package printer_test import ( "bytes" "testing" "github.com/z7zmey/php-parser/node" "github.com/z7zmey/php-parser/node/expr" "github.com/z7zmey/php-parser/node/expr/assign" "github.com/z7zmey/php-parser/node/expr/binary" "github.com/z7zmey/php-parser/node/expr/cast" "github.com/z7zmey/php-parser/node/name" "github.com/z7zmey/php-parser/node/scalar" "github.com/z7zmey/php-parser/node/stmt" "github.com/z7zmey/php-parser/printer" ) func TestPrintFile(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, "\t") p.PrintFile(&stmt.StmtList{ Stmts: []node.Node{ &stmt.Namespace{ NamespaceName: &name.Name{ Parts: []node.Node{ &name.NamePart{Value: "Foo"}, }, }, }, &stmt.Class{ Modifiers: []node.Node{&node.Identifier{Value: "abstract"}}, ClassName: &name.Name{ Parts: []node.Node{ &name.NamePart{Value: "Bar"}, }, }, Extends: &name.Name{ Parts: []node.Node{ &name.NamePart{Value: "Baz"}, }, }, Stmts: []node.Node{ &stmt.ClassMethod{ Modifiers: []node.Node{&node.Identifier{Value: "public"}}, MethodName: &node.Identifier{Value: "greet"}, Stmts: []node.Node{ &stmt.Echo{ Exprs: []node.Node{ &scalar.String{Value: "'Hello world'"}, }, }, }, }, }, }, }, }) expected := `HTML"}, &stmt.Expression{ Expr: &scalar.Heredoc{ Label: "\"LBL\"", Parts: []node.Node{ &scalar.EncapsedStringPart{Value: "hello world\n"}, }, }, }, }, }) expected := `

HTML

>= $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } // binary func TestPrintBinaryBitwiseAnd(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.BitwiseAnd{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a & $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryBitwiseOr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.BitwiseOr{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a | $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryBitwiseXor(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.BitwiseXor{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a ^ $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryBooleanAnd(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.BooleanAnd{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a && $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryBooleanOr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.BooleanOr{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a || $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryCoalesce(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Coalesce{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a ?? $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryConcat(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Concat{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a . $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryDiv(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Div{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a / $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryEqual(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Equal{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a == $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryGreaterOrEqual(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.GreaterOrEqual{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a >= $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryGreater(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Greater{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a > $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryIdentical(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Identical{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a === $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryLogicalAnd(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.LogicalAnd{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a and $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryLogicalOr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.LogicalOr{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a or $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryLogicalXor(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.LogicalXor{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a xor $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryMinus(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Minus{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a - $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryMod(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Mod{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a % $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryMul(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Mul{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a * $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryNotEqual(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.NotEqual{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a != $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryNotIdentical(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.NotIdentical{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a !== $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryPlus(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Plus{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a + $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryPow(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Pow{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a ** $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryShiftLeft(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.ShiftLeft{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a << $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinaryShiftRight(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.ShiftRight{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a >> $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinarySmallerOrEqual(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.SmallerOrEqual{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a <= $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinarySmaller(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Smaller{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a < $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBinarySpaceship(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&binary.Spaceship{ Left: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Right: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a <=> $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } // cast func TestPrintArray(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.Array{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(array)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintBool(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.Bool{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(bool)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintDouble(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.Double{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(float)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintInt(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.Int{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(int)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintObject(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.Object{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(object)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintString(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.String{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(string)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintUnset(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&cast.Unset{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `(unset)$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } // expr