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// Copyright 2020 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
import (
"fmt"
"go/ast"
gconstant "go/constant"
"go/token"
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"regexp"
"strconv"
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"github.com/hajimehoshi/ebiten/v2/internal/shaderir"
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)
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func canTruncateToInteger ( v gconstant . Value ) bool {
return gconstant . ToInt ( v ) . Kind ( ) != gconstant . Unknown
}
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func isUntypedInteger ( expr * shaderir . Expr ) bool {
return expr . Const . Kind ( ) == gconstant . Int && expr . ConstType == shaderir . ConstTypeNone
}
func isModAvailable ( lhs , rhs * shaderir . Expr ) bool {
// % is available only when
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// 1) both are untyped integers
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// 2) either is an typed integer and the other is truncatable to an integer
if isUntypedInteger ( lhs ) && isUntypedInteger ( rhs ) {
return true
}
if lhs . ConstType == shaderir . ConstTypeInt && canTruncateToInteger ( rhs . Const ) {
return true
}
if rhs . ConstType == shaderir . ConstTypeInt && canTruncateToInteger ( lhs . Const ) {
return true
}
return false
}
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func goConstantKindString ( k gconstant . Kind ) string {
switch k {
case gconstant . Bool :
return "bool"
case gconstant . String :
return "string"
case gconstant . Int :
return "int"
case gconstant . Float :
return "float"
case gconstant . Complex :
return "complex"
}
return "unknown"
}
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var textureVariableRe = regexp . MustCompile ( ` \A__t(\d+)\z ` )
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func ( cs * compileState ) parseExpr ( block * block , fname string , expr ast . Expr , markLocalVariableUsed bool ) ( [ ] shaderir . Expr , [ ] shaderir . Type , [ ] shaderir . Stmt , bool ) {
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switch e := expr . ( type ) {
case * ast . BasicLit :
switch e . Kind {
case token . INT :
return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : gconstant . MakeFromLiteral ( e . Value , e . Kind , 0 ) ,
} ,
} , [ ] shaderir . Type { { Main : shaderir . Int } } , nil , true
case token . FLOAT :
return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : gconstant . MakeFromLiteral ( e . Value , e . Kind , 0 ) ,
} ,
} , [ ] shaderir . Type { { Main : shaderir . Float } } , nil , true
default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "literal not implemented: %#v" , e ) )
}
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case * ast . BinaryExpr :
var stmts [ ] shaderir . Stmt
// Prase LHS first for the order of the statements.
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lhs , ts , ss , ok := cs . parseExpr ( block , fname , e . X , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
if len ( lhs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at a binary operator: %s" , e . X ) )
return nil , nil , nil , false
}
stmts = append ( stmts , ss ... )
lhst := ts [ 0 ]
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rhs , ts , ss , ok := cs . parseExpr ( block , fname , e . Y , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
if len ( rhs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at a binary operator: %s" , e . Y ) )
return nil , nil , nil , false
}
stmts = append ( stmts , ss ... )
rhst := ts [ 0 ]
if lhs [ 0 ] . Type == shaderir . NumberExpr && rhs [ 0 ] . Type == shaderir . NumberExpr {
op := e . Op
// https://golang.org/pkg/go/constant/#BinaryOp
// "To force integer division of Int operands, use op == token.QUO_ASSIGN instead of
// token.QUO; the result is guaranteed to be Int in this case."
