gopls/internal/golang/invertifcondition.go - tools - Git at Google

 // Copyright 2023 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 golang

 import (
 	"fmt"
 	"go/ast"
 	"go/token"
 	"go/types"
 	"strings"

 	"golang.org/x/tools/go/analysis"
 	"golang.org/x/tools/go/ast/astutil"
 	"golang.org/x/tools/gopls/internal/util/safetoken"
 )

 // invertIfCondition is a singleFileFixFunc that inverts an if/else statement
 func invertIfCondition(fset *token.FileSet, start, end token.Pos, src []byte, file *ast.File, _ *types.Package, _ *types.Info) (*token.FileSet, *analysis.SuggestedFix, error) {
 	ifStatement, _, err := canInvertIfCondition(file, start, end)
 	if err != nil {
 		return nil, nil, err
 	}

 	var replaceElse analysis.TextEdit

 	endsWithReturn, err := endsWithReturn(ifStatement.Else)
 	if err != nil {
 		return nil, nil, err
 	}

 	if endsWithReturn {
 		// Replace the whole else part with an empty line and an unindented
 		// version of the original if body
 		sourcePos := safetoken.StartPosition(fset, ifStatement.Pos())

 		indent := sourcePos.Column - 1
 		if indent < 0 {
 			indent = 0
 		}

 		standaloneBodyText := ifBodyToStandaloneCode(fset, ifStatement.Body, src)
 		replaceElse = analysis.TextEdit{
 			Pos:     ifStatement.Body.Rbrace + 1, // 1 == len("}")
 			End:     ifStatement.End(),
 			NewText: []byte("\n\n" + strings.Repeat("\t", indent) + standaloneBodyText),
 		}
 	} else {
 		// Replace the else body text with the if body text
 		bodyStart := safetoken.StartPosition(fset, ifStatement.Body.Lbrace)
 		bodyEnd := safetoken.EndPosition(fset, ifStatement.Body.Rbrace+1) // 1 == len("}")
 		bodyText := src[bodyStart.Offset:bodyEnd.Offset]
 		replaceElse = analysis.TextEdit{
 			Pos:     ifStatement.Else.Pos(),
 			End:     ifStatement.Else.End(),
 			NewText: bodyText,
 		}
 	}

 	// Replace the if text with the else text
 	elsePosInSource := safetoken.StartPosition(fset, ifStatement.Else.Pos())
 	elseEndInSource := safetoken.EndPosition(fset, ifStatement.Else.End())
 	elseText := src[elsePosInSource.Offset:elseEndInSource.Offset]
 	replaceBodyWithElse := analysis.TextEdit{
 		Pos:     ifStatement.Body.Pos(),
 		End:     ifStatement.Body.End(),
 		NewText: elseText,
 	}

 	// Replace the if condition with its inverse
 	inverseCondition, err := invertCondition(fset, ifStatement.Cond, src)
 	if err != nil {
 		return nil, nil, err
 	}
 	replaceConditionWithInverse := analysis.TextEdit{
 		Pos:     ifStatement.Cond.Pos(),
 		End:     ifStatement.Cond.End(),
 		NewText: inverseCondition,
 	}

 	// Return a SuggestedFix with just that TextEdit in there
 	return fset, &analysis.SuggestedFix{
 		TextEdits: []analysis.TextEdit{
 			replaceConditionWithInverse,
 			replaceBodyWithElse,
 			replaceElse,
 		},
 	}, nil
 }

 func endsWithReturn(elseBranch ast.Stmt) (bool, error) {
 	elseBlock, isBlockStatement := elseBranch.(*ast.BlockStmt)
 	if !isBlockStatement {
 		return false, fmt.Errorf("unable to figure out whether this ends with return: %T", elseBranch)
 	}

 	if len(elseBlock.List) == 0 {
 		// Empty blocks don't end in returns
 		return false, nil
 	}

 	lastStatement := elseBlock.List[len(elseBlock.List)-1]

 	_, lastStatementIsReturn := lastStatement.(*ast.ReturnStmt)
 	return lastStatementIsReturn, nil
 }

