mirror of
https://github.com/c64scene-ar/llvm-6502.git
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009505452b
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@2 91177308-0d34-0410-b5e6-96231b3b80d8
185 lines
5.8 KiB
C++
185 lines
5.8 KiB
C++
//===-- WriteInst.cpp - Functions for writing instructions -------*- C++ -*--=//
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//
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// This file implements the routines for encoding instruction opcodes to a
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// bytecode stream.
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//
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// Note that the performance of this library is not terribly important, because
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// it shouldn't be used by JIT type applications... so it is not a huge focus
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// at least. :)
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//
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//===----------------------------------------------------------------------===//
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#include "WriterInternals.h"
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#include "llvm/Module.h"
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#include "llvm/Method.h"
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#include "llvm/BasicBlock.h"
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#include "llvm/Instruction.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Tools/DataTypes.h"
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#include <algorithm>
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typedef unsigned char uchar;
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// outputInstructionFormat0 - Output those wierd instructions that have a large
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// number of operands or have large operands themselves...
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//
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// Format: [opcode] [type] [numargs] [arg0] [arg1] ... [arg<numargs-1>]
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//
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static void outputInstructionFormat0(const Instruction *I,
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const SlotCalculator &Table,
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unsigned Type, vector<uchar> &Out) {
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// Opcode must have top two bits clear...
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output_vbr(I->getInstType(), Out); // Instruction Opcode ID
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output_vbr(Type, Out); // Result type
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unsigned NumArgs; // Count the number of arguments to the instruction
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for (NumArgs = 0; I->getOperand(NumArgs); NumArgs++) /*empty*/;
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output_vbr(NumArgs, Out);
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for (unsigned i = 0; const Value *N = I->getOperand(i); i++) {
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assert(i < NumArgs && "Count of arguments failed!");
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int Slot = Table.getValSlot(N);
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output_vbr((unsigned)Slot, Out);
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}
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align32(Out); // We must maintain correct alignment!
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}
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// outputInstructionFormat1 - Output one operand instructions, knowing that no
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// operand index is >= 2^12.
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//
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static void outputInstructionFormat1(const Instruction *I,
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const SlotCalculator &Table, int *Slots,
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unsigned Type, vector<uchar> &Out) {
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unsigned IType = I->getInstType(); // Instruction Opcode ID
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// bits Instruction format:
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// --------------------------
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// 31-30: Opcode type, fixed to 1.
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// 29-24: Opcode
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// 23-12: Resulting type plane
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// 11- 0: Operand #1 (if set to (2^12-1), then zero operands)
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//
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unsigned Opcode = (1 << 30) | (IType << 24) | (Type << 12) | Slots[0];
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// cerr << "1 " << IType << " " << Type << " " << Slots[0] << endl;
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output(Opcode, Out);
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}
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// outputInstructionFormat2 - Output two operand instructions, knowing that no
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// operand index is >= 2^8.
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//
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static void outputInstructionFormat2(const Instruction *I,
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const SlotCalculator &Table, int *Slots,
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unsigned Type, vector<uchar> &Out) {
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unsigned IType = I->getInstType(); // Instruction Opcode ID
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// bits Instruction format:
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// --------------------------
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// 31-30: Opcode type, fixed to 2.
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// 29-24: Opcode
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// 23-16: Resulting type plane
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// 15- 8: Operand #1
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// 7- 0: Operand #2
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//
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unsigned Opcode = (2 << 30) | (IType << 24) | (Type << 16) |
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(Slots[0] << 8) | (Slots[1] << 0);
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// cerr << "2 " << IType << " " << Type << " " << Slots[0] << " "
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// << Slots[1] << endl;
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output(Opcode, Out);
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}
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// outputInstructionFormat3 - Output three operand instructions, knowing that no
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// operand index is >= 2^6.
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//
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static void outputInstructionFormat3(const Instruction *I,
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const SlotCalculator &Table, int *Slots,
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unsigned Type, vector<uchar> &Out) {
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unsigned IType = I->getInstType(); // Instruction Opcode ID
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// bits Instruction format:
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// --------------------------
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// 31-30: Opcode type, fixed to 3
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// 29-24: Opcode
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// 23-18: Resulting type plane
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// 17-12: Operand #1
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// 11- 6: Operand #2
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// 5- 0: Operand #3
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//
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unsigned Opcode = (3 << 30) | (IType << 24) | (Type << 18) |
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(Slots[0] << 12) | (Slots[1] << 6) | (Slots[2] << 0);
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// cerr << "3 " << IType << " " << Type << " " << Slots[0] << " "
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// << Slots[1] << " " << Slots[2] << endl;
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output(Opcode, Out);
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}
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bool BytecodeWriter::processInstruction(const Instruction *I) {
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assert(I->getInstType() < 64 && "Opcode too big???");
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unsigned NumOperands = 0;
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int MaxOpSlot = 0;
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int Slots[3]; Slots[0] = (1 << 12)-1;
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const Value *Def;
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while ((Def = I->getOperand(NumOperands))) {
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int slot = Table.getValSlot(Def);
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assert(slot != -1 && "Broken bytecode!");
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if (slot > MaxOpSlot) MaxOpSlot = slot;
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if (NumOperands < 3) Slots[NumOperands] = slot;
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NumOperands++;
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}
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// Figure out which type to encode with the instruction. Typically we want
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// the type of the first parameter, as opposed to the type of the instruction
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// (for example, with setcc, we always know it returns bool, but the type of
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// the first param is actually interesting). But if we have no arguments
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// we take the type of the instruction itself.
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//
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const Type *Ty;
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if (NumOperands)
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Ty = I->getOperand(0)->getType();
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else
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Ty = I->getType();
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unsigned Type;
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int Slot = Table.getValSlot(Ty);
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assert(Slot != -1 && "Type not available!!?!");
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Type = (unsigned)Slot;
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// Decide which instruction encoding to use. This is determined primarily by
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// the number of operands, and secondarily by whether or not the max operand
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// will fit into the instruction encoding. More operands == fewer bits per
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// operand.
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//
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switch (NumOperands) {
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case 0:
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case 1:
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if (MaxOpSlot < (1 << 12)-1) { // -1 because we use 4095 to indicate 0 ops
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outputInstructionFormat1(I, Table, Slots, Type, Out);
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return false;
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}
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break;
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case 2:
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if (MaxOpSlot < (1 << 8)) {
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outputInstructionFormat2(I, Table, Slots, Type, Out);
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return false;
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}
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break;
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case 3:
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if (MaxOpSlot < (1 << 6)) {
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outputInstructionFormat3(I, Table, Slots, Type, Out);
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return false;
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}
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break;
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}
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outputInstructionFormat0(I, Table, Type, Out);
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return false;
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}
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