llvm-project/llvm/lib/Target/XCore/XCoreInstrInfo.td

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//===-- XCoreInstrInfo.td - Target Description for XCore ---*- tablegen -*-===//
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//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file describes the XCore instructions in TableGen format.
//
//===----------------------------------------------------------------------===//
// Uses of CP, DP are not currently reflected in the patterns, since
// having a physical register as an operand prevents loop hoisting and
// since the value of these registers never changes during the life of the
// function.
//===----------------------------------------------------------------------===//
// Instruction format superclass.
//===----------------------------------------------------------------------===//
include "XCoreInstrFormats.td"
//===----------------------------------------------------------------------===//
// XCore specific DAG Nodes.
//
// Call
def SDT_XCoreBranchLink : SDTypeProfile<0, 1, [SDTCisPtrTy<0>]>;
def XCoreBranchLink : SDNode<"XCoreISD::BL",SDT_XCoreBranchLink,
[SDNPHasChain, SDNPOptInGlue, SDNPOutGlue,
SDNPVariadic]>;
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def XCoreRetsp : SDNode<"XCoreISD::RETSP", SDTBrind,
[SDNPHasChain, SDNPOptInGlue, SDNPMayLoad, SDNPVariadic]>;
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def SDT_XCoreBR_JT : SDTypeProfile<0, 2,
[SDTCisVT<0, i32>, SDTCisVT<1, i32>]>;
def XCoreBR_JT : SDNode<"XCoreISD::BR_JT", SDT_XCoreBR_JT,
[SDNPHasChain]>;
def XCoreBR_JT32 : SDNode<"XCoreISD::BR_JT32", SDT_XCoreBR_JT,
[SDNPHasChain]>;
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def SDT_XCoreAddress : SDTypeProfile<1, 1,
[SDTCisSameAs<0, 1>, SDTCisPtrTy<0>]>;
def pcrelwrapper : SDNode<"XCoreISD::PCRelativeWrapper", SDT_XCoreAddress,
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[]>;
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def dprelwrapper : SDNode<"XCoreISD::DPRelativeWrapper", SDT_XCoreAddress,
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[]>;
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def cprelwrapper : SDNode<"XCoreISD::CPRelativeWrapper", SDT_XCoreAddress,
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[]>;
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def SDT_XCoreStwsp : SDTypeProfile<0, 2, [SDTCisInt<1>]>;
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def XCoreStwsp : SDNode<"XCoreISD::STWSP", SDT_XCoreStwsp,
[SDNPHasChain, SDNPMayStore]>;
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// These are target-independent nodes, but have target-specific formats.
def SDT_XCoreCallSeqStart : SDCallSeqStart<[ SDTCisVT<0, i32> ]>;
def SDT_XCoreCallSeqEnd : SDCallSeqEnd<[ SDTCisVT<0, i32>,
SDTCisVT<1, i32> ]>;
def callseq_start : SDNode<"ISD::CALLSEQ_START", SDT_XCoreCallSeqStart,
[SDNPHasChain, SDNPOutGlue]>;
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def callseq_end : SDNode<"ISD::CALLSEQ_END", SDT_XCoreCallSeqEnd,
[SDNPHasChain, SDNPOptInGlue, SDNPOutGlue]>;
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//===----------------------------------------------------------------------===//
// Instruction Pattern Stuff
//===----------------------------------------------------------------------===//
def div4_xform : SDNodeXForm<imm, [{
// Transformation function: imm/4
assert(N->getZExtValue() % 4 == 0);
return getI32Imm(N->getZExtValue()/4);
}]>;
def msksize_xform : SDNodeXForm<imm, [{
// Transformation function: get the size of a mask
assert(isMask_32(N->getZExtValue()));
// look for the first non-zero bit
return getI32Imm(32 - CountLeadingZeros_32(N->getZExtValue()));
}]>;
def neg_xform : SDNodeXForm<imm, [{
// Transformation function: -imm
uint32_t value = N->getZExtValue();
return getI32Imm(-value);
}]>;
def bpwsub_xform : SDNodeXForm<imm, [{
// Transformation function: 32-imm
uint32_t value = N->getZExtValue();
return getI32Imm(32-value);
}]>;
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def div4neg_xform : SDNodeXForm<imm, [{
// Transformation function: -imm/4
uint32_t value = N->getZExtValue();
assert(-value % 4 == 0);
return getI32Imm(-value/4);
}]>;
def immUs4Neg : PatLeaf<(imm), [{
uint32_t value = (uint32_t)N->getZExtValue();
return (-value)%4 == 0 && (-value)/4 <= 11;
}]>;
def immUs4 : PatLeaf<(imm), [{
uint32_t value = (uint32_t)N->getZExtValue();
return value%4 == 0 && value/4 <= 11;
}]>;
def immUsNeg : PatLeaf<(imm), [{
return -((uint32_t)N->getZExtValue()) <= 11;
}]>;
def immUs : PatLeaf<(imm), [{
return (uint32_t)N->getZExtValue() <= 11;
}]>;
def immU6 : PatLeaf<(imm), [{
return (uint32_t)N->getZExtValue() < (1 << 6);
}]>;
def immU10 : PatLeaf<(imm), [{
return (uint32_t)N->getZExtValue() < (1 << 10);
}]>;
def immU16 : PatLeaf<(imm), [{
return (uint32_t)N->getZExtValue() < (1 << 16);
}]>;
def immU20 : PatLeaf<(imm), [{
return (uint32_t)N->getZExtValue() < (1 << 20);
}]>;
def immMskBitp : PatLeaf<(imm), [{ return immMskBitp(N); }]>;
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def immBitp : PatLeaf<(imm), [{
uint32_t value = (uint32_t)N->getZExtValue();
return (value >= 1 && value <= 8)
|| value == 16
|| value == 24
|| value == 32;
}]>;
def immBpwSubBitp : PatLeaf<(imm), [{
uint32_t value = (uint32_t)N->getZExtValue();
return (value >= 24 && value <= 31)
|| value == 16
|| value == 8
|| value == 0;
}]>;
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def lda16f : PatFrag<(ops node:$addr, node:$offset),
(add node:$addr, (shl node:$offset, 1))>;
def lda16b : PatFrag<(ops node:$addr, node:$offset),
(sub node:$addr, (shl node:$offset, 1))>;
def ldawf : PatFrag<(ops node:$addr, node:$offset),
(add node:$addr, (shl node:$offset, 2))>;
def ldawb : PatFrag<(ops node:$addr, node:$offset),
(sub node:$addr, (shl node:$offset, 2))>;
// Instruction operand types
def calltarget : Operand<i32>;
def calltarget_neg : Operand<i32> {
let DecoderMethod = "DecodeNegImmOperand";
}
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def brtarget : Operand<OtherVT>;
def brtarget_neg : Operand<OtherVT> {
let DecoderMethod = "DecodeNegImmOperand";
}
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// Addressing modes
def ADDRspii : ComplexPattern<i32, 2, "SelectADDRspii", [add, frameindex], []>;
// Address operands
def MEMii : Operand<i32> {
let MIOperandInfo = (ops i32imm, i32imm);
}
// Jump tables.
