92 lines
3.6 KiB
C++
92 lines
3.6 KiB
C++
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//===- RISCVMatInt.cpp - Immediate materialisation -------------*- C++ -*--===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "RISCVMatInt.h"
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#include "MCTargetDesc/RISCVMCTargetDesc.h"
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#include "llvm/ADT/APInt.h"
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#include "llvm/Support/MathExtras.h"
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namespace llvm {
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namespace RISCVMatInt {
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void generateInstSeq(int64_t Val, bool IsRV64, InstSeq &Res) {
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if (isInt<32>(Val)) {
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// Depending on the active bits in the immediate Value v, the following
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// instruction sequences are emitted:
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//
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// v == 0 : ADDI
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// v[0,12) != 0 && v[12,32) == 0 : ADDI
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// v[0,12) == 0 && v[12,32) != 0 : LUI
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// v[0,32) != 0 : LUI+ADDI(W)
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int64_t Hi20 = ((Val + 0x800) >> 12) & 0xFFFFF;
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int64_t Lo12 = SignExtend64<12>(Val);
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if (Hi20)
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Res.push_back(Inst(RISCV::LUI, Hi20));
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if (Lo12 || Hi20 == 0) {
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unsigned AddiOpc = (IsRV64 && Hi20) ? RISCV::ADDIW : RISCV::ADDI;
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Res.push_back(Inst(AddiOpc, Lo12));
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}
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return;
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}
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assert(IsRV64 && "Can't emit >32-bit imm for non-RV64 target");
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// In the worst case, for a full 64-bit constant, a sequence of 8 instructions
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// (i.e., LUI+ADDIW+SLLI+ADDI+SLLI+ADDI+SLLI+ADDI) has to be emmitted. Note
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// that the first two instructions (LUI+ADDIW) can contribute up to 32 bits
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// while the following ADDI instructions contribute up to 12 bits each.
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//
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// On the first glance, implementing this seems to be possible by simply
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// emitting the most significant 32 bits (LUI+ADDIW) followed by as many left
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// shift (SLLI) and immediate additions (ADDI) as needed. However, due to the
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// fact that ADDI performs a sign extended addition, doing it like that would
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// only be possible when at most 11 bits of the ADDI instructions are used.
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// Using all 12 bits of the ADDI instructions, like done by GAS, actually
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// requires that the constant is processed starting with the least significant
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// bit.
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//
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// In the following, constants are processed from LSB to MSB but instruction
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// emission is performed from MSB to LSB by recursively calling
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// generateInstSeq. In each recursion, first the lowest 12 bits are removed
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// from the constant and the optimal shift amount, which can be greater than
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// 12 bits if the constant is sparse, is determined. Then, the shifted
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// remaining constant is processed recursively and gets emitted as soon as it
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// fits into 32 bits. The emission of the shifts and additions is subsequently
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// performed when the recursion returns.
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int64_t Lo12 = SignExtend64<12>(Val);
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int64_t Hi52 = ((uint64_t)Val + 0x800ull) >> 12;
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int ShiftAmount = 12 + findFirstSet((uint64_t)Hi52);
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Hi52 = SignExtend64(Hi52 >> (ShiftAmount - 12), 64 - ShiftAmount);
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generateInstSeq(Hi52, IsRV64, Res);
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Res.push_back(Inst(RISCV::SLLI, ShiftAmount));
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if (Lo12)
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Res.push_back(Inst(RISCV::ADDI, Lo12));
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}
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int getIntMatCost(const APInt &Val, unsigned Size, bool IsRV64) {
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int PlatRegSize = IsRV64 ? 64 : 32;
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// Split the constant into platform register sized chunks, and calculate cost
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// of each chunk.
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int Cost = 0;
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for (unsigned ShiftVal = 0; ShiftVal < Size; ShiftVal += PlatRegSize) {
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APInt Chunk = Val.ashr(ShiftVal).sextOrTrunc(PlatRegSize);
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InstSeq MatSeq;
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generateInstSeq(Chunk.getSExtValue(), IsRV64, MatSeq);
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Cost += MatSeq.size();
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}
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return std::max(1, Cost);
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}
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} // namespace RISCVMatInt
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} // namespace llvm
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