// Copyright 2023 The Ebitengine 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 shaderir import ( "go/constant" ) func ResolveUntypedConstsForBinaryOp(lhs, rhs constant.Value, lhst, rhst Type) (newLhs, newRhs constant.Value, ok bool) { if lhst.Main == None && rhst.Main == None { if lhs.Kind() == rhs.Kind() { return lhs, rhs, true } if lhs.Kind() == constant.Float && constant.ToFloat(rhs).Kind() != constant.Unknown { return lhs, constant.ToFloat(rhs), true } if rhs.Kind() == constant.Float && constant.ToFloat(lhs).Kind() != constant.Unknown { return constant.ToFloat(lhs), rhs, true } if lhs.Kind() == constant.Int && constant.ToInt(rhs).Kind() != constant.Unknown { return lhs, constant.ToInt(rhs), true } if rhs.Kind() == constant.Int && constant.ToInt(lhs).Kind() != constant.Unknown { return constant.ToInt(lhs), rhs, true } return nil, nil, false } if lhst.Main == None { if (rhst.Main == Float || rhst.isFloatVector() || rhst.IsMatrix()) && constant.ToFloat(lhs).Kind() != constant.Unknown { return constant.ToFloat(lhs), rhs, true } if (rhst.Main == Int || rhst.isIntVector()) && constant.ToInt(lhs).Kind() != constant.Unknown { return constant.ToInt(lhs), rhs, true } if rhst.Main == Bool && lhs.Kind() == constant.Bool { return lhs, rhs, true } return nil, nil, false } if rhst.Main == None { if (lhst.Main == Float || lhst.isFloatVector() || lhst.IsMatrix()) && constant.ToFloat(rhs).Kind() != constant.Unknown { return lhs, constant.ToFloat(rhs), true } if (lhst.Main == Int || lhst.isIntVector()) && constant.ToInt(rhs).Kind() != constant.Unknown { return lhs, constant.ToInt(rhs), true } if lhst.Main == Bool && rhs.Kind() == constant.Bool { return lhs, rhs, true } return nil, nil, false } // lhst and rhst might not match, but this has nothing to do with resolving untyped consts. return lhs, rhs, true } func AreValidTypesForBinaryOp(op Op, lhs, rhs *Expr, lhst, rhst Type) bool { // If both are untyped consts, compare the constants and try to truncate them if necessary. if lhst.Main == None && rhst.Main == None { // Assume that the constant types are already adjusted. if lhs.Const.Kind() != rhs.Const.Kind() { panic("shaderir: const types for a binary op must be adjusted") } if op == AndAnd || op == OrOr { return lhs.Const.Kind() == constant.Bool && rhs.Const.Kind() == constant.Bool } // For %, both operands must be integers if both are constants. Truncatable to an integer is not enough. if op == ModOp { return lhs.Const.Kind() == constant.Int && rhs.Const.Kind() == constant.Int } return true } // Both types must not be untyped. if lhst.Main == None || rhst.Main == None { panic("shaderir: cannot resolve untyped values") } if op == AndAnd || op == OrOr { return lhst.Main == Bool && rhst.Main == Bool } if op == VectorEqualOp || op == VectorNotEqualOp { return lhst.IsVector() && rhst.IsVector() && lhst.Equal(&rhst) } // Comparing matrices are forbidden (#2187). if op == LessThanOp || op == LessThanEqualOp || op == GreaterThanOp || op == GreaterThanEqualOp || op == EqualOp || op == NotEqualOp { if lhst.IsMatrix() || rhst.IsMatrix() { return false } return lhst.Equal(&rhst) } if op == Div && rhst.IsMatrix() { return false } if op == ModOp { if lhst.Main == IVec2 && rhst.Main == IVec2 { return true } if lhst.Main == IVec3 && rhst.Main == IVec3 { return true } if lhst.Main == IVec4 && rhst.Main == IVec4 { return true } return (lhst.Main == Int || lhst.isIntVector()) && rhst.Main == Int } if lhst.Equal(&rhst) { return true } if op == MatrixMul { if lhst.IsMatrix() && rhst.Main == Float { return true } if lhst.Main == Mat2 && rhst.Main == Vec2 { return true } if lhst.Main == Mat3 && rhst.Main == Vec3 { return true } if lhst.Main == Mat4 && rhst.Main == Vec4 { return true } if lhst.Main == Float && rhst.IsMatrix() { return true } if lhst.Main == Vec2 && rhst.Main == Mat2 { return true } if lhst.Main == Vec3 && rhst.Main == Mat3 { return true } if lhst.Main == Vec4 && rhst.Main == Mat4 { return true } return false } if op == Div { if lhst.IsMatrix() && rhst.Main == Float { return true } // fallback } if lhst.isFloatVector() && rhst.Main == Float { return true } if rhst.isFloatVector() && lhst.Main == Float { return true } if lhst.isIntVector() && rhst.Main == Int { return true } if rhst.isIntVector() && lhst.Main == Int { return true } return false }