def InlineJT : Operand<i32> {
let PrintMethod = "printInlineJT";
}
def InlineJT32 : Operand<i32> {
let PrintMethod = "printInlineJT32";
}
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//===----------------------------------------------------------------------===//
// Instruction Class Templates
//===----------------------------------------------------------------------===//
// Three operand short
multiclass F3R_2RUS<bits<5> opc1, bits<5> opc2, string OpcStr, SDNode OpNode> {
def _3r: _F3R<opc1, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, GRRegs:$c))]>;
def _2rus : _F2RUS<opc2, (outs GRRegs:$dst), (ins GRRegs:$b, i32imm:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, immUs:$c))]>;
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}
multiclass F3R_2RUS_np<bits<5> opc1, bits<5> opc2, string OpcStr> {
def _3r: _F3R<opc1, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"), []>;
def _2rus : _F2RUS<opc2, (outs GRRegs:$dst), (ins GRRegs:$b, i32imm:$c),
!strconcat(OpcStr, " $dst, $b, $c"), []>;
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}
multiclass F3R_2RBITP<bits<5> opc1, bits<5> opc2, string OpcStr,
SDNode OpNode> {
def _3r: _F3R<opc1, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, GRRegs:$c))]>;
def _2rus : _F2RUSBitp<opc2, (outs GRRegs:$dst), (ins GRRegs:$b, i32imm:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, immBitp:$c))]>;
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}
class F3R<bits<5> opc, string OpcStr, SDNode OpNode> :
_F3R<opc, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, GRRegs:$c))]>;
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class F3R_np<bits<5> opc, string OpcStr> :
_F3R<opc, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"), []>;
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// Three operand long
/// FL3R_L2RUS multiclass - Define a normal FL3R/FL2RUS pattern in one shot.
multiclass FL3R_L2RUS<bits<9> opc1, bits<9> opc2, string OpcStr,
SDNode OpNode> {
def _l3r: _FL3R<opc1, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, GRRegs:$c))]>;
def _l2rus : _FL2RUS<opc2, (outs GRRegs:$dst), (ins GRRegs:$b, i32imm:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, immUs:$c))]>;
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}
/// FL3R_L2RUS multiclass - Define a normal FL3R/FL2RUS pattern in one shot.
multiclass FL3R_L2RBITP<bits<9> opc1, bits<9> opc2, string OpcStr,
SDNode OpNode> {
def _l3r: _FL3R<opc1, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, GRRegs:$c))]>;
def _l2rus : _FL2RUSBitp<opc2, (outs GRRegs:$dst), (ins GRRegs:$b, i32imm:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, immBitp:$c))]>;
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}
class FL3R<bits<9> opc, string OpcStr, SDNode OpNode> :
_FL3R<opc, (outs GRRegs:$dst), (ins GRRegs:$b, GRRegs:$c),
!strconcat(OpcStr, " $dst, $b, $c"),
[(set GRRegs:$dst, (OpNode GRRegs:$b, GRRegs:$c))]>;
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// Register - U6
// Operand register - U6
multiclass FRU6_LRU6_branch<bits<6> opc, string OpcStr> {
def _ru6: _FRU6<opc, (outs), (ins GRRegs:$a, brtarget:$b),
!strconcat(OpcStr, " $a, $b"), []>;
def _lru6: _FLRU6<opc, (outs), (ins GRRegs:$a, brtarget:$b),
!strconcat(OpcStr, " $a, $b"), []>;
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}
multiclass FRU6_LRU6_backwards_branch<bits<6> opc, string OpcStr> {
def _ru6: _FRU6<opc, (outs), (ins GRRegs:$a, brtarget_neg:$b),
!strconcat(OpcStr, " $a, $b"), []>;
def _lru6: _FLRU6<opc, (outs), (ins GRRegs:$a, brtarget_neg:$b),
!strconcat(OpcStr, " $a, $b"), []>;
}
multiclass FRU6_LRU6_cp<bits<6> opc, string OpcStr> {
def _ru6: _FRU6<opc, (outs RRegs:$a), (ins i32imm:$b),
!strconcat(OpcStr, " $a, cp[$b]"), []>;
def _lru6: _FLRU6<opc, (outs RRegs:$a), (ins i32imm:$b),
!strconcat(OpcStr, " $a, cp[$b]"), []>;
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}
// U6
multiclass FU6_LU6<bits<10> opc, string OpcStr, SDNode OpNode> {
def _u6: _FU6<opc, (outs), (ins i32imm:$a), !strconcat(OpcStr, " $a"),
[(OpNode immU6:$a)]>;
def _lu6: _FLU6<opc, (outs), (ins i32imm:$a), !strconcat(OpcStr, " $a"),
[(OpNode immU16:$a)]>;
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}
multiclass FU6_LU6_int<bits<10> opc, string OpcStr, Intrinsic Int> {
def _u6: _FU6<opc, (outs), (ins i32imm:$a), !strconcat(OpcStr, " $a"),
[(Int immU6:$a)]>;
def _lu6: _FLU6<opc, (outs), (ins i32imm:$a), !strconcat(OpcStr, " $a"),
[(Int immU16:$a)]>;
}
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multiclass FU6_LU6_np<bits<10> opc, string OpcStr> {
def _u6: _FU6<opc, (outs), (ins i32imm:$a), !strconcat(OpcStr, " $a"), []>;
def _lu6: _FLU6<opc, (outs), (ins i32imm:$a), !strconcat(OpcStr, " $a"), []>;
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}
// Two operand short
class F2R_np<bits<6> opc, string OpcStr> :
_F2R<opc, (outs GRRegs:$dst), (ins GRRegs:$b),
!strconcat(OpcStr, " $dst, $b"), []>;
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// Two operand long
//===----------------------------------------------------------------------===//
// Pseudo Instructions
//===----------------------------------------------------------------------===//
let Defs = [SP], Uses = [SP] in {
def ADJCALLSTACKDOWN : PseudoInstXCore<(outs), (ins i32imm:$amt),
"# ADJCALLSTACKDOWN $amt",
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[(callseq_start timm:$amt)]>;
def ADJCALLSTACKUP : PseudoInstXCore<(outs), (ins i32imm:$amt1, i32imm:$amt2),
"# ADJCALLSTACKUP $amt1",
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[(callseq_end timm:$amt1, timm:$amt2)]>;
}
def LDWFI : PseudoInstXCore<(outs GRRegs:$dst), (ins MEMii:$addr),
"# LDWFI $dst, $addr",
[(set GRRegs:$dst, (load ADDRspii:$addr))]>;
def LDAWFI : PseudoInstXCore<(outs GRRegs:$dst), (ins MEMii:$addr),
"# LDAWFI $dst, $addr",
[(set GRRegs:$dst, ADDRspii:$addr)]>;
def STWFI : PseudoInstXCore<(outs), (ins GRRegs:$src, MEMii:$addr),
"# STWFI $src, $addr",
[(store GRRegs:$src, ADDRspii:$addr)]>;
// SELECT_CC_* - Used to implement the SELECT_CC DAG operation. Expanded after
// instruction selection into a branch sequence.
let usesCustomInserter = 1 in {
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def SELECT_CC : PseudoInstXCore<(outs GRRegs:$dst),
(ins GRRegs:$cond, GRRegs:$T, GRRegs:$F),
"# SELECT_CC PSEUDO!",
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[(set GRRegs:$dst,
(select GRRegs:$cond, GRRegs:$T, GRRegs:$F))]>;
}
//===----------------------------------------------------------------------===//
// Instructions
//===----------------------------------------------------------------------===//
// Three operand short
defm ADD : F3R_2RUS<0b00010, 0b10010, "add", add>;
defm SUB : F3R_2RUS<0b00011, 0b10011, "sub", sub>;
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let neverHasSideEffects = 1 in {
defm EQ : F3R_2RUS_np<0b00110, 0b10110, "eq">;
def LSS_3r : F3R_np<0b11000, "lss">;
def LSU_3r : F3R_np<0b11001, "lsu">;
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}
def AND_3r : F3R<0b00111, "and", and>;
def OR_3r : F3R<0b01000, "or", or>;
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let mayLoad=1 in {
def LDW_3r : _F3R<0b01001, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"ldw $dst, $addr[$offset]", []>;
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def LDW_2rus : _F2RUS<0b00001, (outs GRRegs:$dst),
(ins GRRegs:$addr, i32imm:$offset),
"ldw $dst, $addr[$offset]", []>;
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def LD16S_3r : _F3R<0b10000, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"ld16s $dst, $addr[$offset]", []>;
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def LD8U_3r : _F3R<0b10001, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"ld8u $dst, $addr[$offset]", []>;
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}
let mayStore=1 in {
def STW_l3r : _FL3R<0b000001100, (outs),
(ins GRRegs:$val, GRRegs:$addr, GRRegs:$offset),
"stw $val, $addr[$offset]", []>;
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def STW_2rus : _F2RUS<0b0000, (outs),
(ins GRRegs:$val, GRRegs:$addr, i32imm:$offset),
"stw $val, $addr[$offset]", []>;
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}
defm SHL : F3R_2RBITP<0b00100, 0b10100, "shl", shl>;
defm SHR : F3R_2RBITP<0b00101, 0b10101, "shr", srl>;
// The first operand is treated as an immediate since it refers to a register
// number in another thread.
