// Copyright 2014 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#ifndef V8_COMPILER_MACHINE_OPERATOR_REDUCER_H_
#define V8_COMPILER_MACHINE_OPERATOR_REDUCER_H_

#include <optional>

#include "src/base/compiler-specific.h"
#include "src/common/globals.h"
#include "src/compiler/graph-reducer.h"
#include "src/compiler/machine-operator.h"

namespace v8 {
namespace internal {
namespace compiler {

// Forward declarations.
class CommonOperatorBuilder;
class MachineGraph;
class Word32Adapter;
class Word64Adapter;

// Performs constant folding and strength reduction on nodes that have
// machine operators.
class V8_EXPORT_PRIVATE MachineOperatorReducer final
    : public NON_EXPORTED_BASE(AdvancedReducer) {
 public:
  enum SignallingNanPropagation {
    kSilenceSignallingNan,
    kPropagateSignallingNan
  };

  explicit MachineOperatorReducer(
      Editor* editor, MachineGraph* mcgraph,
      SignallingNanPropagation signalling_nan_propagation);
  ~MachineOperatorReducer() override;

  const char* reducer_name() const override { return "MachineOperatorReducer"; }

  Reduction Reduce(Node* node) override;

 private:
  friend class Word32Adapter;
  friend class Word64Adapter;

  Node* Float32Constant(float value);
  Node* Float64Constant(double value);
  Node* Int32Constant(int32_t value);
  Node* Int64Constant(int64_t value);
  Node* Uint32Constant(uint32_t value) {
    return Int32Constant(base::bit_cast<int32_t>(value));
  }
  Node* Uint64Constant(uint64_t value) {
    return Int64Constant(base::bit_cast<int64_t>(value));
  }
  Node* Float64Mul(Node* lhs, Node* rhs);
  Node* Float64PowHalf(Node* value);
  Node* Word32And(Node* lhs, Node* rhs);
  Node* Word32And(Node* lhs, uint32_t rhs) {
    return Word32And(lhs, Uint32Constant(rhs));
  }
  Node* Word32Sar(Node* lhs, uint32_t rhs);
  Node* Word64Sar(Node* lhs, uint32_t rhs);
  Node* Word32Shr(Node* lhs, uint32_t rhs);
  Node* Word64Shr(Node* lhs, uint32_t rhs);
  Node* Word32Equal(Node* lhs, Node* rhs);
  Node* Word64Equal(Node* lhs, Node* rhs);
  Node* Word64And(Node* lhs, Node* rhs);
  Node* Word64And(Node* lhs, uint64_t rhs) {
    return Word64And(lhs, Uint64Constant(rhs));
  }
  Node* Int32Add(Node* lhs, Node* rhs);
  Node* Int64Add(Node* lhs, Node* rhs);
  Node* Int32Sub(Node* lhs, Node* rhs);
  Node* Int64Sub(Node* lhs, Node* rhs);
  Node* Int32Mul(Node* lhs, Node* rhs);
  Node* Int64Mul(Node* lhs, Node* rhs);
  Node* Int32Div(Node* dividend, int32_t divisor);
  Node* Int64Div(Node* dividend, int64_t divisor);
  Node* Uint32Div(Node* dividend, uint32_t divisor);
  Node* Uint64Div(Node* dividend, uint64_t divisor);
  Node* TruncateInt64ToInt32(Node* value);
  Node* ChangeInt32ToInt64(Node* value);

  Reduction ReplaceBool(bool value) { return ReplaceInt32(value ? 1 : 0); }
  Reduction ReplaceFloat32(float value) {
    return Replace(Float32Constant(value));
  }
  Reduction ReplaceFloat64(double value) {
    return Replace(Float64Constant(value));
  }
  Reduction ReplaceInt32(int32_t value) {
    return Replace(Int32Constant(value));
  }
  Reduction ReplaceUint32(uint32_t value) {
    return Replace(Uint32Constant(value));
  }
  Reduction ReplaceInt64(int64_t value) {
    return Replace(Int64Constant(value));
  }
  Reduction ReplaceUint64(uint64_t value) {
    return Replace(Uint64Constant(value));
  }

