// Copyright 2022 The Ebiten Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package shader_test import ( "fmt" "go/parser" "go/token" "strings" "testing" "github.com/hajimehoshi/ebiten/v2/internal/shader" "github.com/hajimehoshi/ebiten/v2/internal/shaderir" ) func compileToIR(src []byte) (*shaderir.Program, error) { fset := token.NewFileSet() f, err := parser.ParseFile(fset, "", src, parser.AllErrors) if err != nil { return nil, err } ir, err := shader.Compile(fset, f, "Vertex", "Fragment", 0) if err != nil { return nil, err } return ir, nil } func TestSyntaxShadowing(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var position vec4 return position } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxDuplicatedVariables(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var foo vec4 var foo vec4 return foo } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var foo, foo vec4 return foo } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var foo vec4 foo := vec4(0) return foo } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (vec4, vec4) { return vec4(0), vec4(0) } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { foo, foo := Foo() return foo } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxDuplicatedFunctions(t *testing.T) { if _, err := compileToIR([]byte(`package main func Foo() { } func Foo() { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxNoNewVariables(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _ := 1 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _, _ := 1, 1 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (int, int) { return 1, 1 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _, _ := Foo() return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a, _ := 1, 1 _ = a return vec4(0) } `)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _, a := 1, 1 _ = a return vec4(0) } `)); err != nil { t.Error(err) } } func TestSyntaxWrongReturn(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return 0.0 } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (float, float) { return 0 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() float { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxMultipleValueReturn(t *testing.T) { if _, err := compileToIR([]byte(`package main func Foo() (float, float) { return 0.0 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() float { return 0.0, 0.0 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (float, float, float) { return 0.0, 0.0 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (float, float) { return 0.0, 0.0 } func Foo2() (float, float, float) { return Foo() } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (float, float, float) { return 0.0, 0.0, 0.0 } func Foo2() (float, float, float) { return Foo() } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0.0) } `)); err != nil { t.Error(err) } } func TestSyntaxInit(t *testing.T) { if _, err := compileToIR([]byte(`package main func init() { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxUnspportedSyntax(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := func() { } _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { go func() { }() return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { ch := make(chan int) _ = ch return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := 1i _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x [4]float y := x[1:2] _ = y return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x [4]float y := x[1:2:3] _ = y return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxForbidAssigningSpecialVariables(t *testing.T) { if _, err := compileToIR([]byte(`package main var U vec4 func Fragment(position vec4, texCoord vec2, color vec4) vec4 { U = vec4(0) return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main var U vec4 func Fragment(position vec4, texCoord vec2, color vec4) vec4 { U.x = 0 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main var U [2]vec4 func Fragment(position vec4, texCoord vec2, color vec4) vec4 { U[0] = vec4(0) return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { texCoord = vec2(0) return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { texCoord.x = 0 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxBoolLiteral(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { true := vec4(0) return true } `)); err != nil { t.Error(err) } } func TestSyntaxUnusedVariable(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := 0 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := 0 x = 1 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := vec4(0) x.x = 1 return vec4(0) } `)); err != nil { t.Error(err) } // Increment statement treats a variable 'used'. // https://play.golang.org/p/2RuYMrSLjt3 if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := 0 x++ return vec4(0) } `)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var a int return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var a, b int return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxBlankLhs(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := _ _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x int = _ _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := 1 x = _ _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { x := 1 + _ _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _++ return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _ += 1 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { _.x = 1 return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxDuplicatedVarsAndConstants(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var a = 0 const a = 0 return vec4(a) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { const a = 0 var a = 0 return vec4(a) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { const a = 0 const a = 0 return vec4(a) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main const U0 = 0 var U0 float func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(a) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main var U0 float const U0 = 0 func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return vec4(a) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxUnmatchedArgs(t *testing.T) { if _, err := compileToIR([]byte(`package main func Foo() { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo(1) return position } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo(x float) { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo() return position } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo(x, y float) { } func Bar() (float, float, float) { return 0, 1 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo(Bar()) return position } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo(x, y, z float) { } func Bar() (float, float) { return 0, 1 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo(Bar()) return position } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #1898 func TestSyntaxMeaninglessSentence(t *testing.T) { if _, err := compileToIR([]byte(`package main var Time float var ScreenSize vec2 func Fragment(position vec4, texCoord vec2, color vec4) vec4 { position return position }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main var Time float var ScreenSize vec2 func Fragment(position vec4, texCoord vec2, color vec4) vec4 { vec2(position) return position }`)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #1947 func TestSyntaxOperatorMod(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2.0 % 0.5 return vec4(a) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := int(2) % 0.5 return vec4(a) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := int(2) % 1.0 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2.0 b := 0.5 return vec4(a % b) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2 b := 0.5 return vec4(a % b) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2.5 b := 1 return vec4(a % b) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2 b := 1 return vec4(a % b) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2 return vec4(a % 1) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1 return vec4(2 % a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2 a %= 1 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2 a %= 1.0 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2 a %= 0.5 return vec4(a) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 2.0 a %= 1 return vec4(a) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } } func TestSyntaxOperatorAssign(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1.0 a += 2 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1.0 a += 2.0 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1.0 a += 2.1 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1 a += 2 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1 a += 2.0 return vec4(a) }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := 1 a += 2.1 return vec4(a) }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x float = true _ = x return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x bool = true _ = x return vec4(0) } `)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x int = 1.0 _ = x return vec4(0) } `)); err != nil { t.Error(err) } } // Issue #1963 func TestSyntaxOperatorVecAndNumber(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) + 2 return a.xxyy }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) + 2.1 return a.xxyy }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) % 2 return a.xxyy }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) % 2.1 return a.xxyy }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) a += 2 return a.xxyy }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) a += 2.1 return a.xxyy }`)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) a %= 2 return a.xxyy }`)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { a := vec2(1) a %= 2.1 return a.xxyy }`)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #1971 func TestSyntaxOperatorMultiply(t *testing.T) { // Note: mat + float is allowed in GLSL but not in Metal. cases := []struct { stmt string err bool }{ {stmt: "a := 1 * vec2(2); _ = a", err: false}, {stmt: "a := int(1) * vec2(2); _ = a", err: true}, {stmt: "a := 1.0 * vec2(2); _ = a", err: false}, {stmt: "a := 1 + vec2(2); _ = a", err: false}, {stmt: "a := int(1) + vec2(2); _ = a", err: true}, {stmt: "a := 1.0 / vec2(2); _ = a", err: false}, {stmt: "a := 1.0 + vec2(2); _ = a", err: false}, {stmt: "a := 1 * vec3(2); _ = a", err: false}, {stmt: "a := 1.0 * vec3(2); _ = a", err: false}, {stmt: "a := 1 * vec4(2); _ = a", err: false}, {stmt: "a := 1.0 * vec4(2); _ = a", err: false}, {stmt: "a := 1 * mat2(2); _ = a", err: false}, {stmt: "a := 1.0 * mat2(2); _ = a", err: false}, {stmt: "a := float(1.0) / mat2(2); _ = a", err: true}, {stmt: "a := 1.0 / mat2(2); _ = a", err: true}, {stmt: "a := float(1.0) + mat2(2); _ = a", err: true}, {stmt: "a := 1.0 + mat2(2); _ = a", err: true}, {stmt: "a := 1 * mat3(2); _ = a", err: false}, {stmt: "a := 1.0 * mat3(2); _ = a", err: false}, {stmt: "a := 1 * mat4(2); _ = a", err: false}, {stmt: "a := 1.0 * mat4(2); _ = a", err: false}, {stmt: "a := vec2(1) * 2; _ = a", err: false}, {stmt: "a := vec2(1) * 2.0; _ = a", err: false}, {stmt: "a := vec2(1) / 2.0; _ = a", err: false}, {stmt: "a := vec2(1) + 2.0; _ = a", err: false}, {stmt: "a := vec2(1) * int(2); _ = a", err: true}, {stmt: "a := vec2(1) * vec2(2); _ = a", err: false}, {stmt: "a := vec2(1) + vec2(2); _ = a", err: false}, {stmt: "a := vec2(1) * vec3(2); _ = a", err: true}, {stmt: "a := vec2(1) * vec4(2); _ = a", err: true}, {stmt: "a := vec2(1) * mat2(2); _ = a", err: false}, {stmt: "a := vec2(1) + mat2(2); _ = a", err: true}, {stmt: "a := vec2(1) * mat3(2); _ = a", err: true}, {stmt: "a := vec2(1) * mat4(2); _ = a", err: true}, {stmt: "a := mat2(1) * 2; _ = a", err: false}, {stmt: "a := mat2(1) * 2.0; _ = a", err: false}, {stmt: "a := mat2(1) / 2.0; _ = a", err: false}, {stmt: "a := mat2(1) / float(2); _ = a", err: false}, {stmt: "a := mat2(1) * int(2); _ = a", err: true}, {stmt: "a := mat2(1) + 2.0; _ = a", err: true}, {stmt: "a := mat2(1) + float(2); _ = a", err: true}, {stmt: "a := mat2(1) * vec2(2); _ = a", err: false}, {stmt: "a := mat2(1) + vec2(2); _ = a", err: true}, {stmt: "a := mat2(1) * vec3(2); _ = a", err: true}, {stmt: "a := mat2(1) * vec4(2); _ = a", err: true}, {stmt: "a := mat2(1) * mat2(2); _ = a", err: false}, {stmt: "a := mat2(1) / mat2(2); _ = a", err: true}, {stmt: "a := mat2(1) * mat3(2); _ = a", err: true}, {stmt: "a := mat2(1) * mat4(2); _ = a", err: true}, } for _, c := range cases { _, err := compileToIR([]byte(fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, c.stmt))) if err == nil && c.err { t.Errorf("%s must return an error but does not", c.stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", c.stmt, err) } } } // Issue #1971 func TestSyntaxOperatorMultiplyAssign(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := 1.0; a *= 2", err: false}, {stmt: "a := 1.0; a *= 2.0", err: false}, {stmt: "const c = 2; a := 1.0; a *= c", err: false}, {stmt: "const c = 2.0; a := 1.0; a *= c", err: false}, {stmt: "a := 1.0; a *= int(2)", err: true}, {stmt: "a := 1.0; a *= vec2(2)", err: true}, {stmt: "a := 1.0; a *= vec3(2)", err: true}, {stmt: "a := 1.0; a *= vec4(2)", err: true}, {stmt: "a := 1.0; a *= mat2(2)", err: true}, {stmt: "a := 1.0; a *= mat3(2)", err: true}, {stmt: "a := 1.0; a *= mat4(2)", err: true}, {stmt: "a := vec2(1); a *= 2", err: false}, {stmt: "a := vec2(1); a *= 2.0", err: false}, {stmt: "const c = 2; a := vec2(1); a *= c", err: false}, {stmt: "const c = 2.0; a := vec2(1); a *= c", err: false}, {stmt: "a := vec2(1); a /= 2.0", err: false}, {stmt: "a := vec2(1); a += 2.0", err: false}, {stmt: "a := vec2(1); a *= int(2)", err: true}, {stmt: "a := vec2(1); a *= float(2)", err: false}, {stmt: "a := vec2(1); a /= float(2)", err: false}, {stmt: "a := vec2(1); a *= vec2(2)", err: false}, {stmt: "a := vec2(1); a += vec2(2)", err: false}, {stmt: "a := vec2(1); a *= vec3(2)", err: true}, {stmt: "a := vec2(1); a *= vec4(2)", err: true}, {stmt: "a := vec2(1); a *= mat2(2)", err: false}, {stmt: "a := vec2(1); a += mat2(2)", err: true}, {stmt: "a := vec2(1); a /= mat2(2)", err: true}, {stmt: "a := vec2(1); a *= mat3(2)", err: true}, {stmt: "a := vec2(1); a *= mat4(2)", err: true}, {stmt: "a := mat2(1); a *= 2", err: false}, {stmt: "a := mat2(1); a *= 2.0", err: false}, {stmt: "const c = 2; a := mat2(1); a *= c", err: false}, {stmt: "const c = 2.0; a := mat2(1); a *= c", err: false}, {stmt: "a := mat2(1); a /= 2.0", err: false}, {stmt: "a := mat2(1); a += 2.0", err: true}, {stmt: "a := mat2(1); a *= int(2)", err: true}, {stmt: "a := mat2(1); a *= float(2)", err: false}, {stmt: "a := mat2(1); a /= float(2)", err: false}, {stmt: "a := mat2(1); a *= vec2(2)", err: true}, {stmt: "a := mat2(1); a += vec2(2)", err: true}, {stmt: "a := mat2(1); a *= vec3(2)", err: true}, {stmt: "a := mat2(1); a *= vec4(2)", err: true}, {stmt: "a := mat2(1); a *= mat2(2)", err: false}, {stmt: "a := mat2(1); a += mat2(2)", err: false}, {stmt: "a := mat2(1); a /= mat2(2)", err: true}, {stmt: "a := mat2(1); a *= mat3(2)", err: true}, {stmt: "a := mat2(1); a *= mat4(2)", err: true}, } for _, c := range cases { _, err := compileToIR([]byte(fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, c.stmt))) if err == nil && c.err { t.Errorf("%s must return an error but does not", c.stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", c.stmt, err) } } } func TestSyntaxAtan(t *testing.T) { // `atan` takes 1 argument. if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return atan(vec4(0)) } `)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return atan(vec4(0), vec4(0)) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } // `atan2` takes 2 arguments. if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return atan2(vec4(0)) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { return atan2(vec4(0), vec4(0)) } `)); err != nil { t.Error(err) } } // Issue #1972 func TestSyntaxType(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x vec2 = vec3(0) _ = x return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x, y vec2 = vec2(0), vec3(0) _, _ = x, y return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x vec2 x = vec3(0) _ = x return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x, y vec2 x, y = vec2(0), vec3(0) _ = x _ = y return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x vec2 x = 0 _ = x return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (vec3, vec3) { return vec3(0), vec3(1) } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x, y vec2 = Foo() _ = x _ = y return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (vec3, vec3) { return vec3(0), vec3(1) } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var x, y vec2 x, y = Foo() _ = x _ = y return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #1972 func TestSyntaxTypeBlankVar(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var _ vec2 = vec3(0) return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var _, _ vec2 = vec2(0), vec3(0) return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo() (vec3, vec3) { return vec3(0), vec3(1) } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { var _, _ vec2 = Foo() return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #2032 func TestSyntaxTypeFuncCall(t *testing.T) { if _, err := compileToIR([]byte(`package main func Foo(x vec2) { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo(0) return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo(x vec2, y vec3) { } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo(0, 1) return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } if _, err := compileToIR([]byte(`package main func Foo(x vec2, y vec3) { } func Bar() (int, int) { return 0, 1 } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { Foo(Bar()) return color } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #2184 func TestSyntaxConstructorFuncType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := bool(false); _ = a", err: false}, {stmt: "i := false; a := bool(i); _ = a", err: false}, {stmt: "a := bool(1); _ = a", err: true}, {stmt: "a := bool(1.0); _ = a", err: true}, {stmt: "a := bool(); _ = a", err: true}, {stmt: "a := bool(false, true); _ = a", err: true}, {stmt: "a := int(1); _ = a", err: false}, {stmt: "a := int(1.0); _ = a", err: false}, {stmt: "i := 1; a := int(i); _ = a", err: false}, {stmt: "i := 1.0; a := int(i); _ = a", err: false}, {stmt: "i := 1.1; a := int(i); _ = a", err: false}, {stmt: "a := int(1.1); _ = a", err: true}, {stmt: "a := int(false); _ = a", err: true}, {stmt: "a := int(); _ = a", err: true}, {stmt: "a := int(1, 2); _ = a", err: true}, {stmt: "a := float(1); _ = a", err: false}, {stmt: "a := float(1.0); _ = a", err: false}, {stmt: "a := float(1.1); _ = a", err: false}, {stmt: "i := 1; a := float(i); _ = a", err: false}, {stmt: "i := 1.0; a := float(i); _ = a", err: false}, {stmt: "i := 1.1; a := float(i); _ = a", err: false}, {stmt: "a := float(false); _ = a", err: true}, {stmt: "a := float(); _ = a", err: true}, {stmt: "a := float(1, 2); _ = a", err: true}, {stmt: "a := vec2(1); _ = a", err: false}, {stmt: "a := vec2(1.0); _ = a", err: false}, {stmt: "i := 1; a := vec2(i); _ = a", err: false}, {stmt: "i := 1.0; a := vec2(i); _ = a", err: false}, {stmt: "a := vec2(vec2(1)); _ = a", err: false}, {stmt: "a := vec2(vec3(1)); _ = a", err: true}, {stmt: "a := vec2(1, 1); _ = a", err: false}, {stmt: "a := vec2(1.0, 1.0); _ = a", err: false}, {stmt: "i := 1; a := vec2(i, i); _ = a", err: false}, {stmt: "i := 1.0; a := vec2(i, i); _ = a", err: false}, {stmt: "a := vec2(vec2(1), 1); _ = a", err: true}, {stmt: "a := vec2(1, vec2(1)); _ = a", err: true}, {stmt: "a := vec2(vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := vec2(1, 1, 1); _ = a", err: true}, {stmt: "a := vec3(1); _ = a", err: false}, {stmt: "a := vec3(1.0); _ = a", err: false}, {stmt: "i := 1; a := vec3(i); _ = a", err: false}, {stmt: "i := 1.0; a := vec3(i); _ = a", err: false}, {stmt: "a := vec3(vec3(1)); _ = a", err: false}, {stmt: "a := vec3(vec2(1)); _ = a", err: true}, {stmt: "a := vec3(vec4(1)); _ = a", err: true}, {stmt: "a := vec3(1, 1, 1); _ = a", err: false}, {stmt: "a := vec3(1.0, 1.0, 1.0); _ = a", err: false}, {stmt: "i := 1; a := vec3(i, i, i); _ = a", err: false}, {stmt: "i := 1.0; a := vec3(i, i, i); _ = a", err: false}, {stmt: "a := vec3(vec2(1), 1); _ = a", err: false}, {stmt: "a := vec3(1, vec2(1)); _ = a", err: false}, {stmt: "a := vec3(vec3(1), 1); _ = a", err: true}, {stmt: "a := vec3(1, vec3(1)); _ = a", err: true}, {stmt: "a := vec3(vec3(1), vec3(1), vec3(1)); _ = a", err: true}, {stmt: "a := vec3(1, 1, 1, 1); _ = a", err: true}, {stmt: "a := vec4(1); _ = a", err: false}, {stmt: "a := vec4(1.0); _ = a", err: false}, {stmt: "i := 1; a := vec4(i); _ = a", err: false}, {stmt: "i := 1.0; a := vec4(i); _ = a", err: false}, {stmt: "a := vec4(vec4(1)); _ = a", err: false}, {stmt: "a := vec4(vec2(1)); _ = a", err: true}, {stmt: "a := vec4(vec3(1)); _ = a", err: true}, {stmt: "a := vec4(1, 1, 1, 1); _ = a", err: false}, {stmt: "a := vec4(1.0, 1.0, 1.0, 1.0); _ = a", err: false}, {stmt: "i := 1; a := vec4(i, i, i, i); _ = a", err: false}, {stmt: "i := 1.0; a := vec4(i, i, i, i); _ = a", err: false}, {stmt: "a := vec4(vec2(1), 1, 1); _ = a", err: false}, {stmt: "a := vec4(1, vec2(1), 1); _ = a", err: false}, {stmt: "a := vec4(1, 1, vec2(1)); _ = a", err: false}, {stmt: "a := vec4(vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := vec4(vec3(1), 1); _ = a", err: false}, {stmt: "a := vec4(1, vec3(1)); _ = a", err: false}, {stmt: "a := vec4(vec4(1), 1); _ = a", err: true}, {stmt: "a := vec4(1, vec4(1)); _ = a", err: true}, {stmt: "a := vec4(vec4(1), vec4(1), vec4(1), vec4(1)); _ = a", err: true}, {stmt: "a := vec4(1, 1, 1, 1, 1); _ = a", err: true}, {stmt: "a := mat2(1); _ = a", err: false}, {stmt: "a := mat2(1.0); _ = a", err: false}, {stmt: "i := 1; a := mat2(i); _ = a", err: false}, {stmt: "i := 1.0; a := mat2(i); _ = a", err: false}, {stmt: "a := mat2(mat2(1)); _ = a", err: false}, {stmt: "a := mat2(vec2(1)); _ = a", err: true}, {stmt: "a := mat2(mat3(1)); _ = a", err: true}, {stmt: "a := mat2(mat4(1)); _ = a", err: true}, {stmt: "a := mat2(vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := mat2(1, 1); _ = a", err: true}, {stmt: "a := mat2(1, vec2(1)); _ = a", err: true}, {stmt: "a := mat2(vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := mat2(mat2(1), mat2(1)); _ = a", err: true}, {stmt: "a := mat2(1, 1, 1, 1); _ = a", err: false}, {stmt: "a := mat2(1.0, 1.0, 1.0, 1.0); _ = a", err: false}, {stmt: "i := 1; a := mat2(i, i, i, i); _ = a", err: false}, {stmt: "i := 1.0; a := mat2(i, i, i, i); _ = a", err: false}, {stmt: "a := mat2(vec2(1), vec2(1), vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := mat2(1, 1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := mat2(1, 1, 1, vec3(1)); _ = a", err: true}, {stmt: "a := mat2(mat2(1), mat2(1), mat2(1), mat2(1)); _ = a", err: true}, {stmt: "a := mat2(1, 1, 1); _ = a", err: true}, {stmt: "a := mat2(1, 1, 1, 1, 1); _ = a", err: true}, {stmt: "a := mat3(1); _ = a", err: false}, {stmt: "a := mat3(1.0); _ = a", err: false}, {stmt: "i := 1; a := mat3(i); _ = a", err: false}, {stmt: "i := 1.0; a := mat3(i); _ = a", err: false}, {stmt: "a := mat3(mat3(1)); _ = a", err: false}, {stmt: "a := mat3(vec2(1)); _ = a", err: true}, {stmt: "a := mat3(mat2(1)); _ = a", err: true}, {stmt: "a := mat3(mat4(1)); _ = a", err: true}, {stmt: "a := mat3(vec3(1), vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := mat3(1, 1, 1); _ = a", err: true}, {stmt: "a := mat3(1, 1, vec3(1)); _ = a", err: true}, {stmt: "a := mat3(vec3(1), vec3(1), vec4(1)); _ = a", err: true}, {stmt: "a := mat3(mat3(1), mat3(1), mat3(1)); _ = a", err: true}, {stmt: "a := mat3(1, 1, 1, 1, 1, 1, 1, 1, 1); _ = a", err: false}, {stmt: "a := mat3(1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0); _ = a", err: false}, {stmt: "i := 1; a := mat3(i, i, i, i, i, i, i, i, i); _ = a", err: false}, {stmt: "i := 1.0; a := mat3(i, i, i, i, i, i, i, i, i); _ = a", err: false}, {stmt: "a := mat3(vec3(1), vec3(1), vec3(1), vec3(1), vec3(1), vec3(1), vec3(1), vec3(1), vec3(1)); _ = a", err: true}, {stmt: "a := mat3(1, 1, 1, 1, 1, 1, 1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := mat3(1, 1, 1, 1, 1, 1, 1, 1, vec3(1)); _ = a", err: true}, {stmt: "a := mat3(mat3(1), mat3(1), mat3(1), mat3(1), mat3(1), mat3(1), mat3(1), mat3(1), mat3(1)); _ = a", err: true}, {stmt: "a := mat3(1, 1, 1, 1, 1, 1, 1, 1); _ = a", err: true}, {stmt: "a := mat3(1, 1, 1, 1, 1, 1, 1, 1, 1, 1); _ = a", err: true}, {stmt: "a := mat4(1); _ = a", err: false}, {stmt: "a := mat4(1.0); _ = a", err: false}, {stmt: "i := 1; a := mat4(i); _ = a", err: false}, {stmt: "i := 1.0; a := mat4(i); _ = a", err: false}, {stmt: "a := mat4(mat4(1)); _ = a", err: false}, {stmt: "a := mat4(vec2(1)); _ = a", err: true}, {stmt: "a := mat4(mat2(1)); _ = a", err: true}, {stmt: "a := mat4(mat3(1)); _ = a", err: true}, {stmt: "a := mat4(vec4(1), vec4(1), vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := mat4(1, 1, 1, 1); _ = a", err: true}, {stmt: "a := mat4(1, 1, 1, vec4(1)); _ = a", err: true}, {stmt: "a := mat4(vec4(1), vec4(1), vec4(1), vec2(1)); _ = a", err: true}, {stmt: "a := mat4(mat4(1), mat4(1), mat4(1), mat4(1)); _ = a", err: true}, {stmt: "a := mat4(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1); _ = a", err: false}, {stmt: "a := mat4(1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0); _ = a", err: false}, {stmt: "i := 1; a := mat4(i, i, i, i, i, i, i, i, i, i, i, i, i, i, i, i); _ = a", err: false}, {stmt: "i := 1.0; a := mat4(i, i, i, i, i, i, i, i, i, i, i, i, i, i, i, i); _ = a", err: false}, {stmt: "a := mat4(vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1), vec4(1)); _ = a", err: true}, {stmt: "a := mat4(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := mat4(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, vec3(1)); _ = a", err: true}, {stmt: "a := mat4(mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1), mat4(1)); _ = a", err: true}, {stmt: "a := mat4(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1); _ = a", err: true}, {stmt: "a := mat4(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1); _ = a", err: true}, } for _, c := range cases { _, err := compileToIR([]byte(fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, c.stmt))) if err == nil && c.err { t.Errorf("%s must return an error but does not", c.stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", c.stmt, err) } } } // Issue #2248 func TestSyntaxDiscard(t *testing.T) { if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { if true { discard() } return vec4(0) } `)); err != nil { t.Error(err) } // discard without return doesn't work so far. // TODO: Allow discard without return. if _, err := compileToIR([]byte(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { discard() return