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clang-p2996/llvm/lib/Target/WebAssembly/MCTargetDesc/WebAssemblyMCTargetDesc.h
Wouter van Oortmerssen d9e0bbd17b [WebAssembly] Adding 64-bit versions of all load & store ops. 
Context: https://github.com/WebAssembly/memory64/blob/master/proposals/memory64/Overview.md
This is just a first step, adding the new instruction variants while keeping the existing 32-bit functionality working.
Some of the basic load/store tests have new wasm64 versions that show that the basics of the target are working.
Further features need implementation, but these will be added in followups to keep things reviewable.

Differential Revision: https://reviews.llvm.org/D80769
2020-06-15 08:31:56 -07:00

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//==- WebAssemblyMCTargetDesc.h - WebAssembly Target Descriptions -*- C++ -*-=//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
///
/// \file
/// This file provides WebAssembly-specific target descriptions.
///
//===----------------------------------------------------------------------===//
#ifndef LLVM_LIB_TARGET_WEBASSEMBLY_MCTARGETDESC_WEBASSEMBLYMCTARGETDESC_H
#define LLVM_LIB_TARGET_WEBASSEMBLY_MCTARGETDESC_WEBASSEMBLYMCTARGETDESC_H
#include "../WebAssemblySubtarget.h"
#include "llvm/BinaryFormat/Wasm.h"
#include "llvm/MC/MCInstrDesc.h"
#include "llvm/Support/DataTypes.h"
#include <memory>
namespace llvm {
class MCAsmBackend;
class MCCodeEmitter;
class MCInstrInfo;
class MCObjectTargetWriter;
class MVT;
class Triple;
MCCodeEmitter *createWebAssemblyMCCodeEmitter(const MCInstrInfo &MCII);
MCAsmBackend *createWebAssemblyAsmBackend(const Triple &TT);
std::unique_ptr<MCObjectTargetWriter>
createWebAssemblyWasmObjectWriter(bool Is64Bit, bool IsEmscripten);
namespace WebAssembly {
enum OperandType {
/// Basic block label in a branch construct.
OPERAND_BASIC_BLOCK = MCOI::OPERAND_FIRST_TARGET,
/// Local index.
OPERAND_LOCAL,
/// Global index.
OPERAND_GLOBAL,
/// 32-bit integer immediates.
OPERAND_I32IMM,
/// 64-bit integer immediates.
OPERAND_I64IMM,
/// 32-bit floating-point immediates.
OPERAND_F32IMM,
/// 64-bit floating-point immediates.
OPERAND_F64IMM,
/// 8-bit vector lane immediate
OPERAND_VEC_I8IMM,
/// 16-bit vector lane immediate
OPERAND_VEC_I16IMM,
/// 32-bit vector lane immediate
OPERAND_VEC_I32IMM,
/// 64-bit vector lane immediate
OPERAND_VEC_I64IMM,
/// 32-bit unsigned function indices.
OPERAND_FUNCTION32,
/// 32-bit unsigned memory offsets.
OPERAND_OFFSET32,
/// 64-bit unsigned memory offsets.
OPERAND_OFFSET64,
/// p2align immediate for load and store address alignment.
OPERAND_P2ALIGN,
/// signature immediate for block/loop.
OPERAND_SIGNATURE,
/// type signature immediate for call_indirect.
OPERAND_TYPEINDEX,
/// Event index.
OPERAND_EVENT,
/// A list of branch targets for br_list.
OPERAND_BRLIST,
};
} // end namespace WebAssembly
namespace WebAssemblyII {
/// Target Operand Flag enum.
enum TOF {
MO_NO_FLAG = 0,
// On a symbol operand this indicates that the immediate is a wasm global
// index. The value of the wasm global will be set to the symbol address at
// runtime. This adds a level of indirection similar to the GOT on native
// platforms.
MO_GOT,
// On a symbol operand this indicates that the immediate is the symbol
// address relative the __memory_base wasm global.
// Only applicable to data symbols.
MO_MEMORY_BASE_REL,
// On a symbol operand this indicates that the immediate is the symbol
// address relative the __table_base wasm global.