def TSETR_3r : _F3RImm<0b10111, (outs), (ins i32imm:$a, GRRegs:$b, GRRegs:$c),
"set t[$c]:r$a, $b", []>;
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// Three operand long
def LDAWF_l3r : _FL3R<0b000111100, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"ldaw $dst, $addr[$offset]",
[(set GRRegs:$dst,
(ldawf GRRegs:$addr, GRRegs:$offset))]>;
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let neverHasSideEffects = 1 in
def LDAWF_l2rus : _FL2RUS<0b100111100, (outs GRRegs:$dst),
(ins GRRegs:$addr, i32imm:$offset),
"ldaw $dst, $addr[$offset]", []>;
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def LDAWB_l3r : _FL3R<0b001001100, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"ldaw $dst, $addr[-$offset]",
[(set GRRegs:$dst,
(ldawb GRRegs:$addr, GRRegs:$offset))]>;
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let neverHasSideEffects = 1 in
def LDAWB_l2rus : _FL2RUS<0b101001100, (outs GRRegs:$dst),
(ins GRRegs:$addr, i32imm:$offset),
"ldaw $dst, $addr[-$offset]", []>;
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def LDA16F_l3r : _FL3R<0b001011100, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"lda16 $dst, $addr[$offset]",
[(set GRRegs:$dst,
(lda16f GRRegs:$addr, GRRegs:$offset))]>;
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def LDA16B_l3r : _FL3R<0b001101100, (outs GRRegs:$dst),
(ins GRRegs:$addr, GRRegs:$offset),
"lda16 $dst, $addr[-$offset]",
[(set GRRegs:$dst,
(lda16b GRRegs:$addr, GRRegs:$offset))]>;
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def MUL_l3r : FL3R<0b001111100, "mul", mul>;
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// Instructions which may trap are marked as side effecting.
let hasSideEffects = 1 in {
def DIVS_l3r : FL3R<0b010001100, "divs", sdiv>;
def DIVU_l3r : FL3R<0b010011100, "divu", udiv>;
def REMS_l3r : FL3R<0b110001100, "rems", srem>;
def REMU_l3r : FL3R<0b110011100, "remu", urem>;
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}
def XOR_l3r : FL3R<0b000011100, "xor", xor>;
defm ASHR : FL3R_L2RBITP<0b000101100, 0b100101100, "ashr", sra>;
let Constraints = "$src1 = $dst" in
def CRC_l3r : _FL3RSrcDst<0b101011100, (outs GRRegs:$dst),
(ins GRRegs:$src1, GRRegs:$src2, GRRegs:$src3),
"crc32 $dst, $src2, $src3",
[(set GRRegs:$dst,
(int_xcore_crc32 GRRegs:$src1, GRRegs:$src2,
GRRegs:$src3))]>;
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let mayStore=1 in {
def ST16_l3r : _FL3R<0b100001100, (outs),
(ins GRRegs:$val, GRRegs:$addr, GRRegs:$offset),
"st16 $val, $addr[$offset]", []>;
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def ST8_l3r : _FL3R<0b100011100, (outs),
(ins GRRegs:$val, GRRegs:$addr, GRRegs:$offset),
"st8 $val, $addr[$offset]", []>;
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}
def INPW_l2rus : _FL2RUSBitp<0b100101110, (outs GRRegs:$a),
(ins GRRegs:$b, i32imm:$c), "inpw $a, res[$b], $c",
[]>;
def OUTPW_l2rus : _FL2RUSBitp<0b100101101, (outs),
(ins GRRegs:$a, GRRegs:$b, i32imm:$c),
"outpw res[$b], $a, $c", []>;
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// Four operand long
let Constraints = "$e = $a,$f = $b" in {
def MACCU_l4r : _FL4RSrcDstSrcDst<
0b000001, (outs GRRegs:$a, GRRegs:$b),
(ins GRRegs:$e, GRRegs:$f, GRRegs:$c, GRRegs:$d), "maccu $a, $b, $c, $d", []>;
def MACCS_l4r : _FL4RSrcDstSrcDst<
0b000010, (outs GRRegs:$a, GRRegs:$b),
(ins GRRegs:$e, GRRegs:$f, GRRegs:$c, GRRegs:$d), "maccs $a, $b, $c, $d", []>;
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}
let Constraints = "$e = $b" in
def CRC8_l4r : _FL4RSrcDst<0b000000, (outs GRRegs:$a, GRRegs:$b),
(ins GRRegs:$e, GRRegs:$c, GRRegs:$d),
"crc8 $b, $a, $c, $d", []>;
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// Five operand long
def LADD_l5r : _FL5R<0b000001, (outs GRRegs:$dst1, GRRegs:$dst2),
(ins GRRegs:$src1, GRRegs:$src2, GRRegs:$src3),
"ladd $dst2, $dst1, $src1, $src2, $src3",
[]>;
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def LSUB_l5r : _FL5R<0b000010, (outs GRRegs:$dst1, GRRegs:$dst2),
(ins GRRegs:$src1, GRRegs:$src2, GRRegs:$src3),
"lsub $dst2, $dst1, $src1, $src2, $src3", []>;
def LDIVU_l5r : _FL5R<0b000000, (outs GRRegs:$dst1, GRRegs:$dst2),
(ins GRRegs:$src1, GRRegs:$src2, GRRegs:$src3),
"ldivu $dst1, $dst2, $src3, $src1, $src2", []>;
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// Six operand long
def LMUL_l6r : _FL6R<
0b00000, (outs GRRegs:$dst1, GRRegs:$dst2),
(ins GRRegs:$src1, GRRegs:$src2, GRRegs:$src3, GRRegs:$src4),
"lmul $dst1, $dst2, $src1, $src2, $src3, $src4", []>;
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// Register - U6
//let Uses = [DP] in ...
let neverHasSideEffects = 1, isReMaterializable = 1 in
def LDAWDP_ru6: _FRU6<0b011000, (outs RRegs:$a), (ins i32imm:$b),
"ldaw $a, dp[$b]", []>;
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let isReMaterializable = 1 in
def LDAWDP_lru6: _FLRU6<0b011000, (outs RRegs:$a), (ins i32imm:$b),
"ldaw $a, dp[$b]",
[(set RRegs:$a, (dprelwrapper tglobaladdr:$b))]>;
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let mayLoad=1 in
def LDWDP_ru6: _FRU6<0b010110, (outs RRegs:$a), (ins i32imm:$b),
"ldw $a, dp[$b]", []>;
def LDWDP_lru6: _FLRU6<0b010110, (outs RRegs:$a), (ins i32imm:$b),
"ldw $a, dp[$b]",
[(set RRegs:$a, (load (dprelwrapper tglobaladdr:$b)))]>;
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let mayStore=1 in
def STWDP_ru6 : _FRU6<0b010100, (outs), (ins RRegs:$a, i32imm:$b),
"stw $a, dp[$b]", []>;
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def STWDP_lru6 : _FLRU6<0b010100, (outs), (ins RRegs:$a, i32imm:$b),
"stw $a, dp[$b]",
[(store RRegs:$a, (dprelwrapper tglobaladdr:$b))]>;
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//let Uses = [CP] in ..