func TestPrintExprArrayDimFetch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ArrayDimFetch{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, Dim: &scalar.Lnumber{Value: "1"}, }) expected := `$var[1]` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprArrayItemWithKey(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ArrayItem{ ByRef: false, Key: &scalar.String{Value: "'Hello'"}, Val: &expr.Variable{VarName: &node.Identifier{Value: "world"}}, }) expected := `'Hello' => $world` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprArrayItem(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ArrayItem{ ByRef: true, Val: &expr.Variable{VarName: &node.Identifier{Value: "world"}}, }) expected := `&$world` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprArray(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Array{ Items: []node.Node{ &expr.ArrayItem{ ByRef: false, Key: &scalar.String{Value: "'Hello'"}, Val: &expr.Variable{VarName: &node.Identifier{Value: "world"}}, }, &expr.ArrayItem{ ByRef: true, Key: &scalar.Lnumber{Value: "2"}, Val: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }, &expr.ArrayItem{ ByRef: false, Val: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }, }, }) expected := `array('Hello' => $world, 2 => &$var, $var)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprBitwiseNot(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.BitwiseNot{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `~$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprBooleanNot(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.BooleanNot{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `!$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprClassConstFetch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ClassConstFetch{ Class: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, ConstantName: &node.Identifier{Value: "CONST"}, }) expected := `$var::CONST` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprClone(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Clone{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `clone $var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprClosureUse(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ClosureUse{ ByRef: true, Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `&$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprClosure(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &expr.Closure{ Static: true, ReturnsRef: true, Params: []node.Node{ &node.Parameter{ ByRef: true, Variadic: false, Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }, }, Uses: []node.Node{ &expr.ClosureUse{ ByRef: true, Variable: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &expr.ClosureUse{ ByRef: false, Variable: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, ReturnType: &name.FullyQualified{Parts: []node.Node{&name.NamePart{Value: "Foo"}}}, Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }, }, }) expected := `namespace { static function &(&$var) use (&$a, $b): \Foo { $a; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprConstFetch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ConstFetch{ Constant: &name.Name{Parts: []node.Node{&name.NamePart{Value: "null"}}}, }) expected := "null" actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintDie(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Die{Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `die($var)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintEmpty(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Empty{Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `empty($var)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintErrorSuppress(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ErrorSuppress{Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `@$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintEval(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Eval{Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `eval($var)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExit(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Exit{Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `exit($var)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintFunctionCall(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.FunctionCall{ Function: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, ArgumentList: &node.ArgumentList{ Arguments: []node.Node{ &node.Argument{ IsReference: true, Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &node.Argument{ Variadic: true, Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }, }, }, }) expected := `$var(&$a, ...$b, $c)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintInclude(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Include{Expr: &scalar.String{Value: "'path'"}}) expected := `include 'path'` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintIncludeOnce(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.IncludeOnce{Expr: &scalar.String{Value: "'path'"}}) expected := `include_once 'path'` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintInstanceOf(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.InstanceOf{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, Class: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}}, }) expected := `$var instanceof Foo` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintIsset(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Isset{ Variables: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }) expected := `isset($a, $b)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintList(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.List{ Items: []node.Node{ &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &expr.ArrayItem{ Val: &expr.List{ Items: []node.Node{ &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }, }, }, }, }, }) expected := `list($a, list($b, $c))` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintMethodCall(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.MethodCall{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "foo"}}, Method: &node.Identifier{Value: "bar"}, ArgumentList: &node.ArgumentList{ Arguments: []node.Node{ &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, }, }) expected := `$foo->bar($a, $b)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintNew(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.New{ Class: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}}, ArgumentList: &node.ArgumentList{ Arguments: []node.Node{ &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, }, }) expected := `new