if op == token . QUO && lhs [ 0 ] . Const . Kind ( ) == gconstant . Int && rhs [ 0 ] . Const . Kind ( ) == gconstant . Int {
op = token . QUO_ASSIGN
}
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var v gconstant . Value
var t shaderir . Type
switch op {
case token . EQL , token . NEQ , token . LSS , token . LEQ , token . GTR , token . GEQ :
v = gconstant . MakeBool ( gconstant . Compare ( lhs [ 0 ] . Const , op , rhs [ 0 ] . Const ) )
t = shaderir . Type { Main : shaderir . Bool }
default :
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if op == token . REM {
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if ! isModAvailable ( & lhs [ 0 ] , & rhs [ 0 ] ) {
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var wrongTypeName string
if lhs [ 0 ] . Const . Kind ( ) != gconstant . Int {
wrongTypeName = goConstantKindString ( lhs [ 0 ] . Const . Kind ( ) )
} else {
wrongTypeName = goConstantKindString ( rhs [ 0 ] . Const . Kind ( ) )
}
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "invalid operation: operator %% not defined on untyped %s" , wrongTypeName ) )
return nil , nil , nil , false
}
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if ! cs . forceToInt ( e , & lhs [ 0 ] ) {
return nil , nil , nil , false
}
if ! cs . forceToInt ( e , & rhs [ 0 ] ) {
return nil , nil , nil , false
}
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}
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v = gconstant . BinaryOp ( lhs [ 0 ] . Const , op , rhs [ 0 ] . Const )
if v . Kind ( ) == gconstant . Float {
t = shaderir . Type { Main : shaderir . Float }
} else {
t = shaderir . Type { Main : shaderir . Int }
}
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}
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return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : v ,
} ,
} , [ ] shaderir . Type { t } , stmts , true
}
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op , ok := shaderir . OpFromToken ( e . Op , lhst , rhst )
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if ! ok {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "unexpected operator: %s" , e . Op ) )
return nil , nil , nil , false
}
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var t shaderir . Type
switch {
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case op == shaderir . LessThanOp || op == shaderir . LessThanEqualOp || op == shaderir . GreaterThanOp || op == shaderir . GreaterThanEqualOp || op == shaderir . EqualOp || op == shaderir . NotEqualOp || op == shaderir . VectorEqualOp || op == shaderir . VectorNotEqualOp || op == shaderir . AndAnd || op == shaderir . OrOr :
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// TODO: Check types of the operands.
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t = shaderir . Type { Main : shaderir . Bool }
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case lhs [ 0 ] . Type == shaderir . NumberExpr && rhs [ 0 ] . Type != shaderir . NumberExpr :
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switch rhst . Main {
case shaderir . Mat2 , shaderir . Mat3 , shaderir . Mat4 :
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if op != shaderir . MatrixMul {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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fallthrough
case shaderir . Vec2 , shaderir . Vec3 , shaderir . Vec4 :
if lhs [ 0 ] . ConstType == shaderir . ConstTypeInt {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
case shaderir . Int :
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if ! canTruncateToInteger ( lhs [ 0 ] . Const ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "constant %s truncated to integer" , lhs [ 0 ] . Const . String ( ) ) )
return nil , nil , nil , false
}
lhs [ 0 ] . ConstType = shaderir . ConstTypeInt
}
t = rhst
case lhs [ 0 ] . Type != shaderir . NumberExpr && rhs [ 0 ] . Type == shaderir . NumberExpr :
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switch lhst . Main {
case shaderir . Mat2 , shaderir . Mat3 , shaderir . Mat4 :
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if op != shaderir . MatrixMul && op != shaderir . Div {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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fallthrough
case shaderir . Vec2 , shaderir . Vec3 , shaderir . Vec4 :
if rhs [ 0 ] . ConstType == shaderir . ConstTypeInt {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
case shaderir . Int :
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if ! canTruncateToInteger ( rhs [ 0 ] . Const ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "constant %s truncated to integer" , rhs [ 0 ] . Const . String ( ) ) )
return nil , nil , nil , false
}
rhs [ 0 ] . ConstType = shaderir . ConstTypeInt
}
t = lhst
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case lhst . Equal ( & rhst ) :
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if op == shaderir . Div && ( rhst . Main == shaderir . Mat2 || rhst . Main == shaderir . Mat3 || rhst . Main == shaderir . Mat4 ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "invalid operation: operator %s not defined on %s" , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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t = lhst
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case lhst . Main == shaderir . Float :
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switch rhst . Main {
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case shaderir . Float , shaderir . Vec2 , shaderir . Vec3 , shaderir . Vec4 :
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t = rhst
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case shaderir . Mat2 , shaderir . Mat3 , shaderir . Mat4 :
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if op != shaderir . MatrixMul {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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t = rhst
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default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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case rhst . Main == shaderir . Float :
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switch lhst . Main {
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case shaderir . Float , shaderir . Vec2 , shaderir . Vec3 , shaderir . Vec4 :
t = lhst
case shaderir . Mat2 , shaderir . Mat3 , shaderir . Mat4 :
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if op != shaderir . MatrixMul && op != shaderir . Div {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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t = lhst
default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "types don't match: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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case op == shaderir . MatrixMul && ( lhst . Main == shaderir . Vec2 && rhst . Main == shaderir . Mat2 ||
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lhst . Main == shaderir . Mat2 && rhst . Main == shaderir . Vec2 ) :
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t = shaderir . Type { Main : shaderir . Vec2 }
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case op == shaderir . MatrixMul && ( lhst . Main == shaderir . Vec3 && rhst . Main == shaderir . Mat3 ||
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lhst . Main == shaderir . Mat3 && rhst . Main == shaderir . Vec3 ) :
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t = shaderir . Type { Main : shaderir . Vec3 }
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case op == shaderir . MatrixMul && ( lhst . Main == shaderir . Vec4 && rhst . Main == shaderir . Mat4 ||
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lhst . Main == shaderir . Mat4 && rhst . Main == shaderir . Vec4 ) :
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t = shaderir . Type { Main : shaderir . Vec4 }
default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "invalid expression: %s %s %s" , lhst . String ( ) , e . Op , rhst . String ( ) ) )
return nil , nil , nil , false
}
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// For `%`, both types must be deducible to integers.