vec4(0) } `)); err != nil { t.Error(err) } if _, err := compileToIR([]byte(`package main func foo() { discard() } func Fragment(position vec4, texCoord vec2, color vec4) vec4 { foo() return vec4(0) } `)); err == nil { t.Errorf("error must be non-nil but was nil") } } // Issue #2184 func TestSyntaxBuiltinFuncSingleArgType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := {{.Func}}(); _ = a", err: true}, {stmt: "a := {{.Func}}(false); _ = a", err: true}, {stmt: "a := {{.Func}}(1); _ = a", err: false}, {stmt: "a := {{.Func}}(1.0); _ = a", err: false}, {stmt: "a := {{.Func}}(int(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec3(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec4(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(mat2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(mat3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(mat4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1); _ = a", err: true}, } funcs := []string{ "sin", "cos", "tan", "asin", "acos", "atan", "pow", "exp", "log", "exp2", "log2", "sqrt", "inversesqrt", "abs", "sign", "floor", "ceil", "fract", "length", "normalize", "dfdx", "dfdy", "fwidth", } for _, c := range cases { for _, f := range funcs { stmt := strings.ReplaceAll(c.stmt, "{{.Func}}", f) src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } } // Issue #2184 func TestSyntaxBuiltinFuncDoubleArgsType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := {{.Func}}(); _ = a", err: true}, {stmt: "a := {{.Func}}(1); _ = a", err: true}, {stmt: "a := {{.Func}}(false, false); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1.0, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1, 1.0); _ = a", err: false}, {stmt: "a := {{.Func}}(int(1), int(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec3(1), vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(mat2(1), mat2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1, 1); _ = a", err: true}, } funcs := []string{ "atan2", "distance", "dot", "reflect", } for _, c := range cases { for _, f := range funcs { stmt := strings.ReplaceAll(c.stmt, "{{.Func}}", f) src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } } // Issue #2184 func TestSyntaxBuiltinFuncDoubleArgsType2(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := {{.Func}}(); _ = a", err: true}, {stmt: "a := {{.Func}}(1); _ = a", err: true}, {stmt: "a := {{.Func}}(false, false); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1.0, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1, 1.0); _ = a", err: false}, {stmt: "a := {{.Func}}(int(1), int(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), 1); _ = a", err: false}, // The second argument can be a scalar. {stmt: "a := {{.Func}}(vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), 1); _ = a", err: false}, // The second argument can be a scalar. {stmt: "a := {{.Func}}(vec3(1), vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec3(1), vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), 1); _ = a", err: false}, // The second argument can be a scalar. {stmt: "a := {{.Func}}(vec4(1), vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(mat2(1), mat2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1, 1); _ = a", err: true}, } funcs := []string{ "mod", "min", "max", } for _, c := range cases { for _, f := range funcs { stmt := strings.ReplaceAll(c.stmt, "{{.Func}}", f) src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } } // Issue #2184 func TestSyntaxBuiltinFuncStepType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := step(); _ = a", err: true}, {stmt: "a := step(1); _ = a", err: true}, {stmt: "a := step(false, false); _ = a", err: true}, {stmt: "a := step(1, 1); _ = a", err: false}, {stmt: "a := step(1.0, 1); _ = a", err: false}, {stmt: "a := step(1, 1.0); _ = a", err: false}, {stmt: "a := step(int(1), int(1)); _ = a", err: true}, {stmt: "a := step(1, vec2(1)); _ = a", err: false}, // The first argument can be a scalar. {stmt: "a := step(1, vec3(1)); _ = a", err: false}, // The first argument can be a scalar. {stmt: "a := step(1, vec4(1)); _ = a", err: false}, // The first argument can be a scalar. {stmt: "a := step(vec2(1), 1); _ = a", err: true}, {stmt: "a := step(vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := step(vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := step(vec2(1), vec4(1)); _ = a", err: true}, {stmt: "a := step(vec3(1), 1); _ = a", err: true}, {stmt: "a := step(vec3(1), vec2(1)); _ = a", err: true}, {stmt: "a := step(vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := step(vec3(1), vec4(1)); _ = a", err: true}, {stmt: "a := step(vec4(1), 1); _ = a", err: true}, {stmt: "a := step(vec4(1), vec2(1)); _ = a", err: true}, {stmt: "a := step(vec4(1), vec3(1)); _ = a", err: true}, {stmt: "a := step(vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := step(mat2(1), mat2(1)); _ = a", err: true}, {stmt: "a := step(1, 1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } // Issue #2184 func TestSyntaxBuiltinFuncTripleArgsType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := {{.Func}}(); _ = a", err: true}, {stmt: "a := {{.Func}}(1); _ = a", err: true}, {stmt: "a := {{.Func}}(false, false); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1); _ = a", err: true}, {stmt: "a := {{.Func}}(false, false, false); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1.0, 1, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1, 