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https://github.com/c64scene-ar/llvm-6502.git
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36e1825e68
This change enables tracking i1 values in the PowerPC backend using the condition register bits. These bits can be treated on PowerPC as separate registers; individual bit operations (and, or, xor, etc.) are supported. Tracking booleans in CR bits has several advantages: - Reduction in register pressure (because we no longer need GPRs to store boolean values). - Logical operations on booleans can be handled more efficiently; we used to have to move all results from comparisons into GPRs, perform promoted logical operations in GPRs, and then move the result back into condition register bits to be used by conditional branches. This can be very inefficient, because the throughput of these CR <-> GPR moves have high latency and low throughput (especially when other associated instructions are accounted for). - On the POWER7 and similar cores, we can increase total throughput by using the CR bits. CR bit operations have a dedicated functional unit. Most of this is more-or-less mechanical: Adjustments were needed in the calling-convention code, support was added for spilling/restoring individual condition-register bits, and conditional branch instruction definitions taking specific CR bits were added (plus patterns and code for generating bit-level operations). This is enabled by default when running at -O2 and higher. For -O0 and -O1, where the ability to debug is more important, this feature is disabled by default. Individual CR bits do not have assigned DWARF register numbers, and storing values in CR bits makes them invisible to the debugger. It is critical, however, that we don't move i1 values that have been promoted to larger values (such as those passed as function arguments) into bit registers only to quickly turn around and move the values back into GPRs (such as happens when values are returned by functions). A pair of target-specific DAG combines are added to remove the trunc/extends in: trunc(binary-ops(binary-ops(zext(x), zext(y)), ...) and: zext(binary-ops(binary-ops(trunc(x), trunc(y)), ...) In short, we only want to use CR bits where some of the i1 values come from comparisons or are used by conditional branches or selects. To put it another way, if we can do the entire i1 computation in GPRs, then we probably should (on the POWER7, the GPR-operation throughput is higher, and for all cores, the CR <-> GPR moves are expensive). POWER7 test-suite performance results (from 10 runs in each configuration): SingleSource/Benchmarks/Misc/mandel-2: 35% speedup MultiSource/Benchmarks/Prolangs-C++/city/city: 21% speedup MultiSource/Benchmarks/MiBench/automotive-susan: 23% speedup SingleSource/Benchmarks/CoyoteBench/huffbench: 13% speedup SingleSource/Benchmarks/Misc-C++/Large/sphereflake: 13% speedup SingleSource/Benchmarks/Misc-C++/mandel-text: 10% speedup SingleSource/Benchmarks/Misc-C++-EH/spirit: 10% slowdown MultiSource/Applications/lemon/lemon: 8% slowdown git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@202451 91177308-0d34-0410-b5e6-96231b3b80d8
1131 lines
52 KiB
TableGen
1131 lines
52 KiB
TableGen
//===-- PPCInstr64Bit.td - The PowerPC 64-bit Support ------*- tablegen -*-===//
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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 PowerPC 64-bit instructions. These patterns are used
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// both when in ppc64 mode and when in "use 64-bit extensions in 32-bit" mode.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// 64-bit operands.
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//
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def s16imm64 : Operand<i64> {
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let PrintMethod = "printS16ImmOperand";
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let EncoderMethod = "getImm16Encoding";
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let ParserMatchClass = PPCS16ImmAsmOperand;
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let DecoderMethod = "decodeSImmOperand<16>";
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}
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def u16imm64 : Operand<i64> {
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let PrintMethod = "printU16ImmOperand";
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let EncoderMethod = "getImm16Encoding";
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let ParserMatchClass = PPCU16ImmAsmOperand;
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let DecoderMethod = "decodeUImmOperand<16>";
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}
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def s17imm64 : Operand<i64> {
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// This operand type is used for addis/lis to allow the assembler parser
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// to accept immediates in the range -65536..65535 for compatibility with
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// the GNU assembler. The operand is treated as 16-bit otherwise.
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let PrintMethod = "printS16ImmOperand";
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let EncoderMethod = "getImm16Encoding";
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let ParserMatchClass = PPCS17ImmAsmOperand;
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let DecoderMethod = "decodeSImmOperand<16>";
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}
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def tocentry : Operand<iPTR> {
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let MIOperandInfo = (ops i64imm:$imm);
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}
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def tlsreg : Operand<i64> {
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let EncoderMethod = "getTLSRegEncoding";
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let ParserMatchClass = PPCTLSRegOperand;
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}
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def tlsgd : Operand<i64> {}
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def tlscall : Operand<i64> {
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let PrintMethod = "printTLSCall";
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let MIOperandInfo = (ops calltarget:$func, tlsgd:$sym);
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let EncoderMethod = "getTLSCallEncoding";
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}
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//===----------------------------------------------------------------------===//
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// 64-bit transformation functions.
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//
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def SHL64 : SDNodeXForm<imm, [{
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// Transformation function: 63 - imm
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return getI32Imm(63 - N->getZExtValue());
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}]>;
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def SRL64 : SDNodeXForm<imm, [{
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// Transformation function: 64 - imm
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return N->getZExtValue() ? getI32Imm(64 - N->getZExtValue()) : getI32Imm(0);
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}]>;
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def HI32_48 : SDNodeXForm<imm, [{
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// Transformation function: shift the immediate value down into the low bits.
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return getI32Imm((unsigned short)(N->getZExtValue() >> 32));
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}]>;
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def HI48_64 : SDNodeXForm<imm, [{
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// Transformation function: shift the immediate value down into the low bits.
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return getI32Imm((unsigned short)(N->getZExtValue() >> 48));
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}]>;
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//===----------------------------------------------------------------------===//
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// Calls.