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if op == shaderir . ModOp {
// TODO: What about ivec?
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if lhst . Main != shaderir . Int && ( lhs [ 0 ] . ConstType == shaderir . ConstTypeNone || ! canTruncateToInteger ( lhs [ 0 ] . Const ) ) ||
rhst . Main != shaderir . Int && ( rhs [ 0 ] . ConstType == shaderir . ConstTypeNone || ! canTruncateToInteger ( rhs [ 0 ] . Const ) ) {
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var wrongType shaderir . Type
if lhst . Main != shaderir . Int {
wrongType = lhst
} else {
wrongType = rhst
}
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "invalid operation: operator %% not defined on %s" , wrongType . String ( ) ) )
return nil , nil , nil , false
}
}
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return [ ] shaderir . Expr {
{
Type : shaderir . Binary ,
Op : op ,
Exprs : [ ] shaderir . Expr { lhs [ 0 ] , rhs [ 0 ] } ,
} ,
} , [ ] shaderir . Type { t } , stmts , true
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case * ast . CallExpr :
var (
callee shaderir . Expr
args [ ] shaderir . Expr
argts [ ] shaderir . Type
stmts [ ] shaderir . Stmt
)
// Parse the argument first for the order of the statements.
for _ , a := range e . Args {
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es , ts , ss , ok := cs . parseExpr ( block , fname , a , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
if len ( es ) > 1 && len ( e . Args ) > 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "single-value context and multiple-value context cannot be mixed: %s" , e . Fun ) )
return nil , nil , nil , false
}
args = append ( args , es ... )
argts = append ( argts , ts ... )
stmts = append ( stmts , ss ... )
}
// TODO: When len(ss) is not 0?
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es , _ , ss , ok := cs . parseExpr ( block , fname , e . Fun , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
if len ( es ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at a callee: %s" , e . Fun ) )
return nil , nil , nil , false
}
callee = es [ 0 ]
stmts = append ( stmts , ss ... )
// For built-in functions, we can call this in this position. Return an expression for the function
// call.
if callee . Type == shaderir . BuiltinFuncExpr {
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// Process compile-time evaluations.
switch callee . BuiltinFunc {
case shaderir . Len , shaderir . Cap :
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if len ( args ) != 1 {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "number of %s's arguments must be 1 but %d" , callee . BuiltinFunc , len ( args ) ) )
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return nil , nil , nil , false
}
if argts [ 0 ] . Main != shaderir . Array {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "%s takes an array but %s" , callee . BuiltinFunc , argts [ 0 ] . String ( ) ) )
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return nil , nil , nil , false
}
return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : gconstant . MakeInt64 ( int64 ( argts [ 0 ] . Length ) ) ,
ConstType : shaderir . ConstTypeInt ,
} ,
} , [ ] shaderir . Type { { Main : shaderir . Int } } , stmts , true
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case shaderir . IntF :
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if len ( args ) == 1 && args [ 0 ] . Type == shaderir . NumberExpr {
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if ! canTruncateToInteger ( args [ 0 ] . Const ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot convert %s to type int" , args [ 0 ] . Const . String ( ) ) )
return nil , nil , nil , false
}
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return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : gconstant . ToInt ( args [ 0 ] . Const ) ,
ConstType : shaderir . ConstTypeInt ,
} ,
} , [ ] shaderir . Type { { Main : shaderir . Int } } , stmts , true
}
case shaderir . FloatF :
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if len ( args ) == 1 && args [ 0 ] . Type == shaderir . NumberExpr {
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if gconstant . ToFloat ( args [ 0 ] . Const ) . Kind ( ) != gconstant . Unknown {
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return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : gconstant . ToFloat ( args [ 0 ] . Const ) ,
ConstType : shaderir . ConstTypeFloat ,
} ,
} , [ ] shaderir . Type { { Main : shaderir . Float } } , stmts , true
}
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}
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}
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// Process the expression as a regular function call.
