| // Copyright 2014 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 bools defines an Analyzer that detects common mistakes |
| // involving boolean operators. |
| package bools |
| |
| import ( |
| "go/ast" |
| "go/token" |
| "go/types" |
| |
| "golang.org/x/tools/go/analysis" |
| "golang.org/x/tools/go/analysis/passes/inspect" |
| "golang.org/x/tools/go/analysis/passes/internal/analysisutil" |
| "golang.org/x/tools/go/ast/inspector" |
| ) |
| |
| var Analyzer = &analysis.Analyzer{ |
| Name: "bools", |
| Doc: "check for common mistakes involving boolean operators", |
| Requires: []*analysis.Analyzer{inspect.Analyzer}, |
| Run: run, |
| } |
| |
| func run(pass *analysis.Pass) (interface{}, error) { |
| inspect := pass.ResultOf[inspect.Analyzer].(*inspector.Inspector) |
| |
| nodeFilter := []ast.Node{ |
| (*ast.BinaryExpr)(nil), |
| } |
| seen := make(map[*ast.BinaryExpr]bool) |
| inspect.Preorder(nodeFilter, func(n ast.Node) { |
| e := n.(*ast.BinaryExpr) |
| if seen[e] { |
| // Already processed as a subexpression of an earlier node. |
| return |
| } |
| |
| var op boolOp |
| switch e.Op { |
| case token.LOR: |
| op = or |
| case token.LAND: |
| op = and |
| default: |
| return |
| } |
| |
| comm := op.commutativeSets(pass.TypesInfo, e, seen) |
| for _, exprs := range comm { |
| op.checkRedundant(pass, exprs) |
| op.checkSuspect(pass, exprs) |
| } |
| }) |
| return nil, nil |
| } |
| |
| type boolOp struct { |
| name string |
| tok token.Token // token corresponding to this operator |
| badEq token.Token // token corresponding to the equality test that should not be used with this operator |
| } |
| |
| var ( |
| or = boolOp{"or", token.LOR, token.NEQ} |
| and = boolOp{"and", token.LAND, token.EQL} |
| ) |
| |
| // commutativeSets returns all side effect free sets of |
| // expressions in e that are connected by op. |
| // For example, given 'a || b || f() || c || d' with the or op, |
| // commutativeSets returns {{b, a}, {d, c}}. |
| // commutativeSets adds any expanded BinaryExprs to seen. |
| func (op boolOp) commutativeSets(info *types.Info, e *ast.BinaryExpr, seen map[*ast.BinaryExpr]bool) [][]ast.Expr { |
| exprs := op.split(e, seen) |
| |
| // Partition the slice of expressions into commutative sets. |
| i := 0 |
| var sets [][]ast.Expr |
| for j := 0; j <= len(exprs); j++ { |
| if j == len(exprs) || hasSideEffects(info, exprs[j]) { |
| if i < j { |
| sets = append(sets, exprs[i:j]) |
| } |
| i = j + 1 |
| } |
| } |
| |
| return sets |
| } |
| |
| // checkRedundant checks for expressions of the form |
| // e && e |
| // e || e |
| // Exprs must contain only side effect free expressions. |
| func (op boolOp) checkRedundant(pass *analysis.Pass, exprs []ast.Expr) { |
| seen := make(map[string]bool) |
| for _, e := range exprs { |
| efmt := analysisutil.Format(pass.Fset, e) |
| if seen[efmt] { |
| pass.ReportRangef(e, "redundant %s: %s %s %s", op.name, efmt, op.tok, efmt) |
| } else { |
| seen[efmt] = true |
| } |
| } |
| } |
| |
| // checkSuspect checks for expressions of the form |
| // x != c1 || x != c2 |
| // x == c1 && x == c2 |
| // where c1 and c2 are constant expressions. |
| // If c1 and c2 are the same then it's redundant; |
| // if c1 and c2 are different then it's always true or always false. |
| // Exprs must contain only side effect free expressions. |
| func (op boolOp) checkSuspect(pass *analysis.Pass, exprs []ast.Expr) { |
| // seen maps from expressions 'x' to equality expressions 'x != c'. |
| seen := make(map[string]string) |
| |
| for _, e := range exprs { |
| bin, ok := e.(*ast.BinaryExpr) |
| if !ok || bin.Op != op.badEq { |
| continue |
| } |
| |
| // In order to avoid false positives, restrict to cases |
| // in which one of the operands is constant. We're then |
| // interested in the other operand. |
| // In the rare case in which both operands are constant |
| // (e.g. runtime.GOOS and "windows"), we'll only catch |
| // mistakes if the LHS is repeated, which is how most |
| // code is written. |
| var x ast.Expr |
| switch { |
| case pass.TypesInfo.Types[bin.Y].Value != nil: |
| x = bin.X |
| case pass.TypesInfo.Types[bin.X].Value != nil: |
| x = bin.Y |
| default: |
| continue |
| } |
| |
| // e is of the form 'x != c' or 'x == c'. |
| xfmt := analysisutil.Format(pass.Fset, x) |
| efmt := analysisutil.Format(pass.Fset, e) |
| if prev, found := seen[xfmt]; found { |
| // checkRedundant handles the case in which efmt == prev. |
| if efmt != prev { |
| pass.ReportRangef(e, "suspect %s: %s %s %s", op.name, efmt, op.tok, prev) |
| } |
| } else { |
| seen[xfmt] = efmt |
| } |
| } |
| } |
| |
| // hasSideEffects reports whether evaluation of e has side effects. |
| func hasSideEffects(info *types.Info, e ast.Expr) bool { |
| safe := true |
| ast.Inspect(e, func(node ast.Node) bool { |
| switch n := node.(type) { |
| case *ast.CallExpr: |
| typVal := info.Types[n.Fun] |
| switch { |
| case typVal.IsType(): |
| // Type conversion, which is safe. |
| case typVal.IsBuiltin(): |
| // Builtin func, conservatively assumed to not |
| // be safe for now. |
| safe = false |
| return false |
| default: |
| // A non-builtin func or method call. |
| // Conservatively assume that all of them have |
| // side effects for now. |
| safe = false |
| return false |
| } |
| case *ast.UnaryExpr: |
| if n.Op == token.ARROW { |
| safe = false |
| return false |
| } |
| } |
| return true |
| }) |
| return !safe |
| } |
| |
| // split returns a slice of all subexpressions in e that are connected by op. |
| // For example, given 'a || (b || c) || d' with the or op, |
| // split returns []{d, c, b, a}. |
| // seen[e] is already true; any newly processed exprs are added to seen. |
| func (op boolOp) split(e ast.Expr, seen map[*ast.BinaryExpr]bool) (exprs []ast.Expr) { |
| for { |
| e = unparen(e) |
| if b, ok := e.(*ast.BinaryExpr); ok && b.Op == op.tok { |
| seen[b] = true |
| exprs = append(exprs, op.split(b.Y, seen)...) |
| e = b.X |
| } else { |
| exprs = append(exprs, e) |
| break |
| } |
| } |
| return |
| } |
| |
| // 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 |
| } |
| } |