let mayLoad = 1, isReMaterializable = 1, neverHasSideEffects = 1 in
defm LDWCP : FRU6_LRU6_cp<0b011011, "ldw">;
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let Uses = [SP] in {
let mayStore=1 in {
def STWSP_ru6 : _FRU6<0b010101, (outs), (ins RRegs:$a, i32imm:$b),
"stw $a, sp[$b]",
[(XCoreStwsp RRegs:$a, immU6:$b)]>;
def STWSP_lru6 : _FLRU6<0b010101, (outs), (ins RRegs:$a, i32imm:$b),
"stw $a, sp[$b]",
[(XCoreStwsp RRegs:$a, immU16:$b)]>;
}
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let mayLoad=1 in {
def LDWSP_ru6 : _FRU6<0b010111, (outs RRegs:$a), (ins i32imm:$b),
"ldw $a, sp[$b]", []>;
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def LDWSP_lru6 : _FLRU6<0b010111, (outs RRegs:$a), (ins i32imm:$b),
"ldw $a, sp[$b]", []>;
}
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let neverHasSideEffects = 1 in {
def LDAWSP_ru6 : _FRU6<0b011001, (outs RRegs:$a), (ins i32imm:$b),
"ldaw $a, sp[$b]", []>;
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def LDAWSP_lru6 : _FLRU6<0b011001, (outs RRegs:$a), (ins i32imm:$b),
"ldaw $a, sp[$b]", []>;
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}
}
let isReMaterializable = 1 in {
def LDC_ru6 : _FRU6<0b011010, (outs RRegs:$a), (ins i32imm:$b),
"ldc $a, $b", [(set RRegs:$a, immU6:$b)]>;
def LDC_lru6 : _FLRU6<0b011010, (outs RRegs:$a), (ins i32imm:$b),
"ldc $a, $b", [(set RRegs:$a, immU16:$b)]>;
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}
def SETC_ru6 : _FRU6<0b111010, (outs), (ins GRRegs:$a, i32imm:$b),
"setc res[$a], $b",
[(int_xcore_setc GRRegs:$a, immU6:$b)]>;
def SETC_lru6 : _FLRU6<0b111010, (outs), (ins GRRegs:$a, i32imm:$b),
"setc res[$a], $b",
[(int_xcore_setc GRRegs:$a, immU16:$b)]>;
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// Operand register - U6
let isBranch = 1, isTerminator = 1 in {
defm BRFT: FRU6_LRU6_branch<0b011100, "bt">;
defm BRBT: FRU6_LRU6_backwards_branch<0b011101, "bt">;
defm BRFF: FRU6_LRU6_branch<0b011110, "bf">;
defm BRBF: FRU6_LRU6_backwards_branch<0b011111, "bf">;
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}
// U6
let Defs = [SP], Uses = [SP] in {
let neverHasSideEffects = 1 in
defm EXTSP : FU6_LU6_np<0b0111011110, "extsp">;
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let mayStore = 1 in
defm ENTSP : FU6_LU6_np<0b0111011101, "entsp">;
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let isReturn = 1, isTerminator = 1, mayLoad = 1, isBarrier = 1 in {
defm RETSP : FU6_LU6<0b0111011111, "retsp", XCoreRetsp>;
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}
}
let neverHasSideEffects = 1 in
defm EXTDP : FU6_LU6_np<0b0111001110, "extdp">;
let Uses = [R11], isCall=1 in
defm BLAT : FU6_LU6_np<0b0111001101, "blat">;
let isBranch = 1, isTerminator = 1, isBarrier = 1 in {
def BRBU_u6 : _FU6<0b0111011100, (outs), (ins brtarget_neg:$a), "bu $a", []>;
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def BRBU_lu6 : _FLU6<0b0111011100, (outs), (ins brtarget_neg:$a), "bu $a", []>;
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def BRFU_u6 : _FU6<0b0111001100, (outs), (ins brtarget:$a), "bu $a", []>;
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def BRFU_lu6 : _FLU6<0b0111001100, (outs), (ins brtarget:$a), "bu $a", []>;
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}
//let Uses = [CP] in ...
let Defs = [R11], neverHasSideEffects = 1, isReMaterializable = 1 in
def LDAWCP_u6: _FU6<0b0111111101, (outs), (ins i32imm:$a), "ldaw r11, cp[$a]",
[]>;
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let Defs = [R11], isReMaterializable = 1 in
def LDAWCP_lu6: _FLU6<0b0111111101, (outs), (ins i32imm:$a), "ldaw r11, cp[$a]",
[(set R11, (cprelwrapper tglobaladdr:$a))]>;
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let Defs = [R11] in
defm GETSR : FU6_LU6_np<0b0111111100, "getsr r11,">;
defm SETSR : FU6_LU6_int<0b0111101101, "setsr", int_xcore_setsr>;
defm CLRSR : FU6_LU6_int<0b0111101100, "clrsr", int_xcore_clrsr>;
// setsr may cause a branch if it is used to enable events. clrsr may
// branch if it is executed while events are enabled.
let isBranch=1, isIndirectBranch=1, isTerminator=1, isBarrier = 1,
isCodeGenOnly = 1 in {
defm SETSR_branch : FU6_LU6_np<0b0111101101, "setsr">;
defm CLRSR_branch : FU6_LU6_np<0b0111101100, "clrsr">;
}
defm KCALL : FU6_LU6_np<0b0111001111, "kcall">;
let Uses = [SP], Defs = [SP], mayStore = 1 in
defm KENTSP : FU6_LU6_np<0b0111101110, "kentsp">;
let Uses = [SP], Defs = [SP], mayLoad = 1 in
defm KRESTSP : FU6_LU6_np<0b0111101111, "krestsp">;
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// U10
let Defs = [R11], isReMaterializable = 1, neverHasSideEffects = 1 in
def LDAPF_u10 : _FU10<0b110110, (outs), (ins i32imm:$a), "ldap r11, $a", []>;
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let Defs = [R11], isReMaterializable = 1 in
def LDAPF_lu10 : _FLU10<0b110110, (outs), (ins i32imm:$a), "ldap r11, $a",
[(set R11, (pcrelwrapper tglobaladdr:$a))]>;
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let Defs = [R11], isReMaterializable = 1, isCodeGenOnly = 1 in
def LDAPF_lu10_ba : _FLU10<0b110110, (outs), (ins i32imm:$a), "ldap r11, $a",
[(set R11, (pcrelwrapper tblockaddress:$a))]>;
let isCall=1,
// All calls clobber the link register and the non-callee-saved registers:
Defs = [R0, R1, R2, R3, R11, LR], Uses = [SP] in {
def BLACP_u10 : _FU10<0b111000, (outs), (ins i32imm:$a), "bla cp[$a]", []>;
def BLACP_lu10 : _FLU10<0b111000, (outs), (ins i32imm:$a), "bla cp[$a]", []>;