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var t shaderir . Type
switch callee . BuiltinFunc {
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case shaderir . BoolF :
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if err := checkArgsForBoolBuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Bool }
case shaderir . IntF :
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if err := checkArgsForIntBuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Int }
case shaderir . FloatF :
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if err := checkArgsForFloatBuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Float }
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case shaderir . Vec2F :
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if err := checkArgsForVec2BuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Vec2 }
case shaderir . Vec3F :
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if err := checkArgsForVec3BuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Vec3 }
case shaderir . Vec4F :
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if err := checkArgsForVec4BuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Vec4 }
case shaderir . Mat2F :
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if err := checkArgsForMat2BuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Mat2 }
case shaderir . Mat3F :
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if err := checkArgsForMat3BuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Mat3 }
case shaderir . Mat4F :
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if err := checkArgsForMat4BuiltinFunc ( args , argts ) ; err != nil {
cs . addError ( e . Pos ( ) , err . Error ( ) )
return nil , nil , nil , false
}
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t = shaderir . Type { Main : shaderir . Mat4 }
case shaderir . Texture2DF :
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// TODO: Check arg types.
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t = shaderir . Type { Main : shaderir . Vec4 }
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case shaderir . DiscardF :
if len ( args ) != 0 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "number of %s's arguments must be 0 but %d" , callee . BuiltinFunc , len ( args ) ) )
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return nil , nil , nil , false
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}
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if fname != cs . fragmentEntry {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "discard is available only in %s" , cs . fragmentEntry ) )
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return nil , nil , nil , false
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}
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stmts = append ( stmts , shaderir . Stmt {
Type : shaderir . Discard ,
} )
return nil , nil , stmts , true
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case shaderir . Clamp , shaderir . Mix , shaderir . Smoothstep , shaderir . Faceforward :
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// 3 arguments
if len ( args ) != 3 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "number of %s's arguments must be 3 but %d" , callee . BuiltinFunc , len ( args ) ) )
return nil , nil , nil , false
}
for i := range args {
// If the argument is a non-typed constant value, treat this as a float value (#1874).
if args [ i ] . Type == shaderir . NumberExpr && args [ i ] . ConstType == shaderir . ConstTypeNone && gconstant . ToFloat ( args [ i ] . Const ) . Kind ( ) != gconstant . Unknown {
args [ i ] . Const = gconstant . ToFloat ( args [ i ] . Const )
args [ i ] . ConstType = shaderir . ConstTypeFloat
argts [ i ] = shaderir . Type { Main : shaderir . Float }
}
if argts [ i ] . Main != shaderir . Float && argts [ i ] . Main != shaderir . Vec2 && argts [ i ] . Main != shaderir . Vec3 && argts [ i ] . Main != shaderir . Vec4 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot use %s as float, vec2, vec3, or vec4 value in argument to %s" , argts [ i ] . String ( ) , callee . BuiltinFunc ) )
return nil , nil , nil , false
}
}
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switch callee . BuiltinFunc {
case shaderir . Clamp :
if ( ! argts [ 0 ] . Equal ( & argts [ 1 ] ) || ! argts [ 0 ] . Equal ( & argts [ 2 ] ) ) && ( argts [ 1 ] . Main != shaderir . Float || argts [ 2 ] . Main != shaderir . Float ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "the second and the third arguments for %s must equal to the first argument %s or float but %s and %s" , callee . BuiltinFunc , argts [ 0 ] . String ( ) , argts [ 1 ] . String ( ) , argts [ 2 ] . String ( ) ) )
return nil , nil , nil , false
}
case shaderir . Mix :
if ! argts [ 0 ] . Equal ( & argts [ 1 ] ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "%s and %s don't match in argument to %s" , argts [ 0 ] . String ( ) , argts [ 1 ] . String ( ) , callee . BuiltinFunc ) )
return nil , nil , nil , false
}
if ! argts [ 0 ] . Equal ( & argts [ 2 ] ) && argts [ 2 ] . Main != shaderir . Float {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "the third arguments for %s must equal to the first/second argument %s or float but %s" , callee . BuiltinFunc , argts [ 0 ] . String ( ) , argts [ 2 ] . String ( ) ) )
