mirror of
https://github.com/golang/go
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3fc0fc1310
Was: Now: ssa go/ssa importer go/loader pointer go/pointer Next CL: call -> go/callgraph (requires more care) R=gri, crawshaw CC=golang-codereviews https://golang.org/cl/52960043
626 lines
16 KiB
Go
626 lines
16 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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package astutil
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// This file defines utilities for working with source positions.
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import (
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"fmt"
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"go/ast"
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"go/token"
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"sort"
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)
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// PathEnclosingInterval returns the node that encloses the source
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// interval [start, end), and all its ancestors up to the AST root.
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//
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// The definition of "enclosing" used by this function considers
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// additional whitespace abutting a node to be enclosed by it.
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// In this example:
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//
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// z := x + y // add them
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// <-A->
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// <----B----->
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//
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// the ast.BinaryExpr(+) node is considered to enclose interval B
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// even though its [Pos()..End()) is actually only interval A.
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// This behaviour makes user interfaces more tolerant of imperfect
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// input.
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//
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// This function treats tokens as nodes, though they are not included
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// in the result. e.g. PathEnclosingInterval("+") returns the
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// enclosing ast.BinaryExpr("x + y").
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//
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// If start==end, the 1-char interval following start is used instead.
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//
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// The 'exact' result is true if the interval contains only path[0]
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// and perhaps some adjacent whitespace. It is false if the interval
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// overlaps multiple children of path[0], or if it contains only
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// interior whitespace of path[0].
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// In this example:
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//
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// z := x + y // add them
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// <--C--> <---E-->
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// ^
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// D
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//
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// intervals C, D and E are inexact. C is contained by the
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// z-assignment statement, because it spans three of its children (:=,
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// x, +). So too is the 1-char interval D, because it contains only
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// interior whitespace of the assignment. E is considered interior
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// whitespace of the BlockStmt containing the assignment.
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//
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// Precondition: [start, end) both lie within the same file as root.
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// TODO(adonovan): return (nil, false) in this case and remove precond.
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// Requires FileSet; see loader.tokenFileContainsPos.
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//
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// Postcondition: path is never nil; it always contains at least 'root'.
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//
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func PathEnclosingInterval(root *ast.File, start, end token.Pos) (path []ast.Node, exact bool) {
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// fmt.Printf("EnclosingInterval %d %d\n", start, end) // debugging
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// Precondition: node.[Pos..End) and adjoining whitespace contain [start, end).
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var visit func(node ast.Node) bool
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visit = func(node ast.Node) bool {
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path = append(path, node)
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nodePos := node.Pos()
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nodeEnd := node.End()
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// fmt.Printf("visit(%T, %d, %d)\n", node, nodePos, nodeEnd) // debugging
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// Intersect [start, end) with interval of node.
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if start < nodePos {
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start = nodePos
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}
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if end > nodeEnd {
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end = nodeEnd
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}
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// Find sole child that contains [start, end).
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children := childrenOf(node)
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l := len(children)
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for i, child := range children {
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// [childPos, childEnd) is unaugmented interval of child.
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childPos := child.Pos()
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childEnd := child.End()
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// [augPos, augEnd) is whitespace-augmented interval of child.
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augPos := childPos
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augEnd := childEnd
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if i > 0 {
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augPos = children[i-1].End() // start of preceding whitespace
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}
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if i < l-1 {
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nextChildPos := children[i+1].Pos()
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// Does [start, end) lie between child and next child?
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if start >= augEnd && end <= nextChildPos {
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return false // inexact match
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}
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augEnd = nextChildPos // end of following whitespace
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}
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// fmt.Printf("\tchild %d: [%d..%d)\tcontains interval [%d..%d)?\n",
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// i, augPos, augEnd, start, end) // debugging
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// Does augmented child strictly contain [start, end)?
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if augPos <= start && end <= augEnd {
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_, isToken := child.(tokenNode)
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return isToken || visit(child)
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}
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// Does [start, end) overlap multiple children?
