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https://github.com/RPCS3/llvm-mirror.git
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01e8c46349
llvm-svn: 122513
863 lines
32 KiB
TableGen
863 lines
32 KiB
TableGen
//===- BlackfinInstrInfo.td - Target Description for Blackfin Target ------===//
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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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// This file describes the Blackfin instructions in TableGen format.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// Instruction format superclass
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//===----------------------------------------------------------------------===//
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include "BlackfinInstrFormats.td"
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// These are target-independent nodes, but have target-specific formats.
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def SDT_BfinCallSeqStart : SDCallSeqStart<[ SDTCisVT<0, i32> ]>;
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def SDT_BfinCallSeqEnd : SDCallSeqEnd<[ SDTCisVT<0, i32>,
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SDTCisVT<1, i32> ]>;
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def BfinCallseqStart : SDNode<"ISD::CALLSEQ_START", SDT_BfinCallSeqStart,
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[SDNPHasChain, SDNPOutGlue]>;
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def BfinCallseqEnd : SDNode<"ISD::CALLSEQ_END", SDT_BfinCallSeqEnd,
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[SDNPHasChain, SDNPOptInGlue, SDNPOutGlue]>;
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def SDT_BfinCall : SDTypeProfile<0, 1, [SDTCisPtrTy<0>]>;
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def BfinCall : SDNode<"BFISD::CALL", SDT_BfinCall,
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[SDNPHasChain, SDNPOptInGlue, SDNPOutGlue,
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SDNPVariadic]>;
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def BfinRet: SDNode<"BFISD::RET_FLAG", SDTNone,
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[SDNPHasChain, SDNPOptInGlue]>;
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def BfinWrapper: SDNode<"BFISD::Wrapper", SDTIntUnaryOp>;
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//===----------------------------------------------------------------------===//
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// Transformations
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//===----------------------------------------------------------------------===//
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def trailingZeros_xform : SDNodeXForm<imm, [{
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return CurDAG->getTargetConstant(N->getAPIntValue().countTrailingZeros(),
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MVT::i32);
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}]>;
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def trailingOnes_xform : SDNodeXForm<imm, [{
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return CurDAG->getTargetConstant(N->getAPIntValue().countTrailingOnes(),
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MVT::i32);
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}]>;
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def LO16 : SDNodeXForm<imm, [{
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return CurDAG->getTargetConstant((unsigned short)N->getZExtValue(), MVT::i16);
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}]>;
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def HI16 : SDNodeXForm<imm, [{
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// Transformation function: shift the immediate value down into the low bits.
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return CurDAG->getTargetConstant((unsigned)N->getZExtValue() >> 16, MVT::i16);
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}]>;
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//===----------------------------------------------------------------------===//
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// Immediates
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//===----------------------------------------------------------------------===//
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def imm3 : PatLeaf<(imm), [{return isInt<3>(N->getSExtValue());}]>;
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def uimm3 : PatLeaf<(imm), [{return isUInt<3>(N->getZExtValue());}]>;
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def uimm4 : PatLeaf<(imm), [{return isUInt<4>(N->getZExtValue());}]>;
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def uimm5 : PatLeaf<(imm), [{return isUInt<5>(N->getZExtValue());}]>;
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def uimm5m2 : PatLeaf<(imm), [{
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uint64_t value = N->getZExtValue();
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return value % 2 == 0 && isUInt<5>(value);
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}]>;
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def uimm6m4 : PatLeaf<(imm), [{
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uint64_t value = N->getZExtValue();
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return value % 4 == 0 && isUInt<6>(value);
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}]>;
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def imm7 : PatLeaf<(imm), [{return isInt<7>(N->getSExtValue());}]>;
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def imm16 : PatLeaf<(imm), [{return isInt<16>(N->getSExtValue());}]>;
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def uimm16 : PatLeaf<(imm), [{return isUInt<16>(N->getZExtValue());}]>;
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def ximm16 : PatLeaf<(imm), [{
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int64_t value = N->getSExtValue();
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return value < (1<<16) && value >= -(1<<15);
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}]>;
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def imm17m2 : PatLeaf<(imm), [{
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int64_t value = N->getSExtValue();
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return value % 2 == 0 && isInt<17>(value);
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}]>;
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def imm18m4 : PatLeaf<(imm), [{
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int64_t value = N->getSExtValue();
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return value % 4 == 0 && isInt<18>(value);
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}]>;
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// 32-bit bitmask transformed to a bit number
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def uimm5mask : Operand<i32>, PatLeaf<(imm), [{
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return isPowerOf2_32(N->getZExtValue());
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}], trailingZeros_xform>;
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// 32-bit inverse bitmask transformed to a bit number
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def uimm5imask : Operand<i32>, PatLeaf<(imm), [{
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return isPowerOf2_32(~N->getZExtValue());
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}], trailingOnes_xform>;
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//===----------------------------------------------------------------------===//
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// Operands
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//===----------------------------------------------------------------------===//
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def calltarget : Operand<iPTR>;
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def brtarget : Operand<OtherVT>;
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// Addressing modes
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def ADDRspii : ComplexPattern<i32, 2, "SelectADDRspii", [add, frameindex], []>;
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// Address operands
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def MEMii : Operand<i32> {
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let PrintMethod = "printMemoryOperand";
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let MIOperandInfo = (ops i32imm, i32imm);
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}
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//===----------------------------------------------------------------------===//
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// Instructions
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//===----------------------------------------------------------------------===//
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// Pseudo instructions.