return nil , nil , nil , false
}
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case shaderir . Smoothstep :
if ( ! argts [ 0 ] . Equal ( & argts [ 1 ] ) || ! argts [ 0 ] . Equal ( & argts [ 2 ] ) ) && ( argts [ 0 ] . Main != shaderir . Float || argts [ 1 ] . Main != shaderir . Float ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "the first and the second arguments for %s must equal to the third argument %s or float but %s and %s" , callee . BuiltinFunc , argts [ 2 ] . String ( ) , argts [ 0 ] . String ( ) , argts [ 1 ] . String ( ) ) )
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return nil , nil , nil , false
}
default :
if ! argts [ 0 ] . Equal ( & argts [ 1 ] ) || ! argts [ 0 ] . Equal ( & argts [ 2 ] ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "all the argument types for %s must be the same but %s, %s, and %s" , callee . BuiltinFunc , argts [ 0 ] . String ( ) , argts [ 1 ] . String ( ) , argts [ 2 ] . String ( ) ) )
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return nil , nil , nil , false
}
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}
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switch callee . BuiltinFunc {
case shaderir . Smoothstep :
t = argts [ 2 ]
default :
t = argts [ 0 ]
}
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case shaderir . Atan2 , shaderir . Mod , shaderir . Min , shaderir . Max , shaderir . Step , shaderir . Distance , shaderir . Dot , shaderir . Cross , shaderir . Reflect :
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// 2 arguments
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if len ( args ) != 2 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "number of %s's arguments must be 2 but %d" , callee . BuiltinFunc , len ( args ) ) )
return nil , nil , nil , false
}
for i := range args {
// If the argument is a non-typed constant value, treat this as a float value (#1874).
if args [ i ] . Type == shaderir . NumberExpr && args [ i ] . ConstType == shaderir . ConstTypeNone && gconstant . ToFloat ( args [ i ] . Const ) . Kind ( ) != gconstant . Unknown {
args [ i ] . Const = gconstant . ToFloat ( args [ i ] . Const )
args [ i ] . ConstType = shaderir . ConstTypeFloat
argts [ i ] = shaderir . Type { Main : shaderir . Float }
}
if argts [ i ] . Main != shaderir . Float && argts [ i ] . Main != shaderir . Vec2 && argts [ i ] . Main != shaderir . Vec3 && argts [ i ] . Main != shaderir . Vec4 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot use %s as float, vec2, vec3, or vec4 value in argument to %s" , argts [ i ] . String ( ) , callee . BuiltinFunc ) )
return nil , nil , nil , false
}
}
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switch callee . BuiltinFunc {
case shaderir . Mod , shaderir . Min , shaderir . Max :
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if ! argts [ 0 ] . Equal ( & argts [ 1 ] ) && argts [ 1 ] . Main != shaderir . Float {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "the second argument for %s must equal to the first argument %s or float but %s" , callee . BuiltinFunc , argts [ 0 ] . String ( ) , argts [ 1 ] . String ( ) ) )
return nil , nil , nil , false
}
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case shaderir . Step :
if ! argts [ 0 ] . Equal ( & argts [ 1 ] ) && argts [ 0 ] . Main != shaderir . Float {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "the first argument for %s must equal to the second argument %s or float but %s" , callee . BuiltinFunc , argts [ 1 ] . String ( ) , argts [ 0 ] . String ( ) ) )
return nil , nil , nil , false
}
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case shaderir . Cross :
for i := range argts {
if argts [ i ] . Main != shaderir . Vec3 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot use %s as vec3 value in argument to %s" , argts [ i ] . String ( ) , callee . BuiltinFunc ) )
return nil , nil , nil , false
}
}
default :
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if ! argts [ 0 ] . Equal ( & argts [ 1 ] ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "%s and %s don't match in argument to %s" , argts [ 0 ] . String ( ) , argts [ 1 ] . String ( ) , callee . BuiltinFunc ) )
return nil , nil , nil , false
}
}
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switch callee . BuiltinFunc {
case shaderir . Distance , shaderir . Dot :
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t = shaderir . Type { Main : shaderir . Float }
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case shaderir . Step :
t = argts [ 1 ]
default :
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t = argts [ 0 ]
}
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default :
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// 1 argument
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if len ( args ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "number of %s's arguments must be 1 but %d" , callee . BuiltinFunc , len ( args ) ) )
return nil , nil , nil , false
}
// If the argument is a non-typed constant value, treat this as a float value (#1874).