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//
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let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
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let isTerminator = 1, isBarrier = 1, PPC970_Unit = 7 in {
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let isBranch = 1, isIndirectBranch = 1, Uses = [CTR8] in {
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def BCTR8 : XLForm_2_ext<19, 528, 20, 0, 0, (outs), (ins), "bctr", IIC_BrB,
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[]>,
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Requires<[In64BitMode]>;
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def BCCCTR8 : XLForm_2_br<19, 528, 0, (outs), (ins pred:$cond),
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"b${cond:cc}ctr${cond:pm} ${cond:reg}", IIC_BrB,
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[]>,
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Requires<[In64BitMode]>;
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def BCCTR8 : XLForm_2_br2<19, 528, 12, 0, (outs), (ins crbitrc:$bi),
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"bcctr 12, $bi, 0", IIC_BrB, []>,
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Requires<[In64BitMode]>;
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def BCCTR8n : XLForm_2_br2<19, 528, 4, 0, (outs), (ins crbitrc:$bi),
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"bcctr 4, $bi, 0", IIC_BrB, []>,
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Requires<[In64BitMode]>;
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}
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}
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let Defs = [LR8] in
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def MovePCtoLR8 : Pseudo<(outs), (ins), "#MovePCtoLR8", []>,
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PPC970_Unit_BRU;
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let isBranch = 1, isTerminator = 1, hasCtrlDep = 1, PPC970_Unit = 7 in {
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let Defs = [CTR8], Uses = [CTR8] in {
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def BDZ8 : BForm_1<16, 18, 0, 0, (outs), (ins condbrtarget:$dst),
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"bdz $dst">;
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def BDNZ8 : BForm_1<16, 16, 0, 0, (outs), (ins condbrtarget:$dst),
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"bdnz $dst">;
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}
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let isReturn = 1, Defs = [CTR8], Uses = [CTR8, LR8, RM] in {
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def BDZLR8 : XLForm_2_ext<19, 16, 18, 0, 0, (outs), (ins),
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"bdzlr", IIC_BrB, []>;
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def BDNZLR8 : XLForm_2_ext<19, 16, 16, 0, 0, (outs), (ins),
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"bdnzlr", IIC_BrB, []>;
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}
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}
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let isCall = 1, PPC970_Unit = 7, Defs = [LR8] in {
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// Convenient aliases for call instructions
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let Uses = [RM] in {
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def BL8 : IForm<18, 0, 1, (outs), (ins calltarget:$func),
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"bl $func", IIC_BrB, []>; // See Pat patterns below.
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def BL8_TLS : IForm<18, 0, 1, (outs), (ins tlscall:$func),
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"bl $func", IIC_BrB, []>;
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def BLA8 : IForm<18, 1, 1, (outs), (ins abscalltarget:$func),
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"bla $func", IIC_BrB, [(PPCcall (i64 imm:$func))]>;
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}
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let Uses = [RM], isCodeGenOnly = 1 in {
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def BL8_NOP : IForm_and_DForm_4_zero<18, 0, 1, 24,
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(outs), (ins calltarget:$func),
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"bl $func\n\tnop", IIC_BrB, []>;
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def BL8_NOP_TLS : IForm_and_DForm_4_zero<18, 0, 1, 24,
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(outs), (ins tlscall:$func),
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"bl $func\n\tnop", IIC_BrB, []>;
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def BLA8_NOP : IForm_and_DForm_4_zero<18, 1, 1, 24,
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(outs), (ins abscalltarget:$func),
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"bla $func\n\tnop", IIC_BrB,
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[(PPCcall_nop (i64 imm:$func))]>;
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}
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let Uses = [CTR8, RM] in {
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def BCTRL8 : XLForm_2_ext<19, 528, 20, 0, 1, (outs), (ins),
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"bctrl", IIC_BrB, [(PPCbctrl)]>,
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Requires<[In64BitMode]>;
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let isCodeGenOnly = 1 in {
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def BCCCTRL8 : XLForm_2_br<19, 528, 1, (outs), (ins pred:$cond),
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"b${cond:cc}ctrl${cond:pm} ${cond:reg}", IIC_BrB,
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[]>,
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Requires<[In64BitMode]>;
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def BCCTRL8 : XLForm_2_br2<19, 528, 12, 1, (outs), (ins crbitrc:$bi),
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"bcctrl 12, $bi, 0", IIC_BrB, []>,
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Requires<[In64BitMode]>;
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def BCCTRL8n : XLForm_2_br2<19, 528, 4, 1, (outs), (ins crbitrc:$bi),
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"bcctrl 4, $bi, 0", IIC_BrB, []>,
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Requires<[In64BitMode]>;
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}
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}
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}
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} // Interpretation64Bit
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// FIXME: Duplicating this for the asm parser should be unnecessary, but the
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// previous definition must be marked as CodeGen only to prevent decoding
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// conflicts.
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let Interpretation64Bit = 1, isAsmParserOnly = 1 in
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let isCall = 1, PPC970_Unit = 7, Defs = [LR8], Uses = [RM] in
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def BL8_TLS_ : IForm<18, 0, 1, (outs), (ins tlscall:$func),
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"bl $func", IIC_BrB, []>;
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// Calls
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def : Pat<(PPCcall (i64 tglobaladdr:$dst)),
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(BL8 tglobaladdr:$dst)>;
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def : Pat<(PPCcall_nop (i64 tglobaladdr:$dst)),
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(BL8_NOP tglobaladdr:$dst)>;
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def : Pat<(PPCcall (i64 texternalsym:$dst)),
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(BL8 texternalsym:$dst)>;
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def : Pat<(PPCcall_nop (i64 texternalsym:$dst)),
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(BL8_NOP texternalsym:$dst)>;
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// Atomic operations
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let usesCustomInserter = 1 in {
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let Defs = [CR0] in {
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def ATOMIC_LOAD_ADD_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$incr), "#ATOMIC_LOAD_ADD_I64",
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[(set i64:$dst, (atomic_load_add_64 xoaddr:$ptr, i64:$incr))]>;
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def ATOMIC_LOAD_SUB_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$incr), "#ATOMIC_LOAD_SUB_I64",
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[(set i64:$dst, (atomic_load_sub_64 xoaddr:$ptr, i64:$incr))]>;
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def ATOMIC_LOAD_OR_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$incr), "#ATOMIC_LOAD_OR_I64",
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[(set i64:$dst, (atomic_load_or_64 xoaddr:$ptr, i64:$incr))]>;
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def ATOMIC_LOAD_XOR_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$incr), "#ATOMIC_LOAD_XOR_I64",
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[(set i64:$dst, (atomic_load_xor_64 xoaddr:$ptr, i64:$incr))]>;
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def ATOMIC_LOAD_AND_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$incr), "#ATOMIC_LOAD_AND_i64",
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[(set i64:$dst, (atomic_load_and_64 xoaddr:$ptr, i64:$incr))]>;
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def ATOMIC_LOAD_NAND_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$incr), "#ATOMIC_LOAD_NAND_I64",
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[(set i64:$dst, (atomic_load_nand_64 xoaddr:$ptr, i64:$incr))]>;