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// i.e. left-augmented child contains start
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// but LR-augmented child does not contain end.
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if start < childEnd && end > augEnd {
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break
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}
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}
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// No single child contained [start, end),
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// so node is the result. Is it exact?
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// (It's tempting to put this condition before the
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// child loop, but it gives the wrong result in the
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// case where a node (e.g. ExprStmt) and its sole
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// child have equal intervals.)
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if start == nodePos && end == nodeEnd {
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return true // exact match
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}
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return false // inexact: overlaps multiple children
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}
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if start > end {
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start, end = end, start
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}
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if start < root.End() && end > root.Pos() {
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if start == end {
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end = start + 1 // empty interval => interval of size 1
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}
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exact = visit(root)
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// Reverse the path:
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for i, l := 0, len(path); i < l/2; i++ {
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path[i], path[l-1-i] = path[l-1-i], path[i]
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}
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} else {
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// Selection lies within whitespace preceding the
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// first (or following the last) declaration in the file.
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// The result nonetheless always includes the ast.File.
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path = append(path, root)
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}
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return
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}
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// tokenNode is a dummy implementation of ast.Node for a single token.
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// They are used transiently by PathEnclosingInterval but never escape
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// this package.
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//
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type tokenNode struct {
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pos token.Pos
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end token.Pos
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}
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func (n tokenNode) Pos() token.Pos {
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return n.pos
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}
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func (n tokenNode) End() token.Pos {
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return n.end
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}
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func tok(pos token.Pos, len int) ast.Node {
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return tokenNode{pos, pos + token.Pos(len)}
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}
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// childrenOf returns the direct non-nil children of ast.Node n.
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// It may include fake ast.Node implementations for bare tokens.
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// it is not safe to call (e.g.) ast.Walk on such nodes.
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//
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func childrenOf(n ast.Node) []ast.Node {
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var children []ast.Node
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// First add nodes for all true subtrees.
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ast.Inspect(n, func(node ast.Node) bool {
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if node == n { // push n
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return true // recur
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}
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if node != nil { // push child
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children = append(children, node)
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}
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return false // no recursion
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})
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// Then add fake Nodes for bare tokens.
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switch n := n.(type) {
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case *ast.ArrayType:
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children = append(children,
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tok(n.Lbrack, len("[")),
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tok(n.Elt.End(), len("]")))
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case *ast.AssignStmt:
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children = append(children,
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tok(n.TokPos, len(n.Tok.String())))
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case *ast.BasicLit:
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children = append(children,
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tok(n.ValuePos, len(n.Value)))
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case *ast.BinaryExpr:
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children = append(children, tok(n.OpPos, len(n.Op.String())))
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case *ast.BlockStmt:
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children = append(children,
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tok(n.Lbrace, len("{")),
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tok(n.Rbrace, len("}")))
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case *ast.BranchStmt:
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children = append(children,
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tok(n.TokPos, len(n.Tok.String())))
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case *ast.CallExpr:
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children = append(children,
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tok(n.Lparen, len("(")),
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tok(n.Rparen, len(")")))
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if n.Ellipsis != 0 {
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children = append(children, tok(n.Ellipsis, len("...")))
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}
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case *ast.CaseClause:
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if n.List == nil {
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children = append(children,
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tok(n.Case, len("default")))
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} else {
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children = append(children,
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tok(n.Case, len("case")))
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}
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children = append(children, tok(n.Colon, len(":")))
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case *ast.ChanType:
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switch n.Dir {
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case ast.RECV:
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children = append(children, tok(n.Begin, len("<-chan")))
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case ast.SEND:
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children = append(children, tok(n.Begin, len("chan<-")))
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case ast.RECV | ast.SEND:
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children = append(children, tok(n.Begin, len("chan")))
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}
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case *ast.CommClause:
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if n.Comm == nil {
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children = append(children,
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tok(n.Case, len("default")))
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} else {
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children = append(children,
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tok(n.Case, len("case")))
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}
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children = append(children, tok(n.Colon, len(":")))
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case *ast.Comment:
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// nop
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case *ast.CommentGroup:
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// nop
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case *ast.CompositeLit:
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children = append(children,
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tok(n.Lbrace, len("{")),
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tok(n.Rbrace, len("{")))
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case *ast.DeclStmt:
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// nop
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case *ast.DeferStmt:
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children = append(children,
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tok(n.Defer, len("defer")))
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case *ast.Ellipsis:
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children = append(children,
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tok(n.Ellipsis, len("...")))