if args [ 0 ] . Type == shaderir . NumberExpr && args [ 0 ] . ConstType == shaderir . ConstTypeNone && gconstant . ToFloat ( args [ 0 ] . Const ) . Kind ( ) != gconstant . Unknown {
args [ 0 ] . Const = gconstant . ToFloat ( args [ 0 ] . Const )
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args [ 0 ] . ConstType = shaderir . ConstTypeFloat
argts [ 0 ] = shaderir . Type { Main : shaderir . Float }
}
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if argts [ 0 ] . Main != shaderir . Float && argts [ 0 ] . Main != shaderir . Vec2 && argts [ 0 ] . Main != shaderir . Vec3 && argts [ 0 ] . Main != shaderir . Vec4 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot use %s as float, vec2, vec3, or vec4 value in argument to %s" , argts [ 0 ] . String ( ) , callee . BuiltinFunc ) )
return nil , nil , nil , false
}
if callee . BuiltinFunc == shaderir . Length {
t = shaderir . Type { Main : shaderir . Float }
} else {
t = argts [ 0 ]
}
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}
return [ ] shaderir . Expr {
{
Type : shaderir . Call ,
Exprs : append ( [ ] shaderir . Expr { callee } , args ... ) ,
} ,
} , [ ] shaderir . Type { t } , stmts , true
}
if callee . Type != shaderir . FunctionExpr {
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "function callee must be a function name but %s" , e . Fun ) )
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return nil , nil , nil , false
}
f := cs . funcs [ callee . Index ]
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if len ( f . ir . InParams ) < len ( args ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "too many arguments in call to %s" , e . Fun ) )
return nil , nil , nil , false
}
if len ( f . ir . InParams ) > len ( args ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "not enough arguments in call to %s" , e . Fun ) )
return nil , nil , nil , false
}
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for i , p := range f . ir . InParams {
if args [ i ] . Type == shaderir . NumberExpr && p . Main == shaderir . Int {
if ! cs . forceToInt ( e , & args [ i ] ) {
return nil , nil , nil , false
}
}
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if ! canAssign ( & args [ i ] , & p , & argts [ i ] ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot use type %s as type %s in argument" , argts [ i ] . String ( ) , p . String ( ) ) )
return nil , nil , nil , false
}
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}
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var outParams [ ] int
for _ , p := range f . ir . OutParams {
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idx := block . totalLocalVariableCount ( )
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block . vars = append ( block . vars , variable {
typ : p ,
} )
args = append ( args , shaderir . Expr {
Type : shaderir . LocalVariable ,
Index : idx ,
} )
outParams = append ( outParams , idx )
}
if t := f . ir . Return ; t . Main != shaderir . None {
if len ( outParams ) != 0 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "a function returning value cannot have out-params so far: %s" , e . Fun ) )
return nil , nil , nil , false
}
// The actual expression here is just a local variable that includes the result of the
// function call.
return [ ] shaderir . Expr {
{
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Type : shaderir . Call ,
Exprs : append ( [ ] shaderir . Expr { callee } , args ... ) ,
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} ,
} , [ ] shaderir . Type { t } , stmts , true
}
// Even if the function doesn't return anything, calling the function should be done eariler to keep
// the evaluation order.
stmts = append ( stmts , shaderir . Stmt {
Type : shaderir . ExprStmt ,
Exprs : [ ] shaderir . Expr {
{
Type : shaderir . Call ,
Exprs : append ( [ ] shaderir . Expr { callee } , args ... ) ,
} ,
} ,
} )
if len ( outParams ) == 0 {
// TODO: Is this an error?
