package printer_test
import (
"bytes"
"testing"
"github.com/z7zmey/php-parser/meta"
"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 TestPrinterPrintFile(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&node.Root{
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: &stmt.ClassExtends{
ClassName: &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"},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Echo{
Exprs: []node.Node{
&scalar.String{Value: "'Hello world'"},
},
},
},
},
},
},
},
},
})
expected := `namespaceFooabstractclassBarextendsBaz{publicfunctiongreet(){'Hello world'}}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintFileInlineHtml(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&node.Root{
Stmts: []node.Node{
&stmt.InlineHtml{Value: "
HTML
"},
&stmt.Expression{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "HTML>=$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
// binary
func TestPrinterPrintBinaryBitwiseAnd(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.BitwiseAnd{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AmpersandToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a &$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryBitwiseOr(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.BitwiseOr{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.VerticalBarToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a |$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryBitwiseXor(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.BitwiseXor{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CaretToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a ^$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryBooleanAnd(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.BooleanAnd{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.BooleanAndToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a &&$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryBooleanOr(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.BooleanOr{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.BooleanOrToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a ||$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryCoalesce(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Coalesce{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CoalesceToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a ??$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryConcat(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Concat{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DotToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a .$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryDiv(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Div{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SlashToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a /$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryEqual(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Equal{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IsEqualToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a ==$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryGreaterOrEqual(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.GreaterOrEqual{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IsGreaterOrEqualToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a >=$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryGreater(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Greater{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.GreaterToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a >$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryIdentical(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Identical{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IsIdenticalToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a ===$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryLogicalAnd(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.LogicalAnd{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.LogicalAndToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a and$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryLogicalOr(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.LogicalOr{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.LogicalOrToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a or$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryLogicalXor(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.LogicalXor{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.LogicalXorToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a xor$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryMinus(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Minus{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.MinusToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a -$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryMod(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Mod{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PercentToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a %$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryMul(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Mul{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AsteriskToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a *$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryNotEqual(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.NotEqual{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IsNotEqualToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "!=",
TokenName: meta.IsNotEqualToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a !=$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryNotIdentical(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.NotIdentical{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IsNotIdenticalToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a !==$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryPlus(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Plus{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PlusToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a +$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryPow(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Pow{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PowToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a **$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryShiftLeft(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.ShiftLeft{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SlToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a <<$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinaryShiftRight(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.ShiftRight{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SrToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a >>$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinarySmallerOrEqual(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.SmallerOrEqual{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IsSmallerOrEqualToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a <=$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinarySmaller(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Smaller{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.LessToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a <$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBinarySpaceship(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&binary.Spaceship{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SpaceshipToken,
},
},
Left: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Right: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a <=>$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
// cast
func TestPrinterPrintArray(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.Array{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(array)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (array)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintBool(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.Bool{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(bool)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (bool)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintDouble(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.Double{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(float)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (float)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintInt(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.Int{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(int)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (int)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintObject(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.Object{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(object)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (object)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintString(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.String{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(string)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (string)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintUnset(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&cast.Unset{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "(unset)",