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class Pseudo<dag outs, dag ins, string asmstr, list<dag> pattern>
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: InstBfin<outs, ins, asmstr, pattern>;
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let Defs = [SP], Uses = [SP] in {
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def ADJCALLSTACKDOWN : Pseudo<(outs), (ins i32imm:$amt),
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"${:comment}ADJCALLSTACKDOWN $amt",
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[(BfinCallseqStart timm:$amt)]>;
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def ADJCALLSTACKUP : Pseudo<(outs), (ins i32imm:$amt1, i32imm:$amt2),
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"${:comment}ADJCALLSTACKUP $amt1 $amt2",
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[(BfinCallseqEnd timm:$amt1, timm:$amt2)]>;
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}
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//===----------------------------------------------------------------------===//
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// Table C-9. Program Flow Control Instructions
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//===----------------------------------------------------------------------===//
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let isBranch = 1, isTerminator = 1 in {
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let isIndirectBranch = 1 in
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def JUMPp : F1<(outs), (ins P:$target),
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"JUMP ($target);",
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[(brind P:$target)]>;
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// TODO JUMP (PC-P)
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// NOTE: assembler chooses between JUMP.S and JUMP.L
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def JUMPa : F1<(outs), (ins brtarget:$target),
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"jump $target;",
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[(br bb:$target)]>;
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def JUMPcc : F1<(outs), (ins AnyCC:$cc, brtarget:$target),
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"if $cc jump $target;",
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[(brcond AnyCC:$cc, bb:$target)]>;
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}
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let isCall = 1,
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Defs = [R0, R1, R2, R3, P0, P1, P2, LB0, LB1, LC0, LC1, RETS, ASTAT] in {
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def CALLa: F1<(outs), (ins calltarget:$func, variable_ops),
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"call $func;", []>;
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def CALLp: F1<(outs), (ins P:$func, variable_ops),
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"call ($func);", [(BfinCall P:$func)]>;
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}
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let isReturn = 1,
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isTerminator = 1,
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isBarrier = 1,
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Uses = [RETS] in
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def RTS: F1<(outs), (ins), "rts;", [(BfinRet)]>;
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//===----------------------------------------------------------------------===//
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// Table C-10. Load / Store Instructions
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//===----------------------------------------------------------------------===//
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// Immediate constant loads
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// sext immediate, i32 D/P regs
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def LOADimm7: F1<(outs DP:$dst), (ins i32imm:$src),
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"$dst = $src (x);",
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[(set DP:$dst, imm7:$src)]>;
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// zext immediate, i32 reg groups 0-3
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def LOADuimm16: F2<(outs GR:$dst), (ins i32imm:$src),
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"$dst = $src (z);",
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[(set GR:$dst, uimm16:$src)]>;
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// sext immediate, i32 reg groups 0-3
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def LOADimm16: F2<(outs GR:$dst), (ins i32imm:$src),
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"$dst = $src (x);",
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[(set GR:$dst, imm16:$src)]>;
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// Pseudo-instruction for loading a general 32-bit constant.
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def LOAD32imm: Pseudo<(outs GR:$dst), (ins i32imm:$src),
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"$dst.h = ($src >> 16); $dst.l = ($src & 0xffff);",
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[(set GR:$dst, imm:$src)]>;
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def LOAD32sym: Pseudo<(outs GR:$dst), (ins i32imm:$src),
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"$dst.h = $src; $dst.l = $src;", []>;
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// 16-bit immediate, i16 reg groups 0-3
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def LOAD16i: F2<(outs GR16:$dst), (ins i16imm:$src),
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"$dst = $src;", []>;
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def : Pat<(BfinWrapper (i32 tglobaladdr:$addr)),
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(LOAD32sym tglobaladdr:$addr)>;
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def : Pat<(BfinWrapper (i32 tjumptable:$addr)),
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(LOAD32sym tjumptable:$addr)>;
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// We cannot copy from GR16 to D16, and codegen wants to insert copies if we
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// emit GR16 instructions. As a hack, we use this fake instruction instead.
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def LOAD16i_d16: F2<(outs D16:$dst), (ins i16imm:$src),
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"$dst = $src;",
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[(set D16:$dst, ximm16:$src)]>;
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// Memory loads with patterns
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def LOAD32p: F1<(outs DP:$dst), (ins P:$ptr),
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"$dst = [$ptr];",
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[(set DP:$dst, (load P:$ptr))]>;
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// Pseudo-instruction for loading a stack slot
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def LOAD32fi: Pseudo<(outs DP:$dst), (ins MEMii:$mem),
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"${:comment}FI $dst = [$mem];",
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[(set DP:$dst, (load ADDRspii:$mem))]>;
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// Note: Expands to multiple insns
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def LOAD16fi: Pseudo<(outs D16:$dst), (ins MEMii:$mem),
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"${:comment}FI $dst = [$mem];",
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[(set D16:$dst, (load ADDRspii:$mem))]>;
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// Pseudo-instruction for loading a stack slot, used for AnyCC regs.
