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#include "mkql_prepend.h"
#include <yql/essentials/minikql/computation/mkql_computation_node_holders.h>
#include <yql/essentials/minikql/computation/mkql_computation_node_codegen.h> // Y_IGNORE
#include <yql/essentials/minikql/mkql_node_cast.h>
namespace NKikimr {
namespace NMiniKQL {
namespace {
template<bool IsVoid>
class TPrependWrapper : public TMutableCodegeneratorNode<TPrependWrapper<IsVoid>> {
typedef TMutableCodegeneratorNode<TPrependWrapper<IsVoid>> TBaseComputation;
public:
TPrependWrapper(TComputationMutables& mutables, IComputationNode* left, IComputationNode* right)
: TBaseComputation(mutables, right->GetRepresentation())
, Left(left)
, Right(right)
{
}
NUdf::TUnboxedValuePod DoCalculate(TComputationContext& ctx) const {
auto left = Left->GetValue(ctx);
auto right = Right->GetValue(ctx);
if (IsVoid && !left.IsBoxed())
return right.Release();
return ctx.HolderFactory.Prepend(left.Release(), right.Release());
}
#ifndef MKQL_DISABLE_CODEGEN
Value* DoGenerateGetValue(const TCodegenContext& ctx, BasicBlock*& block) const {
auto& context = ctx.Codegen.GetContext();
const auto factory = ctx.GetFactory();
const auto func = ConstantInt::get(Type::getInt64Ty(context), GetMethodPtr(&THolderFactory::Prepend));
const auto left = GetNodeValue(Left, ctx, block);
const auto right = GetNodeValue(Right, ctx, block);
if constexpr (IsVoid) {
const auto work = BasicBlock::Create(context, "work", ctx.Func);
const auto done = BasicBlock::Create(context, "done", ctx.Func);
const auto result = PHINode::Create(right->getType(), 2, "result", done);
result->addIncoming(right, block);
const uint64_t init[] = {0x0ULL, 0x300000000000000ULL};
const auto mask = ConstantInt::get(left->getType(), APInt(128, 2, init));
const auto boxed = BinaryOperator::CreateAnd(left, mask, "boxed", block);
const auto check = CmpInst::Create(Instruction::ICmp, ICmpInst::ICMP_EQ, boxed, mask, "check", block);
BranchInst::Create(work, done, check, block);
block = work;
if (NYql::NCodegen::ETarget::Windows != ctx.Codegen.GetEffectiveTarget()) {
const auto funType = FunctionType::get(right->getType(), {factory->getType(), left->getType(), right->getType()}, false);
const auto funcPtr = CastInst::Create(Instruction::IntToPtr, func, PointerType::getUnqual(funType), "function", block);
const auto res = CallInst::Create(funType, funcPtr, {factory, left, right}, "res", block);
result->addIncoming(res, block);
} else {
const auto retPtr = new AllocaInst(right->getType(), 0U, "ret_ptr", block);
const auto itemPtr = new AllocaInst(left->getType(), 0U, "item_ptr", block);
new StoreInst(right, retPtr, block);
new StoreInst(left, itemPtr, block);
const auto funType = FunctionType::get(Type::getVoidTy(context), {factory->getType(), retPtr->getType(), itemPtr->getType(), retPtr->getType()}, false);
const auto funcPtr = CastInst::Create(Instruction::IntToPtr, func, PointerType::getUnqual(funType), "function", block);
CallInst::Create(funType, funcPtr, {factory, retPtr, itemPtr, retPtr}, "", block);
const auto res = new LoadInst(right->getType(), retPtr, "res", block);
result->addIncoming(res, block);
}
BranchInst::Create(done, block);
block = done;
return result;
} else {
if (NYql::NCodegen::ETarget::Windows != ctx.Codegen.GetEffectiveTarget()) {
const auto funType = FunctionType::get(right->getType(), {factory->getType(), left->getType(), right->getType()}, false);
const auto funcPtr = CastInst::Create(Instruction::IntToPtr, func, PointerType::getUnqual(funType), "function", block);
const auto res = CallInst::Create(funType, funcPtr, {factory, left, right}, "res", block);
return res;
} else {
const auto retPtr = new AllocaInst(right->getType(), 0U, "ret_ptr", block);
const auto itemPtr = new AllocaInst(left->getType(), 0U, "item_ptr", block);
new StoreInst(right, retPtr, block);
new StoreInst(left, itemPtr, block);
const auto funType = FunctionType::get(Type::getVoidTy(context), {factory->getType(), retPtr->getType(), itemPtr->getType(), retPtr->getType()}, false);
const auto funcPtr = CastInst::Create(Instruction::IntToPtr, func, PointerType::getUnqual(funType), "function", block);
CallInst::Create(funType, funcPtr, {factory, retPtr, itemPtr, retPtr}, "", block);
const auto res = new LoadInst(right->getType(), retPtr, "res", block);
return res;
}
}
}
#endif
private:
void RegisterDependencies() const final {
this->DependsOn(Left);
this->DependsOn(Right);
}
IComputationNode* const Left;
IComputationNode* const Right;
};
}
IComputationNode* WrapPrepend(TCallable& callable, const TComputationNodeFactoryContext& ctx) {
MKQL_ENSURE(callable.GetInputsCount() == 2, "Expected 2 args");
const auto leftType = callable.GetInput(0).GetStaticType();
const auto rightType = AS_TYPE(TListType, callable.GetInput(1));
MKQL_ENSURE(rightType->GetItemType()->IsSameType(*leftType), "Mismatch item type");
const auto left = LocateNode(ctx.NodeLocator, callable, 0);
const auto right = LocateNode(ctx.NodeLocator, callable, 1);
if (leftType->IsVoid())
return new TPrependWrapper<true>(ctx.Mutables, left, right);
else
return new TPrependWrapper<false>(ctx.Mutables, left, right);
}
}
}
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