def BLRF_u10 : _FU10<0b110100, (outs), (ins calltarget:$a), "bl $a",
[(XCoreBranchLink immU10:$a)]>;
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def BLRF_lu10 : _FLU10<0b110100, (outs), (ins calltarget:$a), "bl $a",
[(XCoreBranchLink immU20:$a)]>;
def BLRB_u10 : _FU10<0b110101, (outs), (ins calltarget_neg:$a), "bl $a", []>;
def BLRB_lu10 : _FLU10<0b110101, (outs), (ins calltarget_neg:$a), "bl $a", []>;
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}
let Defs = [R11], mayLoad = 1, isReMaterializable = 1,
neverHasSideEffects = 1 in {
def LDWCP_u10 : _FU10<0b111001, (outs), (ins i32imm:$a), "ldw r11, cp[$a]", []>;
def LDWCP_lu10 : _FLU10<0b111001, (outs), (ins i32imm:$a), "ldw r11, cp[$a]",
[]>;
}
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// Two operand short
def NOT : _F2R<0b100010, (outs GRRegs:$dst), (ins GRRegs:$b),
"not $dst, $b", [(set GRRegs:$dst, (not GRRegs:$b))]>;
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def NEG : _F2R<0b100100, (outs GRRegs:$dst), (ins GRRegs:$b),
"neg $dst, $b", [(set GRRegs:$dst, (ineg GRRegs:$b))]>;
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let Constraints = "$src1 = $dst" in {
def SEXT_rus :
_FRUSSrcDstBitp<0b001101, (outs GRRegs:$dst), (ins GRRegs:$src1, i32imm:$src2),
"sext $dst, $src2",
[(set GRRegs:$dst, (int_xcore_sext GRRegs:$src1,
immBitp:$src2))]>;
def SEXT_2r :
_F2RSrcDst<0b001100, (outs GRRegs:$dst), (ins GRRegs:$src1, GRRegs:$src2),
"sext $dst, $src2",
[(set GRRegs:$dst, (int_xcore_sext GRRegs:$src1, GRRegs:$src2))]>;
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def ZEXT_rus :
_FRUSSrcDstBitp<0b010001, (outs GRRegs:$dst), (ins GRRegs:$src1, i32imm:$src2),
"zext $dst, $src2",
[(set GRRegs:$dst, (int_xcore_zext GRRegs:$src1,
immBitp:$src2))]>;
def ZEXT_2r :
_F2RSrcDst<0b010000, (outs GRRegs:$dst), (ins GRRegs:$src1, GRRegs:$src2),
"zext $dst, $src2",
[(set GRRegs:$dst, (int_xcore_zext GRRegs:$src1, GRRegs:$src2))]>;
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def ANDNOT_2r :
_F2RSrcDst<0b001010, (outs GRRegs:$dst), (ins GRRegs:$src1, GRRegs:$src2),
"andnot $dst, $src2",
[(set GRRegs:$dst, (and GRRegs:$src1, (not GRRegs:$src2)))]>;
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}
let isReMaterializable = 1, neverHasSideEffects = 1 in
def MKMSK_rus : _FRUSBitp<0b101001, (outs GRRegs:$dst), (ins i32imm:$size),
"mkmsk $dst, $size", []>;
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def MKMSK_2r : _F2R<0b101000, (outs GRRegs:$dst), (ins GRRegs:$size),
"mkmsk $dst, $size",
[(set GRRegs:$dst, (add (shl 1, GRRegs:$size), -1))]>;
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def GETR_rus : _FRUS<0b100000, (outs GRRegs:$dst), (ins i32imm:$type),
"getr $dst, $type",
[(set GRRegs:$dst, (int_xcore_getr immUs:$type))]>;
def GETTS_2r : _F2R<0b001110, (outs GRRegs:$dst), (ins GRRegs:$r),
"getts $dst, res[$r]",
[(set GRRegs:$dst, (int_xcore_getts GRRegs:$r))]>;
def SETPT_2r : _FR2R<0b001111, (outs), (ins GRRegs:$r, GRRegs:$val),
"setpt res[$r], $val",
[(int_xcore_setpt GRRegs:$r, GRRegs:$val)]>;
def OUTCT_2r : _F2R<0b010010, (outs), (ins GRRegs:$r, GRRegs:$val),
"outct res[$r], $val",
[(int_xcore_outct GRRegs:$r, GRRegs:$val)]>;
def OUTCT_rus : _FRUS<0b010011, (outs), (ins GRRegs:$r, i32imm:$val),
"outct res[$r], $val",
[(int_xcore_outct GRRegs:$r, immUs:$val)]>;
def OUTT_2r : _FR2R<0b000011, (outs), (ins GRRegs:$r, GRRegs:$val),
"outt res[$r], $val",
[(int_xcore_outt GRRegs:$r, GRRegs:$val)]>;
def OUT_2r : _FR2R<0b101010, (outs), (ins GRRegs:$r, GRRegs:$val),
"out res[$r], $val",
[(int_xcore_out GRRegs:$r, GRRegs:$val)]>;
let Constraints = "$src = $dst" in
def OUTSHR_2r :
_F2RSrcDst<0b101011, (outs GRRegs:$dst), (ins GRRegs:$src, GRRegs:$r),
"outshr res[$r], $src",
[(set GRRegs:$dst, (int_xcore_outshr GRRegs:$r, GRRegs:$src))]>;
def INCT_2r : _F2R<0b100001, (outs GRRegs:$dst), (ins GRRegs:$r),
"inct $dst, res[$r]",
[(set GRRegs:$dst, (int_xcore_inct GRRegs:$r))]>;
def INT_2r : _F2R<0b100011, (outs GRRegs:$dst), (ins GRRegs:$r),
"int $dst, res[$r]",
[(set GRRegs:$dst, (int_xcore_int GRRegs:$r))]>;
def IN_2r : _F2R<0b101100, (outs GRRegs:$dst), (ins GRRegs:$r),
"in $dst, res[$r]",
[(set GRRegs:$dst, (int_xcore_in GRRegs:$r))]>;
let Constraints = "$src = $dst" in
def INSHR_2r :
_F2RSrcDst<0b101101, (outs GRRegs:$dst), (ins GRRegs:$src, GRRegs:$r),
"inshr $dst, res[$r]",
[(set GRRegs:$dst, (int_xcore_inshr GRRegs:$r, GRRegs:$src))]>;
def CHKCT_2r : _F2R<0b110010, (outs), (ins GRRegs:$r, GRRegs:$val),
"chkct res[$r], $val",
[(int_xcore_chkct GRRegs:$r, GRRegs:$val)]>;
def CHKCT_rus : _FRUSBitp<0b110011, (outs), (ins GRRegs:$r, i32imm:$val),
"chkct res[$r], $val",
[(int_xcore_chkct GRRegs:$r, immUs:$val)]>;
def TESTCT_2r : _F2R<0b101111, (outs GRRegs:$dst), (ins GRRegs:$src),
"testct $dst, res[$src]",
[(set GRRegs:$dst, (int_xcore_testct GRRegs:$src))]>;
def TESTWCT_2r : _F2R<0b110001, (outs GRRegs:$dst), (ins GRRegs:$src),
"testwct $dst, res[$src]",
[(set GRRegs:$dst, (int_xcore_testwct GRRegs:$src))]>;
def SETD_2r : _FR2R<0b000101, (outs), (ins GRRegs:$r, GRRegs:$val),
"setd res[$r], $val",
[(int_xcore_setd GRRegs:$r, GRRegs:$val)]>;
def SETPSC_2r : _FR2R<0b110000, (outs), (ins GRRegs:$src1, GRRegs:$src2),
"setpsc res[$src1], $src2",
[(int_xcore_setpsc GRRegs:$src1, GRRegs:$src2)]>;
def GETST_2r : _F2R<0b000001, (outs GRRegs:$dst), (ins GRRegs:$r),
"getst $dst, res[$r]",
[(set GRRegs:$dst, (int_xcore_getst GRRegs:$r))]>;
def INITSP_2r : _F2R<0b000100, (outs), (ins GRRegs:$src, GRRegs:$t),