// Only applicable to function symbols.
MO_TABLE_BASE_REL,
};
} // end namespace WebAssemblyII
} // end namespace llvm
// Defines symbolic names for WebAssembly registers. This defines a mapping from
// register name to register number.
//
#define GET_REGINFO_ENUM
#include "WebAssemblyGenRegisterInfo.inc"
// Defines symbolic names for the WebAssembly instructions.
//
#define GET_INSTRINFO_ENUM
#include "WebAssemblyGenInstrInfo.inc"
namespace llvm {
namespace WebAssembly {
/// Used as immediate MachineOperands for block signatures
enum class BlockType : unsigned {
Invalid = 0x00,
Void = 0x40,
I32 = unsigned(wasm::ValType::I32),
I64 = unsigned(wasm::ValType::I64),
F32 = unsigned(wasm::ValType::F32),
F64 = unsigned(wasm::ValType::F64),
V128 = unsigned(wasm::ValType::V128),
Exnref = unsigned(wasm::ValType::EXNREF),
// Multivalue blocks (and other non-void blocks) are only emitted when the
// blocks will never be exited and are at the ends of functions (see
// WebAssemblyCFGStackify::fixEndsAtEndOfFunction). They also are never made
// to pop values off the stack, so the exact multivalue signature can always
// be inferred from the return type of the parent function in MCInstLower.
Multivalue = 0xffff,
};
/// Instruction opcodes emitted via means other than CodeGen.
static const unsigned Nop = 0x01;
static const unsigned End = 0x0b;
wasm::ValType toValType(const MVT &Ty);
/// Return the default p2align value for a load or store with the given opcode.
inline unsigned GetDefaultP2AlignAny(unsigned Opc) {
switch (Opc) {
#define WASM_LOAD_STORE(NAME) \
case WebAssembly::NAME##_A32: \
case WebAssembly::NAME##_A64: \
case WebAssembly::NAME##_A32_S: \
case WebAssembly::NAME##_A64_S:
WASM_LOAD_STORE(LOAD8_S_I32)
WASM_LOAD_STORE(LOAD8_U_I32)
WASM_LOAD_STORE(LOAD8_S_I64)
WASM_LOAD_STORE(LOAD8_U_I64)
WASM_LOAD_STORE(ATOMIC_LOAD8_U_I32)
WASM_LOAD_STORE(ATOMIC_LOAD8_U_I64)
WASM_LOAD_STORE(STORE8_I32)
WASM_LOAD_STORE(STORE8_I64)
WASM_LOAD_STORE(ATOMIC_STORE8_I32)
WASM_LOAD_STORE(ATOMIC_STORE8_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_ADD_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_ADD_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_SUB_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_SUB_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_AND_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_AND_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_OR_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_OR_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_XOR_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_XOR_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_XCHG_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_XCHG_I64)
WASM_LOAD_STORE(ATOMIC_RMW8_U_CMPXCHG_I32)
WASM_LOAD_STORE(ATOMIC_RMW8_U_CMPXCHG_I64)
WASM_LOAD_STORE(LOAD_SPLAT_v8x16)
return 0;
WASM_LOAD_STORE(LOAD16_S_I32)
WASM_LOAD_STORE(LOAD16_U_I32)
WASM_LOAD_STORE(LOAD16_S_I64)
WASM_LOAD_STORE(LOAD16_U_I64)
WASM_LOAD_STORE(ATOMIC_LOAD16_U_I32)
WASM_LOAD_STORE(ATOMIC_LOAD16_U_I64)