TokenName: meta.NodeStart,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` (unset)$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
// expr
func TestPrinterPrintExprArrayDimFetch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ArrayDimFetch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenSquareBracket,
},
&meta.Data{
Type: meta.TokenType,
Value: "[",
TokenName: meta.OpenSquareBracket,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseSquareBracket,
},
&meta.Data{
Type: meta.TokenType,
Value: "]",
TokenName: meta.CloseSquareBracket,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
Dim: &scalar.Lnumber{Value: "1"},
})
expected := `$var [1 ]`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprArrayItemWithKey(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ArrayItem{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DoubleArrowToken,
},
},
Key: &scalar.String{Value: "'Hello'"},
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "world"},
},
})
expected := `'Hello' => $world`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprArrayItem(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ArrayItem{
Val: &expr.Reference{Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "world"},
}},
})
expected := `&$world`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprArray(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Array{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ArrayToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Items: []node.Node{
&expr.ArrayItem{
Key: &scalar.String{Value: "'Hello'"},
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "world"},
},
},
&expr.ArrayItem{
Key: &scalar.Lnumber{Value: "2"},
Val: &expr.Reference{Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
}},
},
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
},
},
})
expected := ` array ('Hello'=>$world,2=>&$var,$var )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprBitwiseNot(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.BitwiseNot{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.TildeToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` ~$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprBooleanNot(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.BooleanNot{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ExclamationMarkToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` !$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprClassConstFetch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ClassConstFetch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PaamayimNekudotayimToken,
},
},
Class: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
ConstantName: &node.Identifier{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
},
Value: "CONST",
},
})
expected := `$var :: CONST`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprClone(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Clone{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloneToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` clone$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprClosureUse(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ClosureUse{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.UseToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Uses: []node.Node{
&expr.Reference{Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "foo"},
}},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "bar"},
},
},
})
expected := ` use (&$foo,$bar )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprClosure(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Closure{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.StaticToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.FunctionToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AmpersandToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Static: true,
ReturnsRef: true,
Params: []node.Node{
&node.Parameter{
ByRef: true,
Variadic: false,
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
},
},
ClosureUse: &expr.ClosureUse{
Uses: []node.Node{
&expr.Reference{Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
ReturnType: &name.FullyQualified{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Parts: []node.Node{&name.NamePart{Value: "Foo"}},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
})
expected := ` static function & (&$var )use(&$a,$b) :\Foo {$a }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprConstFetch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ConstFetch{
Constant: &name.Name{Parts: []node.Node{&name.NamePart{Value: "null"}}},
})
expected := "null"
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintEmpty(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Empty{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EmptyToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` empty ($var )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrettyPrinterrorSuppress(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ErrorSuppress{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AtToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` @$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintEval(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Eval{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EvalToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` eval ($var )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExit(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Exit{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ExitToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Die: false,
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` exit $var `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintDie(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Exit{
Die: true,
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ExitToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` die $var `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintFunctionCall(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.FunctionCall{
Function: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
ArgumentList: &node.ArgumentList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Arguments: []node.Node{
&node.Argument{
IsReference: true,
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&node.Argument{
Variadic: true,
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
},
},
},
})
expected := `$var (&$a,...$b,$c )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintInclude(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Include{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IncludeToken,
},
},
Expr: &scalar.String{Value: "'path'"},
})
expected := ` include'path'`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintIncludeOnce(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.IncludeOnce{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IncludeOnceToken,
},
}, Expr: &scalar.String{Value: "'path'"},
})
expected := ` include_once'path'`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintInstanceOf(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.InstanceOf{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.InstanceofToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
Class: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
})
expected := `$var instanceofFoo`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintIsset(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Isset{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IssetToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Variables: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
})
expected := ` isset ($a,$b )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.List{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ListToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Items: []node.Node{
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&expr.ArrayItem{
Val: &expr.List{
Items: []node.Node{
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
},
},
},
},
},
})
expected := ` list ($a,list($b,$c) )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintMethodCall(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.MethodCall{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ObjectOperatorToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "foo"},
},
Method: &node.Identifier{Value: "bar"},
ArgumentList: &node.ArgumentList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Arguments: []node.Node{
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
},
})
expected := `$foo ->bar ($a,$b )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintNew(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.New{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NewAnchor,
},
},
Class: &name.Name{
Parts: []node.Node{
&name.NamePart{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
},
Value: "Foo",
},
},
},
ArgumentList: &node.ArgumentList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Arguments: []node.Node{
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
},
})