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def ATOMIC_CMP_SWAP_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$old, g8rc:$new), "#ATOMIC_CMP_SWAP_I64",
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[(set i64:$dst, (atomic_cmp_swap_64 xoaddr:$ptr, i64:$old, i64:$new))]>;
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def ATOMIC_SWAP_I64 : Pseudo<
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(outs g8rc:$dst), (ins memrr:$ptr, g8rc:$new), "#ATOMIC_SWAP_I64",
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[(set i64:$dst, (atomic_swap_64 xoaddr:$ptr, i64:$new))]>;
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}
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}
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// Instructions to support atomic operations
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def LDARX : XForm_1<31, 84, (outs g8rc:$rD), (ins memrr:$ptr),
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"ldarx $rD, $ptr", IIC_LdStLDARX,
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[(set i64:$rD, (PPClarx xoaddr:$ptr))]>;
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let Defs = [CR0] in
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def STDCX : XForm_1<31, 214, (outs), (ins g8rc:$rS, memrr:$dst),
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"stdcx. $rS, $dst", IIC_LdStSTDCX,
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[(PPCstcx i64:$rS, xoaddr:$dst)]>,
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isDOT;
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let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
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let isCall = 1, isTerminator = 1, isReturn = 1, isBarrier = 1, Uses = [RM] in
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def TCRETURNdi8 :Pseudo< (outs),
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(ins calltarget:$dst, i32imm:$offset),
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"#TC_RETURNd8 $dst $offset",
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[]>;
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let isCall = 1, isTerminator = 1, isReturn = 1, isBarrier = 1, Uses = [RM] in
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def TCRETURNai8 :Pseudo<(outs), (ins abscalltarget:$func, i32imm:$offset),
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"#TC_RETURNa8 $func $offset",
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[(PPCtc_return (i64 imm:$func), imm:$offset)]>;
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let isCall = 1, isTerminator = 1, isReturn = 1, isBarrier = 1, Uses = [RM] in
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def TCRETURNri8 : Pseudo<(outs), (ins CTRRC8:$dst, i32imm:$offset),
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"#TC_RETURNr8 $dst $offset",
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[]>;
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let isTerminator = 1, isBarrier = 1, PPC970_Unit = 7, isBranch = 1,
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isIndirectBranch = 1, isCall = 1, isReturn = 1, Uses = [CTR8, RM] in
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def TAILBCTR8 : XLForm_2_ext<19, 528, 20, 0, 0, (outs), (ins), "bctr", IIC_BrB,
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[]>,
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Requires<[In64BitMode]>;
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let isBranch = 1, isTerminator = 1, hasCtrlDep = 1, PPC970_Unit = 7,
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isBarrier = 1, isCall = 1, isReturn = 1, Uses = [RM] in
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def TAILB8 : IForm<18, 0, 0, (outs), (ins calltarget:$dst),
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"b $dst", IIC_BrB,
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[]>;
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let isBranch = 1, isTerminator = 1, hasCtrlDep = 1, PPC970_Unit = 7,
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isBarrier = 1, isCall = 1, isReturn = 1, Uses = [RM] in
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def TAILBA8 : IForm<18, 0, 0, (outs), (ins abscalltarget:$dst),
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"ba $dst", IIC_BrB,
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[]>;
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} // Interpretation64Bit
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def : Pat<(PPCtc_return (i64 tglobaladdr:$dst), imm:$imm),
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(TCRETURNdi8 tglobaladdr:$dst, imm:$imm)>;
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def : Pat<(PPCtc_return (i64 texternalsym:$dst), imm:$imm),
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(TCRETURNdi8 texternalsym:$dst, imm:$imm)>;
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def : Pat<(PPCtc_return CTRRC8:$dst, imm:$imm),
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(TCRETURNri8 CTRRC8:$dst, imm:$imm)>;
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// 64-bit CR instructions
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let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
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let neverHasSideEffects = 1 in {
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def MTOCRF8: XFXForm_5a<31, 144, (outs crbitm:$FXM), (ins g8rc:$ST),
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"mtocrf $FXM, $ST", IIC_BrMCRX>,
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PPC970_DGroup_First, PPC970_Unit_CRU;
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def MTCRF8 : XFXForm_5<31, 144, (outs), (ins i32imm:$FXM, g8rc:$rS),
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"mtcrf $FXM, $rS", IIC_BrMCRX>,
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PPC970_MicroCode, PPC970_Unit_CRU;
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let hasExtraSrcRegAllocReq = 1 in // to enable post-ra anti-dep breaking.
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def MFOCRF8: XFXForm_5a<31, 19, (outs g8rc:$rT), (ins crbitm:$FXM),
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"mfocrf $rT, $FXM", IIC_SprMFCRF>,
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PPC970_DGroup_First, PPC970_Unit_CRU;
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def MFCR8 : XFXForm_3<31, 19, (outs g8rc:$rT), (ins),
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"mfcr $rT", IIC_SprMFCR>,
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PPC970_MicroCode, PPC970_Unit_CRU;
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} // neverHasSideEffects = 1
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let hasSideEffects = 1, isBarrier = 1, usesCustomInserter = 1 in {
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let Defs = [CTR8] in
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def EH_SjLj_SetJmp64 : Pseudo<(outs gprc:$dst), (ins memr:$buf),
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"#EH_SJLJ_SETJMP64",
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[(set i32:$dst, (PPCeh_sjlj_setjmp addr:$buf))]>,
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Requires<[In64BitMode]>;
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let isTerminator = 1 in
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def EH_SjLj_LongJmp64 : Pseudo<(outs), (ins memr:$buf),
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"#EH_SJLJ_LONGJMP64",
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[(PPCeh_sjlj_longjmp addr:$buf)]>,
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Requires<[In64BitMode]>;
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}
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//===----------------------------------------------------------------------===//
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// 64-bit SPR manipulation instrs.
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let Uses = [CTR8] in {
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def MFCTR8 : XFXForm_1_ext<31, 339, 9, (outs g8rc:$rT), (ins),
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"mfctr $rT", IIC_SprMFSPR>,
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PPC970_DGroup_First, PPC970_Unit_FXU;
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}
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let Pattern = [(PPCmtctr i64:$rS)], Defs = [CTR8] in {
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def MTCTR8 : XFXForm_7_ext<31, 467, 9, (outs), (ins g8rc:$rS),
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"mtctr $rS", IIC_SprMTSPR>,
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PPC970_DGroup_First, PPC970_Unit_FXU;
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}
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let hasSideEffects = 1, Defs = [CTR8] in {
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let Pattern = [(int_ppc_mtctr i64:$rS)] in
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def MTCTR8loop : XFXForm_7_ext<31, 467, 9, (outs), (ins g8rc:$rS),
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"mtctr $rS", IIC_SprMTSPR>,
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PPC970_DGroup_First, PPC970_Unit_FXU;
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}
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let Pattern = [(set i64:$rT, readcyclecounter)] in
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def MFTB8 : XFXForm_1_ext<31, 339, 268, (outs g8rc:$rT), (ins),
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"mfspr $rT, 268", IIC_SprMFTB>,
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PPC970_DGroup_First, PPC970_Unit_FXU;
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// Note that encoding mftb using mfspr is now the preferred form,
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// and has been since at least ISA v2.03. The mftb instruction has
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// now been phased out. Using mfspr, however, is known not to work on
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// the POWER3.