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// Replaced with Load D + CC=D
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def LOAD8fi: Pseudo<(outs AnyCC:$dst), (ins MEMii:$mem),
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"${:comment}FI $dst = B[$mem];",
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[(set AnyCC:$dst, (load ADDRspii:$mem))]>;
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def LOAD32p_uimm6m4: F1<(outs DP:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = [$ptr + $off];",
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[(set DP:$dst, (load (add P:$ptr, uimm6m4:$off)))]>;
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def LOAD32p_imm18m4: F2<(outs DP:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = [$ptr + $off];",
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[(set DP:$dst, (load (add P:$ptr, imm18m4:$off)))]>;
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def LOAD32p_16z: F1<(outs D:$dst), (ins P:$ptr),
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"$dst = W[$ptr] (z);",
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[(set D:$dst, (zextloadi16 P:$ptr))]>;
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def : Pat<(i32 (extloadi16 P:$ptr)),(LOAD32p_16z P:$ptr)>;
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def LOAD32p_uimm5m2_16z: F1<(outs D:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = w[$ptr + $off] (z);",
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[(set D:$dst, (zextloadi16 (add P:$ptr,
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uimm5m2:$off)))]>;
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def : Pat<(i32 (extloadi16 (add P:$ptr, uimm5m2:$off))),
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(LOAD32p_uimm5m2_16z P:$ptr, imm:$off)>;
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def LOAD32p_imm17m2_16z: F1<(outs D:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = w[$ptr + $off] (z);",
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[(set D:$dst,
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(zextloadi16 (add P:$ptr, imm17m2:$off)))]>;
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def : Pat<(i32 (extloadi16 (add P:$ptr, imm17m2:$off))),
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(LOAD32p_imm17m2_16z P:$ptr, imm:$off)>;
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def LOAD32p_16s: F1<(outs D:$dst), (ins P:$ptr),
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"$dst = w[$ptr] (x);",
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[(set D:$dst, (sextloadi16 P:$ptr))]>;
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def LOAD32p_uimm5m2_16s: F1<(outs D:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = w[$ptr + $off] (x);",
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[(set D:$dst,
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(sextloadi16 (add P:$ptr, uimm5m2:$off)))]>;
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def LOAD32p_imm17m2_16s: F1<(outs D:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = w[$ptr + $off] (x);",
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[(set D:$dst,
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(sextloadi16 (add P:$ptr, imm17m2:$off)))]>;
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def LOAD16pi: F1<(outs D16:$dst), (ins PI:$ptr),
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"$dst = w[$ptr];",
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[(set D16:$dst, (load PI:$ptr))]>;
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def LOAD32p_8z: F1<(outs D:$dst), (ins P:$ptr),
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"$dst = B[$ptr] (z);",
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[(set D:$dst, (zextloadi8 P:$ptr))]>;
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def : Pat<(i32 (extloadi8 P:$ptr)), (LOAD32p_8z P:$ptr)>;
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def : Pat<(i16 (extloadi8 P:$ptr)),
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(EXTRACT_SUBREG (LOAD32p_8z P:$ptr), lo16)>;
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def : Pat<(i16 (zextloadi8 P:$ptr)),
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(EXTRACT_SUBREG (LOAD32p_8z P:$ptr), lo16)>;
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def LOAD32p_imm16_8z: F1<(outs D:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = b[$ptr + $off] (z);",
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[(set D:$dst, (zextloadi8 (add P:$ptr, imm16:$off)))]>;