expected := ` new Foo ($a,$b )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPostDec(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.PostDec{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DecToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := `$var --`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPostInc(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.PostInc{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IncToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := `$var ++`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPreDec(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.PreDec{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DecToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` --$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPreInc(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.PreInc{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IncToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` ++$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPrint(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Print{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PrintToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` print $var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPropertyFetch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.PropertyFetch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ObjectOperatorToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "foo"},
},
Property: &node.Identifier{Value: "bar"},
})
expected := `$foo ->bar`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprReference(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Reference{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AmpersandToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "foo"},
},
})
expected := ` &$foo`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintRequire(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Require{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.RequireToken,
},
},
Expr: &scalar.String{Value: "'path'"},
})
expected := ` require'path'`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintRequireOnce(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.RequireOnce{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.RequireOnceToken,
},
},
Expr: &scalar.String{Value: "'path'"},
})
expected := ` require_once'path'`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintShellExec(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ShellExec{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.BackquoteToken,
},
},
Parts: []node.Node{
&scalar.EncapsedStringPart{Value: "hello "},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "world"},
},
&scalar.EncapsedStringPart{Value: "!"},
},
})
expected := " `hello $world!`"
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintExprShortArray(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ShortArray{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenSquareBracket,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseSquareBracket,
},
},
Items: []node.Node{
&expr.ArrayItem{
Key: &scalar.String{Value: "'Hello'"},
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "world"},
},
},
&expr.ArrayItem{
Key: &scalar.Lnumber{Value: "2"},
Val: &expr.Reference{Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
}},
},
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
},
},
})
expected := ` ['Hello'=>$world,2=>&$var,$var ]`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintShortList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.ShortList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenSquareBracket,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseSquareBracket,
},
},
Items: []node.Node{
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&expr.ArrayItem{
Val: &expr.List{
Items: []node.Node{
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
&expr.ArrayItem{
Val: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
},
},
},
},
},
})
expected := ` [$a,list($b,$c) ]`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStaticCall(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.StaticCall{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PaamayimNekudotayimToken,
},
},
Class: &node.Identifier{Value: "Foo"},
Call: &node.Identifier{Value: "bar"},
ArgumentList: &node.ArgumentList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Arguments: []node.Node{
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
},
})
expected := `Foo ::bar ($a,$b )`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStaticPropertyFetch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.StaticPropertyFetch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PaamayimNekudotayimToken,
},
},
Class: &node.Identifier{Value: "Foo"},
Property: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "bar"},
},
})
expected := `Foo ::$bar`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintTernary(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Ternary{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.QuestionMarkToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Condition: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
IfFalse: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
})
expected := `$a ? :$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintTernaryFull(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Ternary{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.QuestionMarkToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Condition: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
IfTrue: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
IfFalse: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
})
expected := `$a ?$b :$c`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintUnaryMinus(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.UnaryMinus{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.MinusToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` -$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintUnaryPlus(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.UnaryPlus{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PlusToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` +$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintVariable(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` $$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintYieldFrom(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.YieldFrom{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.YieldFromToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` yield from$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintYield(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Yield{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.YieldToken,
},
},
Value: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` yield$var`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintYieldFull(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&expr.Yield{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.YieldToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DoubleArrowToken,
},
},
Key: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "k"},
},
Value: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
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 TestPrinterPrintAltElseIf(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltElseIf{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseifToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
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 TestPrinterPrintAltElseIfEmpty(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltElseIf{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseifToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{},
})
expected := ` elseif ($a ) :`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintAltElse(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltElse{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
})
expected := ` else :$b`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintAltElseEmpty(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltElse{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Stmt: &stmt.StmtList{},
})
expected := ` else :`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintAltFor(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltFor{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForInitSemicolonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForCondSemicolonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EndforToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Init: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
Cond: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
Loop: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "d"},
}},
},
},
})
expected := ` for ($a ;$b ;$c ) :$d endfor `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintAltForeach(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltForeach{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForeachToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AsToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DoubleArrowToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EndforeachToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
Key: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "key"},
},
Variable: &expr.Reference{Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "val"},