"init t[$t]:sp, $src",
[(int_xcore_initsp GRRegs:$t, GRRegs:$src)]>;
def INITPC_2r : _F2R<0b000000, (outs), (ins GRRegs:$src, GRRegs:$t),
"init t[$t]:pc, $src",
[(int_xcore_initpc GRRegs:$t, GRRegs:$src)]>;
def INITCP_2r : _F2R<0b000110, (outs), (ins GRRegs:$src, GRRegs:$t),
"init t[$t]:cp, $src",
[(int_xcore_initcp GRRegs:$t, GRRegs:$src)]>;
def INITDP_2r : _F2R<0b000010, (outs), (ins GRRegs:$src, GRRegs:$t),
"init t[$t]:dp, $src",
[(int_xcore_initdp GRRegs:$t, GRRegs:$src)]>;
def PEEK_2r : _F2R<0b101110, (outs GRRegs:$dst), (ins GRRegs:$src),
"peek $dst, res[$src]",
[(set GRRegs:$dst, (int_xcore_peek GRRegs:$src))]>;
def ENDIN_2r : _F2R<0b100101, (outs GRRegs:$dst), (ins GRRegs:$src),
"endin $dst, res[$src]",
[(set GRRegs:$dst, (int_xcore_endin GRRegs:$src))]>;
def EEF_2r : _F2R<0b001011, (outs), (ins GRRegs:$a, GRRegs:$b),
"eef $a, res[$b]", []>;
def EET_2r : _F2R<0b001001, (outs), (ins GRRegs:$a, GRRegs:$b),
"eet $a, res[$b]", []>;
def TSETMR_2r : _F2RImm<0b000111, (outs), (ins i32imm:$a, GRRegs:$b),
"tsetmr r$a, $b", []>;
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// Two operand long
def BITREV_l2r : _FL2R<0b0000011000, (outs GRRegs:$dst), (ins GRRegs:$src),
"bitrev $dst, $src",
[(set GRRegs:$dst, (int_xcore_bitrev GRRegs:$src))]>;
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def BYTEREV_l2r : _FL2R<0b0000011001, (outs GRRegs:$dst), (ins GRRegs:$src),
"byterev $dst, $src",
[(set GRRegs:$dst, (bswap GRRegs:$src))]>;
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def CLZ_l2r : _FL2R<0b000111000, (outs GRRegs:$dst), (ins GRRegs:$src),
"clz $dst, $src",
[(set GRRegs:$dst, (ctlz GRRegs:$src))]>;
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def GETD_l2r : _FL2R<0b0001111001, (outs GRRegs:$dst), (ins GRRegs:$src),
"getd $dst, res[$src]", []>;
def GETN_l2r : _FL2R<0b0011011001, (outs GRRegs:$dst), (ins GRRegs:$src),
"getn $dst, res[$src]", []>;
def SETC_l2r : _FL2R<0b0010111001, (outs), (ins GRRegs:$r, GRRegs:$val),
"setc res[$r], $val",
[(int_xcore_setc GRRegs:$r, GRRegs:$val)]>;
def SETTW_l2r : _FLR2R<0b0010011001, (outs), (ins GRRegs:$r, GRRegs:$val),
"settw res[$r], $val",
[(int_xcore_settw GRRegs:$r, GRRegs:$val)]>;
def GETPS_l2r : _FL2R<0b0001011001, (outs GRRegs:$dst), (ins GRRegs:$src),
"get $dst, ps[$src]",
[(set GRRegs:$dst, (int_xcore_getps GRRegs:$src))]>;
def SETPS_l2r : _FLR2R<0b0001111000, (outs), (ins GRRegs:$src1, GRRegs:$src2),
"set ps[$src1], $src2",
[(int_xcore_setps GRRegs:$src1, GRRegs:$src2)]>;
def INITLR_l2r : _FL2R<0b0001011000, (outs), (ins GRRegs:$src, GRRegs:$t),
"init t[$t]:lr, $src",
[(int_xcore_initlr GRRegs:$t, GRRegs:$src)]>;
def SETCLK_l2r : _FLR2R<0b0000111001, (outs), (ins GRRegs:$src1, GRRegs:$src2),
"setclk res[$src1], $src2",
[(int_xcore_setclk GRRegs:$src1, GRRegs:$src2)]>;
def SETN_l2r : _FLR2R<0b0011011000, (outs), (ins GRRegs:$src1, GRRegs:$src2),
"setn res[$src1], $src2", []>;
def SETRDY_l2r : _FLR2R<0b0010111000, (outs), (ins GRRegs:$src1, GRRegs:$src2),
"setrdy res[$src1], $src2",
[(int_xcore_setrdy GRRegs:$src1, GRRegs:$src2)]>;
def TESTLCL_l2r : _FL2R<0b0010011000, (outs GRRegs:$dst), (ins GRRegs:$src),
"testlcl $dst, res[$src]", []>;
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// One operand short
def MSYNC_1r : _F1R<0b000111, (outs), (ins GRRegs:$a),
"msync res[$a]",
[(int_xcore_msync GRRegs:$a)]>;
def MJOIN_1r : _F1R<0b000101, (outs), (ins GRRegs:$a),
"mjoin res[$a]",
[(int_xcore_mjoin GRRegs:$a)]>;
let isBranch=1, isIndirectBranch=1, isTerminator=1, isBarrier = 1 in
def BAU_1r : _F1R<0b001001, (outs), (ins GRRegs:$a),
"bau $a",
[(brind GRRegs:$a)]>;
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let isBranch=1, isIndirectBranch=1, isTerminator=1, isBarrier = 1 in
def BR_JT : PseudoInstXCore<(outs), (ins InlineJT:$t, GRRegs:$i),
"bru $i\n$t",
[(XCoreBR_JT tjumptable:$t, GRRegs:$i)]>;
let isBranch=1, isIndirectBranch=1, isTerminator=1, isBarrier = 1 in
def BR_JT32 : PseudoInstXCore<(outs), (ins InlineJT32:$t, GRRegs:$i),
"bru $i\n$t",
[(XCoreBR_JT32 tjumptable:$t, GRRegs:$i)]>;
let isBranch=1, isIndirectBranch=1, isTerminator=1, isBarrier = 1 in
def BRU_1r : _F1R<0b001010, (outs), (ins GRRegs:$a), "bru $a", []>;
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let Defs=[SP], neverHasSideEffects=1 in
def SETSP_1r : _F1R<0b001011, (outs), (ins GRRegs:$a), "set sp, $a", []>;
let neverHasSideEffects=1 in
def SETDP_1r : _F1R<0b001100, (outs), (ins GRRegs:$a), "set dp, $a", []>;
let neverHasSideEffects=1 in
def SETCP_1r : _F1R<0b001101, (outs), (ins GRRegs:$a), "set cp, $a", []>;
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let hasCtrlDep = 1 in
def ECALLT_1r : _F1R<0b010011, (outs), (ins GRRegs:$a),
"ecallt $a",
[]>;
let hasCtrlDep = 1 in
def ECALLF_1r : _F1R<0b010010, (outs), (ins GRRegs:$a),
"ecallf $a",
[]>;
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let isCall=1,
// All calls clobber the link register and the non-callee-saved registers:
Defs = [R0, R1, R2, R3, R11, LR], Uses = [SP] in {
def BLA_1r : _F1R<0b001000, (outs), (ins GRRegs:$a),
"bla $a",
[(XCoreBranchLink GRRegs:$a)]>;
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}
def SYNCR_1r : _F1R<0b100001, (outs), (ins GRRegs:$a),
"syncr res[$a]",
[(int_xcore_syncr GRRegs:$a)]>;
def FREER_1r : _F1R<0b000100, (outs), (ins GRRegs:$a),
"freer res[$a]",
[(int_xcore_freer GRRegs:$a)]>;
let Uses=[R11] in {
def SETV_1r : _F1R<0b010001, (outs), (ins GRRegs:$a),
"setv res[$a], r11",