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def : Pat<(i32 (extloadi8 (add P:$ptr, imm16:$off))),
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(LOAD32p_imm16_8z P:$ptr, imm:$off)>;
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def : Pat<(i16 (extloadi8 (add P:$ptr, imm16:$off))),
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(EXTRACT_SUBREG (LOAD32p_imm16_8z P:$ptr, imm:$off),
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lo16)>;
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def : Pat<(i16 (zextloadi8 (add P:$ptr, imm16:$off))),
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(EXTRACT_SUBREG (LOAD32p_imm16_8z P:$ptr, imm:$off),
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lo16)>;
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def LOAD32p_8s: F1<(outs D:$dst), (ins P:$ptr),
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"$dst = b[$ptr] (x);",
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[(set D:$dst, (sextloadi8 P:$ptr))]>;
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def : Pat<(i16 (sextloadi8 P:$ptr)),
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(EXTRACT_SUBREG (LOAD32p_8s P:$ptr), lo16)>;
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def LOAD32p_imm16_8s: F1<(outs D:$dst), (ins P:$ptr, i32imm:$off),
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"$dst = b[$ptr + $off] (x);",
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[(set D:$dst, (sextloadi8 (add P:$ptr, imm16:$off)))]>;
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def : Pat<(i16 (sextloadi8 (add P:$ptr, imm16:$off))),
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(EXTRACT_SUBREG (LOAD32p_imm16_8s P:$ptr, imm:$off),
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lo16)>;
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// Memory loads without patterns
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let mayLoad = 1 in {
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multiclass LOAD_incdec<RegisterClass drc, RegisterClass prc,
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string mem="", string suf=";"> {
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def _inc : F1<(outs drc:$dst, prc:$ptr_wb), (ins prc:$ptr),
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!strconcat(!subst("M", mem, "$dst = M[$ptr++]"), suf), []>;
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def _dec : F1<(outs drc:$dst, prc:$ptr_wb), (ins prc:$ptr),
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!strconcat(!subst("M", mem, "$dst = M[$ptr--]"), suf), []>;
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}
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multiclass LOAD_incdecpost<RegisterClass drc, RegisterClass prc,
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string mem="", string suf=";">
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: LOAD_incdec<drc, prc, mem, suf> {
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def _post : F1<(outs drc:$dst, prc:$ptr_wb), (ins prc:$ptr, prc:$off),
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!strconcat(!subst("M", mem, "$dst = M[$ptr++$off]"), suf), []>;
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}
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defm LOAD32p: LOAD_incdec<DP, P>;
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defm LOAD32i: LOAD_incdec<D, I>;
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defm LOAD8z32p: LOAD_incdec<D, P, "b", " (z);">;
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defm LOAD8s32p: LOAD_incdec<D, P, "b", " (x);">;
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defm LOADhi: LOAD_incdec<D16, I, "w">;
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defm LOAD16z32p: LOAD_incdecpost<D, P, "w", " (z);">;
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defm LOAD16s32p: LOAD_incdecpost<D, P, "w", " (x);">;
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def LOAD32p_post: F1<(outs D:$dst, P:$ptr_wb), (ins P:$ptr, P:$off),
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"$dst = [$ptr ++ $off];", []>;
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// Note: $fp MUST be FP
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def LOAD32fp_nimm7m4: F1<(outs DP:$dst), (ins P:$fp, i32imm:$off),
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"$dst = [$fp - $off];", []>;
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def LOAD32i: F1<(outs D:$dst), (ins I:$ptr),
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"$dst = [$ptr];", []>;