  Reduction ReduceInt32Add(Node* node);
  Reduction ReduceInt64Add(Node* node);
  Reduction ReduceInt32Sub(Node* node);
  Reduction ReduceInt64Sub(Node* node);
  Reduction ReduceInt64Mul(Node* node);
  Reduction ReduceInt32Div(Node* node);
  Reduction ReduceInt64Div(Node* node);
  Reduction ReduceUint32Div(Node* node);
  Reduction ReduceUint64Div(Node* node);
  Reduction ReduceInt32Mod(Node* node);
  Reduction ReduceInt64Mod(Node* node);
  Reduction ReduceUint32Mod(Node* node);
  Reduction ReduceUint64Mod(Node* node);
  Reduction ReduceStore(Node* node);
  Reduction ReduceProjection(size_t index, Node* node);
  const Operator* Map64To32Comparison(const Operator* op, bool sign_extended);
  Reduction ReduceWord32Comparisons(Node* node);
  Reduction ReduceWord64Comparisons(Node* node);
  Reduction ReduceWord32Shifts(Node* node);
  Reduction ReduceWord32Shl(Node* node);
  Reduction ReduceWord64Shl(Node* node);
  Reduction ReduceWord32Shr(Node* node);
  Reduction ReduceWord64Shr(Node* node);
  Reduction ReduceWord32Sar(Node* node);
  Reduction ReduceWord64Sar(Node* node);
  Reduction ReduceWord32And(Node* node);
  Reduction ReduceWord64And(Node* node);
  Reduction TryMatchWord32Ror(Node* node);
  Reduction ReduceWord32Or(Node* node);
  Reduction ReduceWord64Or(Node* node);
  Reduction ReduceWord32Xor(Node* node);
  Reduction ReduceWord64Xor(Node* node);
  Reduction ReduceWord32Equal(Node* node);
  Reduction ReduceWord64Equal(Node* node);
  Reduction ReduceFloat64InsertLowWord32(Node* node);
  Reduction ReduceFloat64InsertHighWord32(Node* node);
  Reduction ReduceFloat64Compare(Node* node);
  Reduction ReduceFloat64RoundDown(Node* node);
  Reduction ReduceTruncateInt64ToInt32(Node* node);
  Reduction ReduceConditional(Node* node);

  TFGraph* graph() const;
  MachineGraph* mcgraph() const { return mcgraph_; }
  CommonOperatorBuilder* common() const;
  MachineOperatorBuilder* machine() const;

  // These reductions can be applied to operations of different word sizes.
  // Use Word32Adapter or Word64Adapter to specialize for a particular one.
  template <typename WordNAdapter>
  Reduction ReduceWordNAnd(Node* node);
  template <typename WordNAdapter>
  Reduction ReduceWordNOr(Node* node);
  template <typename WordNAdapter>
  Reduction ReduceWordNXor(Node* node);
  template <typename WordNAdapter>
  Reduction ReduceUintNLessThanOrEqual(Node* node);

  // Tries to simplify "if(x == 0)" by removing the "== 0" and inverting
  // branches.
  Reduction SimplifyBranch(Node* node);
  // Helper for SimplifyBranch; swaps the if/else of a branch.
  void SwapBranches(Node* node);

  // Helper for ReduceConditional. Does not perform the actual reduction; just
  // returns a new Node that could be used as the input to the condition.
  template <typename WordNAdapter>
  std::optional<Node*> ReduceConditionalN(Node* node);

  // Helper for finding a reduced equality condition. Does not perform the
  // actual reduction; just returns a new pair that could be compared for the
  // same outcome. uintN_t corresponds to the size of the Equal operator, and
  // thus the size of rhs. While the size of the WordNAdaptor corresponds to the
  // size of lhs, with the sizes being different for
  // Word32Equal(TruncateInt64ToInt32(lhs), rhs).
  template <typename WordNAdapter, typename uintN_t,
            typename intN_t = std::make_signed_t<uintN_t>>
  std::optional<std::pair<Node*, uintN_t>> ReduceWordEqualForConstantRhs(
      Node* lhs, uintN_t rhs);

  MachineGraph* mcgraph_;
  SignallingNanPropagation signalling_nan_propagation_;
};

}  // namespace compiler
}  // namespace internal
}  // namespace v8

#endif  // V8_COMPILER_MACHINE_OPERATOR_REDUCER_H_