WASM_LOAD_STORE(STORE16_I32)
WASM_LOAD_STORE(STORE16_I64)
WASM_LOAD_STORE(ATOMIC_STORE16_I32)
WASM_LOAD_STORE(ATOMIC_STORE16_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_ADD_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_ADD_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_SUB_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_SUB_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_AND_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_AND_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_OR_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_OR_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_XOR_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_XOR_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_XCHG_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_XCHG_I64)
WASM_LOAD_STORE(ATOMIC_RMW16_U_CMPXCHG_I32)
WASM_LOAD_STORE(ATOMIC_RMW16_U_CMPXCHG_I64)
WASM_LOAD_STORE(LOAD_SPLAT_v16x8)
return 1;
WASM_LOAD_STORE(LOAD_I32)
WASM_LOAD_STORE(LOAD_F32)
WASM_LOAD_STORE(STORE_I32)
WASM_LOAD_STORE(STORE_F32)
WASM_LOAD_STORE(LOAD32_S_I64)
WASM_LOAD_STORE(LOAD32_U_I64)
WASM_LOAD_STORE(STORE32_I64)
WASM_LOAD_STORE(ATOMIC_LOAD_I32)
WASM_LOAD_STORE(ATOMIC_LOAD32_U_I64)
WASM_LOAD_STORE(ATOMIC_STORE_I32)
WASM_LOAD_STORE(ATOMIC_STORE32_I64)
WASM_LOAD_STORE(ATOMIC_RMW_ADD_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_ADD_I64)
WASM_LOAD_STORE(ATOMIC_RMW_SUB_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_SUB_I64)
WASM_LOAD_STORE(ATOMIC_RMW_AND_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_AND_I64)
WASM_LOAD_STORE(ATOMIC_RMW_OR_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_OR_I64)
WASM_LOAD_STORE(ATOMIC_RMW_XOR_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_XOR_I64)
WASM_LOAD_STORE(ATOMIC_RMW_XCHG_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_XCHG_I64)
WASM_LOAD_STORE(ATOMIC_RMW_CMPXCHG_I32)
WASM_LOAD_STORE(ATOMIC_RMW32_U_CMPXCHG_I64)
WASM_LOAD_STORE(ATOMIC_NOTIFY)
WASM_LOAD_STORE(ATOMIC_WAIT_I32)
WASM_LOAD_STORE(LOAD_SPLAT_v32x4)
return 2;
WASM_LOAD_STORE(LOAD_I64)
WASM_LOAD_STORE(LOAD_F64)
WASM_LOAD_STORE(STORE_I64)
WASM_LOAD_STORE(STORE_F64)
WASM_LOAD_STORE(ATOMIC_LOAD_I64)
WASM_LOAD_STORE(ATOMIC_STORE_I64)
WASM_LOAD_STORE(ATOMIC_RMW_ADD_I64)
WASM_LOAD_STORE(ATOMIC_RMW_SUB_I64)
WASM_LOAD_STORE(ATOMIC_RMW_AND_I64)
WASM_LOAD_STORE(ATOMIC_RMW_OR_I64)
WASM_LOAD_STORE(ATOMIC_RMW_XOR_I64)
WASM_LOAD_STORE(ATOMIC_RMW_XCHG_I64)
WASM_LOAD_STORE(ATOMIC_RMW_CMPXCHG_I64)
WASM_LOAD_STORE(ATOMIC_WAIT_I64)
WASM_LOAD_STORE(LOAD_SPLAT_v64x2)
WASM_LOAD_STORE(LOAD_EXTEND_S_v8i16)
WASM_LOAD_STORE(LOAD_EXTEND_U_v8i16)
WASM_LOAD_STORE(LOAD_EXTEND_S_v4i32)
WASM_LOAD_STORE(LOAD_EXTEND_U_v4i32)
WASM_LOAD_STORE(LOAD_EXTEND_S_v2i64)
WASM_LOAD_STORE(LOAD_EXTEND_U_v2i64)
return 3;
WASM_LOAD_STORE(LOAD_V128)
WASM_LOAD_STORE(STORE_V128)
return 4;
default:
return -1;
}
#undef WASM_LOAD_STORE
}
inline unsigned GetDefaultP2Align(unsigned Opc) {
auto Align = GetDefaultP2AlignAny(Opc);
if (Align == -1U) {