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def LOAD32i_post: F1<(outs D:$dst, I:$ptr_wb), (ins I:$ptr, M:$off),
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"$dst = [$ptr ++ $off];", []>;
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def LOADhp_post: F1<(outs D16:$dst, P:$ptr_wb), (ins P:$ptr, P:$off),
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"$dst = w[$ptr ++ $off];", []>;
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}
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// Memory stores with patterns
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def STORE32p: F1<(outs), (ins DP:$val, P:$ptr),
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"[$ptr] = $val;",
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[(store DP:$val, P:$ptr)]>;
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// Pseudo-instructions for storing to a stack slot
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def STORE32fi: Pseudo<(outs), (ins DP:$val, MEMii:$mem),
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"${:comment}FI [$mem] = $val;",
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[(store DP:$val, ADDRspii:$mem)]>;
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// Note: This stack-storing pseudo-instruction is expanded to multiple insns
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def STORE16fi: Pseudo<(outs), (ins D16:$val, MEMii:$mem),
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"${:comment}FI [$mem] = $val;",
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[(store D16:$val, ADDRspii:$mem)]>;
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// Pseudo-instructions for storing AnyCC register to a stack slot.
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// Replaced with D=CC + STORE byte
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def STORE8fi: Pseudo<(outs), (ins AnyCC:$val, MEMii:$mem),
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"${:comment}FI b[$mem] = $val;",
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[(store AnyCC:$val, ADDRspii:$mem)]>;
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def STORE32p_uimm6m4: F1<(outs), (ins DP:$val, P:$ptr, i32imm:$off),
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"[$ptr + $off] = $val;",
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[(store DP:$val, (add P:$ptr, uimm6m4:$off))]>;
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def STORE32p_imm18m4: F1<(outs), (ins DP:$val, P:$ptr, i32imm:$off),
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"[$ptr + $off] = $val;",
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[(store DP:$val, (add P:$ptr, imm18m4:$off))]>;
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def STORE16pi: F1<(outs), (ins D16:$val, PI:$ptr),
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"w[$ptr] = $val;",
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[(store D16:$val, PI:$ptr)]>;
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def STORE8p: F1<(outs), (ins D:$val, P:$ptr),
|
|
"b[$ptr] = $val;",
|
|
[(truncstorei8 D:$val, P:$ptr)]>;
|
|
|
|
def STORE8p_imm16: F1<(outs), (ins D:$val, P:$ptr, i32imm:$off),
|
|
"b[$ptr + $off] = $val;",
|
|
[(truncstorei8 D:$val, (add P:$ptr, imm16:$off))]>;
|
|
|
|
let Constraints = "$ptr = $ptr_wb" in {
|
|
|
|
multiclass STORE_incdec<RegisterClass drc, RegisterClass prc,
|
|
int off=4, string pre=""> {
|
|
def _inc : F1<(outs prc:$ptr_wb), (ins drc:$val, prc:$ptr),
|
|
!strconcat(pre, "[$ptr++] = $val;"),
|
|
[(set prc:$ptr_wb, (post_store drc:$val, prc:$ptr, off))]>;
|
|
def _dec : F1<(outs prc:$ptr_wb), (ins drc:$val, prc:$ptr),
|
|
!strconcat(pre, "[$ptr--] = $val;"),
|
|
[(set prc:$ptr_wb, (post_store drc:$val, prc:$ptr,
|
|
(ineg off)))]>;
|
|
}
|
|
|
|
defm STORE32p: STORE_incdec<DP, P>;
|
|
defm STORE16i: STORE_incdec<D16, I, 2, "w">;
|
|
defm STORE8p: STORE_incdec<D, P, 1, "b">;
|
|
|
|
def STORE32p_post: F1<(outs P:$ptr_wb), (ins D:$val, P:$ptr, P:$off),
|
|
"[$ptr ++ $off] = $val;",
|
|
[(set P:$ptr_wb, (post_store D:$val, P:$ptr, P:$off))]>;
|
|
|
|
def STORE16p_post: F1<(outs P:$ptr_wb), (ins D16:$val, P:$ptr, P:$off),
|
|
"w[$ptr ++ $off] = $val;",
|
|
[(set P:$ptr_wb, (post_store D16:$val, P:$ptr, P:$off))]>;
|
|
}
|
|
|
|
// Memory stores without patterns
|
|
|
|
let mayStore = 1 in {
|
|
|
|
// Note: only works for $fp == FP
|
|
def STORE32fp_nimm7m4: F1<(outs), (ins DP:$val, P:$fp, i32imm:$off),
|
|
"[$fp - $off] = $val;", []>;
|
|
|
|
