woodpecker/vendor/honnef.co/go/tools/internal/sharedcheck/lint.go

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package sharedcheck
import (
"fmt"
"go/ast"
"go/token"
"go/types"
"honnef.co/go/tools/analysis/code"
"honnef.co/go/tools/analysis/edit"
"honnef.co/go/tools/analysis/facts"
"honnef.co/go/tools/analysis/report"
"honnef.co/go/tools/go/ast/astutil"
"honnef.co/go/tools/go/ir"
"honnef.co/go/tools/go/ir/irutil"
"honnef.co/go/tools/internal/passes/buildir"
"golang.org/x/tools/go/analysis"
"golang.org/x/tools/go/analysis/passes/inspect"
)
func CheckRangeStringRunes(pass *analysis.Pass) (interface{}, error) {
for _, fn := range pass.ResultOf[buildir.Analyzer].(*buildir.IR).SrcFuncs {
cb := func(node ast.Node) bool {
rng, ok := node.(*ast.RangeStmt)
if !ok || !astutil.IsBlank(rng.Key) {
return true
}
v, _ := fn.ValueForExpr(rng.X)
// Check that we're converting from string to []rune
val, _ := v.(*ir.Convert)
if val == nil {
return true
}
Tsrc, ok := val.X.Type().Underlying().(*types.Basic)
if !ok || Tsrc.Kind() != types.String {
return true
}
Tdst, ok := val.Type().(*types.Slice)
if !ok {
return true
}
TdstElem, ok := Tdst.Elem().(*types.Basic)
if !ok || TdstElem.Kind() != types.Int32 {
return true
}
// Check that the result of the conversion is only used to
// range over
refs := val.Referrers()
if refs == nil {
return true
}
// Expect two refs: one for obtaining the length of the slice,
// one for accessing the elements
if len(irutil.FilterDebug(*refs)) != 2 {
// TODO(dh): right now, we check that only one place
// refers to our slice. This will miss cases such as
// ranging over the slice twice. Ideally, we'd ensure that
// the slice is only used for ranging over (without
// accessing the key), but that is harder to do because in
// IR form, ranging over a slice looks like an ordinary
// loop with index increments and slice accesses. We'd
// have to look at the associated AST node to check that
// it's a range statement.
return true
}
pass.Reportf(rng.Pos(), "should range over string, not []rune(string)")
return true
}
if source := fn.Source(); source != nil {
ast.Inspect(source, cb)
}
}
return nil, nil
}
// RedundantTypeInDeclarationChecker returns a checker that flags variable declarations with redundantly specified types.
// That is, it flags 'var v T = e' where e's type is identical to T and 'var v = e' (or 'v := e') would have the same effect.
//
// It does not flag variables under the following conditions, to reduce the number of false positives:
// - global variables these often specify types to aid godoc
// - files that use cgo cgo code generation and pointer checking emits redundant types
//
// It does not flag variables under the following conditions, unless flagHelpfulTypes is true, to reduce the number of noisy positives:
// - packages that import syscall or unsafe these sometimes use this form of assignment to make sure types are as expected
// - variables named the blank identifier a pattern used to confirm the types of variables
// - named untyped constants on the rhs the explicitness might aid readability
func RedundantTypeInDeclarationChecker(verb string, flagHelpfulTypes bool) *analysis.Analyzer {
fn := func(pass *analysis.Pass) (interface{}, error) {
eval := func(expr ast.Expr) (types.TypeAndValue, error) {
info := &types.Info{
Types: map[ast.Expr]types.TypeAndValue{},
}
err := types.CheckExpr(pass.Fset, pass.Pkg, expr.Pos(), expr, info)
return info.Types[expr], err
}
if !flagHelpfulTypes {
// Don't look at code in low-level packages
for _, imp := range pass.Pkg.Imports() {
if imp.Path() == "syscall" || imp.Path() == "unsafe" {
return nil, nil
}
}
}
fn := func(node ast.Node) {
decl := node.(*ast.GenDecl)
if decl.Tok != token.VAR {
return
}
gen, _ := code.Generator(pass, decl.Pos())
if gen == facts.Cgo {
// TODO(dh): remove this exception once we can use UsesCgo
return
}
// Delay looking up parent AST nodes until we have to
checkedDecl := false
specLoop:
for _, spec := range decl.Specs {
spec := spec.(*ast.ValueSpec)
if spec.Type == nil {
continue
}
if len(spec.Names) != len(spec.Values) {
continue
}
Tlhs := pass.TypesInfo.TypeOf(spec.Type)
for i, v := range spec.Values {
if !flagHelpfulTypes && spec.Names[i].Name == "_" {
continue specLoop
}
Trhs := pass.TypesInfo.TypeOf(v)
if !types.Identical(Tlhs, Trhs) {
continue specLoop
}
// Some expressions are untyped and get converted to the lhs type implicitly.
// This applies to untyped constants, shift operations with an untyped lhs, and possibly others.
//
// Check if the type is truly redundant, i.e. if the type on the lhs doesn't match the default type of the untyped constant.
tv, err := eval(v)
if err != nil {
panic(err)
}
if b, ok := tv.Type.(*types.Basic); ok && (b.Info()&types.IsUntyped) != 0 {
switch v := v.(type) {
case *ast.Ident:
// Only flag named constant rhs if it's a predeclared identifier.
// Don't flag other named constants, as the explicit type may aid readability.
if pass.TypesInfo.ObjectOf(v).Pkg() != nil && !flagHelpfulTypes {
continue specLoop
}
case *ast.SelectorExpr:
// Constant selector expressions can only refer to named constants that arent predeclared.
if !flagHelpfulTypes {
continue specLoop
}
default:
// don't skip if the type on the lhs matches the default type of the constant
if Tlhs != types.Default(b) {
continue specLoop
}
}
}
}
if !checkedDecl {
// Don't flag global variables. These often have explicit types for godoc's sake.
path, _ := astutil.PathEnclosingInterval(code.File(pass, decl), decl.Pos(), decl.Pos())
pathLoop:
for _, el := range path {
switch el.(type) {
case *ast.FuncDecl, *ast.FuncLit:
checkedDecl = true
break pathLoop
}
}
if !checkedDecl {
// decl is not inside a function
break specLoop
}
}
report.Report(pass, spec.Type, fmt.Sprintf("%s omit type %s from declaration; it will be inferred from the right-hand side", verb, report.Render(pass, spec.Type)), report.FilterGenerated(),
report.Fixes(edit.Fix("Remove redundant type", edit.Delete(spec.Type))))
}
}
code.Preorder(pass, fn, (*ast.GenDecl)(nil))
return nil, nil
}
return &analysis.Analyzer{
Run: fn,
Requires: []*analysis.Analyzer{facts.Generated, inspect.Analyzer, facts.TokenFile, facts.Generated},
}
}