Foo($a, $b)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintPostDec(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.PostDec{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `$var--` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintPostInc(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.PostInc{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `$var++` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintPreDec(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.PreDec{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `--$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintPreInc(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.PreInc{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `++$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintPrint(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Print{Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `print($var)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintPropertyFetch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.PropertyFetch{ Variable: &expr.Variable{VarName: &node.Identifier{Value: "foo"}}, Property: &node.Identifier{Value: "bar"}, }) expected := `$foo->bar` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintRequire(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Require{Expr: &scalar.String{Value: "'path'"}}) expected := `require 'path'` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintRequireOnce(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.RequireOnce{Expr: &scalar.String{Value: "'path'"}}) expected := `require_once 'path'` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintShellExec(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ShellExec{ Parts: []node.Node{ &scalar.EncapsedStringPart{Value: "hello "}, &expr.Variable{VarName: &node.Identifier{Value: "world"}}, &scalar.EncapsedStringPart{Value: "!"}, }, }) expected := "`hello $world!`" actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExprShortArray(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ShortArray{ Items: []node.Node{ &expr.ArrayItem{ Key: &scalar.String{Value: "'Hello'"}, Val: &expr.Variable{VarName: &node.Identifier{Value: "world"}}, }, &expr.ArrayItem{ ByRef: true, Key: &scalar.Lnumber{Value: "2"}, Val: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }, &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }, }, }) expected := `['Hello' => $world, 2 => &$var, $var]` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintShortList(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.ShortList{ Items: []node.Node{ &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &expr.ArrayItem{ Val: &expr.List{ Items: []node.Node{ &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, &expr.ArrayItem{ Val: &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }, }, }, }, }, }) expected := `[$a, list($b, $c)]` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStaticCall(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.StaticCall{ Class: &node.Identifier{Value: "Foo"}, Call: &node.Identifier{Value: "bar"}, ArgumentList: &node.ArgumentList{ Arguments: []node.Node{ &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, }, }) expected := `Foo::bar($a, $b)` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStaticPropertyFetch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.StaticPropertyFetch{ Class: &node.Identifier{Value: "Foo"}, Property: &expr.Variable{VarName: &node.Identifier{Value: "bar"}}, }) expected := `Foo::$bar` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintTernary(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Ternary{ Condition: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, IfFalse: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }) expected := `$a ?: $b` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintTernaryFull(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Ternary{ Condition: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, IfTrue: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, IfFalse: &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }) expected := `$a ? $b : $c` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintUnaryMinus(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.UnaryMinus{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `-$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintUnaryPlus(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.UnaryPlus{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `+$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintVariable(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Variable{VarName: &expr.Variable{VarName: &node.Identifier{Value: "var"}}}) expected := `$$var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintYieldFrom(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.YieldFrom{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `yield from $var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintYield(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Yield{ Value: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `yield $var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintYieldFull(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&expr.Yield{ Key: &expr.Variable{VarName: &node.Identifier{Value: "k"}}, Value: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }) expected := `yield $k => $var` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } // stmt func TestPrintAltElseIf(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.AltElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}}, }, }, }) expected := `elseif ($a) : $b;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltElseIfEmpty(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.AltElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.StmtList{}, }) expected := `elseif ($a) :` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltElse(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.AltElse{ Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}}, }, }, }) expected := `else : $b;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltElseEmpty(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.AltElse{ Stmt: &stmt.StmtList{}, }) expected := `else :` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltFor(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.AltFor{ Init: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, Cond: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, Loop: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "d"}}}, }, }, }, }, }) expected := `namespace { for ($a; $b; $c) : $d; endfor; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltForeach(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.AltForeach{ ByRef: true, Expr: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, Key: &expr.Variable{VarName: &node.Identifier{Value: "key"}}, Variable: &expr.Variable{VarName: &node.Identifier{Value: "val"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "d"}}}, }, }, }, }, }) expected := `namespace { foreach ($var as $key => &$val) : $d; endforeach; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltIf(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.AltIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "d"}}}, }, }, ElseIf: []node.Node{ &stmt.AltElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}}, }, }, }, &stmt.AltElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "c"}}, Stmt: &stmt.StmtList{}, }, }, Else: &stmt.AltElse{ Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}}, }, }, }, }, }, }) expected := `namespace { if ($a) : $d; elseif ($b) : $b; elseif ($c) : else : $b; endif; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtAltSwitch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.AltSwitch{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, Cases: []node.Node{ &stmt.Case{ Cond: &scalar.String{Value: "'a'"}, Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }, &stmt.Case{ Cond: &scalar.String{Value: "'b'"}, Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}}, }, }, }, }, }, }) expected := `namespace { switch ($var) : case 'a': $a; case 'b': $b; endswitch; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintAltWhile(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.AltWhile{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}}, }, }, }, }, }) expected := `namespace { while ($a) : $b; endwhile; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtBreak(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Break{ Expr: &scalar.Lnumber{Value: "1"}, }) expected := "break 1;" actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtCase(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Case{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }) expected := `case $a: $a;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtCaseEmpty(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Case{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmts: []node.Node{}, }) expected := "case $a:" actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtCatch(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Catch{ Types: []node.Node{ &name.Name{Parts: []node.Node{&name.NamePart{Value: "Exception"}}}, &name.FullyQualified{Parts: []node.Node{&name.NamePart{Value: "RuntimeException"}}}, }, Variable: &expr.Variable{VarName: &node.Identifier{Value: "e"}}, Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }, }, }) expected := `namespace { catch (Exception | \RuntimeException $e) { $a; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtClassMethod(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.ClassMethod{ Modifiers: []node.Node{&node.Identifier{Value: "public"}}, ReturnsRef: true, MethodName: &node.Identifier{Value: "foo"}, Params: []node.Node{ &node.Parameter{ ByRef: true, VariableType: &node.Nullable{Expr: &name.Name{Parts: []node.Node{&name.NamePart{Value: "int"}}}}, Variable: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, DefaultValue: &expr.ConstFetch{Constant: &name.Name{Parts: []node.Node{&name.NamePart{Value: "null"}}}}, }, &node.Parameter{ Variadic: true, Variable: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, ReturnType: &name.Name{Parts: []node.Node{&name.NamePart{Value: "void"}}}, Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }) expected := `public function &foo(?int &$a = null, ...$b): void { $a; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtClass(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Class{ Modifiers: []node.Node{&node.Identifier{Value: "abstract"}}, ClassName: &node.Identifier{Value: "Foo"}, Extends: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}}, Implements: []node.Node{ &name.Name{Parts: []node.Node{&name.NamePart{Value: "Baz"}}}, &name.Name{Parts: []node.Node{&name.NamePart{Value: "Quuz"}}}, }, Stmts: []node.Node{ &stmt.ClassConstList{ Modifiers: []node.Node{&node.Identifier{Value: "public"}}, Consts: []node.Node{ &stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'bar'"}, }, }, }, }, }, }, }) expected := `namespace { abstract class Foo extends Bar implements Baz, Quuz { public const FOO = 'bar'; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtAnonymousClass(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Class{ Modifiers: []node.Node{&node.Identifier{Value: "abstract"}}, ArgumentList: &node.ArgumentList{ Arguments: []node.Node{ &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, &node.Argument{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, }, Extends: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}}, Implements: []node.Node{ &name.Name{Parts: []node.Node{&name.NamePart{Value: "Baz"}}}, &name.Name{Parts: []node.Node{&name.NamePart{Value: "Quuz"}}}, }, Stmts: []node.Node{ &stmt.ClassConstList{ Modifiers: []node.Node{&node.Identifier{Value: "public"}}, Consts: []node.Node{ &stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'bar'"}, }, }, }, }, }, }, }) expected := `namespace { abstract class($a, $b) extends Bar implements Baz, Quuz { public const FOO = 'bar'; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtClassConstList(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.ClassConstList{ Modifiers: []node.Node{&node.Identifier{Value: "public"}}, Consts: []node.Node{ &stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'a'"}, }, &stmt.Constant{ ConstantName: &node.Identifier{Value: "BAR"}, Expr: &scalar.String{Value: "'b'"}, }, }, }) expected := `public const FOO = 'a', BAR = 'b';` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtConstant(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'BAR'"}, }) expected := "FOO = 'BAR'" actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtContinue(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Continue{ Expr: &scalar.Lnumber{Value: "1"}, }) expected := `continue 1;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDeclareStmts(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.StmtList{ Stmts: []node.Node{ &stmt.Declare{ Consts: []node.Node{ &stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'bar'"}, }, }, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Nop{}, }, }, }, }, }) expected := `{ declare(FOO = 'bar') { ; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDeclareExpr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.StmtList{ Stmts: []node.Node{ &stmt.Declare{ Consts: []node.Node{ &stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'bar'"}, }, }, Stmt: &stmt.Expression{Expr: &scalar.String{Value: "'bar'"}}, }, }, }) expected := `{ declare(FOO = 'bar') 'bar'; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDeclareNop(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Declare{ Consts: []node.Node{ &stmt.Constant{ ConstantName: &node.Identifier{Value: "FOO"}, Expr: &scalar.String{Value: "'bar'"}, }, }, Stmt: &stmt.Nop{}, }) expected := `declare(FOO = 'bar');` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDefalut(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Default{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }) expected := `default: $a;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDefalutEmpty(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Default{ Stmts: []node.Node{}, }) expected := `default:` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDo_Expression(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Do{ Cond: &scalar.Lnumber{Value: "1"}, Stmt: &stmt.Expression{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, }, }, }) expected := `namespace { do $a; while (1); }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtDo_StmtList(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Do{ Cond: &scalar.Lnumber{Value: "1"}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}, }, }, }, }, }) expected := `namespace { do { $a; } while (1); }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtEcho(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Echo{ Exprs: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }) expected := `echo $a, $b;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtElseIfStmts(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.ElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Nop{}, }, }, }) expected := `elseif ($a) { ; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtElseIfExpr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.ElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.Expression{Expr: &scalar.String{Value: "'bar'"}}, }) expected := `elseif ($a) 'bar';` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtElseIfNop(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.ElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.Nop{}, }) expected := `elseif ($a);` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtElseStmts(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Else{ Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Nop{}, }, }, }) expected := `else { ; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtElseExpr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Else{ Stmt: &stmt.Expression{Expr: &scalar.String{Value: "'bar'"}}, }) expected := `else 'bar';` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtElseNop(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Else{ Stmt: &stmt.Nop{}, }) expected := `else;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintExpression(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Expression{Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}}) expected := `$a;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtFinally(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Finally{ Stmts: []node.Node{ &stmt.Nop{}, }, }, }, }) expected := `namespace { finally { ; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtForStmts(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.For{ Init: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, Cond: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "c"}}, &expr.Variable{VarName: &node.Identifier{Value: "d"}}, }, Loop: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "e"}}, &expr.Variable{VarName: &node.Identifier{Value: "f"}}, }, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Nop{}, }, }, }, }, }) expected := `namespace { for ($a, $b; $c, $d; $e, $f) { ; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtForExpr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.For{ Init: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, Cond: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, Loop: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }, Stmt: &stmt.Expression{Expr: &scalar.String{Value: "'bar'"}}, }, }, }) expected := `namespace { for ($a; $b; $c) 'bar'; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtForNop(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.For{ Init: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, }, Cond: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, Loop: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "c"}}, }, Stmt: &stmt.Nop{}, }) expected := `for ($a; $b; $c);` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtForeachStmts(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Foreach{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Variable: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Nop{}, }, }, }, }, }) expected := `namespace { foreach ($a as $b) { ; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtForeachExpr(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Foreach{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Key: &expr.Variable{VarName: &node.Identifier{Value: "k"}}, Variable: &expr.Variable{VarName: &node.Identifier{Value: "v"}}, Stmt: &stmt.Expression{Expr: &scalar.String{Value: "'bar'"}}, }, }, }) expected := `namespace { foreach ($a as $k => $v) 'bar'; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtForeachNop(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Foreach{ ByRef: true, Expr: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Key: &expr.Variable{VarName: &node.Identifier{Value: "k"}}, Variable: &expr.Variable{VarName: &node.Identifier{Value: "v"}}, Stmt: &stmt.Nop{}, }) expected := `foreach ($a as $k => &$v);` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtFunction(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.Function{ ReturnsRef: true, FunctionName: &node.Identifier{Value: "foo"}, Params: []node.Node{ &node.Parameter{ ByRef: true, Variadic: false, Variable: &expr.Variable{VarName: &node.Identifier{Value: "var"}}, }, }, ReturnType: &name.FullyQualified{Parts: []node.Node{&name.NamePart{Value: "Foo"}}}, Stmts: []node.Node{ &stmt.Nop{}, }, }, }, }) expected := `namespace { function &foo(&$var): \Foo { ; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtGlobal(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Global{ Vars: []node.Node{ &expr.Variable{VarName: &node.Identifier{Value: "a"}}, &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }) expected := `global $a, $b;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtGoto(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Goto{ Label: &node.Identifier{Value: "FOO"}, }) expected := `goto FOO;` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintStmtGroupUse(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.GroupUse{ UseType: &node.Identifier{Value: "function"}, Prefix: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}}, UseList: []node.Node{ &stmt.Use{ Use: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}}, Alias: &node.Identifier{Value: "Baz"}, }, &stmt.Use{ Use: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Quuz"}}}, }, }, }) expected := `use function Foo\{Bar as Baz, Quuz};` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintHaltCompiler(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.HaltCompiler{}) expected := `__halt_compiler();` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintIfExpression(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.If{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.Expression{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, ElseIf: []node.Node{ &stmt.ElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "c"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "d"}}, }, }, }, }, &stmt.ElseIf{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "e"}}, Stmt: &stmt.Nop{}, }, }, Else: &stmt.Else{ Stmt: &stmt.Expression{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "f"}}, }, }, }, }, }) expected := `namespace { if ($a) $b; elseif ($c) { $d; } elseif ($e); else $f; }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintIfStmtList(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.Namespace{ Stmts: []node.Node{ &stmt.If{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.StmtList{ Stmts: []node.Node{ &stmt.Expression{ Expr: &expr.Variable{VarName: &node.Identifier{Value: "b"}}, }, }, }, }, }, }) expected := `namespace { if ($a) { $b; } }` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintIfNop(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.If{ Cond: &expr.Variable{VarName: &node.Identifier{Value: "a"}}, Stmt: &stmt.Nop{}, }) expected := `if ($a);` actual := o.String() if expected != actual { t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual) } } func TestPrintInlineHtml(t *testing.T) { o := bytes.NewBufferString("") p := printer.NewPrinter(o, " ") p.Print(&stmt.InlineHtml{ Value: "test", }) expected := `?>test