}},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "d"},
}},
},
},
})
expected := ` foreach ($var as$key =>&$val ) :$d endforeach `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintAltIf(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltIf{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IfToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EndifToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "d"},
}},
},
},
ElseIf: []node.Node{
&stmt.AltElseIf{
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
},
&stmt.AltElseIf{
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
Stmt: &stmt.StmtList{},
},
},
Else: &stmt.AltElse{
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
},
})
expected := ` if ($a ) :$delseif($b):$belseif($c):else:$b endif `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtAltSwitch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltSwitch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SwitchToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EndswitchToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
CaseList: &stmt.CaseList{
Cases: []node.Node{
&stmt.Case{
Cond: &scalar.String{Value: "'a'"},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
&stmt.Case{
Cond: &scalar.String{Value: "'b'"},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
},
},
})
expected := ` switch ($var ) :case'a':$acase'b':$b endswitch `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintAltWhile(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.AltWhile{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.WhileToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EndwhileToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
})
expected := ` while ($a ) :$b endwhile `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtBreak(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Break{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.BreakToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Expr: &scalar.Lnumber{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
},
Value: "1",
},
})
expected := " break 1 "
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtCase(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Case{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CaseToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
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 TestPrinterPrintStmtCaseEmpty(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Case{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CaseToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmts: []node.Node{},
})
expected := " case$a:"
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtCatch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Catch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CatchToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Types: []node.Node{
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Exception"}}},
&name.FullyQualified{Parts: []node.Node{&name.NamePart{Value: "RuntimeException"}}},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "e"},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
})
expected := ` catch (Exception|\RuntimeException$e ) {$a }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtClassMethod(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ClassMethod{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.FunctionToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AmpersandToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
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{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
DefaultValue: &expr.ConstFetch{Constant: &name.Name{Parts: []node.Node{&name.NamePart{Value: "null"}}}},
},
&node.Parameter{
Variadic: true,
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
ReturnType: &name.Name{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Parts: []node.Node{&name.NamePart{Value: "void"}},
},
Stmt: &stmt.StmtList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
})
expected := `public function &foo (?int&$a=null,...$b ) :void {$a }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtAbstractClassMethod(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ClassMethod{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.FunctionToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AmpersandToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
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{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
DefaultValue: &expr.ConstFetch{Constant: &name.Name{Parts: []node.Node{&name.NamePart{Value: "null"}}}},
},
&node.Parameter{
Variadic: true,
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
ReturnType: &name.Name{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Parts: []node.Node{&name.NamePart{Value: "void"}},
},
Stmt: &stmt.Nop{},
})
expected := `public function &foo (?int&$a=null,...$b ) :void`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtClass(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Class{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ClassToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Modifiers: []node.Node{&node.Identifier{Value: "abstract"}},
ClassName: &node.Identifier{Value: "Foo"},
Extends: &stmt.ClassExtends{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ExtendsToken,
},
},
ClassName: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}},
},
Implements: &stmt.ClassImplements{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ImplementsToken,
},
},
InterfaceNames: []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 := `abstract classFoo extendsBar implementsBaz,Quuz {publicconstFOO='bar' }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtAnonymousClass(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Class{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ClassToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Modifiers: []node.Node{&node.Identifier{Value: "abstract"}},
ArgumentList: &node.ArgumentList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Arguments: []node.Node{
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&node.Argument{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
},
Extends: &stmt.ClassExtends{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ExtendsToken,
},
},
ClassName: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}},
},
Implements: &stmt.ClassImplements{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ImplementsToken,
},
},
InterfaceNames: []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 := `abstract class ($a,$b ) extendsBar implementsBaz,Quuz {publicconstFOO='bar' }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtClassConstList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ClassConstList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ConstToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
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 constFOO='a',BAR='b' `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtConstList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ConstList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ConstToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
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 := ` constFOO='a',BAR='b' `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtConstant(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Constant{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EqualToken,
},
},
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 TestPrinterPrintStmtContinue(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Continue{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ContinueToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Expr: &scalar.Lnumber{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
},
Value: "1",
},
})
expected := ` continue 1 `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtDeclareStmts(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Declare{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DeclareToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
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 TestPrinterPrintStmtDeclareExpr(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Declare{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DeclareToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
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 TestPrinterPrintStmtDeclareNop(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 TestPrinterPrintStmtDefalut(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Default{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DefaultToken,
},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
})
expected := ` default:$a`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtDefalutEmpty(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Default{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DefaultToken,
},
},
Stmts: []node.Node{},
})
expected := ` default:`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtDo_Expression(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Do{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DoToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.WhileToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Cond: &scalar.Lnumber{Value: "1"},