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let Defs = [X1], Uses = [X1] in
|
|
def DYNALLOC8 : Pseudo<(outs g8rc:$result), (ins g8rc:$negsize, memri:$fpsi),"#DYNALLOC8",
|
|
[(set i64:$result,
|
|
(PPCdynalloc i64:$negsize, iaddr:$fpsi))]>;
|
|
|
|
let Defs = [LR8] in {
|
|
def MTLR8 : XFXForm_7_ext<31, 467, 8, (outs), (ins g8rc:$rS),
|
|
"mtlr $rS", IIC_SprMTSPR>,
|
|
PPC970_DGroup_First, PPC970_Unit_FXU;
|
|
}
|
|
let Uses = [LR8] in {
|
|
def MFLR8 : XFXForm_1_ext<31, 339, 8, (outs g8rc:$rT), (ins),
|
|
"mflr $rT", IIC_SprMFSPR>,
|
|
PPC970_DGroup_First, PPC970_Unit_FXU;
|
|
}
|
|
} // Interpretation64Bit
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Fixed point instructions.
|
|
//
|
|
|
|
let PPC970_Unit = 1 in { // FXU Operations.
|
|
let Interpretation64Bit = 1 in {
|
|
let neverHasSideEffects = 1 in {
|
|
let isCodeGenOnly = 1 in {
|
|
|
|
let isReMaterializable = 1, isAsCheapAsAMove = 1, isMoveImm = 1 in {
|
|
def LI8 : DForm_2_r0<14, (outs g8rc:$rD), (ins s16imm64:$imm),
|
|
"li $rD, $imm", IIC_IntSimple,
|
|
[(set i64:$rD, imm64SExt16:$imm)]>;
|
|
def LIS8 : DForm_2_r0<15, (outs g8rc:$rD), (ins s17imm64:$imm),
|
|
"lis $rD, $imm", IIC_IntSimple,
|
|
[(set i64:$rD, imm16ShiftedSExt:$imm)]>;
|
|
}
|
|
|
|
// Logical ops.
|
|
defm NAND8: XForm_6r<31, 476, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"nand", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (not (and i64:$rS, i64:$rB)))]>;
|
|
defm AND8 : XForm_6r<31, 28, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"and", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (and i64:$rS, i64:$rB))]>;
|
|
defm ANDC8: XForm_6r<31, 60, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"andc", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (and i64:$rS, (not i64:$rB)))]>;
|
|
defm OR8 : XForm_6r<31, 444, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"or", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (or i64:$rS, i64:$rB))]>;
|
|
defm NOR8 : XForm_6r<31, 124, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"nor", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (not (or i64:$rS, i64:$rB)))]>;
|
|
defm ORC8 : XForm_6r<31, 412, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"orc", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (or i64:$rS, (not i64:$rB)))]>;
|
|
defm EQV8 : XForm_6r<31, 284, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"eqv", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (not (xor i64:$rS, i64:$rB)))]>;
|
|
defm XOR8 : XForm_6r<31, 316, (outs g8rc:$rA), (ins g8rc:$rS, g8rc:$rB),
|
|
"xor", "$rA, $rS, $rB", IIC_IntSimple,
|
|
[(set i64:$rA, (xor i64:$rS, i64:$rB))]>;
|
|
|
|
// Logical ops with immediate.
|
|
let Defs = [CR0] in {
|
|
def ANDIo8 : DForm_4<28, (outs g8rc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"andi. $dst, $src1, $src2", IIC_IntGeneral,
|
|
[(set i64:$dst, (and i64:$src1, immZExt16:$src2))]>,
|
|
isDOT;
|
|
def ANDISo8 : DForm_4<29, (outs g8rc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"andis. $dst, $src1, $src2", IIC_IntGeneral,
|
|
[(set i64:$dst, (and i64:$src1, imm16ShiftedZExt:$src2))]>,
|
|
isDOT;
|
|
}
|
|
def ORI8 : DForm_4<24, (outs g8rc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"ori $dst, $src1, $src2", IIC_IntSimple,
|
|
[(set i64:$dst, (or i64:$src1, immZExt16:$src2))]>;
|
|
def ORIS8 : DForm_4<25, (outs g8rc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"oris $dst, $src1, $src2", IIC_IntSimple,
|
|
[(set i64:$dst, (or i64:$src1, imm16ShiftedZExt:$src2))]>;
|
|
def XORI8 : DForm_4<26, (outs g8rc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"xori $dst, $src1, $src2", IIC_IntSimple,
|
|
[(set i64:$dst, (xor i64:$src1, immZExt16:$src2))]>;
|
|
def XORIS8 : DForm_4<27, (outs g8rc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"xoris $dst, $src1, $src2", IIC_IntSimple,
|
|
[(set i64:$dst, (xor i64:$src1, imm16ShiftedZExt:$src2))]>;
|
|
|
|
defm ADD8 : XOForm_1r<31, 266, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"add", "$rT, $rA, $rB", IIC_IntSimple,
|
|
[(set i64:$rT, (add i64:$rA, i64:$rB))]>;
|
|
// ADD8 has a special form: reg = ADD8(reg, sym@tls) for use by the
|
|
// initial-exec thread-local storage model.