def STORE32i: F1<(outs), (ins D:$val, I:$ptr),
|
|
"[$ptr] = $val;", []>;
|
|
|
|
def STORE32i_inc: F1<(outs I:$ptr_wb), (ins D:$val, I:$ptr),
|
|
"[$ptr++] = $val;", []>;
|
|
|
|
def STORE32i_dec: F1<(outs I:$ptr_wb), (ins D:$val, I:$ptr),
|
|
"[$ptr--] = $val;", []>;
|
|
|
|
def STORE32i_post: F1<(outs I:$ptr_wb), (ins D:$val, I:$ptr, M:$off),
|
|
"[$ptr ++ $off] = $val;", []>;
|
|
}
|
|
|
|
def : Pat<(truncstorei16 D:$val, PI:$ptr),
|
|
(STORE16pi (EXTRACT_SUBREG (i32 (COPY_TO_REGCLASS D:$val, D)),
|
|
lo16), PI:$ptr)>;
|
|
|
|
def : Pat<(truncstorei16 (srl D:$val, (i16 16)), PI:$ptr),
|
|
(STORE16pi (EXTRACT_SUBREG (i32 (COPY_TO_REGCLASS D:$val, D)),
|
|
hi16), PI:$ptr)>;
|
|
|
|
def : Pat<(truncstorei8 D16L:$val, P:$ptr),
|
|
(STORE8p (INSERT_SUBREG (i32 (IMPLICIT_DEF)),
|
|
(i16 (COPY_TO_REGCLASS D16L:$val, D16L)),
|
|
lo16),
|
|
P:$ptr)>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-11. Move Instructions.
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
def MOVE: F1<(outs ALL:$dst), (ins ALL:$src),
|
|
"$dst = $src;",
|
|
[]>;
|
|
|
|
let Constraints = "$src1 = $dst" in
|
|
def MOVEcc: F1<(outs DP:$dst), (ins DP:$src1, DP:$src2, AnyCC:$cc),
|
|
"if $cc $dst = $src2;",
|
|
[(set DP:$dst, (select AnyCC:$cc, DP:$src2, DP:$src1))]>;
|
|
|
|
let Defs = [AZ, AN, AC0, V] in {
|
|
def MOVEzext: F1<(outs D:$dst), (ins D16L:$src),
|
|
"$dst = $src (z);",
|
|
[(set D:$dst, (zext D16L:$src))]>;
|
|
|
|
def MOVEsext: F1<(outs D:$dst), (ins D16L:$src),
|
|
"$dst = $src (x);",
|
|
[(set D:$dst, (sext D16L:$src))]>;
|
|
|
|
def MOVEzext8: F1<(outs D:$dst), (ins D:$src),
|
|
"$dst = $src.b (z);",
|
|
[(set D:$dst, (and D:$src, 0xff))]>;
|
|
|
|
def MOVEsext8: F1<(outs D:$dst), (ins D:$src),
|
|
"$dst = $src.b (x);",
|
|
[(set D:$dst, (sext_inreg D:$src, i8))]>;
|
|
|
|
}
|
|
|
|
def : Pat<(sext_inreg D16L:$src, i8),
|
|
(EXTRACT_SUBREG (MOVEsext8
|
|
(INSERT_SUBREG (i32 (IMPLICIT_DEF)),
|
|
D16L:$src,
|
|
lo16)),
|
|
lo16)>;
|
|
|
|
def : Pat<(sext_inreg D:$src, i16),
|
|
(MOVEsext (EXTRACT_SUBREG D:$src, lo16))>;
|
|
|
|
def : Pat<(and D:$src, 0xffff),
|
|
(MOVEzext (EXTRACT_SUBREG D:$src, lo16))>;
|
|
|
|
def : Pat<(i32 (anyext D16L:$src)),
|
|
(INSERT_SUBREG (i32 (IMPLICIT_DEF)),
|
|
(i16 (COPY_TO_REGCLASS D16L:$src, D16L)),
|
|
lo16)>;
|
|
|
|
// TODO Dreg = Dreg_byte (X/Z)
|
|
|
|
// TODO Accumulator moves
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-12. Stack Control Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
let Uses = [SP], Defs = [SP] in {
|
|
def PUSH: F1<(outs), (ins ALL:$src),
|
|
"[--sp] = $src;", []> { let mayStore = 1; }
|
|
|
|
// NOTE: POP does not work for DP regs, use LOAD instead
|
|
def POP: F1<(outs ALL:$dst), (ins),
|
|
"$dst = [sp++];", []> { let mayLoad = 1; }
|
|
}
|
|
|
|
// TODO: push/pop multiple
|
|
|
|
def LINK: F2<(outs), (ins i32imm:$amount),
|
|
"link $amount;", []>;
|
|
|
|
def UNLINK: F2<(outs), (ins),
|
|
"unlink;", []>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-13. Control Code Bit Management Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
multiclass SETCC<PatFrag opnode, PatFrag invnode, string cond, string suf=";"> {
|
|
def dd : F1<(outs JustCC:$cc), (ins D:$a, D:$b),
|
|
!strconcat(!subst("XX", cond, "cc = $a XX $b"), suf),
|
|
[(set JustCC:$cc, (opnode D:$a, D:$b))]>;
|
|
|
|
def ri : F1<(outs JustCC:$cc), (ins DP:$a, i32imm:$b),
|
|
!strconcat(!subst("XX", cond, "cc = $a XX $b"), suf),
|
|
[(set JustCC:$cc, (opnode DP:$a, imm3:$b))]>;
|
|
|
|
def pp : F1<(outs JustCC:$cc), (ins P:$a, P:$b),
|
|
!strconcat(!subst("XX", cond, "cc = $a XX $b"), suf),
|
|
[]>;
|
|
|
|
def ri_not : F1<(outs NotCC:$cc), (ins DP:$a, i32imm:$b),
|
|
!strconcat(!subst("XX", cond, "cc = $a XX $b"), suf),
|
|
[(set NotCC:$cc, (invnode DP:$a, imm3:$b))]>;
|
|
}
|
|
|
|
defm SETEQ : SETCC<seteq, setne, "==">;
|
|
defm SETLT : SETCC<setlt, setge, "<">;
|
|
defm SETLE : SETCC<setle, setgt, "<=">;
|
|
defm SETULT : SETCC<setult, setuge, "<", " (iu);">;
|
|
defm SETULE : SETCC<setule, setugt, "<=", " (iu);">;
|
|
|
|
def SETNEdd : F1<(outs NotCC:$cc), (ins D:$a, D:$b),
|
|
"cc = $a == $b;",
|
|
[(set NotCC:$cc, (setne D:$a, D:$b))]>;
|
|
|
|
def : Pat<(setgt D:$a, D:$b), (SETLTdd D:$b, D:$a)>;
|
|
def : Pat<(setge D:$a, D:$b), (SETLEdd D:$b, D:$a)>;
|
|
def : Pat<(setugt D:$a, D:$b), (SETULTdd D:$b, D:$a)>;
|
|
def : Pat<(setuge D:$a, D:$b), (SETULEdd D:$b, D:$a)>;
|
|
|
|
// TODO: compare pointer for P-P comparisons
|
|
// TODO: compare accumulator
|
|
|
|
let Defs = [AC0] in
|
|
def OR_ac0_cc : F1<(outs), (ins JustCC:$cc),
|
|
"ac0 \\|= cc;", []>;
|
|
|
|
