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//===- WebAssemblyDisassemblerEmitter.cpp - Disassembler tables -*- 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
//
//===----------------------------------------------------------------------===//
//
// This file is part of the WebAssembly Disassembler Emitter.
// It contains the implementation of the disassembler tables.
// Documentation for the disassembler emitter in general can be found in
// WebAssemblyDisassemblerEmitter.h.
//
//===----------------------------------------------------------------------===//
#include "WebAssemblyDisassemblerEmitter.h"
#include "llvm/TableGen/Record.h"
namespace llvm {
static constexpr int WebAssemblyInstructionTableSize = 256;
void emitWebAssemblyDisassemblerTables(
raw_ostream &OS,
const ArrayRef<const CodeGenInstruction *> &NumberedInstructions) {
// First lets organize all opcodes by (prefix) byte. Prefix 0 is the
// starting table.
std::map<unsigned,
std::map<unsigned, std::pair<unsigned, const CodeGenInstruction *>>>
OpcodeTable;
for (unsigned I = 0; I != NumberedInstructions.size(); ++I) {
auto &CGI = *NumberedInstructions[I];
auto &Def = *CGI.TheDef;
if (!Def.getValue("Inst"))
continue;
auto &Inst = *Def.getValueAsBitsInit("Inst");
auto Opc = static_cast<unsigned>(
reinterpret_cast<IntInit *>(Inst.convertInitializerTo(IntRecTy::get()))
->getValue());
if (Opc == 0xFFFFFFFF)
continue; // No opcode defined.
assert(Opc <= 0xFFFFFF);
unsigned Prefix;
if (Opc <= 0xFFFF) {
Prefix = Opc >> 8;
Opc = Opc & 0xFF;
} else {
Prefix = Opc >> 16;
Opc = Opc & 0xFFFF;
}
auto &CGIP = OpcodeTable[Prefix][Opc];
// All wasm instructions have a StackBased field of type string, we only
// want the instructions for which this is "true".
auto StackString =
Def.getValue("StackBased")->getValue()->getCastTo(StringRecTy::get());
auto IsStackBased =
StackString &&
reinterpret_cast<const StringInit *>(StackString)->getValue() == "true";
if (!IsStackBased)
continue;
if (CGIP.second) {
// We already have an instruction for this slot, so decide which one
// should be the canonical one. This determines which variant gets
// printed in a disassembly. We want e.g. "call" not "i32.call", and
// "end" when we don't know if its "end_loop" or "end_block" etc.
auto IsCanonicalExisting = CGIP.second->TheDef->getValue("IsCanonical")
->getValue()
->getAsString() == "1";
// We already have one marked explicitly as canonical, so keep it.
if (IsCanonicalExisting)
continue;
auto IsCanonicalNew =
Def.getValue("IsCanonical")->getValue()->getAsString() == "1";
// If the new one is explicitly marked as canonical, take it.
if (!IsCanonicalNew) {
// Neither the existing or new instruction is canonical.
// Pick the one with the shortest name as heuristic.
// Though ideally IsCanonical is always defined for at least one
// variant so this never has to apply.
if (CGIP.second->AsmString.size() <= CGI.AsmString.size())
continue;
}
}
// Set this instruction as the one to use.
CGIP = std::make_pair(I, &CGI);
}
OS << "#include \"MCTargetDesc/WebAssemblyMCTargetDesc.h\"\n";
OS << "\n";
OS << "namespace llvm {\n\n";
OS << "static constexpr int WebAssemblyInstructionTableSize = ";
OS << WebAssemblyInstructionTableSize << ";\n\n";
OS << "enum EntryType : uint8_t { ";
OS << "ET_Unused, ET_Prefix, ET_Instruction };\n\n";
OS << "struct WebAssemblyInstruction {\n";
OS << " uint16_t Opcode;\n";
OS << " EntryType ET;\n";
OS << " uint8_t NumOperands;\n";
OS << " uint16_t OperandStart;\n";
OS << "};\n\n";
std::vector<std::string> OperandTable, CurOperandList;
// Output one table per prefix.
for (auto &PrefixPair : OpcodeTable) {
if (PrefixPair.second.empty())
continue;
OS << "WebAssemblyInstruction InstructionTable" << PrefixPair.first;
OS << "[] = {\n";
for (unsigned I = 0; I < WebAssemblyInstructionTableSize; I++) {
auto InstIt = PrefixPair.second.find(I);
if (InstIt != PrefixPair.second.end()) {
// Regular instruction.
assert(InstIt->second.second);
auto &CGI = *InstIt->second.second;
OS << " // 0x";
OS.write_hex(static_cast<unsigned long long>(I));
OS << ": " << CGI.AsmString << "\n";
OS << " { " << InstIt->second.first << ", ET_Instruction, ";
OS << CGI.Operands.OperandList.size() << ", ";
// Collect operand types for storage in a shared list.
CurOperandList.clear();
for (auto &Op : CGI.Operands.OperandList) {
assert(Op.OperandType != "MCOI::OPERAND_UNKNOWN");
CurOperandList.push_back(Op.OperandType);
}
// See if we already have stored this sequence before. This is not
// strictly necessary but makes the table really small.
size_t OperandStart = OperandTable.size();
if (CurOperandList.size() <= OperandTable.size()) {
for (size_t J = 0; J <= OperandTable.size() - CurOperandList.size();
++J) {
size_t K = 0;
for (; K < CurOperandList.size(); ++K) {
if (OperandTable[J + K] != CurOperandList[K]) break;
}
if (K == CurOperandList.size()) {
OperandStart = J;
break;
}
}
}
// Store operands if no prior occurrence.
if (OperandStart == OperandTable.size()) {
llvm::append_range(OperandTable, CurOperandList);
}
OS << OperandStart;
} else {
auto PrefixIt = OpcodeTable.find(I);
// If we have a non-empty table for it that's not 0, this is a prefix.
if (PrefixIt != OpcodeTable.end() && I && !PrefixPair.first) {
OS << " { 0, ET_Prefix, 0, 0";
} else {
OS << " { 0, ET_Unused, 0, 0";
}
}
OS << " },\n";
}
OS << "};\n\n";
}
// Create a table of all operands:
OS << "const uint8_t OperandTable[] = {\n";
for (auto &Op : OperandTable) {
OS << " " << Op << ",\n";
}
OS << "};\n\n";
// Create a table of all extension tables:
OS << "struct { uint8_t Prefix; const WebAssemblyInstruction *Table; }\n";
OS << "PrefixTable[] = {\n";
for (auto &PrefixPair : OpcodeTable) {
if (PrefixPair.second.empty() || !PrefixPair.first)
continue;
OS << " { " << PrefixPair.first << ", InstructionTable"
<< PrefixPair.first;
OS << " },\n";
}
OS << " { 0, nullptr }\n};\n\n";
OS << "} // end namespace llvm\n";
}
} // namespace llvm