|
|
def ADD8TLS : XOForm_1<31, 266, 0, (outs g8rc:$rT), (ins g8rc:$rA, tlsreg:$rB),
|
|
"add $rT, $rA, $rB", IIC_IntSimple,
|
|
[(set i64:$rT, (add i64:$rA, tglobaltlsaddr:$rB))]>;
|
|
|
|
defm ADDC8 : XOForm_1rc<31, 10, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"addc", "$rT, $rA, $rB", IIC_IntGeneral,
|
|
[(set i64:$rT, (addc i64:$rA, i64:$rB))]>,
|
|
PPC970_DGroup_Cracked;
|
|
let Defs = [CARRY] in
|
|
def ADDIC8 : DForm_2<12, (outs g8rc:$rD), (ins g8rc:$rA, s16imm64:$imm),
|
|
"addic $rD, $rA, $imm", IIC_IntGeneral,
|
|
[(set i64:$rD, (addc i64:$rA, imm64SExt16:$imm))]>;
|
|
def ADDI8 : DForm_2<14, (outs g8rc:$rD), (ins g8rc_nox0:$rA, s16imm64:$imm),
|
|
"addi $rD, $rA, $imm", IIC_IntSimple,
|
|
[(set i64:$rD, (add i64:$rA, imm64SExt16:$imm))]>;
|
|
def ADDIS8 : DForm_2<15, (outs g8rc:$rD), (ins g8rc_nox0:$rA, s17imm64:$imm),
|
|
"addis $rD, $rA, $imm", IIC_IntSimple,
|
|
[(set i64:$rD, (add i64:$rA, imm16ShiftedSExt:$imm))]>;
|
|
|
|
let Defs = [CARRY] in {
|
|
def SUBFIC8: DForm_2< 8, (outs g8rc:$rD), (ins g8rc:$rA, s16imm64:$imm),
|
|
"subfic $rD, $rA, $imm", IIC_IntGeneral,
|
|
[(set i64:$rD, (subc imm64SExt16:$imm, i64:$rA))]>;
|
|
defm SUBFC8 : XOForm_1r<31, 8, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"subfc", "$rT, $rA, $rB", IIC_IntGeneral,
|
|
[(set i64:$rT, (subc i64:$rB, i64:$rA))]>,
|
|
PPC970_DGroup_Cracked;
|
|
}
|
|
defm SUBF8 : XOForm_1r<31, 40, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"subf", "$rT, $rA, $rB", IIC_IntGeneral,
|
|
[(set i64:$rT, (sub i64:$rB, i64:$rA))]>;
|
|
defm NEG8 : XOForm_3r<31, 104, 0, (outs g8rc:$rT), (ins g8rc:$rA),
|
|
"neg", "$rT, $rA", IIC_IntSimple,
|
|
[(set i64:$rT, (ineg i64:$rA))]>;
|
|
let Uses = [CARRY] in {
|
|
defm ADDE8 : XOForm_1rc<31, 138, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"adde", "$rT, $rA, $rB", IIC_IntGeneral,
|
|
[(set i64:$rT, (adde i64:$rA, i64:$rB))]>;
|
|
defm ADDME8 : XOForm_3rc<31, 234, 0, (outs g8rc:$rT), (ins g8rc:$rA),
|
|
"addme", "$rT, $rA", IIC_IntGeneral,
|
|
[(set i64:$rT, (adde i64:$rA, -1))]>;
|
|
defm ADDZE8 : XOForm_3rc<31, 202, 0, (outs g8rc:$rT), (ins g8rc:$rA),
|
|
"addze", "$rT, $rA", IIC_IntGeneral,
|
|
[(set i64:$rT, (adde i64:$rA, 0))]>;
|
|
defm SUBFE8 : XOForm_1rc<31, 136, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"subfe", "$rT, $rA, $rB", IIC_IntGeneral,
|
|
[(set i64:$rT, (sube i64:$rB, i64:$rA))]>;
|
|
defm SUBFME8 : XOForm_3rc<31, 232, 0, (outs g8rc:$rT), (ins g8rc:$rA),
|
|
"subfme", "$rT, $rA", IIC_IntGeneral,
|
|
[(set i64:$rT, (sube -1, i64:$rA))]>;
|
|
defm SUBFZE8 : XOForm_3rc<31, 200, 0, (outs g8rc:$rT), (ins g8rc:$rA),
|
|
"subfze", "$rT, $rA", IIC_IntGeneral,
|
|
[(set i64:$rT, (sube 0, i64:$rA))]>;
|
|
}
|
|
} // isCodeGenOnly
|
|
|
|
// FIXME: Duplicating this for the asm parser should be unnecessary, but the
|
|
// previous definition must be marked as CodeGen only to prevent decoding
|
|
// conflicts.
|
|
let isAsmParserOnly = 1 in
|
|
def ADD8TLS_ : XOForm_1<31, 266, 0, (outs g8rc:$rT), (ins g8rc:$rA, tlsreg:$rB),
|
|
"add $rT, $rA, $rB", IIC_IntSimple, []>;
|
|
|
|
defm MULHD : XOForm_1r<31, 73, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"mulhd", "$rT, $rA, $rB", IIC_IntMulHW,
|
|
[(set i64:$rT, (mulhs i64:$rA, i64:$rB))]>;
|
|
defm MULHDU : XOForm_1r<31, 9, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"mulhdu", "$rT, $rA, $rB", IIC_IntMulHWU,
|
|
[(set i64:$rT, (mulhu i64:$rA, i64:$rB))]>;
|
|
}
|
|
} // Interpretation64Bit
|
|
|
|
let isCompare = 1, neverHasSideEffects = 1 in {
|
|
def CMPD : XForm_16_ext<31, 0, (outs crrc:$crD), (ins g8rc:$rA, g8rc:$rB),
|
|
"cmpd $crD, $rA, $rB", IIC_IntCompare>, isPPC64;
|
|
def CMPLD : XForm_16_ext<31, 32, (outs crrc:$crD), (ins g8rc:$rA, g8rc:$rB),
|
|
"cmpld $crD, $rA, $rB", IIC_IntCompare>, isPPC64;
|
|
def CMPDI : DForm_5_ext<11, (outs crrc:$crD), (ins g8rc:$rA, s16imm64:$imm),
|
|
"cmpdi $crD, $rA, $imm", IIC_IntCompare>, isPPC64;
|
|