llvm_unreachable("Only loads and stores have p2align values");
}
return Align;
}
inline bool isArgument(unsigned Opc) {
switch (Opc) {
case WebAssembly::ARGUMENT_i32:
case WebAssembly::ARGUMENT_i32_S:
case WebAssembly::ARGUMENT_i64:
case WebAssembly::ARGUMENT_i64_S:
case WebAssembly::ARGUMENT_f32:
case WebAssembly::ARGUMENT_f32_S:
case WebAssembly::ARGUMENT_f64:
case WebAssembly::ARGUMENT_f64_S:
case WebAssembly::ARGUMENT_v16i8:
case WebAssembly::ARGUMENT_v16i8_S:
case WebAssembly::ARGUMENT_v8i16:
case WebAssembly::ARGUMENT_v8i16_S:
case WebAssembly::ARGUMENT_v4i32:
case WebAssembly::ARGUMENT_v4i32_S:
case WebAssembly::ARGUMENT_v2i64:
case WebAssembly::ARGUMENT_v2i64_S:
case WebAssembly::ARGUMENT_v4f32:
case WebAssembly::ARGUMENT_v4f32_S:
case WebAssembly::ARGUMENT_v2f64:
case WebAssembly::ARGUMENT_v2f64_S:
case WebAssembly::ARGUMENT_exnref:
case WebAssembly::ARGUMENT_exnref_S:
return true;
default:
return false;
}
}
inline bool isCopy(unsigned Opc) {
switch (Opc) {
case WebAssembly::COPY_I32:
case WebAssembly::COPY_I32_S:
case WebAssembly::COPY_I64:
case WebAssembly::COPY_I64_S:
case WebAssembly::COPY_F32:
case WebAssembly::COPY_F32_S:
case WebAssembly::COPY_F64:
case WebAssembly::COPY_F64_S:
case WebAssembly::COPY_V128:
case WebAssembly::COPY_V128_S:
case WebAssembly::COPY_EXNREF:
case WebAssembly::COPY_EXNREF_S:
return true;
default:
return false;
}
}
inline bool isTee(unsigned Opc) {
switch (Opc) {
case WebAssembly::TEE_I32:
case WebAssembly::TEE_I32_S:
case WebAssembly::TEE_I64:
case WebAssembly::TEE_I64_S:
case WebAssembly::TEE_F32:
case WebAssembly::TEE_F32_S:
case WebAssembly::TEE_F64:
case WebAssembly::TEE_F64_S:
case WebAssembly::TEE_V128:
case WebAssembly::TEE_V128_S:
case WebAssembly::TEE_EXNREF:
case WebAssembly::TEE_EXNREF_S:
return true;
default:
return false;
}
}
inline bool isCallDirect(unsigned Opc) {
switch (Opc) {
case WebAssembly::CALL:
case WebAssembly::CALL_S:
case WebAssembly::RET_CALL:
case WebAssembly::RET_CALL_S:
return true;
default:
return false;
}
}
inline bool isCallIndirect(unsigned Opc) {
switch (Opc) {
case WebAssembly::CALL_INDIRECT:
case WebAssembly::CALL_INDIRECT_S:
case WebAssembly::RET_CALL_INDIRECT:
case WebAssembly::RET_CALL_INDIRECT_S:
return true;
default:
return false;
}
}
inline bool isBrTable(const MachineInstr &MI) {
switch (MI.getOpcode()) {
case WebAssembly::BR_TABLE_I32:
case WebAssembly::BR_TABLE_I32_S:
case WebAssembly::BR_TABLE_I64:
case WebAssembly::BR_TABLE_I64_S:
return true;
default:
return false;
}
}
inline bool isMarker(unsigned Opc) {
switch (Opc) {
case WebAssembly::BLOCK:
case WebAssembly::BLOCK_S:
case WebAssembly::END_BLOCK:
case WebAssembly::END_BLOCK_S:
case WebAssembly::LOOP:
case WebAssembly::LOOP_S:
case WebAssembly::END_LOOP:
case WebAssembly::END_LOOP_S:
case WebAssembly::TRY:
case WebAssembly::TRY_S:
case WebAssembly::END_TRY:
case WebAssembly::END_TRY_S:
return true;
default:
return false;
}
}
} // end namespace WebAssembly
} // end namespace llvm
#endif
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