[(int_xcore_setv GRRegs:$a, R11)]>;
def SETEV_1r : _F1R<0b001111, (outs), (ins GRRegs:$a),
"setev res[$a], r11",
[(int_xcore_setev GRRegs:$a, R11)]>;
}
def DGETREG_1r : _F1R<0b001110, (outs GRRegs:$a), (ins), "dgetreg $a", []>;
def EDU_1r : _F1R<0b000000, (outs), (ins GRRegs:$a), "edu res[$a]", []>;
def EEU_1r : _F1R<0b000001, (outs), (ins GRRegs:$a),
"eeu res[$a]",
[(int_xcore_eeu GRRegs:$a)]>;
def KCALL_1r : _F1R<0b010000, (outs), (ins GRRegs:$a), "kcall $a", []>;
def WAITEF_1R : _F1R<0b000011, (outs), (ins GRRegs:$a), "waitef $a", []>;
def WAITET_1R : _F1R<0b000010, (outs), (ins GRRegs:$a), "waitet $a", []>;
def TSTART_1R : _F1R<0b000110, (outs), (ins GRRegs:$a), "start t[$a]", []>;
def CLRPT_1R : _F1R<0b100000, (outs), (ins GRRegs:$a), "clrpt res[$a]", []>;
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// Zero operand short
def CLRE_0R : _F0R<0b0000001101, (outs), (ins), "clre", [(int_xcore_clre)]>;
def DCALL_0R : _F0R<0b0000011100, (outs), (ins), "dcall", []>;
let Defs = [SP], Uses = [SP] in
def DENTSP_0R : _F0R<0b0001001100, (outs), (ins), "dentsp", []>;
let Defs = [SP] in
def DRESTSP_0R : _F0R<0b0001001101, (outs), (ins), "drestsp", []>;
def DRET_0R : _F0R<0b0000011110, (outs), (ins), "dret", []>;
def FREET_0R : _F0R<0b0000001111, (outs), (ins), "freet", []>;
let Defs = [R11] in {
def GETID_0R : _F0R<0b0001001110, (outs), (ins),
"get r11, id",
[(set R11, (int_xcore_getid))]>;
def GETED_0R : _F0R<0b0000111110, (outs), (ins),
"get r11, ed",
[(set R11, (int_xcore_geted))]>;
def GETET_0R : _F0R<0b0000111111, (outs), (ins),
"get r11, et",
[(set R11, (int_xcore_getet))]>;
def GETKEP_0R : _F0R<0b0001001111, (outs), (ins),
"get r11, kep", []>;
def GETKSP_0R : _F0R<0b0001011100, (outs), (ins),
"get r11, ksp", []>;
}
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let Defs = [SP] in
def KRET_0R : _F0R<0b0000011101, (outs), (ins), "kret", []>;
let Uses = [SP], mayLoad = 1 in {
def LDET_0R : _F0R<0b0001011110, (outs), (ins), "ldw et, sp[4]", []>;
def LDSED_0R : _F0R<0b0001011101, (outs), (ins), "ldw sed, sp[3]", []>;
def LDSPC_0R : _F0R<0b0000101100, (outs), (ins), "ldw spc, sp[1]", []>;
def LDSSR_0R : _F0R<0b0000101110, (outs), (ins), "ldw ssr, sp[2]", []>;
}
let Uses=[R11] in
def SETKEP_0R : _F0R<0b0000011111, (outs), (ins), "set kep, r11", []>;
def SSYNC_0r : _F0R<0b0000001110, (outs), (ins),
"ssync",
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[(int_xcore_ssync)]>;
let Uses = [SP], mayStore = 1 in {
def STET_0R : _F0R<0b0000111101, (outs), (ins), "stw et, sp[4]", []>;
def STSED_0R : _F0R<0b0000111100, (outs), (ins), "stw sed, sp[3]", []>;
def STSPC_0R : _F0R<0b0000101101, (outs), (ins), "stw spc, sp[1]", []>;
def STSSR_0R : _F0R<0b0000101111, (outs), (ins), "stw ssr, sp[2]", []>;
}
let isBranch=1, isIndirectBranch=1, isTerminator=1, isBarrier = 1,
hasSideEffects = 1 in
def WAITEU_0R : _F0R<0b0000001100, (outs), (ins),
"waiteu",
[(brind (int_xcore_waitevent))]>;
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//===----------------------------------------------------------------------===//
// Non-Instruction Patterns
//===----------------------------------------------------------------------===//
def : Pat<(XCoreBranchLink tglobaladdr:$addr), (BLRF_lu10 tglobaladdr:$addr)>;
def : Pat<(XCoreBranchLink texternalsym:$addr), (BLRF_lu10 texternalsym:$addr)>;
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/// sext_inreg
def : Pat<(sext_inreg GRRegs:$b, i1), (SEXT_rus GRRegs:$b, 1)>;
def : Pat<(sext_inreg GRRegs:$b, i8), (SEXT_rus GRRegs:$b, 8)>;
def : Pat<(sext_inreg GRRegs:$b, i16), (SEXT_rus GRRegs:$b, 16)>;
/// loads
def : Pat<(zextloadi8 (add GRRegs:$addr, GRRegs:$offset)),
(LD8U_3r GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(zextloadi8 GRRegs:$addr), (LD8U_3r GRRegs:$addr, (LDC_ru6 0))>;
def : Pat<(sextloadi16 (lda16f GRRegs:$addr, GRRegs:$offset)),
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(LD16S_3r GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(sextloadi16 GRRegs:$addr), (LD16S_3r GRRegs:$addr, (LDC_ru6 0))>;
def : Pat<(load (ldawf GRRegs:$addr, GRRegs:$offset)),
(LDW_3r GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(load (add GRRegs:$addr, immUs4:$offset)),
(LDW_2rus GRRegs:$addr, (div4_xform immUs4:$offset))>;
def : Pat<(load GRRegs:$addr), (LDW_2rus GRRegs:$addr, 0)>;
/// anyext
def : Pat<(extloadi8 (add GRRegs:$addr, GRRegs:$offset)),
(LD8U_3r GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(extloadi8 GRRegs:$addr), (LD8U_3r GRRegs:$addr, (LDC_ru6 0))>;
def : Pat<(extloadi16 (lda16f GRRegs:$addr, GRRegs:$offset)),
(LD16S_3r GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(extloadi16 GRRegs:$addr), (LD16S_3r GRRegs:$addr, (LDC_ru6 0))>;
/// stores
def : Pat<(truncstorei8 GRRegs:$val, (add GRRegs:$addr, GRRegs:$offset)),
(ST8_l3r GRRegs:$val, GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(truncstorei8 GRRegs:$val, GRRegs:$addr),
(ST8_l3r GRRegs:$val, GRRegs:$addr, (LDC_ru6 0))>;
def : Pat<(truncstorei16 GRRegs:$val, (lda16f GRRegs:$addr, GRRegs:$offset)),
(ST16_l3r GRRegs:$val, GRRegs:$addr, GRRegs:$offset)>;
def : Pat<(truncstorei16 GRRegs:$val, GRRegs:$addr),
(ST16_l3r GRRegs:$val, GRRegs:$addr, (LDC_ru6 0))>;
def : Pat<(store GRRegs:$val, (ldawf GRRegs:$addr, GRRegs:$offset)),
(STW_l3r GRRegs:$val, GRRegs:$addr, GRRegs:$offset)>;
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def : Pat<(store GRRegs:$val, (add GRRegs:$addr, immUs4:$offset)),
(STW_2rus GRRegs:$val, GRRegs:$addr, (div4_xform immUs4:$offset))>;