def CMPLDI : DForm_6_ext<10, (outs crrc:$dst), (ins g8rc:$src1, u16imm64:$src2),
|
|
"cmpldi $dst, $src1, $src2",
|
|
IIC_IntCompare>, isPPC64;
|
|
}
|
|
|
|
let neverHasSideEffects = 1 in {
|
|
defm SLD : XForm_6r<31, 27, (outs g8rc:$rA), (ins g8rc:$rS, gprc:$rB),
|
|
"sld", "$rA, $rS, $rB", IIC_IntRotateD,
|
|
[(set i64:$rA, (PPCshl i64:$rS, i32:$rB))]>, isPPC64;
|
|
defm SRD : XForm_6r<31, 539, (outs g8rc:$rA), (ins g8rc:$rS, gprc:$rB),
|
|
"srd", "$rA, $rS, $rB", IIC_IntRotateD,
|
|
[(set i64:$rA, (PPCsrl i64:$rS, i32:$rB))]>, isPPC64;
|
|
defm SRAD : XForm_6rc<31, 794, (outs g8rc:$rA), (ins g8rc:$rS, gprc:$rB),
|
|
"srad", "$rA, $rS, $rB", IIC_IntRotateD,
|
|
[(set i64:$rA, (PPCsra i64:$rS, i32:$rB))]>, isPPC64;
|
|
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
|
|
defm EXTSB8 : XForm_11r<31, 954, (outs g8rc:$rA), (ins g8rc:$rS),
|
|
"extsb", "$rA, $rS", IIC_IntSimple,
|
|
[(set i64:$rA, (sext_inreg i64:$rS, i8))]>;
|
|
defm EXTSH8 : XForm_11r<31, 922, (outs g8rc:$rA), (ins g8rc:$rS),
|
|
"extsh", "$rA, $rS", IIC_IntSimple,
|
|
[(set i64:$rA, (sext_inreg i64:$rS, i16))]>;
|
|
} // Interpretation64Bit
|
|
|
|
// For fast-isel:
|
|
let isCodeGenOnly = 1 in {
|
|
def EXTSB8_32_64 : XForm_11<31, 954, (outs g8rc:$rA), (ins gprc:$rS),
|
|
"extsb $rA, $rS", IIC_IntSimple, []>, isPPC64;
|
|
def EXTSH8_32_64 : XForm_11<31, 922, (outs g8rc:$rA), (ins gprc:$rS),
|
|
"extsh $rA, $rS", IIC_IntSimple, []>, isPPC64;
|
|
} // isCodeGenOnly for fast-isel
|
|
|
|
defm EXTSW : XForm_11r<31, 986, (outs g8rc:$rA), (ins g8rc:$rS),
|
|
"extsw", "$rA, $rS", IIC_IntSimple,
|
|
[(set i64:$rA, (sext_inreg i64:$rS, i32))]>, isPPC64;
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
defm EXTSW_32_64 : XForm_11r<31, 986, (outs g8rc:$rA), (ins gprc:$rS),
|
|
"extsw", "$rA, $rS", IIC_IntSimple,
|
|
[(set i64:$rA, (sext i32:$rS))]>, isPPC64;
|
|
|
|
defm SRADI : XSForm_1rc<31, 413, (outs g8rc:$rA), (ins g8rc:$rS, u6imm:$SH),
|
|
"sradi", "$rA, $rS, $SH", IIC_IntRotateDI,
|
|
[(set i64:$rA, (sra i64:$rS, (i32 imm:$SH)))]>, isPPC64;
|
|
defm CNTLZD : XForm_11r<31, 58, (outs g8rc:$rA), (ins g8rc:$rS),
|
|
"cntlzd", "$rA, $rS", IIC_IntGeneral,
|
|
[(set i64:$rA, (ctlz i64:$rS))]>;
|
|
def POPCNTD : XForm_11<31, 506, (outs g8rc:$rA), (ins g8rc:$rS),
|
|
"popcntd $rA, $rS", IIC_IntGeneral,
|
|
[(set i64:$rA, (ctpop i64:$rS))]>;
|
|
|
|
// popcntw also does a population count on the high 32 bits (storing the
|
|
// results in the high 32-bits of the output). We'll ignore that here (which is
|
|
// safe because we never separately use the high part of the 64-bit registers).
|
|
def POPCNTW : XForm_11<31, 378, (outs gprc:$rA), (ins gprc:$rS),
|
|
"popcntw $rA, $rS", IIC_IntGeneral,
|
|
[(set i32:$rA, (ctpop i32:$rS))]>;
|
|
|
|
defm DIVD : XOForm_1r<31, 489, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"divd", "$rT, $rA, $rB", IIC_IntDivD,
|
|
[(set i64:$rT, (sdiv i64:$rA, i64:$rB))]>, isPPC64,
|
|
PPC970_DGroup_First, PPC970_DGroup_Cracked;
|
|
defm DIVDU : XOForm_1r<31, 457, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"divdu", "$rT, $rA, $rB", IIC_IntDivD,
|
|
[(set i64:$rT, (udiv i64:$rA, i64:$rB))]>, isPPC64,
|
|
PPC970_DGroup_First, PPC970_DGroup_Cracked;
|
|
defm MULLD : XOForm_1r<31, 233, 0, (outs g8rc:$rT), (ins g8rc:$rA, g8rc:$rB),
|
|
"mulld", "$rT, $rA, $rB", IIC_IntMulHD,
|
|
[(set i64:$rT, (mul i64:$rA, i64:$rB))]>, isPPC64;
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
def MULLI8 : DForm_2<7, (outs g8rc:$rD), (ins g8rc:$rA, s16imm64:$imm),
|
|
"mulli $rD, $rA, $imm", IIC_IntMulLI,
|
|
[(set i64:$rD, (mul i64:$rA, imm64SExt16:$imm))]>;
|
|
}
|
|
|
|
let neverHasSideEffects = 1 in {
|
|
let isCommutable = 1 in {
|
|
defm RLDIMI : MDForm_1r<30, 3, (outs g8rc:$rA),
|
|
(ins g8rc:$rSi, g8rc:$rS, u6imm:$SH, u6imm:$MBE),
|
|
"rldimi", "$rA, $rS, $SH, $MBE", IIC_IntRotateDI,
|
|
[]>, isPPC64, RegConstraint<"$rSi = $rA">,
|
|
NoEncode<"$rSi">;
|
|
}
|
|
|
|
// Rotate instructions.