 // Turn { fmt.Println("Hello") } into just fmt.Println("Hello"), with one less
 // level of indentation.
 //
 // The first line of the result will not be indented, but all of the following
 // lines will.
 func ifBodyToStandaloneCode(fset *token.FileSet, ifBody *ast.BlockStmt, src []byte) string {
 	// Get the whole body (without the surrounding braces) as a string
 	bodyStart := safetoken.StartPosition(fset, ifBody.Lbrace+1) // 1 == len("}")
 	bodyEnd := safetoken.EndPosition(fset, ifBody.Rbrace)
 	bodyWithoutBraces := string(src[bodyStart.Offset:bodyEnd.Offset])
 	bodyWithoutBraces = strings.TrimSpace(bodyWithoutBraces)

 	// Unindent
 	bodyWithoutBraces = strings.ReplaceAll(bodyWithoutBraces, "\n\t", "\n")

 	return bodyWithoutBraces
 }

 func invertCondition(fset *token.FileSet, cond ast.Expr, src []byte) ([]byte, error) {
 	condStart := safetoken.StartPosition(fset, cond.Pos())
 	condEnd := safetoken.EndPosition(fset, cond.End())
 	oldText := string(src[condStart.Offset:condEnd.Offset])

 	switch expr := cond.(type) {
 	case *ast.Ident, *ast.ParenExpr, *ast.CallExpr, *ast.StarExpr, *ast.IndexExpr, *ast.IndexListExpr, *ast.SelectorExpr:
 		newText := "!" + oldText
 		if oldText == "true" {
 			newText = "false"
 		} else if oldText == "false" {
 			newText = "true"
 		}

 		return []byte(newText), nil

 	case *ast.UnaryExpr:
 		if expr.Op != token.NOT {
 			// This should never happen
 			return dumbInvert(fset, cond, src), nil
 		}

 		inverse := expr.X
 		if p, isParen := inverse.(*ast.ParenExpr); isParen {
 			// We got !(x), remove the parentheses with the ! so we get just "x"
 			inverse = p.X

 			start := safetoken.StartPosition(fset, inverse.Pos())
 			end := safetoken.EndPosition(fset, inverse.End())
 			if start.Line != end.Line {
 				// The expression is multi-line, so we can't remove the parentheses
 				inverse = expr.X
 			}
 		}

 		start := safetoken.StartPosition(fset, inverse.Pos())
 		end := safetoken.EndPosition(fset, inverse.End())
 		textWithoutNot := src[start.Offset:end.Offset]

 		return textWithoutNot, nil

 	case *ast.BinaryExpr:
 		// These inversions are unsound for floating point NaN, but that's ok.
 		negations := map[token.Token]string{
 			token.EQL: "!=",
 			token.LSS: ">=",
 			token.GTR: "<=",
 			token.NEQ: "==",
 			token.LEQ: ">",
 			token.GEQ: "<",
 		}

 		negation, negationFound := negations[expr.Op]
 		if !negationFound {
 			return invertAndOr(fset, expr, src)
 		}

 		xPosInSource := safetoken.StartPosition(fset, expr.X.Pos())
 		opPosInSource := safetoken.StartPosition(fset, expr.OpPos)
 		yPosInSource := safetoken.StartPosition(fset, expr.Y.Pos())

 		textBeforeOp := string(src[xPosInSource.Offset:opPosInSource.Offset])

 		oldOpWithTrailingWhitespace := string(src[opPosInSource.Offset:yPosInSource.Offset])
 		newOpWithTrailingWhitespace := negation + oldOpWithTrailingWhitespace[len(expr.Op.String()):]

 		textAfterOp := string(src[yPosInSource.Offset:condEnd.Offset])

 		return []byte(textBeforeOp + newOpWithTrailingWhitespace + textAfterOp), nil
 	}

 	return dumbInvert(fset, cond, src), nil
 }

 // dumbInvert is a fallback, inverting cond into !(cond).
 func dumbInvert(fset *token.FileSet, expr ast.Expr, src []byte) []byte {
 	start := safetoken.StartPosition(fset, expr.Pos())
 	end := safetoken.EndPosition(fset, expr.End())
 	text := string(src[start.Offset:end.Offset])
 	return []byte("!(" + text + ")")
 }