Stmt: &stmt.Expression{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
})
expected := ` do$a while (1 ) `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtDo_StmtList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Do{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DoToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.WhileToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Cond: &scalar.Lnumber{Value: "1"},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
})
expected := ` do{$a} while (1 ) `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtEcho(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Echo{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "echo",
TokenName: meta.EchoToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EchoToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Exprs: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
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 TestPrinterPrintStmtElseIfStmts(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ElseIf{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseifToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Nop{},
},
},
})
expected := ` elseif ($a ){}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtElseIfExpr(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ElseIf{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseifToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.Expression{Expr: &scalar.String{Value: "'bar'"}},
})
expected := ` elseif ($a )'bar'`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtElseIfNop(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.ElseIf{
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.Nop{},
})
expected := `elseif($a)`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtElseStmts(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Else{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseToken,
},
},
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 TestPrinterPrintStmtElseExpr(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Else{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ElseToken,
},
},
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 TestPrinterPrintStmtElseNop(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 TestPrinterPrintExpression(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Expression{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
})
expected := `$a `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtFinally(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Finally{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.FinallyToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Stmts: []node.Node{
&stmt.Nop{},
},
})
expected := ` finally { }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtFor(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.For{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForInitSemicolonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForCondSemicolonToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Init: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
Cond: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "d"},
},
},
Loop: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "e"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "f"},
},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Nop{},
},
},
})
expected := ` for ($a,$b ;$c,$d ;$e,$f ){}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtForeach(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Foreach{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ForeachToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AsToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.DoubleArrowToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Key: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "k"},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "v"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Nop{},
},
},
})
expected := ` foreach ($a as$k =>$v ){}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtFunction(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Function{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.FunctionToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AmpersandToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
ReturnsRef: true,
FunctionName: &node.Identifier{Value: "foo"},
Params: []node.Node{
&node.Parameter{
ByRef: true,
Variadic: false,
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
},
},
ReturnType: &name.FullyQualified{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
Parts: []node.Node{&name.NamePart{Value: "Foo"}},
},
Stmts: []node.Node{
&stmt.Nop{},
},
})
expected := ` function &foo (&$var ) :\Foo { }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtGlobal(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Global{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.GlobalToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Vars: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
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 TestPrinterPrintStmtGoto(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Goto{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.GotoToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Label: &node.Identifier{Value: "FOO"},
})
expected := ` gotoFOO `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtGroupUse(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.GroupUse{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.UseToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NsSeparatorToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
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 := ` usefunctionFoo \ {BarasBaz,Quuz } `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintHaltCompiler(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.HaltCompiler{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.HaltCompilerToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
})
expected := ` __halt_compiler ( ) `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintIfExpression(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.If{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IfToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.Expression{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
ElseIf: []node.Node{
&stmt.ElseIf{
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "d"},
},
},
},
},
},
&stmt.ElseIf{
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "e"},
},
Stmt: &stmt.Nop{},
},
},
Else: &stmt.Else{
Stmt: &stmt.Expression{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "f"},
},
},
},
})
expected := ` if ($a )$belseif($c){$d}elseif($e)else$f`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintIfStmtList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.If{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.IfToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
},
})
expected := ` if ($a ){$b}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintIfNop(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.If{
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.Nop{},
})
expected := `if($a)`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintInlineHtml(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.InlineHtml{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.InlineHTMLToken,
},
},
Value: "test",
})
expected := ` test`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintInterface(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Interface{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.InterfaceToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
InterfaceName: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Extends: &stmt.InterfaceExtends{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ExtendsToken,
},
},
InterfaceNames: []node.Node{
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}},
&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: "foo"},
Params: []node.Node{},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
},
},
})
expected := ` interfaceFoo extendsBar,Baz {publicfunctionfoo(){$a} }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintLabel(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Label{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ColonToken,
},
},
LabelName: &node.Identifier{Value: "FOO"},
})
expected := `FOO :`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintNamespace(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Namespace{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
NamespaceName: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
})
expected := ` namespaceFoo `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintNamespaceWithStmts(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Namespace{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
NamespaceName: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
})
expected := ` namespaceFoo {$a }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintNop(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Nop{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.NodeStart,
},
},
})
expected := ` `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintPropertyList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.PropertyList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Modifiers: []node.Node{