|
|
defm RLDCL : MDSForm_1r<30, 8,
|
|
(outs g8rc:$rA), (ins g8rc:$rS, gprc:$rB, u6imm:$MBE),
|
|
"rldcl", "$rA, $rS, $rB, $MBE", IIC_IntRotateD,
|
|
[]>, isPPC64;
|
|
defm RLDCR : MDSForm_1r<30, 9,
|
|
(outs g8rc:$rA), (ins g8rc:$rS, gprc:$rB, u6imm:$MBE),
|
|
"rldcr", "$rA, $rS, $rB, $MBE", IIC_IntRotateD,
|
|
[]>, isPPC64;
|
|
defm RLDICL : MDForm_1r<30, 0,
|
|
(outs g8rc:$rA), (ins g8rc:$rS, u6imm:$SH, u6imm:$MBE),
|
|
"rldicl", "$rA, $rS, $SH, $MBE", IIC_IntRotateDI,
|
|
[]>, isPPC64;
|
|
// For fast-isel:
|
|
let isCodeGenOnly = 1 in
|
|
def RLDICL_32_64 : MDForm_1<30, 0,
|
|
(outs g8rc:$rA),
|
|
(ins gprc:$rS, u6imm:$SH, u6imm:$MBE),
|
|
"rldicl $rA, $rS, $SH, $MBE", IIC_IntRotateDI,
|
|
[]>, isPPC64;
|
|
// End fast-isel.
|
|
defm RLDICR : MDForm_1r<30, 1,
|
|
(outs g8rc:$rA), (ins g8rc:$rS, u6imm:$SH, u6imm:$MBE),
|
|
"rldicr", "$rA, $rS, $SH, $MBE", IIC_IntRotateDI,
|
|
[]>, isPPC64;
|
|
defm RLDIC : MDForm_1r<30, 2,
|
|
(outs g8rc:$rA), (ins g8rc:$rS, u6imm:$SH, u6imm:$MBE),
|
|
"rldic", "$rA, $rS, $SH, $MBE", IIC_IntRotateDI,
|
|
[]>, isPPC64;
|
|
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
|
|
defm RLWINM8 : MForm_2r<21, (outs g8rc:$rA),
|
|
(ins g8rc:$rS, u5imm:$SH, u5imm:$MB, u5imm:$ME),
|
|
"rlwinm", "$rA, $rS, $SH, $MB, $ME", IIC_IntGeneral,
|
|
[]>;
|
|
|
|
let isCommutable = 1 in {
|
|
// RLWIMI can be commuted if the rotate amount is zero.
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
defm RLWIMI8 : MForm_2r<20, (outs g8rc:$rA),
|
|
(ins g8rc:$rSi, g8rc:$rS, u5imm:$SH, u5imm:$MB,
|
|
u5imm:$ME), "rlwimi", "$rA, $rS, $SH, $MB, $ME",
|
|
IIC_IntRotate, []>, PPC970_DGroup_Cracked,
|
|
RegConstraint<"$rSi = $rA">, NoEncode<"$rSi">;
|
|
}
|
|
|
|
let isSelect = 1 in
|
|
def ISEL8 : AForm_4<31, 15,
|
|
(outs g8rc:$rT), (ins g8rc_nox0:$rA, g8rc:$rB, crbitrc:$cond),
|
|
"isel $rT, $rA, $rB, $cond", IIC_IntGeneral,
|
|
[]>;
|
|
} // Interpretation64Bit
|
|
} // neverHasSideEffects = 1
|
|
} // End FXU Operations.
|
|
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Load/Store instructions.
|
|
//
|
|
|
|
|
|
// Sign extending loads.
|
|
let canFoldAsLoad = 1, PPC970_Unit = 2 in {
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
def LHA8: DForm_1<42, (outs g8rc:$rD), (ins memri:$src),
|
|
"lha $rD, $src", IIC_LdStLHA,
|
|
[(set i64:$rD, (sextloadi16 iaddr:$src))]>,
|
|
PPC970_DGroup_Cracked;
|
|
def LWA : DSForm_1<58, 2, (outs g8rc:$rD), (ins memrix:$src),
|
|
"lwa $rD, $src", IIC_LdStLWA,
|
|
[(set i64:$rD,
|
|
(aligned4sextloadi32 ixaddr:$src))]>, isPPC64,
|
|
PPC970_DGroup_Cracked;
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
def LHAX8: XForm_1<31, 343, (outs g8rc:$rD), (ins memrr:$src),
|
|
"lhax $rD, $src", IIC_LdStLHA,
|
|
[(set i64:$rD, (sextloadi16 xaddr:$src))]>,
|
|
PPC970_DGroup_Cracked;
|
|
def LWAX : XForm_1<31, 341, (outs g8rc:$rD), (ins memrr:$src),
|
|
"lwax $rD, $src", IIC_LdStLHA,
|
|
[(set i64:$rD, (sextloadi32 xaddr:$src))]>, isPPC64,
|
|
PPC970_DGroup_Cracked;
|
|
// For fast-isel:
|
|
let isCodeGenOnly = 1, mayLoad = 1 in {
|
|
def LWA_32 : DSForm_1<58, 2, (outs gprc:$rD), (ins memrix:$src),
|
|
"lwa $rD, $src", IIC_LdStLWA, []>, isPPC64,
|
|
PPC970_DGroup_Cracked;
|
|
def LWAX_32 : XForm_1<31, 341, (outs gprc:$rD), (ins memrr:$src),
|
|
"lwax $rD, $src", IIC_LdStLHA, []>, isPPC64,
|
|
PPC970_DGroup_Cracked;
|
|
} // end fast-isel isCodeGenOnly
|
|
|
|
// Update forms.
|
|
let mayLoad = 1, neverHasSideEffects = 1 in {
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
def LHAU8 : DForm_1<43, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memri:$addr),
|
|
"lhau $rD, $addr", IIC_LdStLHAU,
|
|
[]>, RegConstraint<"$addr.reg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
// NO LWAU!
|
|
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in
|
|
def LHAUX8 : XForm_1<31, 375, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memrr:$addr),
|
|
"lhaux $rD, $addr", IIC_LdStLHAUX,
|
|
[]>, RegConstraint<"$addr.ptrreg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
def LWAUX : XForm_1<31, 373, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memrr:$addr),
|
|
"lwaux $rD, $addr", IIC_LdStLHAUX,
|
|
[]>, RegConstraint<"$addr.ptrreg = $ea_result">,
|
|
NoEncode<"$ea_result">, isPPC64;
|
|
}
|
|
}
|
|
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
|
|
// Zero extending loads.
