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https://github.com/c64scene-ar/llvm-6502.git
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307525cd24
- This patch is inspired by the failure of the following code snippet which is used to convert enumerable values into encoding bits to improve the readability of td files. class S<int s> { bits<2> V = !if(!eq(s, 8), {0, 0}, !if(!eq(s, 16), {0, 1}, !if(!eq(s, 32), {1, 0}, !if(!eq(s, 64), {1, 1}, {?, ?})))); } Later, PR8330 is found to report not exactly the same bug relevant issue to bit/bits values. - Instead of resolving bit/bits values separately through resolveBitReference(), this patch adds getBit() for all Inits and resolves bit value by resolving plus getting the specified bit. This unifies the resolving of bit with other values and removes redundant logic for resolving bit only. In addition, BitsInit::resolveReferences() is optimized to take advantage of this origanization by resolving VarBitInit's variable reference first and then getting bits from it. - The type interference in '!if' operator is revised to support possible combinations of int and bits/bit in MHS and RHS. - As there may be illegal assignments from integer value to bit, says assign 2 to a bit, but we only check this during instantiation in some cases, e.g. bit V = !if(!eq(x, 17), 0, 2); Verbose diagnostic message is generated when invalid value is resolveed to help locating the error. - PR8330 is fixed as well. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@163360 91177308-0d34-0410-b5e6-96231b3b80d8
340 lines
11 KiB
C++
340 lines
11 KiB
C++
//===- CodeEmitterGen.cpp - Code Emitter Generator ------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// CodeEmitterGen uses the descriptions of instructions and their fields to
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// construct an automated code emitter: a function that, given a MachineInstr,
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// returns the (currently, 32-bit unsigned) value of the instruction.
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//
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//===----------------------------------------------------------------------===//
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#include "CodeGenTarget.h"
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#include "llvm/TableGen/Record.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/TableGen/TableGenBackend.h"
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#include <map>
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#include <string>
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#include <vector>
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using namespace llvm;
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// FIXME: Somewhat hackish to use a command line option for this. There should
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// be a CodeEmitter class in the Target.td that controls this sort of thing
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// instead.
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static cl::opt<bool>
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MCEmitter("mc-emitter",
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cl::desc("Generate CodeEmitter for use with the MC library."),
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cl::init(false));
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namespace {
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class CodeEmitterGen {
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RecordKeeper &Records;
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public:
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CodeEmitterGen(RecordKeeper &R) : Records(R) {}
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void run(raw_ostream &o);
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private:
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void emitMachineOpEmitter(raw_ostream &o, const std::string &Namespace);
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void emitGetValueBit(raw_ostream &o, const std::string &Namespace);
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void reverseBits(std::vector<Record*> &Insts);
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int getVariableBit(const std::string &VarName, BitsInit *BI, int bit);
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std::string getInstructionCase(Record *R, CodeGenTarget &Target);
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void AddCodeToMergeInOperand(Record *R, BitsInit *BI,
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const std::string &VarName,
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unsigned &NumberedOp,
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std::string &Case, CodeGenTarget &Target);
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};
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void CodeEmitterGen::reverseBits(std::vector<Record*> &Insts) {
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for (std::vector<Record*>::iterator I = Insts.begin(), E = Insts.end();
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I != E; ++I) {
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Record *R = *I;
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if (R->getValueAsString("Namespace") == "TargetOpcode" ||
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R->getValueAsBit("isPseudo"))
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continue;
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BitsInit *BI = R->getValueAsBitsInit("Inst");
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unsigned numBits = BI->getNumBits();
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SmallVector<Init *, 16> NewBits(numBits);
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for (unsigned bit = 0, end = numBits / 2; bit != end; ++bit) {
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unsigned bitSwapIdx = numBits - bit - 1;
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Init *OrigBit = BI->getBit(bit);
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Init *BitSwap = BI->getBit(bitSwapIdx);
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NewBits[bit] = BitSwap;
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NewBits[bitSwapIdx] = OrigBit;
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}
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if (numBits % 2) {
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unsigned middle = (numBits + 1) / 2;
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NewBits[middle] = BI->getBit(middle);
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}
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BitsInit *NewBI = BitsInit::get(NewBits);
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// Update the bits in reversed order so that emitInstrOpBits will get the
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// correct endianness.
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R->getValue("Inst")->setValue(NewBI);
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}
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}
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// If the VarBitInit at position 'bit' matches the specified variable then
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// return the variable bit position. Otherwise return -1.
