package rule import ( "fmt" "go/ast" "reflect" "sync" "github.com/mgechev/revive/lint" ) // FunctionLength lint. type FunctionLength struct { maxStmt int maxLines int sync.Mutex } func (r *FunctionLength) configure(arguments lint.Arguments) { r.Lock() if r.maxLines == 0 { maxStmt, maxLines := r.parseArguments(arguments) r.maxStmt = int(maxStmt) r.maxLines = int(maxLines) } r.Unlock() } // Apply applies the rule to given file. func (r *FunctionLength) Apply(file *lint.File, arguments lint.Arguments) []lint.Failure { r.configure(arguments) var failures []lint.Failure walker := lintFuncLength{ file: file, maxStmt: r.maxStmt, maxLines: r.maxLines, onFailure: func(failure lint.Failure) { failures = append(failures, failure) }, } ast.Walk(walker, file.AST) return failures } // Name returns the rule name. func (r *FunctionLength) Name() string { return "function-length" } func (r *FunctionLength) parseArguments(arguments lint.Arguments) (maxStmt, maxLines int64) { if len(arguments) != 2 { panic(fmt.Sprintf(`invalid configuration for "function-length" rule, expected 2 arguments but got %d`, len(arguments))) } maxStmt, maxStmtOk := arguments[0].(int64) if !maxStmtOk { panic(fmt.Sprintf(`invalid configuration value for max statements in "function-length" rule; need int64 but got %T`, arguments[0])) } if maxStmt < 0 { panic(fmt.Sprintf(`the configuration value for max statements in "function-length" rule cannot be negative, got %d`, maxStmt)) } maxLines, maxLinesOk := arguments[1].(int64) if !maxLinesOk { panic(fmt.Sprintf(`invalid configuration value for max lines in "function-length" rule; need int64 but got %T`, arguments[1])) } if maxLines < 0 { panic(fmt.Sprintf(`the configuration value for max statements in "function-length" rule cannot be negative, got %d`, maxLines)) } return } type lintFuncLength struct { file *lint.File maxStmt int maxLines int onFailure func(lint.Failure) } func (w lintFuncLength) Visit(n ast.Node) ast.Visitor { node, ok := n.(*ast.FuncDecl) if !ok { return w } body := node.Body if body == nil || len(node.Body.List) == 0 { return nil } if w.maxStmt > 0 { stmtCount := w.countStmts(node.Body.List) if stmtCount > w.maxStmt { w.onFailure(lint.Failure{ Confidence: 1, Failure: fmt.Sprintf("maximum number of statements per function exceeded; max %d but got %d", w.maxStmt, stmtCount), Node: node, }) } } if w.maxLines > 0 { lineCount := w.countLines(node.Body) if lineCount > w.maxLines { w.onFailure(lint.Failure{ Confidence: 1, Failure: fmt.Sprintf("maximum number of lines per function exceeded; max %d but got %d", w.maxLines, lineCount), Node: node, }) } } return nil } func (w lintFuncLength) countLines(b *ast.BlockStmt) int { return w.file.ToPosition(b.End()).Line - w.file.ToPosition(b.Pos()).Line - 1 } func (w lintFuncLength) countStmts(b []ast.Stmt) int { count := 0 for _, s := range b { switch stmt := s.(type) { case *ast.BlockStmt: count += w.countStmts(stmt.List) case *ast.IfStmt: count += 1 + w.countBodyListStmts(stmt) if stmt.Else != nil { elseBody, ok := stmt.Else.(*ast.BlockStmt) if ok { count += w.countStmts(elseBody.List) } } case *ast.ForStmt, *ast.RangeStmt, *ast.SwitchStmt, *ast.TypeSwitchStmt, *ast.SelectStmt: count += 1 + w.countBodyListStmts(stmt) case *ast.CaseClause: count += w.countStmts(stmt.Body) case *ast.AssignStmt: count += 1 + w.countFuncLitStmts(stmt.Rhs[0]) case *ast.GoStmt: count += 1 + w.countFuncLitStmts(stmt.Call.Fun) case *ast.DeferStmt: count += 1 + w.countFuncLitStmts(stmt.Call.Fun) default: count++ } } return count } func (w lintFuncLength) countFuncLitStmts(stmt ast.Expr) int { if block, ok := stmt.(*ast.FuncLit); ok { return w.countStmts(block.Body.List) } return 0 } func (w lintFuncLength) countBodyListStmts(t interface{}) int { i := reflect.ValueOf(t).Elem().FieldByName(`Body`).Elem().FieldByName(`List`).Interface() return w.countStmts(i.([]ast.Stmt)) }