}
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// These local-variable expressions are used for an outside function callers.
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var exprs [ ] shaderir . Expr
for _ , p := range outParams {
exprs = append ( exprs , shaderir . Expr {
Type : shaderir . LocalVariable ,
Index : p ,
} )
}
return exprs , f . ir . OutParams , stmts , true
case * ast . Ident :
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if e . Name == "_" {
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// In the context where a local variable is marked as used, any expressions must have its
// meaning. Then, a blank identifier is not available there.
if markLocalVariableUsed {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "cannot use _ as value" ) )
return nil , nil , nil , false
}
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return [ ] shaderir . Expr {
{
Type : shaderir . Blank ,
} ,
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} , [ ] shaderir . Type { { } } , nil , true
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}
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if i , t , ok := block . findLocalVariable ( e . Name , markLocalVariableUsed ) ; ok {
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return [ ] shaderir . Expr {
{
Type : shaderir . LocalVariable ,
Index : i ,
} ,
} , [ ] shaderir . Type { t } , nil , true
}
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if c , ok := block . findConstant ( e . Name ) ; ok {
return [ ] shaderir . Expr {
{
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Type : shaderir . NumberExpr ,
Const : c . value ,
ConstType : c . ctyp ,
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} ,
} , [ ] shaderir . Type { c . typ } , nil , true
}
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if i , ok := cs . findFunction ( e . Name ) ; ok {
return [ ] shaderir . Expr {
{
Type : shaderir . FunctionExpr ,
Index : i ,
} ,
} , nil , nil , true
}
if i , ok := cs . findUniformVariable ( e . Name ) ; ok {
return [ ] shaderir . Expr {
{
Type : shaderir . UniformVariable ,
Index : i ,
} ,
} , [ ] shaderir . Type { cs . ir . Uniforms [ i ] } , nil , true
}
if f , ok := shaderir . ParseBuiltinFunc ( e . Name ) ; ok {
return [ ] shaderir . Expr {
{
Type : shaderir . BuiltinFuncExpr ,
BuiltinFunc : f ,
} ,
} , nil , nil , true
}
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if m := textureVariableRe . FindStringSubmatch ( e . Name ) ; m != nil {
2020-07-05 20:36:15 +02:00
i , _ := strconv . Atoi ( m [ 1 ] )
return [ ] shaderir . Expr {
{
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Type : shaderir . TextureVariable ,
Index : i ,
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} ,
} , nil , nil , true
}
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if e . Name == "true" || e . Name == "false" {
return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : gconstant . MakeBool ( e . Name == "true" ) ,
} ,
} , [ ] shaderir . Type { { Main : shaderir . Bool } } , nil , true
}
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cs . addError ( e . Pos ( ) , fmt . Sprintf ( "unexpected identifier: %s" , e . Name ) )
case * ast . ParenExpr :
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return cs . parseExpr ( block , fname , e . X , markLocalVariableUsed )
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case * ast . SelectorExpr :
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exprs , _ , stmts , ok := cs . parseExpr ( block , fname , e . X , true )
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if ! ok {
return nil , nil , nil , false
}
if len ( exprs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at a selector: %s" , e . X ) )
return nil , nil , nil , false
}
var t shaderir . Type
switch len ( e . Sel . Name ) {
case 1 :
t . Main = shaderir . Float
case 2 :
t . Main = shaderir . Vec2
case 3 :
t . Main = shaderir . Vec3
case 4 :
t . Main = shaderir . Vec4
default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "unexpected swizzling: %s" , e . Sel . Name ) )
return nil , nil , nil , false
}
return [ ] shaderir . Expr {
{
Type : shaderir . FieldSelector ,
Exprs : [ ] shaderir . Expr {
exprs [ 0 ] ,
{
Type : shaderir . SwizzlingExpr ,
Swizzling : e . Sel . Name ,
} ,
} ,
} ,
} , [ ] shaderir . Type { t } , stmts , true
case * ast . UnaryExpr :
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exprs , t , stmts , ok := cs . parseExpr ( block , fname , e . X , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
if len ( exprs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at a unary operator: %s" , e . X ) )
return nil , nil , nil , false