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int CodeEmitterGen::getVariableBit(const std::string &VarName,
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BitsInit *BI, int bit) {
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if (VarBitInit *VBI = dynamic_cast<VarBitInit*>(BI->getBit(bit))) {
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if (VarInit *VI = dynamic_cast<VarInit*>(VBI->getBitVar()))
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if (VI->getName() == VarName)
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return VBI->getBitNum();
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} else if (VarInit *VI = dynamic_cast<VarInit*>(BI->getBit(bit))) {
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if (VI->getName() == VarName)
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return 0;
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}
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return -1;
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}
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void CodeEmitterGen::
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AddCodeToMergeInOperand(Record *R, BitsInit *BI, const std::string &VarName,
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unsigned &NumberedOp,
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std::string &Case, CodeGenTarget &Target) {
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CodeGenInstruction &CGI = Target.getInstruction(R);
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// Determine if VarName actually contributes to the Inst encoding.
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int bit = BI->getNumBits()-1;
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// Scan for a bit that this contributed to.
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for (; bit >= 0; ) {
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if (getVariableBit(VarName, BI, bit) != -1)
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break;
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--bit;
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}
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// If we found no bits, ignore this value, otherwise emit the call to get the
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// operand encoding.
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if (bit < 0) return;
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// If the operand matches by name, reference according to that
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// operand number. Non-matching operands are assumed to be in
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// order.
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unsigned OpIdx;
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if (CGI.Operands.hasOperandNamed(VarName, OpIdx)) {
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// Get the machine operand number for the indicated operand.
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OpIdx = CGI.Operands[OpIdx].MIOperandNo;
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assert(!CGI.Operands.isFlatOperandNotEmitted(OpIdx) &&
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"Explicitly used operand also marked as not emitted!");
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} else {
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/// If this operand is not supposed to be emitted by the
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/// generated emitter, skip it.
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while (CGI.Operands.isFlatOperandNotEmitted(NumberedOp))
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++NumberedOp;
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OpIdx = NumberedOp++;
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}
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std::pair<unsigned, unsigned> SO = CGI.Operands.getSubOperandNumber(OpIdx);
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std::string &EncoderMethodName = CGI.Operands[SO.first].EncoderMethodName;
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// If the source operand has a custom encoder, use it. This will
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// get the encoding for all of the suboperands.
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if (!EncoderMethodName.empty()) {
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// A custom encoder has all of the information for the
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// sub-operands, if there are more than one, so only
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// query the encoder once per source operand.
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if (SO.second == 0) {
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Case += " // op: " + VarName + "\n" +
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" op = " + EncoderMethodName + "(MI, " + utostr(OpIdx);
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if (MCEmitter)
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Case += ", Fixups";
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Case += ");\n";
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}
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} else {
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Case += " // op: " + VarName + "\n" +
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" op = getMachineOpValue(MI, MI.getOperand(" + utostr(OpIdx) + ")";
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if (MCEmitter)
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Case += ", Fixups";
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Case += ");\n";
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}
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for (; bit >= 0; ) {
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int varBit = getVariableBit(VarName, BI, bit);
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// If this bit isn't from a variable, skip it.
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if (varBit == -1) {
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--bit;
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continue;
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}
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// Figure out the consecutive range of bits covered by this operand, in
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// order to generate better encoding code.
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int beginInstBit = bit;
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int beginVarBit = varBit;
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int N = 1;
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for (--bit; bit >= 0;) {
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varBit = getVariableBit(VarName, BI, bit);
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if (varBit == -1 || varBit != (beginVarBit - N)) break;
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++N;
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--bit;
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}
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uint64_t opMask = ~(uint64_t)0 >> (64-N);
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int opShift = beginVarBit - N + 1;
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opMask <<= opShift;
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opShift = beginInstBit - beginVarBit;
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if (opShift > 0) {
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Case += " Value |= (op & UINT64_C(" + utostr(opMask) + ")) << " +
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itostr(opShift) + ";\n";
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} else if (opShift < 0) {
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Case += " Value |= (op & UINT64_C(" + utostr(opMask) + ")) >> " +
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itostr(-opShift) + ";\n";
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} else {
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Case += " Value |= op & UINT64_C(" + utostr(opMask) + ");\n";
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}
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}
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}
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std::string CodeEmitterGen::getInstructionCase(Record *R,
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CodeGenTarget &Target) {
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std::string Case;
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BitsInit *BI = R->getValueAsBitsInit("Inst");
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const std::vector<RecordVal> &Vals = R->getValues();
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unsigned NumberedOp = 0;
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// Loop over all of the fields in the instruction, determining which are the
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// operands to the instruction.