 func invertAndOr(fset *token.FileSet, expr *ast.BinaryExpr, src []byte) ([]byte, error) {
 	if expr.Op != token.LAND && expr.Op != token.LOR {
 		// Neither AND nor OR, don't know how to invert this
 		return dumbInvert(fset, expr, src), nil
 	}

 	oppositeOp := "&&"
 	if expr.Op == token.LAND {
 		oppositeOp = "||"
 	}

 	xEndInSource := safetoken.EndPosition(fset, expr.X.End())
 	opPosInSource := safetoken.StartPosition(fset, expr.OpPos)
 	whitespaceAfterBefore := src[xEndInSource.Offset:opPosInSource.Offset]

 	invertedBefore, err := invertCondition(fset, expr.X, src)
 	if err != nil {
 		return nil, err
 	}

 	invertedAfter, err := invertCondition(fset, expr.Y, src)
 	if err != nil {
 		return nil, err
 	}

 	yPosInSource := safetoken.StartPosition(fset, expr.Y.Pos())

 	oldOpWithTrailingWhitespace := string(src[opPosInSource.Offset:yPosInSource.Offset])
 	newOpWithTrailingWhitespace := oppositeOp + oldOpWithTrailingWhitespace[len(expr.Op.String()):]

 	return []byte(string(invertedBefore) + string(whitespaceAfterBefore) + newOpWithTrailingWhitespace + string(invertedAfter)), nil
 }

 // canInvertIfCondition reports whether we can do invert-if-condition on the
 // code in the given range
 func canInvertIfCondition(file *ast.File, start, end token.Pos) (*ast.IfStmt, bool, error) {
 	path, _ := astutil.PathEnclosingInterval(file, start, end)
 	for _, node := range path {
 		stmt, isIfStatement := node.(*ast.IfStmt)
 		if !isIfStatement {
 			continue
 		}

 		if stmt.Else == nil {
 			// Can't invert conditions without else clauses
 			return nil, false, fmt.Errorf("else clause required")
 		}

 		if _, hasElseIf := stmt.Else.(*ast.IfStmt); hasElseIf {
 			// Can't invert conditions with else-if clauses, unclear what that
 			// would look like
 			return nil, false, fmt.Errorf("else-if not supported")
 		}

 		return stmt, true, nil
 	}

 	return nil, false, fmt.Errorf("not an if statement")
 }
	// Copyright 2023 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 golang

	import (
	"fmt"
	"go/ast"
	"go/token"
	"go/types"
	"strings"

	"golang.org/x/tools/go/analysis"
	"golang.org/x/tools/go/ast/astutil"
	"golang.org/x/tools/gopls/internal/util/safetoken"
	)

	// invertIfCondition is a singleFileFixFunc that inverts an if/else statement
	func invertIfCondition(fset token.FileSet, start, end token.Pos, src []byte, file ast.File, _ types.Package, _ types.Info) (token.FileSet, analysis.SuggestedFix, error) {
	ifStatement, _, err := canInvertIfCondition(file, start, end)
	if err != nil {
	return nil, nil, err
	}

	var replaceElse analysis.TextEdit

	endsWithReturn, err := endsWithReturn(ifStatement.Else)
	if err != nil {
	return nil, nil, err
	}

	if endsWithReturn {
	// Replace the whole else part with an empty line and an unindented
	// version of the original if body
	sourcePos := safetoken.StartPosition(fset, ifStatement.Pos())

	indent := sourcePos.Column - 1
	if indent < 0 {
	indent = 0
	}

	standaloneBodyText := ifBodyToStandaloneCode(fset, ifStatement.Body, src)
	replaceElse = analysis.TextEdit{
	Pos: ifStatement.Body.Rbrace + 1, // 1 == len("}")
	End: ifStatement.End(),
	NewText: []byte("\n\n" + strings.Repeat("\t", indent) + standaloneBodyText),
	}
	} else {
	// Replace the else body text with the if body text
	bodyStart := safetoken.StartPosition(fset, ifStatement.Body.Lbrace)
	bodyEnd := safetoken.EndPosition(fset, ifStatement.Body.Rbrace+1) // 1 == len("}")
	bodyText := src[bodyStart.Offset:bodyEnd.Offset]
	replaceElse = analysis.TextEdit{
	Pos: ifStatement.Else.Pos(),
	End: ifStatement.Else.End(),
	NewText: bodyText,
	}
	}

