0 { - panic("Delete node not contained in slice") - } - v := c.field() - l := v.Len() - reflect.Copy(v.Slice(i, l), v.Slice(i+1, l)) - v.Index(l - 1).Set(reflect.Zero(v.Type().Elem())) - v.SetLen(l - 1) - c.iter.step-- -} - -// InsertAfter inserts n after the current Node in its containing slice. -// If the current Node is not part of a slice, InsertAfter panics. -// Apply does not walk n. -func (c *Cursor) InsertAfter(n ast.Node) { - i := c.Index() - if i < 0 { - panic("InsertAfter node not contained in slice") - } - v := c.field() - v.Set(reflect.Append(v, reflect.Zero(v.Type().Elem()))) - l := v.Len() - reflect.Copy(v.Slice(i+2, l), v.Slice(i+1, l)) - v.Index(i + 1).Set(reflect.ValueOf(n)) - c.iter.step++ -} - -// InsertBefore inserts n before the current Node in its containing slice. -// If the current Node is not part of a slice, InsertBefore panics. -// Apply will not walk n. -func (c *Cursor) InsertBefore(n ast.Node) { - i := c.Index() - if i < 0 { - panic("InsertBefore node not contained in slice") - } - v := c.field() - v.Set(reflect.Append(v, reflect.Zero(v.Type().Elem()))) - l := v.Len() - reflect.Copy(v.Slice(i+1, l), v.Slice(i, l)) - v.Index(i).Set(reflect.ValueOf(n)) - c.iter.index++ -} - -// application carries all the shared data so we can pass it around cheaply. -type application struct { - pre, post ApplyFunc - cursor Cursor - iter iterator -} - -func (a *application) apply(parent ast.Node, name string, iter *iterator, n ast.Node) { - // convert typed nil into untyped nil - if v := reflect.ValueOf(n); v.Kind() == reflect.Ptr && v.IsNil() { - n = nil - } - - // avoid heap-allocating a new cursor for each apply call; reuse a.cursor instead - saved := a.cursor - a.cursor.parent = parent - a.cursor.name = name - a.cursor.iter = iter - a.cursor.node = n - - if a.pre != nil && !a.pre(&a.cursor) { - a.cursor = saved - return - } - - // walk children - // (the order of the cases matches the order of the corresponding node types in go/ast) - switch n := n.(type) { - case nil: - // nothing to do - - // Comments and fields - case *ast.Comment: - // nothing to do - - case *ast.CommentGroup: - if n != nil { - a.applyList(n, "List") - } - - case *ast.Field: - a.apply(n, "Doc", nil, n.Doc) - a.applyList(n, "Names") - a.apply(n, "Type", nil, n.Type) - a.apply(n, "Tag", nil, n.Tag) - a.apply(n, "Comment", nil, n.Comment) - - case *ast.FieldList: - a.applyList(n, "List") - - // Expressions - case *ast.BadExpr, *ast.Ident, *ast.BasicLit: - // nothing to do - - case *ast.Ellipsis: - a.apply(n, "Elt", nil, n.Elt) - - case *ast.FuncLit: - a.apply(n, "Type", nil, n.Type) - a.apply(n, "Body", nil, n.Body) - - case *ast.CompositeLit: - a.apply(n, "Type", nil, n.Type) - a.applyList(n, "Elts") - - case *ast.ParenExpr: - a.apply(n, "X", nil, n.X) - - case *ast.SelectorExpr: - a.apply(n, "X", nil, n.X) - a.apply(n, "Sel", nil, n.Sel) - - case *ast.IndexExpr: - a.apply(n, "X", nil, n.X) - a.apply(n, "Index", nil, n.Index) - - case *ast.SliceExpr: - a.apply(n, "X", nil, n.X) - a.apply(n, "Low", nil, n.Low) - a.apply(n, "High", nil, n.High) - a.apply(n, "Max", nil, n.Max) - - case *ast.TypeAssertExpr: - a.apply(n, "X", nil, n.X) - a.apply(n, "Type", nil, n.Type) - - case *ast.CallExpr: - a.apply(n, "Fun", nil, n.Fun) - a.applyList(n, "Args") - - case *ast.StarExpr: - a.apply(n, "X", nil, n.X) - - case *ast.UnaryExpr: - a.apply(n, "X", nil, n.X) - - case *ast.BinaryExpr: - a.apply(n, "X", nil, n.X) - a.apply(n, "Y", nil, n.Y) - - case *ast.KeyValueExpr: - a.apply(n, "Key", nil, n.Key) - a.apply(n, "Value", nil, n.Value) - - // Types - case *ast.ArrayType: - a.apply(n, "Len", nil, n.Len) - a.apply(n, "Elt", nil, n.Elt) - - case *ast.StructType: - a.apply(n, "Fields", nil, n.Fields) - - case *ast.FuncType: - a.apply(n, "Params", nil, n.Params) - a.apply(n, "Results", nil, n.Results) - - case *ast.InterfaceType: - a.apply(n, "Methods", nil, n.Methods) - - case *ast.MapType: - a.apply(n, "Key", nil, n.Key) - a.apply(n, "Value", nil, n.Value) - - case *ast.ChanType: - a.apply(n, "Value", nil, n.Value) - - // Statements - case *ast.BadStmt: - // nothing to do - - case *ast.DeclStmt: - a.apply(n, "Decl", nil, n.Decl) - - case *ast.EmptyStmt: - // nothing to do - - case *ast.LabeledStmt: - a.apply(n, "Label", nil, n.Label) - a.apply(n, "Stmt", nil, n.Stmt) - - case *ast.ExprStmt: - a.apply(n, "X", nil, n.X) - - case *ast.SendStmt: - a.apply(n, "Chan", nil, n.Chan) - a.apply(n, "Value", nil, n.Value) - - case *ast.IncDecStmt: - a.apply(n, "X", nil, n.X) - - case *ast.AssignStmt: - a.applyList(n, "Lhs") - a.applyList(n, "Rhs") - - case *ast.GoStmt: - a.apply(n, "Call", nil, n.Call) - - case *ast.DeferStmt: - a.apply(n, "Call", nil, n.Call) - - case *ast.ReturnStmt: - a.applyList(n, "Results") - - case *ast.BranchStmt: - a.apply(n, "Label", nil, n.Label) - - case *ast.BlockStmt: - a.applyList(n, "List") - - case *ast.IfStmt: - a.apply(n, "Init", nil, n.Init) - a.apply(n, "Cond", nil, n.Cond) - a.apply(n, "Body", nil, n.Body) - a.apply(n, "Else", nil, n.Else) - - case *ast.CaseClause: - a.applyList(n, "List") - a.applyList(n, "Body") - - case *ast.SwitchStmt: - a.apply(n, "Init", nil, n.Init) - a.apply(n, "Tag", nil, n.Tag) - a.apply(n, "Body", nil, n.Body) - - case *ast.TypeSwitchStmt: - a.apply(n, "Init", nil, n.Init) - a.apply(n, "Assign", nil, n.Assign) - a.apply(n, "Body", nil, n.Body) - - case *ast.CommClause: - a.apply(n, "Comm", nil, n.Comm) - a.applyList(n, "Body") - - case *ast.SelectStmt: - a.apply(n, "Body", nil, n.Body) - - case *ast.ForStmt: - a.apply(n, "Init", nil, n.Init) - a.apply(n, "Cond", nil, n.Cond) - a.apply(n, "Post", nil, n.Post) - a.apply(n, "Body", nil, n.Body) - - case *ast.RangeStmt: - a.apply(n, "Key", nil, n.Key) - a.apply(n, "Value", nil, n.Value) - a.apply(n, "X", nil, n.X) - a.apply(n, "Body", nil, n.Body) - - // Declarations - case *ast.ImportSpec: - a.apply(n, "Doc", nil, n.Doc) - a.apply(n, "Name", nil, n.Name) - a.apply(n, "Path", nil, n.Path) - a.apply(n, "Comment", nil, n.Comment) - - case *ast.ValueSpec: - a.apply(n, "Doc", nil, n.Doc) - a.applyList(n, "Names") - a.apply(n, "Type", nil, n.Type) - a.applyList(n, "Values") - a.apply(n, "Comment", nil, n.Comment) - - case *ast.TypeSpec: - a.apply(n, "Doc", nil, n.Doc) - a.apply(n, "Name", nil, n.Name) - a.apply(n, "Type", nil, n.Type) - a.apply(n, "Comment", nil, n.Comment) - - case *ast.BadDecl: - // nothing to do - - case *ast.GenDecl: - a.apply(n, "Doc", nil, n.Doc) - a.applyList(n, "Specs") - - case *ast.FuncDecl: - a.apply(n, "Doc", nil, n.Doc) - a.apply(n, "Recv", nil, n.Recv) - a.apply(n, "Name", nil, n.Name) - a.apply(n, "Type", nil, n.Type) - a.apply(n, "Body", nil, n.Body) - - // Files and packages - case *ast.File: - a.apply(n, "Doc", nil, n.Doc) - a.apply(n, "Name", nil, n.Name) - a.applyList(n, "Decls") - // Don't walk n.Comments; they have either been walked already if - // they are Doc comments, or they can be easily walked explicitly. - - case *ast.Package: - // collect and sort names for reproducible behavior - var names []string - for name := range n.Files { - names = append(names, name) - } - sort.Strings(names) - for _, name := range names { - a.apply(n, name, nil, n.Files[name]) - } - - default: - panic(fmt.Sprintf("Apply: unexpected node type %T", n)) - } - - if a.post != nil && !a.post(&a.cursor) { - panic(abort) - } - - a.cursor = saved -} - -// An iterator controls iteration over a slice of nodes. -type iterator struct { - index, step int -} - -func (a *application) applyList(parent ast.Node, name string) { - // avoid heap-allocating a new iterator for each applyList call; reuse a.iter instead - saved := a.iter - a.iter.index = 0 - for { - // must reload parent.name each time, since cursor modifications might change it - v := reflect.Indirect(reflect.ValueOf(parent)).FieldByName(name) - if a.iter.index >= v.Len() { - break - } - - // element x may be nil in a bad AST - be cautious - var x ast.Node - if e := v.Index(a.iter.index); e.IsValid() { - x = e.Interface().(ast.Node) - } - - a.iter.step = 1 - a.apply(parent, name, &a.iter, x) - a.iter.index += a.iter.step - } - a.iter = saved -} diff --git a/vendor/golang.org/x/tools/go/ast/astutil/util.go b/vendor/golang.org/x/tools/go/ast/astutil/util.go deleted file mode 100644 index 76306298..00000000 --- a/vendor/golang.org/x/tools/go/ast/astutil/util.go +++ /dev/null @@ -1,14 +0,0 @@ -package astutil - -import "go/ast" - -// Unparen returns e with any enclosing parentheses stripped. -func Unparen(e ast.Expr) ast.Expr { - for { - p, ok := e.(*ast.ParenExpr) - if !ok { - return e - } - e = p.X - } -} -- cgit