1.0, 1); _ = a", err: false}, {stmt: "a := {{.Func}}(1, 1, 1.0); _ = a", err: false}, {stmt: "a := {{.Func}}(1, vec2(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(1, vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), 1, 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), 1, vec2(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), vec2(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec2(1), vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec2(1), vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), 1, 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), 1, vec3(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), vec3(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec3(1), vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(vec4(1), 1, 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), 1, vec4(1)); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec4(1), 1); _ = a", err: true}, {stmt: "a := {{.Func}}(vec4(1), vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := {{.Func}}(1, 1, 1, 1); _ = a", err: true}, } funcs := []string{ "faceforward", } for _, c := range cases { for _, f := range funcs { stmt := strings.ReplaceAll(c.stmt, "{{.Func}}", f) src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } } // Issue #2184 func TestSyntaxBuiltinFuncClampType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := clamp(); _ = a", err: true}, {stmt: "a := clamp(1); _ = a", err: true}, {stmt: "a := clamp(false, false); _ = a", err: true}, {stmt: "a := clamp(1, 1); _ = a", err: true}, {stmt: "a := clamp(false, false, false); _ = a", err: true}, {stmt: "a := clamp(1, 1, 1); _ = a", err: false}, {stmt: "a := clamp(1.0, 1, 1); _ = a", err: false}, {stmt: "a := clamp(1, 1.0, 1); _ = a", err: false}, {stmt: "a := clamp(1, 1, 1.0); _ = a", err: false}, {stmt: "a := clamp(1, vec2(1), 1); _ = a", err: true}, {stmt: "a := clamp(1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := clamp(1, vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := clamp(vec2(1), 1, 1); _ = a", err: false}, {stmt: "a := clamp(vec2(1), 1, vec2(1)); _ = a", err: true}, {stmt: "a := clamp(vec2(1), vec2(1), 1); _ = a", err: true}, {stmt: "a := clamp(vec2(1), vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := clamp(vec2(1), vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := clamp(vec3(1), 1, 1); _ = a", err: false}, {stmt: "a := clamp(vec3(1), 1, vec3(1)); _ = a", err: true}, {stmt: "a := clamp(vec3(1), vec3(1), 1); _ = a", err: true}, {stmt: "a := clamp(vec3(1), vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := clamp(vec4(1), 1, 1); _ = a", err: false}, {stmt: "a := clamp(vec4(1), 1, vec4(1)); _ = a", err: true}, {stmt: "a := clamp(vec4(1), vec4(1), 1); _ = a", err: true}, {stmt: "a := clamp(vec4(1), vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := clamp(1, 1, 1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } // Issue #2184 func TestSyntaxBuiltinFuncMixType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := mix(); _ = a", err: true}, {stmt: "a := mix(1); _ = a", err: true}, {stmt: "a := mix(false, false); _ = a", err: true}, {stmt: "a := mix(1, 1); _ = a", err: true}, {stmt: "a := mix(false, false, false); _ = a", err: true}, {stmt: "a := mix(1, 1, 1); _ = a", err: false}, {stmt: "a := mix(1.0, 1, 1); _ = a", err: false}, {stmt: "a := mix(1, 1.0, 1); _ = a", err: false}, {stmt: "a := mix(1, 1, 1.0); _ = a", err: false}, {stmt: "a := mix(1, vec2(1), 1); _ = a", err: true}, {stmt: "a := mix(1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := mix(1, vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := mix(vec2(1), 1, 1); _ = a", err: true}, {stmt: "a := mix(vec2(1), 1, vec2(1)); _ = a", err: true}, {stmt: "a := mix(vec2(1), vec2(1), 1); _ = a", err: false}, // The thrid argument can be a float. {stmt: "a := mix(vec2(1), vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := mix(vec2(1), vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := mix(vec3(1), 1, 1); _ = a", err: true}, {stmt: "a := mix(vec3(1), 1, vec3(1)); _ = a", err: true}, {stmt: "a := mix(vec3(1), vec3(1), 1); _ = a", err: false}, // The thrid argument can be a float. {stmt: "a := mix(vec3(1), vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := mix(vec4(1), 1, 1); _ = a", err: true}, {stmt: "a := mix(vec4(1), 1, vec4(1)); _ = a", err: true}, {stmt: "a := mix(vec4(1), vec4(1), 1); _ = a", err: false}, // The thrid argument can be a float. {stmt: "a := mix(vec4(1), vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := mix(1, 1, 1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } // Issue #2184 func TestSyntaxBuiltinFuncSmoothstepType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := smoothstep(); _ = a", err: true}, {stmt: "a := smoothstep(1); _ = a", err: true}, {stmt: "a := smoothstep(false, false); _ = a", err: true}, {stmt: "a := smoothstep(1, 1); _ = a", err: true}, {stmt: "a := smoothstep(false, false, false); _ = a", err: true}, {stmt: "a := smoothstep(1, 1, 1); _ = a", err: false}, {stmt: "a := smoothstep(1.0, 1, 1); _ = a", err: false}, {stmt: "a := smoothstep(1, 1.0, 1); _ = a", err: false}, {stmt: "a := smoothstep(1, 1, 1.0); _ = a", err: false}, {stmt: "a := smoothstep(1, vec2(1), 1); _ = a", err: true}, {stmt: "a := smoothstep(1, 1, vec2(1)); _ = a", err: false}, {stmt: "a := smoothstep(1, 1, vec3(1)); _ = a", err: false}, {stmt: "a := smoothstep(1, 1, vec4(1)); _ = a", err: false}, {stmt: "a := smoothstep(1, vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := smoothstep(vec2(1), 1, 1); _ = a", err: true}, {stmt: "a := smoothstep(vec2(1), 1, vec2(1)); _ = a", err: true}, {stmt: "a := smoothstep(vec2(1), vec2(1), 1); _ = a", err: true}, {stmt: "a := smoothstep(vec2(1), vec2(1), vec2(1)); _ = a", err: false}, {stmt: "a := smoothstep(vec2(1), vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := smoothstep(vec3(1), 1, 1); _ = a", err: true}, {stmt: "a := smoothstep(vec3(1), 1, vec3(1)); _ = a", err: true}, {stmt: "a := smoothstep(vec3(1), vec3(1), 1); _ = a", err: true}, {stmt: "a := smoothstep(vec3(1), vec3(1), vec3(1)); _ = a", err: false}, {stmt: "a := smoothstep(vec4(1), 1, 1); _ = a", err: true}, {stmt: "a := smoothstep(vec4(1), 1, vec4(1)); _ = a", err: true}, {stmt: "a := smoothstep(vec4(1), vec4(1), 1); _ = a", err: true}, {stmt: "a := smoothstep(vec4(1), vec4(1), vec4(1)); _ = a", err: false}, {stmt: "a := smoothstep(1, 1, 1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } // Issue #2184 func TestSyntaxBuiltinFuncRefractType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := refract(); _ = a", err: true}, {stmt: "a := refract(1); _ = a", err: true}, {stmt: "a := refract(false, false); _ = a", err: true}, {stmt: "a := refract(1, 1); _ = a", err: true}, {stmt: "a := refract(false, false, false); _ = a", err: true}, {stmt: "a := refract(1, 1, 1); _ = a", err: false}, {stmt: "a := refract(1.0, 1, 1); _ = a", err: false}, {stmt: "a := refract(1, 1.0, 1); _ = a", err: false}, {stmt: "a := refract(1, 1, 1.0); _ = a", err: false}, {stmt: "a := refract(1, vec2(1), 1); _ = a", err: true}, {stmt: "a := refract(1, 1, vec2(1)); _ = a", err: true}, {stmt: "a := refract(1, vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := refract(vec2(1), 1, 1); _ = a", err: true}, {stmt: "a := refract(vec2(1), 1, vec2(1)); _ = a", err: true}, {stmt: "a := refract(vec2(1), vec2(1), 1); _ = a", err: false}, // The third argument must be a float. {stmt: "a := refract(vec2(1), vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := refract(vec2(1), vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := refract(vec3(1), 1, 1); _ = a", err: true}, {stmt: "a := refract(vec3(1), 1, vec3(1)); _ = a", err: true}, {stmt: "a := refract(vec3(1), vec3(1), 1); _ = a", err: false}, // The third argument must be a float. {stmt: "a := refract(vec3(1), vec3(1), vec3(1)); _ = a", err: true}, {stmt: "a := refract(vec4(1), 1, 1); _ = a", err: true}, {stmt: "a := refract(vec4(1), 1, vec4(1)); _ = a", err: true}, {stmt: "a := refract(vec4(1), vec4(1), 1); _ = a", err: false}, // The third argument must be a float. {stmt: "a := refract(vec4(1), vec4(1), vec4(1)); _ = a", err: true}, {stmt: "a := refract(1, 1, 1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } // Issue #2184 func TestSyntaxBuiltinFuncCrossType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := cross(); _ = a", err: true}, {stmt: "a := cross(1); _ = a", err: true}, {stmt: "a := cross(false, false); _ = a", err: true}, {stmt: "a := cross(1, 1); _ = a", err: true}, {stmt: "a := cross(1.0, 1); _ = a", err: true}, {stmt: "a := cross(1, 1.0); _ = a", err: true}, {stmt: "a := cross(int(1), int(1)); _ = a", err: true}, {stmt: "a := cross(1, vec2(1)); _ = a", err: true}, {stmt: "a := cross(1, vec3(1)); _ = a", err: true}, {stmt: "a := cross(1, vec4(1)); _ = a", err: true}, {stmt: "a := cross(vec2(1), 1); _ = a", err: true}, {stmt: "a := cross(vec2(1), vec2(1)); _ = a", err: true}, {stmt: "a := cross(vec2(1), vec3(1)); _ = a", err: true}, {stmt: "a := cross(vec2(1), vec4(1)); _ = a", err: true}, {stmt: "a := cross(vec3(1), 1); _ = a", err: true}, {stmt: "a := cross(vec3(1), vec2(1)); _ = a", err: true}, {stmt: "a := cross(vec3(1), vec3(1)); _ = a", err: false}, // Only two vec3s are allowed {stmt: "a := cross(vec3(1), vec4(1)); _ = a", err: true}, {stmt: "a := cross(vec4(1), 1); _ = a", err: true}, {stmt: "a := cross(vec4(1), vec2(1)); _ = a", err: true}, {stmt: "a := cross(vec4(1), vec3(1)); _ = a", err: true}, {stmt: "a := cross(vec4(1), vec4(1)); _ = a", err: true}, {stmt: "a := cross(mat2(1), mat2(1)); _ = a", err: true}, {stmt: "a := cross(1, 1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } } // Issue #2184 func TestSyntaxBuiltinFuncTransposeType(t *testing.T) { cases := []struct { stmt string err bool }{ {stmt: "a := transpose(); _ = a", err: true}, {stmt: "a := transpose(false); _ = a", err: true}, {stmt: "a := transpose(1); _ = a", err: true}, {stmt: "a := transpose(1.0); _ = a", err: true}, {stmt: "a := transpose(int(1)); _ = a", err: true}, {stmt: "a := transpose(vec2(1)); _ = a", err: true}, {stmt: "a := transpose(vec3(1)); _ = a", err: true}, {stmt: "a := transpose(vec4(1)); _ = a", err: true}, {stmt: "a := transpose(mat2(1)); _ = a", err: false}, {stmt: "a := transpose(mat3(1)); _ = a", err: false}, {stmt: "a := transpose(mat4(1)); _ = a", err: false}, {stmt: "a := transpose(1, 1); _ = a", err: true}, } for _, c := range cases { stmt := c.stmt src := fmt.Sprintf(`package main func Fragment(position vec4, texCoord vec2, color vec4) vec4 { %s return position }`, stmt) _, err := compileToIR([]byte(src)) if err == nil && c.err { t.Errorf("%s must return an error but does not", stmt) } else if err != nil && !c.err { t.Errorf("%s must not return nil but returned %v", stmt, err) } } }