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case *ast.EmptyStmt:
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// nop
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case *ast.ExprStmt:
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// nop
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case *ast.Field:
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// TODO(adonovan): Field.{Doc,Comment,Tag}?
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case *ast.FieldList:
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children = append(children,
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tok(n.Opening, len("(")),
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tok(n.Closing, len(")")))
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case *ast.File:
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// TODO test: Doc
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children = append(children,
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tok(n.Package, len("package")))
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case *ast.ForStmt:
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children = append(children,
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tok(n.For, len("for")))
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case *ast.FuncDecl:
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// TODO(adonovan): FuncDecl.Comment?
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// Uniquely, FuncDecl breaks the invariant that
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// preorder traversal yields tokens in lexical order:
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// in fact, FuncDecl.Recv precedes FuncDecl.Type.Func.
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//
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// As a workaround, we inline the case for FuncType
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// here and order things correctly.
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//
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children = nil // discard ast.Walk(FuncDecl) info subtrees
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children = append(children, tok(n.Type.Func, len("func")))
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if n.Recv != nil {
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children = append(children, n.Recv)
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}
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children = append(children, n.Name)
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if n.Type.Params != nil {
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children = append(children, n.Type.Params)
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}
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if n.Type.Results != nil {
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children = append(children, n.Type.Results)
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}
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if n.Body != nil {
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children = append(children, n.Body)
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}
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case *ast.FuncLit:
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// nop
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case *ast.FuncType:
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if n.Func != 0 {
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children = append(children,
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tok(n.Func, len("func")))
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}
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case *ast.GenDecl:
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children = append(children,
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tok(n.TokPos, len(n.Tok.String())))
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if n.Lparen != 0 {
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children = append(children,
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tok(n.Lparen, len("(")),
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tok(n.Rparen, len(")")))
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}
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case *ast.GoStmt:
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children = append(children,
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tok(n.Go, len("go")))
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case *ast.Ident:
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children = append(children,
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tok(n.NamePos, len(n.Name)))
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case *ast.IfStmt:
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children = append(children,
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tok(n.If, len("if")))
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case *ast.ImportSpec:
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// TODO(adonovan): ImportSpec.{Doc,EndPos}?
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case *ast.IncDecStmt:
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children = append(children,
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tok(n.TokPos, len(n.Tok.String())))
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case *ast.IndexExpr:
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children = append(children,
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tok(n.Lbrack, len("{")),
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tok(n.Rbrack, len("}")))
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case *ast.InterfaceType:
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children = append(children,
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tok(n.Interface, len("interface")))
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case *ast.KeyValueExpr:
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children = append(children,
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tok(n.Colon, len(":")))
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case *ast.LabeledStmt:
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children = append(children,
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tok(n.Colon, len(":")))
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case *ast.MapType:
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children = append(children,
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tok(n.Map, len("map")))
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case *ast.ParenExpr:
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children = append(children,
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tok(n.Lparen, len("(")),
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tok(n.Rparen, len(")")))
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case *ast.RangeStmt:
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children = append(children,
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tok(n.For, len("for")),
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tok(n.TokPos, len(n.Tok.String())))
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case *ast.ReturnStmt:
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children = append(children,
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tok(n.Return, len("return")))
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case *ast.SelectStmt:
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children = append(children,
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tok(n.Select, len("select")))
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case *ast.SelectorExpr:
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// nop
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case *ast.SendStmt:
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children = append(children,
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tok(n.Arrow, len("<-")))
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case *ast.SliceExpr:
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children = append(children,
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tok(n.Lbrack, len("[")),
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tok(n.Rbrack, len("]")))
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case *ast.StarExpr:
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children = append(children, tok(n.Star, len("*")))
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case *ast.StructType:
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children = append(children, tok(n.Struct, len("struct")))
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case *ast.SwitchStmt:
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children = append(children, tok(n.Switch, len("switch")))
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case *ast.TypeAssertExpr:
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children = append(children,
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tok(n.Lparen-1, len(".")),
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tok(n.Lparen, len("(")),
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tok(n.Rparen, len(")")))
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case *ast.TypeSpec:
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// TODO(adonovan): TypeSpec.{Doc,Comment}?