&node.Identifier{Value: "public"},
&node.Identifier{Value: "static"},
},
Properties: []node.Node{
&stmt.Property{
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&stmt.Property{
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
})
expected := `publicstatic$a,$b `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintProperty(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Property{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EqualToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Expr: &scalar.Lnumber{Value: "1"},
})
expected := `$a =1`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintReturn(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Return{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ReturnToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Expr: &scalar.Lnumber{Value: "1"},
})
expected := ` return1 `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStaticVar(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.StaticVar{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.EqualToken,
},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Expr: &scalar.Lnumber{Value: "1"},
})
expected := `$a =1`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStatic(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Static{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.StaticToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Vars: []node.Node{
&stmt.StaticVar{
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
},
&stmt.StaticVar{
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
},
})
expected := ` static$a,$b `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.StmtList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
})
expected := ` {$a$b }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtListNested(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.StmtList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
&stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
&stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "c"},
}},
},
},
},
},
},
})
expected := ` {$a{$b{$c}} }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtSwitch(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Switch{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SwitchToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
CaseList: &stmt.CaseList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Cases: []node.Node{
&stmt.Case{
Cond: &scalar.String{Value: "'a'"},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
&stmt.Case{
Cond: &scalar.String{Value: "'b'"},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
},
},
})
expected := ` switch ($var ) {case'a':$acase'b':$b }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtThrow(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Throw{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.ThrowToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "var"},
},
})
expected := ` throw$var `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTraitMethodRef(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.TraitMethodRef{
Method: &node.Identifier{Value: "a"},
})
expected := `a`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTraitMethodRefFull(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.TraitMethodRef{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.PaamayimNekudotayimToken,
},
},
Trait: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Method: &node.Identifier{Value: "a"},
})
expected := `Foo ::a`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTraitUseAlias(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.TraitUseAlias{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AsToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Ref: &stmt.TraitMethodRef{
Trait: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Method: &node.Identifier{Value: "a"},
},
Modifier: &node.Identifier{Value: "public"},
Alias: &node.Identifier{Value: "b"},
})
expected := `Foo::a aspublicb `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTraitUsePrecedence(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.TraitUsePrecedence{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.InsteadofToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Ref: &stmt.TraitMethodRef{
Trait: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Method: &node.Identifier{Value: "a"},
},
Insteadof: []node.Node{
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}},
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Baz"}}},
},
})
expected := `Foo::a insteadofBar,Baz `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTraitUse(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.TraitUse{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.UseToken,
},
},
Traits: []node.Node{
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}},
},
TraitAdaptationList: &stmt.Nop{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
},
})
expected := ` useFoo,Bar `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTraitAdaptations(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.TraitUse{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.UseToken,
},
},
Traits: []node.Node{
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Bar"}}},
},
TraitAdaptationList: &stmt.TraitAdaptationList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Adaptations: []node.Node{
&stmt.TraitUseAlias{
Ref: &stmt.TraitMethodRef{
Trait: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Method: &node.Identifier{Value: "a"},
},
Alias: &node.Identifier{Value: "b"},
},
},
},
})
expected := ` useFoo,Bar {Foo::aasb }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintTrait(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Trait{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.TraitToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
TraitName: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Stmts: []node.Node{
&stmt.ClassMethod{
Modifiers: []node.Node{&node.Identifier{Value: "public"}},
MethodName: &node.Identifier{Value: "foo"},
Params: []node.Node{},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
},
},
})
expected := ` traitFoo {publicfunctionfoo(){$a} }`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtTry(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Try{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.TryToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenCurlyBracesToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseCurlyBracesToken,
},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
Catches: []node.Node{
&stmt.Catch{
Types: []node.Node{
&name.Name{Parts: []node.Node{&name.NamePart{Value: "Exception"}}},
&name.FullyQualified{Parts: []node.Node{&name.NamePart{Value: "RuntimeException"}}},
},
Variable: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "e"},
},
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
}},
},
},
},
Finally: &stmt.Finally{
Stmts: []node.Node{
&stmt.Nop{},
},
},
})
expected := ` try {$a }catch(Exception|\RuntimeException$e){$b}finally{}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtUnset(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Unset{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.UnsetToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
Vars: []node.Node{
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
&expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "b"},
},
},
})
expected := ` unset ($a,$b ) `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintStmtUseList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.UseList{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.UseToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.SemiColonToken,
},
&meta.Data{
Type: meta.TokenType,
Value: "",
TokenName: meta.SemiColonToken,
},
},
UseType: &node.Identifier{Value: "function"},
Uses: []node.Node{
&stmt.Use{
Use: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Alias: &node.Identifier{Value: "Bar"},
},
&stmt.Use{
Use: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Baz"}}},
},
},
})
expected := ` usefunctionFooasBar,Baz `
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintUse(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.Use{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.AsToken,
},
},
UseType: &node.Identifier{Value: "function"},
Use: &name.Name{Parts: []node.Node{&name.NamePart{Value: "Foo"}}},
Alias: &node.Identifier{Value: "Bar"},
})
expected := `functionFoo asBar`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}
func TestPrinterPrintWhileStmtList(t *testing.T) {
o := bytes.NewBufferString("")
p := printer.NewPrinter(o)
p.Print(&stmt.While{
Meta: meta.Collection{
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.WhileToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.OpenParenthesisToken,
},
&meta.Data{
Type: meta.WhiteSpaceType,
Value: " ",
TokenName: meta.CloseParenthesisToken,
},
},
Cond: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
},
Stmt: &stmt.StmtList{
Stmts: []node.Node{
&stmt.Expression{Expr: &expr.Variable{
Meta: meta.Collection{
&meta.Data{
Type: meta.TokenType,
Value: "$",
TokenName: meta.NodeStart,
},
},
VarName: &node.Identifier{Value: "a"},
}},
},
},
})
expected := ` while ($a ){$a}`
actual := o.String()
if expected != actual {
t.Errorf("\nexpected: %s\ngot: %s\n", expected, actual)
}
}