let Uses = [AC0] in
|
|
def MOVE_cc_ac0 : F1<(outs JustCC:$cc), (ins),
|
|
"cc = ac0;", []>;
|
|
|
|
def MOVE_ccncc : F1<(outs JustCC:$cc), (ins NotCC:$sb),
|
|
"cc = !cc;", []>;
|
|
|
|
def MOVE_ncccc : F1<(outs NotCC:$cc), (ins JustCC:$sb),
|
|
"cc = !cc;", []>;
|
|
|
|
def MOVECC_zext : F1<(outs D:$dst), (ins JustCC:$cc),
|
|
"$dst = $cc;", []>;
|
|
|
|
def MOVENCC_z : F1<(outs D:$dst), (ins NotCC:$cc),
|
|
"$dst = cc;", []>;
|
|
|
|
def MOVECC_nz : F1<(outs AnyCC:$cc), (ins D:$src),
|
|
"cc = $src;",
|
|
[(set AnyCC:$cc, (setne D:$src, 0))]>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-14. Logical Operations Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
def AND: F1<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = $src1 & $src2;",
|
|
[(set D:$dst, (and D:$src1, D:$src2))]>;
|
|
|
|
def NOT: F1<(outs D:$dst), (ins D:$src),
|
|
"$dst = ~$src;",
|
|
[(set D:$dst, (not D:$src))]>;
|
|
|
|
def OR: F1<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = $src1 \\| $src2;",
|
|
[(set D:$dst, (or D:$src1, D:$src2))]>;
|
|
|
|
def XOR: F1<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = $src1 ^ $src2;",
|
|
[(set D:$dst, (xor D:$src1, D:$src2))]>;
|
|
|
|
// missing: BXOR, BXORSHIFT
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-15. Bit Operations Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
let Constraints = "$src1 = $dst" in {
|
|
def BITCLR: F1<(outs D:$dst), (ins D:$src1, uimm5imask:$src2),
|
|
"bitclr($dst, $src2);",
|
|
[(set D:$dst, (and D:$src1, uimm5imask:$src2))]>;
|
|
|
|
def BITSET: F1<(outs D:$dst), (ins D:$src1, uimm5mask:$src2),
|
|
"bitset($dst, $src2);",
|
|
[(set D:$dst, (or D:$src1, uimm5mask:$src2))]>;
|
|
|
|
def BITTGL: F1<(outs D:$dst), (ins D:$src1, uimm5mask:$src2),
|
|
"bittgl($dst, $src2);",
|
|
[(set D:$dst, (xor D:$src1, uimm5mask:$src2))]>;
|
|
}
|
|
|
|
def BITTST: F1<(outs JustCC:$cc), (ins D:$src1, uimm5mask:$src2),
|
|
"cc = bittst($src1, $src2);",
|
|
[(set JustCC:$cc, (setne (and D:$src1, uimm5mask:$src2),
|
|
(i32 0)))]>;
|
|
|
|
def NBITTST: F1<(outs JustCC:$cc), (ins D:$src1, uimm5mask:$src2),
|
|
"cc = !bittst($src1, $src2);",
|
|
[(set JustCC:$cc, (seteq (and D:$src1, uimm5mask:$src2),
|
|
(i32 0)))]>;
|
|
|
|
// TODO: DEPOSIT, EXTRACT, BITMUX
|
|
|
|
def ONES: F2<(outs D16L:$dst), (ins D:$src),
|
|
"$dst = ones $src;",
|
|
[(set D16L:$dst, (trunc (ctpop D:$src)))]>;
|
|
|
|
def : Pat<(ctpop D:$src), (MOVEzext (ONES D:$src))>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-16. Shift / Rotate Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
multiclass SHIFT32<SDNode opnode, string ops> {
|
|
def i : F1<(outs D:$dst), (ins D:$src, i16imm:$amount),
|
|
!subst("XX", ops, "$dst XX= $amount;"),
|
|
[(set D:$dst, (opnode D:$src, (i16 uimm5:$amount)))]>;
|
|
def r : F1<(outs D:$dst), (ins D:$src, D:$amount),
|
|
!subst("XX", ops, "$dst XX= $amount;"),
|
|
[(set D:$dst, (opnode D:$src, D:$amount))]>;
|
|
}
|
|
|
|
let Defs = [AZ, AN, V, VS],
|
|
Constraints = "$src = $dst" in {
|
|
defm SRA : SHIFT32<sra, ">>>">;
|
|
defm SRL : SHIFT32<srl, ">>">;
|
|
defm SLL : SHIFT32<shl, "<<">;
|
|
}
|
|
|
|
// TODO: automatic switching between 2-addr and 3-addr (?)
|
|
|
|
let Defs = [AZ, AN, V, VS] in {
|
|
def SLLr16: F2<(outs D:$dst), (ins D:$src, D16L:$amount),
|
|
"$dst = lshift $src by $amount;",
|
|
[(set D:$dst, (shl D:$src, D16L:$amount))]>;
|
|
|
|
// Arithmetic left-shift = saturing overflow.
|
|
def SLAr16: F2<(outs D:$dst), (ins D:$src, D16L:$amount),
|
|
"$dst = ashift $src by $amount;",
|
|
[(set D:$dst, (sra D:$src, (ineg D16L:$amount)))]>;
|
|
|
|
def SRA16i: F1<(outs D16:$dst), (ins D16:$src, i16imm:$amount),
|
|
"$dst = $src >>> $amount;",
|
|
[(set D16:$dst, (sra D16:$src, (i16 uimm4:$amount)))]>;
|
|
|
|
def SRL16i: F1<(outs D16:$dst), (ins D16:$src, i16imm:$amount),
|
|
"$dst = $src >> $amount;",
|
|
[(set D16:$dst, (srl D16:$src, (i16 uimm4:$amount)))]>;
|
|
|
|
// Arithmetic left-shift = saturing overflow.
|
|
def SLA16r: F1<(outs D16:$dst), (ins D16:$src, D16L:$amount),
|
|
"$dst = ashift $src BY $amount;",
|
|
[(set D16:$dst, (srl D16:$src, (ineg D16L:$amount)))]>;
|
|
|
|
def SLL16i: F1<(outs D16:$dst), (ins D16:$src, i16imm:$amount),
|
|
"$dst = $src << $amount;",
|
|
[(set D16:$dst, (shl D16:$src, (i16 uimm4:$amount)))]>;
|
|
|
|
def SLL16r: F1<(outs D16:$dst), (ins D16:$src, D16L:$amount),
|
|
"$dst = lshift $src by $amount;",
|
|
[(set D16:$dst, (shl D16:$src, D16L:$amount))]>;
|
|
|
|
}
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-17. Arithmetic Operations Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