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for (unsigned i = 0, e = Vals.size(); i != e; ++i) {
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// Ignore fixed fields in the record, we're looking for values like:
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// bits<5> RST = { ?, ?, ?, ?, ? };
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if (Vals[i].getPrefix() || Vals[i].getValue()->isComplete())
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continue;
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AddCodeToMergeInOperand(R, BI, Vals[i].getName(), NumberedOp, Case, Target);
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}
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std::string PostEmitter = R->getValueAsString("PostEncoderMethod");
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if (!PostEmitter.empty())
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Case += " Value = " + PostEmitter + "(MI, Value);\n";
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return Case;
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}
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void CodeEmitterGen::run(raw_ostream &o) {
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CodeGenTarget Target(Records);
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std::vector<Record*> Insts = Records.getAllDerivedDefinitions("Instruction");
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// For little-endian instruction bit encodings, reverse the bit order
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if (Target.isLittleEndianEncoding()) reverseBits(Insts);
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const std::vector<const CodeGenInstruction*> &NumberedInstructions =
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Target.getInstructionsByEnumValue();
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// Emit function declaration
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o << "uint64_t " << Target.getName();
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if (MCEmitter)
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o << "MCCodeEmitter::getBinaryCodeForInstr(const MCInst &MI,\n"
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<< " SmallVectorImpl<MCFixup> &Fixups) const {\n";
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else
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o << "CodeEmitter::getBinaryCodeForInstr(const MachineInstr &MI) const {\n";
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// Emit instruction base values
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o << " static const uint64_t InstBits[] = {\n";
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for (std::vector<const CodeGenInstruction*>::const_iterator
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IN = NumberedInstructions.begin(),
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EN = NumberedInstructions.end();
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IN != EN; ++IN) {
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const CodeGenInstruction *CGI = *IN;
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Record *R = CGI->TheDef;
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if (R->getValueAsString("Namespace") == "TargetOpcode" ||
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R->getValueAsBit("isPseudo")) {
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o << " UINT64_C(0),\n";
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continue;
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}
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BitsInit *BI = R->getValueAsBitsInit("Inst");
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// Start by filling in fixed values.
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uint64_t Value = 0;
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for (unsigned i = 0, e = BI->getNumBits(); i != e; ++i) {
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if (BitInit *B = dynamic_cast<BitInit*>(BI->getBit(e-i-1)))
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Value |= (uint64_t)B->getValue() << (e-i-1);
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}
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o << " UINT64_C(" << Value << ")," << '\t' << "// " << R->getName() << "\n";
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}
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o << " UINT64_C(0)\n };\n";
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// Map to accumulate all the cases.
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std::map<std::string, std::vector<std::string> > CaseMap;
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// Construct all cases statement for each opcode
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for (std::vector<Record*>::iterator IC = Insts.begin(), EC = Insts.end();
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IC != EC; ++IC) {
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Record *R = *IC;
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if (R->getValueAsString("Namespace") == "TargetOpcode" ||
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R->getValueAsBit("isPseudo"))
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continue;
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const std::string &InstName = R->getValueAsString("Namespace") + "::"
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+ R->getName();
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std::string Case = getInstructionCase(R, Target);
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CaseMap[Case].push_back(InstName);
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}
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// Emit initial function code
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o << " const unsigned opcode = MI.getOpcode();\n"
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<< " uint64_t Value = InstBits[opcode];\n"
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<< " uint64_t op = 0;\n"
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<< " (void)op; // suppress warning\n"
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<< " switch (opcode) {\n";
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// Emit each case statement
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std::map<std::string, std::vector<std::string> >::iterator IE, EE;
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for (IE = CaseMap.begin(), EE = CaseMap.end(); IE != EE; ++IE) {
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const std::string &Case = IE->first;
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std::vector<std::string> &InstList = IE->second;
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for (int i = 0, N = InstList.size(); i < N; i++) {
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if (i) o << "\n";
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o << " case " << InstList[i] << ":";
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}
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o << " {\n";
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o << Case;
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o << " break;\n"
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<< " }\n";
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}
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// Default case: unhandled opcode
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o << " default:\n"
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<< " std::string msg;\n"
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<< " raw_string_ostream Msg(msg);\n"
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<< " Msg << \"Not supported instr: \" << MI;\n"
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<< " report_fatal_error(Msg.str());\n"
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<< " }\n"
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<< " return Value;\n"
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<< "}\n\n";
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}
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} // End anonymous namespace
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namespace llvm {
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void EmitCodeEmitter(RecordKeeper &RK, raw_ostream &OS) {
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emitSourceFileHeader("Machine Code Emitter", OS);
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CodeEmitterGen(RK).run(OS);
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}
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} // End llvm namespace
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