ebiten/internal/shader/syntax_test.go

2192 lines
62 KiB
Go
Raw Normal View History

// 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)
}
}
}