}
if exprs [ 0 ] . Type == shaderir . NumberExpr {
v := gconstant . UnaryOp ( e . Op , exprs [ 0 ] . Const , 0 )
t := shaderir . Type { Main : shaderir . Int }
if v . Kind ( ) == gconstant . Float {
t = shaderir . Type { Main : shaderir . Float }
}
return [ ] shaderir . Expr {
{
Type : shaderir . NumberExpr ,
Const : v ,
} ,
} , [ ] shaderir . Type { t } , stmts , true
}
var op shaderir . Op
switch e . Op {
case token . ADD :
op = shaderir . Add
case token . SUB :
op = shaderir . Sub
case token . NOT :
op = shaderir . NotOp
default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "unexpected operator: %s" , e . Op ) )
return nil , nil , nil , false
}
return [ ] shaderir . Expr {
{
Type : shaderir . Unary ,
Op : op ,
Exprs : exprs ,
} ,
} , t , stmts , true
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case * ast . CompositeLit :
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t , ok := cs . parseType ( block , fname , e . Type )
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if ! ok {
return nil , nil , nil , false
}
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if t . Main == shaderir . Array && t . Length == - 1 {
t . Length = len ( e . Elts )
}
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idx := block . totalLocalVariableCount ( )
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block . vars = append ( block . vars , variable {
typ : t ,
} )
var stmts [ ] shaderir . Stmt
for i , e := range e . Elts {
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exprs , _ , ss , ok := cs . parseExpr ( block , fname , e , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
if len ( exprs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at a composite literal" ) )
return nil , nil , nil , false
}
stmts = append ( stmts , ss ... )
stmts = append ( stmts , shaderir . Stmt {
Type : shaderir . Assign ,
Exprs : [ ] shaderir . Expr {
{
Type : shaderir . Index ,
Exprs : [ ] shaderir . Expr {
{
Type : shaderir . LocalVariable ,
Index : idx ,
} ,
{
Type : shaderir . NumberExpr ,
Const : gconstant . MakeInt64 ( int64 ( i ) ) ,
ConstType : shaderir . ConstTypeInt ,
} ,
} ,
} ,
exprs [ 0 ] ,
} ,
} )
}
return [ ] shaderir . Expr {
{
Type : shaderir . LocalVariable ,
Index : idx ,
} ,
} , [ ] shaderir . Type { t } , stmts , true
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case * ast . IndexExpr :
var stmts [ ] shaderir . Stmt
// Parse the index first
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exprs , _ , ss , ok := cs . parseExpr ( block , fname , e . Index , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
stmts = append ( stmts , ss ... )
if len ( exprs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at an index expression" ) )
return nil , nil , nil , false
}
idx := exprs [ 0 ]
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if idx . Type == shaderir . NumberExpr {
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if ! canTruncateToInteger ( idx . Const ) {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "constant %s truncated to integer" , idx . Const . String ( ) ) )
return nil , nil , nil , false
}
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idx . ConstType = shaderir . ConstTypeInt
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}
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exprs , ts , ss , ok := cs . parseExpr ( block , fname , e . X , markLocalVariableUsed )
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if ! ok {
return nil , nil , nil , false
}
stmts = append ( stmts , ss ... )
if len ( exprs ) != 1 {
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "multiple-value context is not available at an index expression" ) )
return nil , nil , nil , false
}
x := exprs [ 0 ]
t := ts [ 0 ]
var typ shaderir . Type
switch t . Main {
case shaderir . Vec2 , shaderir . Vec3 , shaderir . Vec4 :
typ = shaderir . Type { Main : shaderir . Float }
case shaderir . Mat2 :
typ = shaderir . Type { Main : shaderir . Vec2 }
case shaderir . Mat3 :
typ = shaderir . Type { Main : shaderir . Vec3 }
case shaderir . Mat4 :
typ = shaderir . Type { Main : shaderir . Vec4 }
case shaderir . Array :
typ = t . Sub [ 0 ]
default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "index operator cannot be applied to the type %s" , t . String ( ) ) )
return nil , nil , nil , false
}
return [ ] shaderir . Expr {
{
Type : shaderir . Index ,
Exprs : [ ] shaderir . Expr {
x ,
idx ,
} ,
} ,
} , [ ] shaderir . Type { typ } , stmts , true
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default :
cs . addError ( e . Pos ( ) , fmt . Sprintf ( "expression not implemented: %#v" , e ) )
}
return nil , nil , nil , false
}