	// Replace the if text with the else text
	elsePosInSource := safetoken.StartPosition(fset, ifStatement.Else.Pos())
	elseEndInSource := safetoken.EndPosition(fset, ifStatement.Else.End())
	elseText := src[elsePosInSource.Offset:elseEndInSource.Offset]
	replaceBodyWithElse := analysis.TextEdit{
	Pos: ifStatement.Body.Pos(),
	End: ifStatement.Body.End(),
	NewText: elseText,
	}

	// Replace the if condition with its inverse
	inverseCondition, err := invertCondition(fset, ifStatement.Cond, src)
	if err != nil {
	return nil, nil, err
	}
	replaceConditionWithInverse := analysis.TextEdit{
	Pos: ifStatement.Cond.Pos(),
	End: ifStatement.Cond.End(),
	NewText: inverseCondition,
	}

	// Return a SuggestedFix with just that TextEdit in there
	return fset, &analysis.SuggestedFix{
	TextEdits: []analysis.TextEdit{
	replaceConditionWithInverse,
	replaceBodyWithElse,
	replaceElse,
	},
	}, nil
	}

	func endsWithReturn(elseBranch ast.Stmt) (bool, error) {
	elseBlock, isBlockStatement := elseBranch.(*ast.BlockStmt)
	if !isBlockStatement {
	return false, fmt.Errorf("unable to figure out whether this ends with return: %T", elseBranch)
	}

	if len(elseBlock.List) == 0 {
	// Empty blocks don't end in returns
	return false, nil
	}

	lastStatement := elseBlock.List[len(elseBlock.List)-1]

	_, lastStatementIsReturn := lastStatement.(*ast.ReturnStmt)
	return lastStatementIsReturn, nil
	}

	// Turn { fmt.Println("Hello") } into just fmt.Println("Hello"), with one less
	// level of indentation.
	//
	// The first line of the result will not be indented, but all of the following
	// lines will.
	func ifBodyToStandaloneCode(fset token.FileSet, ifBody ast.BlockStmt, src []byte) string {
	// Get the whole body (without the surrounding braces) as a string
	bodyStart := safetoken.StartPosition(fset, ifBody.Lbrace+1) // 1 == len("}")
	bodyEnd := safetoken.EndPosition(fset, ifBody.Rbrace)
	bodyWithoutBraces := string(src[bodyStart.Offset:bodyEnd.Offset])
	bodyWithoutBraces = strings.TrimSpace(bodyWithoutBraces)

	// Unindent
	bodyWithoutBraces = strings.ReplaceAll(bodyWithoutBraces, "\n\t", "\n")

	return bodyWithoutBraces
	}

	func invertCondition(fset *token.FileSet, cond ast.Expr, src []byte) ([]byte, error) {
	condStart := safetoken.StartPosition(fset, cond.Pos())
	condEnd := safetoken.EndPosition(fset, cond.End())
	oldText := string(src[condStart.Offset:condEnd.Offset])

	switch expr := cond.(type) {
	case ast.Ident, ast.ParenExpr, ast.CallExpr, ast.StarExpr, ast.IndexExpr, ast.IndexListExpr, *ast.SelectorExpr:
	newText := "!" + oldText
	if oldText == "true" {
	newText = "false"
	} else if oldText == "false" {
	newText = "true"
	}

	return []byte(newText), nil

	case *ast.UnaryExpr:
	if expr.Op != token.NOT {
	// This should never happen
	return dumbInvert(fset, cond, src), nil
	}

	inverse := expr.X
	if p, isParen := inverse.(*ast.ParenExpr); isParen {
	// We got !(x), remove the parentheses with the ! so we get just "x"
	inverse = p.X

	start := safetoken.StartPosition(fset, inverse.Pos())
	end := safetoken.EndPosition(fset, inverse.End())
	if start.Line != end.Line {
	// The expression is multi-line, so we can't remove the parentheses
	inverse = expr.X
	}
	}