// TODO: ABS
|
|
|
|
let Defs = [AZ, AN, AC0, V, VS] in {
|
|
|
|
def ADD: F1<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = $src1 + $src2;",
|
|
[(set D:$dst, (add D:$src1, D:$src2))]>;
|
|
|
|
def ADD16: F2<(outs D16:$dst), (ins D16:$src1, D16:$src2),
|
|
"$dst = $src1 + $src2;",
|
|
[(set D16:$dst, (add D16:$src1, D16:$src2))]>;
|
|
|
|
let Constraints = "$src1 = $dst" in
|
|
def ADDimm7: F1<(outs D:$dst), (ins D:$src1, i32imm:$src2),
|
|
"$dst += $src2;",
|
|
[(set D:$dst, (add D:$src1, imm7:$src2))]>;
|
|
|
|
def SUB: F1<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = $src1 - $src2;",
|
|
[(set D:$dst, (sub D:$src1, D:$src2))]>;
|
|
|
|
def SUB16: F2<(outs D16:$dst), (ins D16:$src1, D16:$src2),
|
|
"$dst = $src1 - $src2;",
|
|
[(set D16:$dst, (sub D16:$src1, D16:$src2))]>;
|
|
|
|
}
|
|
|
|
def : Pat<(addc D:$src1, D:$src2), (ADD D:$src1, D:$src2)>;
|
|
def : Pat<(subc D:$src1, D:$src2), (SUB D:$src1, D:$src2)>;
|
|
|
|
let Defs = [AZ, AN, V, VS] in
|
|
def NEG: F1<(outs D:$dst), (ins D:$src),
|
|
"$dst = -$src;",
|
|
[(set D:$dst, (ineg D:$src))]>;
|
|
|
|
// No pattern, it would confuse isel to have two i32 = i32+i32 patterns
|
|
def ADDpp: F1<(outs P:$dst), (ins P:$src1, P:$src2),
|
|
"$dst = $src1 + $src2;", []>;
|
|
|
|
let Constraints = "$src1 = $dst" in
|
|
def ADDpp_imm7: F1<(outs P:$dst), (ins P:$src1, i32imm:$src2),
|
|
"$dst += $src2;", []>;
|
|
|
|
let Defs = [AZ, AN, V] in
|
|
def ADD_RND20: F2<(outs D16:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = $src1 + $src2 (rnd20);", []>;
|
|
|
|
let Defs = [V, VS] in {
|
|
def MUL16: F2<(outs D16:$dst), (ins D16:$src1, D16:$src2),
|
|
"$dst = $src1 * $src2 (is);",
|
|
[(set D16:$dst, (mul D16:$src1, D16:$src2))]>;
|
|
|
|
def MULHS16: F2<(outs D16:$dst), (ins D16:$src1, D16:$src2),
|
|
"$dst = $src1 * $src2 (ih);",
|
|
[(set D16:$dst, (mulhs D16:$src1, D16:$src2))]>;
|
|
|
|
def MULhh32s: F2<(outs D:$dst), (ins D16:$src1, D16:$src2),
|
|
"$dst = $src1 * $src2 (is);",
|
|
[(set D:$dst, (mul (sext D16:$src1), (sext D16:$src2)))]>;
|
|
|
|
def MULhh32u: F2<(outs D:$dst), (ins D16:$src1, D16:$src2),
|
|
"$dst = $src1 * $src2 (is);",
|
|
[(set D:$dst, (mul (zext D16:$src1), (zext D16:$src2)))]>;
|
|
}
|
|
|
|
|
|
let Constraints = "$src1 = $dst" in
|
|
def MUL32: F1<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst *= $src2;",
|
|
[(set D:$dst, (mul D:$src1, D:$src2))]>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-18. External Exent Management Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
def IDLE : F1<(outs), (ins), "idle;", [(int_bfin_idle)]>;
|
|
def CSYNC : F1<(outs), (ins), "csync;", [(int_bfin_csync)]>;
|
|
def SSYNC : F1<(outs), (ins), "ssync;", [(int_bfin_ssync)]>;
|
|
def EMUEXCPT : F1<(outs), (ins), "emuexcpt;", []>;
|
|
def CLI : F1<(outs D:$mask), (ins), "cli $mask;", []>;
|
|
def STI : F1<(outs), (ins D:$mask), "sti $mask;", []>;
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def RAISE : F1<(outs), (ins i32imm:$itr), "raise $itr;", []>;
|
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def EXCPT : F1<(outs), (ins i32imm:$exc), "excpt $exc;", []>;
|
|
def NOP : F1<(outs), (ins), "nop;", []>;
|
|
def MNOP : F2<(outs), (ins), "mnop;", []>;
|
|
def ABORT : F1<(outs), (ins), "abort;", []>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-19. Cache Control Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Table C-20. Video Pixel Operations Instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
def ALIGN8 : F2<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = align8($src1, $src2);",
|
|
[(set D:$dst, (or (shl D:$src1, (i32 24)),
|
|
(srl D:$src2, (i32 8))))]>;
|
|
|
|
def ALIGN16 : F2<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = align16($src1, $src2);",
|
|
[(set D:$dst, (or (shl D:$src1, (i32 16)),
|
|
(srl D:$src2, (i32 16))))]>;
|
|
|
|
def ALIGN24 : F2<(outs D:$dst), (ins D:$src1, D:$src2),
|
|
"$dst = align16($src1, $src2);",
|
|
[(set D:$dst, (or (shl D:$src1, (i32 8)),
|
|
(srl D:$src2, (i32 24))))]>;
|
|
|
|
def DISALGNEXCPT : F2<(outs), (ins), "disalignexcpt;", []>;
|
|
|
|
// TODO: BYTEOP3P, BYTEOP16P, BYTEOP1P, BYTEOP2P, BYTEOP16M, SAA,
|
|
// BYTEPACK, BYTEUNPACK
|
|
|
|
// Table C-21. Vector Operations Instructions
|
|
|
|
// Patterns
|
|
def : Pat<(BfinCall (i32 tglobaladdr:$dst)),
|
|
(CALLa tglobaladdr:$dst)>;
|
|
def : Pat<(BfinCall (i32 texternalsym:$dst)),
|
|
(CALLa texternalsym:$dst)>;
|
|
def : Pat<(i16 (trunc D:$src)),
|
|
(EXTRACT_SUBREG (i32 (COPY_TO_REGCLASS D:$src, D)), lo16)>;
|