package parser import ( "github/runnignwater/monkey/ast" "github/runnignwater/monkey/lexer" "testing" ) /** * @Author: simon * @Author: ynwdlxm@163.com * @Date: 2022/10/2 下午10:40 * @Desc: LetStatement test case */ func TestLetStatements(t *testing.T) { input := ` let x = 5; let y = 10; let foo = 838383; ` l := lexer.New(input) p := New(l) program := p.ParseProgram() checkParseErrors(t, p) if program == nil { t.Fatalf("ParseProgram() return nil") } if len(program.Statements) != 3 { t.Fatalf("Program.Statements does not contain 3 statements. got=%d", len(program.Statements)) } tests := []struct { expectedIdentifies string }{ {"x"}, {"y"}, {"foo"}, } for i, tt := range tests { stmt := program.Statements[i] if !testLetStatement(t, stmt, tt.expectedIdentifies) { return } } } func TestReturnStatements(t *testing.T) { input := ` return 5; return 10; return add(a,10); ` l := lexer.New(input) p := New(l) program := p.ParseProgram() checkParseErrors(t, p) if len(program.Statements) != 3 { t.Fatalf("Program.Statements does not contain 3 statements. got=%d", len(program.Statements)) } for _, stmt := range program.Statements { returnStmt, ok := stmt.(*ast.ReturnStatement) if !ok { t.Errorf("stmt not *ast.ReturnStatement. got=%T", stmt) continue } if returnStmt.TokenLiteral() != "return" { t.Errorf("returnStmt.TokenLiteral not 'return', got %q", returnStmt.TokenLiteral()) } } } func checkParseErrors(t *testing.T, p *Parser) { errors := p.errors if len(errors) == 0 { return } t.Errorf("parse has %d errors.", len(errors)) for _, msg := range errors { t.Errorf("parse error: %q", msg) } t.FailNow() } func testLetStatement(t *testing.T, s ast.Statement, name string) bool { if s.TokenLiteral() != "let" { t.Errorf("s.TokenLiteral() not 'let'. got =%q", s.TokenLiteral()) return false } letStmt, ok := s.(*ast.LetStatement) if !ok { t.Errorf("s is not *ast.LetStatement. got=%T", s) return false } if letStmt.Name.Value != name { t.Errorf("letStmt.Name.Value not '%s'. got=%s", name, letStmt.Name.Value) return false } if letStmt.Name.TokenLiteral() != name { t.Errorf("s.name not '%s. got=%s", name, letStmt.Name) return false } return true } func TestIdentifier(t *testing.T) { input := "foobar;" l := lexer.New(input) p := New(l) program := p.ParseProgram() checkParseErrors(t, p) if len(program.Statements) != 1 { t.Fatalf("program has not enough statements. got=%d", len(program.Statements)) } stmt, ok := program.Statements[0].(*ast.ExpressionStatement) if !ok { t.Fatalf("program.Statements[0] is not ast.ExpressionStatement. got=%T", program.Statements[0]) } ident, ok := stmt.Expression.(*ast.Identifier) if !ok { t.Fatalf("exp not *ast.Identifier. got=%T", stmt.Expression) } if ident.Value != "foobar" { t.Fatalf("ident.Value not %s. got=%s", "foobar", ident.Value) } if ident.TokenLiteral() != "foobar" { t.Errorf("ident.TokenLiteral() not %s. got=%s", "foobar", ident.TokenLiteral()) } } func TestIntegerLiteralExpression(t *testing.T) { input := "5;" l := lexer.New(input) p := New(l) program := p.ParseProgram() checkParseErrors(t, p) if len(program.Statements) != 1 { t.Fatalf("program has not enough statements. got=%d", len(program.Statements)) } stmt, ok := program.Statements[0].(*ast.ExpressionStatement) if !ok { t.Fatalf("program.Statements[0] is not ast.ExpressionStatement. got=%T", program.Statements[0]) } literal, ok := stmt.Expression.(*ast.IntegerLiteral) if !ok { t.Fatalf("exp not *ast.IntegerLiteral. got=%T", stmt.Expression) } if literal.Value != 5 { t.Errorf("literal.Value not %d. got=%d", 5, literal.Value) } if literal.TokenLiteral() != "5" { t.Errorf("literal.TokenLiteral not %s. got=%s", "5", literal.TokenLiteral()) } }