def : Pat<(store GRRegs:$val, GRRegs:$addr),
(STW_2rus GRRegs:$val, GRRegs:$addr, 0)>;
/// cttz
def : Pat<(cttz GRRegs:$src), (CLZ_l2r (BITREV_l2r GRRegs:$src))>;
/// trap
def : Pat<(trap), (ECALLF_1r (LDC_ru6 0))>;
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///
/// branch patterns
///
// unconditional branch
def : Pat<(br bb:$addr), (BRFU_lu6 bb:$addr)>;
// direct match equal/notequal zero brcond
def : Pat<(brcond (setne GRRegs:$lhs, 0), bb:$dst),
(BRFT_lru6 GRRegs:$lhs, bb:$dst)>;
def : Pat<(brcond (seteq GRRegs:$lhs, 0), bb:$dst),
(BRFF_lru6 GRRegs:$lhs, bb:$dst)>;
def : Pat<(brcond (setle GRRegs:$lhs, GRRegs:$rhs), bb:$dst),
(BRFF_lru6 (LSS_3r GRRegs:$rhs, GRRegs:$lhs), bb:$dst)>;
def : Pat<(brcond (setule GRRegs:$lhs, GRRegs:$rhs), bb:$dst),
(BRFF_lru6 (LSU_3r GRRegs:$rhs, GRRegs:$lhs), bb:$dst)>;
def : Pat<(brcond (setge GRRegs:$lhs, GRRegs:$rhs), bb:$dst),
(BRFF_lru6 (LSS_3r GRRegs:$lhs, GRRegs:$rhs), bb:$dst)>;
def : Pat<(brcond (setuge GRRegs:$lhs, GRRegs:$rhs), bb:$dst),
(BRFF_lru6 (LSU_3r GRRegs:$lhs, GRRegs:$rhs), bb:$dst)>;
def : Pat<(brcond (setne GRRegs:$lhs, GRRegs:$rhs), bb:$dst),
(BRFF_lru6 (EQ_3r GRRegs:$lhs, GRRegs:$rhs), bb:$dst)>;
def : Pat<(brcond (setne GRRegs:$lhs, immUs:$rhs), bb:$dst),
(BRFF_lru6 (EQ_2rus GRRegs:$lhs, immUs:$rhs), bb:$dst)>;
// generic brcond pattern
def : Pat<(brcond GRRegs:$cond, bb:$addr), (BRFT_lru6 GRRegs:$cond, bb:$addr)>;
///
/// Select patterns
///
// direct match equal/notequal zero select
def : Pat<(select (setne GRRegs:$lhs, 0), GRRegs:$T, GRRegs:$F),
(SELECT_CC GRRegs:$lhs, GRRegs:$T, GRRegs:$F)>;
def : Pat<(select (seteq GRRegs:$lhs, 0), GRRegs:$T, GRRegs:$F),
(SELECT_CC GRRegs:$lhs, GRRegs:$F, GRRegs:$T)>;
def : Pat<(select (setle GRRegs:$lhs, GRRegs:$rhs), GRRegs:$T, GRRegs:$F),
(SELECT_CC (LSS_3r GRRegs:$rhs, GRRegs:$lhs), GRRegs:$F, GRRegs:$T)>;
def : Pat<(select (setule GRRegs:$lhs, GRRegs:$rhs), GRRegs:$T, GRRegs:$F),
(SELECT_CC (LSU_3r GRRegs:$rhs, GRRegs:$lhs), GRRegs:$F, GRRegs:$T)>;
def : Pat<(select (setge GRRegs:$lhs, GRRegs:$rhs), GRRegs:$T, GRRegs:$F),
(SELECT_CC (LSS_3r GRRegs:$lhs, GRRegs:$rhs), GRRegs:$F, GRRegs:$T)>;
def : Pat<(select (setuge GRRegs:$lhs, GRRegs:$rhs), GRRegs:$T, GRRegs:$F),
(SELECT_CC (LSU_3r GRRegs:$lhs, GRRegs:$rhs), GRRegs:$F, GRRegs:$T)>;
def : Pat<(select (setne GRRegs:$lhs, GRRegs:$rhs), GRRegs:$T, GRRegs:$F),
(SELECT_CC (EQ_3r GRRegs:$lhs, GRRegs:$rhs), GRRegs:$F, GRRegs:$T)>;
def : Pat<(select (setne GRRegs:$lhs, immUs:$rhs), GRRegs:$T, GRRegs:$F),
(SELECT_CC (EQ_2rus GRRegs:$lhs, immUs:$rhs), GRRegs:$F, GRRegs:$T)>;
///
/// setcc patterns, only matched when none of the above brcond
/// patterns match
///
// setcc 2 register operands
def : Pat<(setle GRRegs:$lhs, GRRegs:$rhs),
(EQ_2rus (LSS_3r GRRegs:$rhs, GRRegs:$lhs), 0)>;
def : Pat<(setule GRRegs:$lhs, GRRegs:$rhs),
(EQ_2rus (LSU_3r GRRegs:$rhs, GRRegs:$lhs), 0)>;
def : Pat<(setgt GRRegs:$lhs, GRRegs:$rhs),
(LSS_3r GRRegs:$rhs, GRRegs:$lhs)>;
def : Pat<(setugt GRRegs:$lhs, GRRegs:$rhs),
(LSU_3r GRRegs:$rhs, GRRegs:$lhs)>;
def : Pat<(setge GRRegs:$lhs, GRRegs:$rhs),
(EQ_2rus (LSS_3r GRRegs:$lhs, GRRegs:$rhs), 0)>;
def : Pat<(setuge GRRegs:$lhs, GRRegs:$rhs),
(EQ_2rus (LSU_3r GRRegs:$lhs, GRRegs:$rhs), 0)>;
def : Pat<(setlt GRRegs:$lhs, GRRegs:$rhs),
(LSS_3r GRRegs:$lhs, GRRegs:$rhs)>;
def : Pat<(setult GRRegs:$lhs, GRRegs:$rhs),
(LSU_3r GRRegs:$lhs, GRRegs:$rhs)>;
def : Pat<(setne GRRegs:$lhs, GRRegs:$rhs),
(EQ_2rus (EQ_3r GRRegs:$lhs, GRRegs:$rhs), 0)>;
def : Pat<(seteq GRRegs:$lhs, GRRegs:$rhs),
(EQ_3r GRRegs:$lhs, GRRegs:$rhs)>;
// setcc reg/imm operands
def : Pat<(seteq GRRegs:$lhs, immUs:$rhs),
(EQ_2rus GRRegs:$lhs, immUs:$rhs)>;
def : Pat<(setne GRRegs:$lhs, immUs:$rhs),
(EQ_2rus (EQ_2rus GRRegs:$lhs, immUs:$rhs), 0)>;
// misc
def : Pat<(add GRRegs:$addr, immUs4:$offset),
(LDAWF_l2rus GRRegs:$addr, (div4_xform immUs4:$offset))>;
def : Pat<(sub GRRegs:$addr, immUs4:$offset),
(LDAWB_l2rus GRRegs:$addr, (div4_xform immUs4:$offset))>;
def : Pat<(and GRRegs:$val, immMskBitp:$mask),
(ZEXT_rus GRRegs:$val, (msksize_xform immMskBitp:$mask))>;
// (sub X, imm) gets canonicalized to (add X, -imm). Match this form.
def : Pat<(add GRRegs:$src1, immUsNeg:$src2),
(SUB_2rus GRRegs:$src1, (neg_xform immUsNeg:$src2))>;
def : Pat<(add GRRegs:$src1, immUs4Neg:$src2),
(LDAWB_l2rus GRRegs:$src1, (div4neg_xform immUs4Neg:$src2))>;
///
/// Some peepholes
///
def : Pat<(mul GRRegs:$src, 3),
(LDA16F_l3r GRRegs:$src, GRRegs:$src)>;
def : Pat<(mul GRRegs:$src, 5),
(LDAWF_l3r GRRegs:$src, GRRegs:$src)>;
def : Pat<(mul GRRegs:$src, -3),
(LDAWB_l3r GRRegs:$src, GRRegs:$src)>;
// ashr X, 32 is equivalent to ashr X, 31 on the XCore.
def : Pat<(sra GRRegs:$src, 31),
(ASHR_l2rus GRRegs:$src, 32)>;
def : Pat<(brcond (setlt GRRegs:$lhs, 0), bb:$dst),
(BRFT_lru6 (ASHR_l2rus GRRegs:$lhs, 32), bb:$dst)>;
// setge X, 0 is canonicalized to setgt X, -1
def : Pat<(brcond (setgt GRRegs:$lhs, -1), bb:$dst),
(BRFF_lru6 (ASHR_l2rus GRRegs:$lhs, 32), bb:$dst)>;
def : Pat<(select (setlt GRRegs:$lhs, 0), GRRegs:$T, GRRegs:$F),
(SELECT_CC (ASHR_l2rus GRRegs:$lhs, 32), GRRegs:$T, GRRegs:$F)>;
def : Pat<(select (setgt GRRegs:$lhs, -1), GRRegs:$T, GRRegs:$F),
(SELECT_CC (ASHR_l2rus GRRegs:$lhs, 32), GRRegs:$F, GRRegs:$T)>;
def : Pat<(setgt GRRegs:$lhs, -1),
(EQ_2rus (ASHR_l2rus GRRegs:$lhs, 32), 0)>;
def : Pat<(sra (shl GRRegs:$src, immBpwSubBitp:$imm), immBpwSubBitp:$imm),
(SEXT_rus GRRegs:$src, (bpwsub_xform immBpwSubBitp:$imm))>;