/* This file is part of the sirit project. * Copyright (c) 2019 sirit * This software may be used and distributed according to the terms of the * 3-Clause BSD License */ #include "sirit/sirit.h" #include "stream.h" namespace Sirit { Id Module::OpAtomicLoad(Id result_type, Id pointer, Id memory, Id semantics) { code->Reserve(6); return *code << OpId{spv::Op::OpAtomicLoad, result_type} << pointer << memory << semantics << EndOp{}; } Id Module::OpAtomicStore(Id pointer, Id memory, Id semantics, Id value) { code->Reserve(5); return *code << OpId{spv::Op::OpAtomicStore} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicExchange(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicExchange, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicCompareExchange(Id result_type, Id pointer, Id memory, Id equal, Id unequal, Id value, Id comparator) { code->Reserve(9); return *code << OpId{spv::Op::OpAtomicCompareExchange, result_type} << pointer << memory << equal << unequal << value << comparator << EndOp{}; } Id Module::OpAtomicIIncrement(Id result_type, Id pointer, Id memory, Id semantics) { code->Reserve(6); return *code << OpId{spv::Op::OpAtomicIIncrement, result_type} << pointer << memory << semantics << EndOp{}; } Id Module::OpAtomicIDecrement(Id result_type, Id pointer, Id memory, Id semantics) { code->Reserve(6); return *code << OpId{spv::Op::OpAtomicIDecrement, result_type} << pointer << memory << semantics << EndOp{}; } Id Module::OpAtomicIAdd(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicIAdd, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicISub(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicISub, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicSMin(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicSMin, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicUMin(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicUMin, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicSMax(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicSMax, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicUMax(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicUMax, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicAnd(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicAnd, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicOr(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicOr, result_type} << pointer << memory << semantics << value << EndOp{}; } Id Module::OpAtomicXor(Id result_type, Id pointer, Id memory, Id semantics, Id value) { code->Reserve(7); return *code << OpId{spv::Op::OpAtomicXor, result_type} << pointer << memory << semantics << value << EndOp{}; } } // namespace Sirit