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case *ast.TypeSwitchStmt:
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children = append(children, tok(n.Switch, len("switch")))
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case *ast.UnaryExpr:
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children = append(children, tok(n.OpPos, len(n.Op.String())))
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case *ast.ValueSpec:
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// TODO(adonovan): ValueSpec.{Doc,Comment}?
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default:
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// Includes *ast.BadDecl, *ast.BadExpr, *ast.BadStmt.
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panic(fmt.Sprintf("unexpected node type %T", n))
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}
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// TODO(adonovan): opt: merge the logic of ast.Inspect() into
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// the switch above so we can make interleaved callbacks for
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// both Nodes and Tokens in the right order and avoid the need
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// to sort.
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sort.Sort(byPos(children))
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return children
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}
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type byPos []ast.Node
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func (sl byPos) Len() int {
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return len(sl)
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}
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func (sl byPos) Less(i, j int) bool {
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return sl[i].Pos() < sl[j].Pos()
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}
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func (sl byPos) Swap(i, j int) {
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sl[i], sl[j] = sl[j], sl[i]
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}
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// NodeDescription returns a description of the concrete type of n suitable
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// for a user interface.
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//
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// TODO(adonovan): in some cases (e.g. Field, FieldList, Ident,
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// StarExpr) we could be much more specific given the path to the AST
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// root. Perhaps we should do that.
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//
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func NodeDescription(n ast.Node) string {
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switch n := n.(type) {
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case *ast.ArrayType:
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return "array type"
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case *ast.AssignStmt:
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return "assignment"
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case *ast.BadDecl:
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return "bad declaration"
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case *ast.BadExpr:
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return "bad expression"
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case *ast.BadStmt:
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return "bad statement"
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case *ast.BasicLit:
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return "basic literal"
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case *ast.BinaryExpr:
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return fmt.Sprintf("binary %s operation", n.Op)
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case *ast.BlockStmt:
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return "block"
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case *ast.BranchStmt:
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switch n.Tok {
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case token.BREAK:
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return "break statement"
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case token.CONTINUE:
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return "continue statement"
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case token.GOTO:
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return "goto statement"
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case token.FALLTHROUGH:
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return "fall-through statement"
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}
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case *ast.CallExpr:
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return "function call (or conversion)"
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case *ast.CaseClause:
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return "case clause"
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case *ast.ChanType:
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return "channel type"
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case *ast.CommClause:
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return "communication clause"
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case *ast.Comment:
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return "comment"
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case *ast.CommentGroup:
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return "comment group"
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case *ast.CompositeLit:
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return "composite literal"
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case *ast.DeclStmt:
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return NodeDescription(n.Decl) + " statement"
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case *ast.DeferStmt:
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return "defer statement"
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case *ast.Ellipsis:
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return "ellipsis"
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case *ast.EmptyStmt:
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return "empty statement"
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case *ast.ExprStmt:
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return "expression statement"
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case *ast.Field:
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// Can be any of these:
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// struct {x, y int} -- struct field(s)
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// struct {T} -- anon struct field
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// interface {I} -- interface embedding
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// 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))
|
|
}
|