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/* Copyright 2017 The TensorFlow Authors. All Rights Reserved.
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.
==============================================================================*/
#ifndef THIRD_PARTY_TENSORFLOW_COMPILER_XLA_SERVICE_LLVM_IR_VECTOR_SUPPORT_LIBRARY_H_
#define THIRD_PARTY_TENSORFLOW_COMPILER_XLA_SERVICE_LLVM_IR_VECTOR_SUPPORT_LIBRARY_H_
#include <string>
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/Value.h"
#include "tensorflow/compiler/xla/types.h"
#include "tensorflow/compiler/xla/xla_data.pb.h"
namespace xla {
// A thin wrapper around llvm_util.h to make code generating vector math flow
// more readable.
class VectorSupportLibrary {
public:
// This VectorSupportLibrary instance remembers `primitive_type` and
// `vector_size`, and these are implicitly used by the methods on this
// instance (i.e. LoadVector will load a vector of type <`vector_size` x
// `primitive_type`>).
VectorSupportLibrary(PrimitiveType primitive_type, int64 vector_size,
llvm::IRBuilder<>* ir_builder, std::string name);
llvm::Value* Mul(llvm::Value* lhs, llvm::Value* rhs);
llvm::Value* Mul(int64 lhs, llvm::Value* rhs) {
return Mul(ir_builder()->getInt64(lhs), rhs);
}
llvm::Value* Add(llvm::Value* lhs, llvm::Value* rhs);
llvm::Value* Add(int64 lhs, llvm::Value* rhs) {
return Add(ir_builder()->getInt64(lhs), rhs);
}
llvm::Value* MulAdd(llvm::Value* a, llvm::Value* b, llvm::Value* c) {
return Add(c, Mul(a, b));
}
llvm::Value* ComputeOffsetPointer(llvm::Value* base_pointer,
llvm::Value* offset_elements);
llvm::Value* ComputeOffsetPointer(llvm::Value* base_pointer,
int64 offset_elements) {
return ComputeOffsetPointer(base_pointer,
ir_builder()->getInt64(offset_elements));
}
llvm::Value* LoadVector(llvm::Value* pointer);
llvm::Value* LoadVector(llvm::Value* base_pointer,
llvm::Value* offset_elements) {
return LoadVector(ComputeOffsetPointer(base_pointer, offset_elements));
}
llvm::Value* LoadVector(llvm::Value* base_pointer, int64 offset_elements) {
return LoadVector(base_pointer, ir_builder()->getInt64(offset_elements));
}
llvm::Value* LoadScalar(llvm::Value* pointer);
llvm::Value* LoadScalar(llvm::Value* base_pointer,
llvm::Value* offset_elements) {
return LoadScalar(ComputeOffsetPointer(base_pointer, offset_elements));
}
llvm::Value* LoadScalar(llvm::Value* base_pointer, int64 offset_elements) {
return LoadScalar(base_pointer, ir_builder()->getInt64(offset_elements));
}
void StoreVector(llvm::Value* value, llvm::Value* pointer);
void StoreVector(llvm::Value* value, llvm::Value* base_pointer,
llvm::Value* offset_elements) {
StoreVector(value, ComputeOffsetPointer(base_pointer, offset_elements));
}
void StoreVector(llvm::Value* value, llvm::Value* base_pointer,
int64 offset_elements) {
StoreVector(value, base_pointer, ir_builder()->getInt64(offset_elements));
}
void StoreScalar(llvm::Value* value, llvm::Value* pointer);
void StoreScalar(llvm::Value* value, llvm::Value* base_pointer,
llvm::Value* offset_elements) {
StoreScalar(value, ComputeOffsetPointer(base_pointer, offset_elements));
}
void StoreScalar(llvm::Value* value, llvm::Value* base_pointer,
int64 offset_elements) {
StoreScalar(base_pointer, ir_builder()->getInt64(offset_elements));
}
llvm::Value* LoadBroadcast(llvm::Value* pointer);
llvm::Value* LoadBroadcast(llvm::Value* base_pointer,
llvm::Value* offset_elements) {
return LoadBroadcast(ComputeOffsetPointer(base_pointer, offset_elements));
}
llvm::Value* LoadBroadcast(llvm::Value* base_pointer, int64 offset_elements) {
return LoadBroadcast(base_pointer, ir_builder()->getInt64(offset_elements));
}
llvm::Value* AddReduce(llvm::Value* vector);
llvm::Value* GetZeroVector();
llvm::Value* GetZeroScalar();
llvm::IRBuilder<>* ir_builder() const { return ir_builder_; }
int64 vector_size() const { return vector_size_; }
llvm::Type* vector_type() const { return vector_type_; }
llvm::Type* vector_pointer_type() const { return vector_pointer_type_; }
llvm::Type* scalar_type() const { return scalar_type_; }
llvm::Type* scalar_pointer_type() const { return scalar_pointer_type_; }
const std::string& name() const { return name_; }
private:
int64 vector_size_;
PrimitiveType primitive_type_;
llvm::IRBuilder<>* ir_builder_;
llvm::Type* vector_type_;
llvm::Type* vector_pointer_type_;
llvm::Type* scalar_type_;
llvm::Type* scalar_pointer_type_;
std::string name_;
};
// This wraps an alloca-backed stack variable which LLVM's SSA construction pass
// can later convert to a SSA value.
class LlvmVariable {
public:
LlvmVariable(llvm::Type*, llvm::IRBuilder<>* ir_builder);
llvm::Value* Get();
void Set(llvm::Value* new_value);
private:
llvm::AllocaInst* alloca_;
llvm::IRBuilder<>* ir_builder_;
};
class VectorVariable : public LlvmVariable {
public:
VectorVariable(VectorSupportLibrary* vector_support,
llvm::Value* initial_value)
: LlvmVariable(vector_support->vector_type(),
vector_support->ir_builder()) {
Set(initial_value);
}
};
class ScalarVariable : public LlvmVariable {
public:
ScalarVariable(VectorSupportLibrary* vector_support,
llvm::Value* initial_value)
: LlvmVariable(vector_support->scalar_type(),
vector_support->ir_builder()) {
Set(initial_value);
}
};
} // namespace xla
#endif // THIRD_PARTY_TENSORFLOW_COMPILER_XLA_SERVICE_LLVM_IR_VECTOR_SUPPORT_LIBRARY_H_
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