	start := safetoken.StartPosition(fset, inverse.Pos())
	end := safetoken.EndPosition(fset, inverse.End())
	textWithoutNot := src[start.Offset:end.Offset]

	return textWithoutNot, nil

	case *ast.BinaryExpr:
	// These inversions are unsound for floating point NaN, but that's ok.
	negations := map[token.Token]string{
	token.EQL: "!=",
	token.LSS: ">=",
	token.GTR: "<=",
	token.NEQ: "==",
	token.LEQ: ">",
	token.GEQ: "<",
	}

	negation, negationFound := negations[expr.Op]
	if !negationFound {
	return invertAndOr(fset, expr, src)
	}

	xPosInSource := safetoken.StartPosition(fset, expr.X.Pos())
	opPosInSource := safetoken.StartPosition(fset, expr.OpPos)
	yPosInSource := safetoken.StartPosition(fset, expr.Y.Pos())

	textBeforeOp := string(src[xPosInSource.Offset:opPosInSource.Offset])

	oldOpWithTrailingWhitespace := string(src[opPosInSource.Offset:yPosInSource.Offset])
	newOpWithTrailingWhitespace := negation + oldOpWithTrailingWhitespace[len(expr.Op.String()):]

	textAfterOp := string(src[yPosInSource.Offset:condEnd.Offset])

	return []byte(textBeforeOp + newOpWithTrailingWhitespace + textAfterOp), nil
	}

	return dumbInvert(fset, cond, src), nil
	}

	// dumbInvert is a fallback, inverting cond into !(cond).
	func dumbInvert(fset *token.FileSet, expr ast.Expr, src []byte) []byte {
	start := safetoken.StartPosition(fset, expr.Pos())
	end := safetoken.EndPosition(fset, expr.End())
	text := string(src[start.Offset:end.Offset])
	return []byte("!(" + text + ")")
	}

	func invertAndOr(fset token.FileSet, expr ast.BinaryExpr, src []byte) ([]byte, error) {
	if expr.Op != token.LAND && expr.Op != token.LOR {
	// Neither AND nor OR, don't know how to invert this
	return dumbInvert(fset, expr, src), nil
	}

	oppositeOp := "&&"
	if expr.Op == token.LAND {
	oppositeOp = "\|\|"
	}

	xEndInSource := safetoken.EndPosition(fset, expr.X.End())
	opPosInSource := safetoken.StartPosition(fset, expr.OpPos)
	whitespaceAfterBefore := src[xEndInSource.Offset:opPosInSource.Offset]

	invertedBefore, err := invertCondition(fset, expr.X, src)
	if err != nil {
	return nil, err
	}

	invertedAfter, err := invertCondition(fset, expr.Y, src)
	if err != nil {
	return nil, err
	}

	yPosInSource := safetoken.StartPosition(fset, expr.Y.Pos())

	oldOpWithTrailingWhitespace := string(src[opPosInSource.Offset:yPosInSource.Offset])
	newOpWithTrailingWhitespace := oppositeOp + oldOpWithTrailingWhitespace[len(expr.Op.String()):]

	return []byte(string(invertedBefore) + string(whitespaceAfterBefore) + newOpWithTrailingWhitespace + string(invertedAfter)), nil
	}

	// canInvertIfCondition reports whether we can do invert-if-condition on the
	// code in the given range
	func canInvertIfCondition(file ast.File, start, end token.Pos) (ast.IfStmt, bool, error) {
	path, _ := astutil.PathEnclosingInterval(file, start, end)
	for _, node := range path {
	stmt, isIfStatement := node.(*ast.IfStmt)
	if !isIfStatement {
	continue
	}

	if stmt.Else == nil {
	// Can't invert conditions without else clauses
	return nil, false, fmt.Errorf("else clause required")
	}

	if _, hasElseIf := stmt.Else.(*ast.IfStmt); hasElseIf {
	// Can't invert conditions with else-if clauses, unclear what that
	// would look like
	return nil, false, fmt.Errorf("else-if not supported")
	}

	return stmt, true, nil
	}

	return nil, false, fmt.Errorf("not an if statement")
	}