|
|
let canFoldAsLoad = 1, PPC970_Unit = 2 in {
|
|
def LBZ8 : DForm_1<34, (outs g8rc:$rD), (ins memri:$src),
|
|
"lbz $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (zextloadi8 iaddr:$src))]>;
|
|
def LHZ8 : DForm_1<40, (outs g8rc:$rD), (ins memri:$src),
|
|
"lhz $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (zextloadi16 iaddr:$src))]>;
|
|
def LWZ8 : DForm_1<32, (outs g8rc:$rD), (ins memri:$src),
|
|
"lwz $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (zextloadi32 iaddr:$src))]>, isPPC64;
|
|
|
|
def LBZX8 : XForm_1<31, 87, (outs g8rc:$rD), (ins memrr:$src),
|
|
"lbzx $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (zextloadi8 xaddr:$src))]>;
|
|
def LHZX8 : XForm_1<31, 279, (outs g8rc:$rD), (ins memrr:$src),
|
|
"lhzx $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (zextloadi16 xaddr:$src))]>;
|
|
def LWZX8 : XForm_1<31, 23, (outs g8rc:$rD), (ins memrr:$src),
|
|
"lwzx $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (zextloadi32 xaddr:$src))]>;
|
|
|
|
|
|
// Update forms.
|
|
let mayLoad = 1, neverHasSideEffects = 1 in {
|
|
def LBZU8 : DForm_1<35, (outs g8rc:$rD, ptr_rc_nor0:$ea_result), (ins memri:$addr),
|
|
"lbzu $rD, $addr", IIC_LdStLoadUpd,
|
|
[]>, RegConstraint<"$addr.reg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
def LHZU8 : DForm_1<41, (outs g8rc:$rD, ptr_rc_nor0:$ea_result), (ins memri:$addr),
|
|
"lhzu $rD, $addr", IIC_LdStLoadUpd,
|
|
[]>, RegConstraint<"$addr.reg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
def LWZU8 : DForm_1<33, (outs g8rc:$rD, ptr_rc_nor0:$ea_result), (ins memri:$addr),
|
|
"lwzu $rD, $addr", IIC_LdStLoadUpd,
|
|
[]>, RegConstraint<"$addr.reg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
|
|
def LBZUX8 : XForm_1<31, 119, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memrr:$addr),
|
|
"lbzux $rD, $addr", IIC_LdStLoadUpdX,
|
|
[]>, RegConstraint<"$addr.ptrreg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
def LHZUX8 : XForm_1<31, 311, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memrr:$addr),
|
|
"lhzux $rD, $addr", IIC_LdStLoadUpdX,
|
|
[]>, RegConstraint<"$addr.ptrreg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
def LWZUX8 : XForm_1<31, 55, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memrr:$addr),
|
|
"lwzux $rD, $addr", IIC_LdStLoadUpdX,
|
|
[]>, RegConstraint<"$addr.ptrreg = $ea_result">,
|
|
NoEncode<"$ea_result">;
|
|
}
|
|
}
|
|
} // Interpretation64Bit
|
|
|
|
|
|
// Full 8-byte loads.
|
|
let canFoldAsLoad = 1, PPC970_Unit = 2 in {
|
|
def LD : DSForm_1<58, 0, (outs g8rc:$rD), (ins memrix:$src),
|
|
"ld $rD, $src", IIC_LdStLD,
|
|
[(set i64:$rD, (aligned4load ixaddr:$src))]>, isPPC64;
|
|
// The following three definitions are selected for small code model only.
|
|
// Otherwise, we need to create two instructions to form a 32-bit offset,
|
|
// so we have a custom matcher for TOC_ENTRY in PPCDAGToDAGIsel::Select().
|
|
def LDtoc: Pseudo<(outs g8rc:$rD), (ins tocentry:$disp, g8rc:$reg),
|
|
"#LDtoc",
|
|
[(set i64:$rD,
|
|
(PPCtoc_entry tglobaladdr:$disp, i64:$reg))]>, isPPC64;
|
|
def LDtocJTI: Pseudo<(outs g8rc:$rD), (ins tocentry:$disp, g8rc:$reg),
|
|
"#LDtocJTI",
|
|
[(set i64:$rD,
|
|
(PPCtoc_entry tjumptable:$disp, i64:$reg))]>, isPPC64;
|
|
def LDtocCPT: Pseudo<(outs g8rc:$rD), (ins tocentry:$disp, g8rc:$reg),
|
|
"#LDtocCPT",
|
|
[(set i64:$rD,
|
|
(PPCtoc_entry tconstpool:$disp, i64:$reg))]>, isPPC64;
|
|
|
|
let hasSideEffects = 1, isCodeGenOnly = 1 in {
|
|
let RST = 2, DS = 2 in
|
|
def LDinto_toc: DSForm_1a<58, 0, (outs), (ins g8rc:$reg),
|
|
"ld 2, 8($reg)", IIC_LdStLD,
|
|
[(PPCload_toc i64:$reg)]>, isPPC64;
|
|
|
|
let RST = 2, DS = 10, RA = 1 in
|
|
def LDtoc_restore : DSForm_1a<58, 0, (outs), (ins),
|
|
"ld 2, 40(1)", IIC_LdStLD,
|
|
[(PPCtoc_restore)]>, isPPC64;
|
|
}
|
|
def LDX : XForm_1<31, 21, (outs g8rc:$rD), (ins memrr:$src),
|
|
"ldx $rD, $src", IIC_LdStLD,
|
|
[(set i64:$rD, (load xaddr:$src))]>, isPPC64;
|
|
def LDBRX : XForm_1<31, 532, (outs g8rc:$rD), (ins memrr:$src),
|
|
"ldbrx $rD, $src", IIC_LdStLoad,
|
|
[(set i64:$rD, (PPClbrx xoaddr:$src, i64))]>, isPPC64;
|
|
|
|
let mayLoad = 1, neverHasSideEffects = 1 in {
|
|
def LDU : DSForm_1<58, 1, (outs g8rc:$rD, ptr_rc_nor0:$ea_result), (ins memrix:$addr),
|
|
"ldu $rD, $addr", IIC_LdStLDU,
|
|
[]>, RegConstraint<"$addr.reg = $ea_result">, isPPC64,
|
|
NoEncode<"$ea_result">;
|
|
|
|
def LDUX : XForm_1<31, 53, (outs g8rc:$rD, ptr_rc_nor0:$ea_result),
|
|
(ins memrr:$addr),
|
|
"ldux $rD, $addr", IIC_LdStLDUX,
|
|
[]>, RegConstraint<"$addr.ptrreg = $ea_result">,
|
|
NoEncode<"$ea_result">, isPPC64;
|
|
}
|
|
}
|
|
|
|
def : Pat<(PPCload ixaddr:$src),
|
|
(LD ixaddr:$src)>;
|
|
def : Pat<(PPCload xaddr:$src),
|
|
(LDX xaddr:$src)>;
|
|
|
|
// Support for medium and large code model.
|
|
def ADDIStocHA: Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, tocentry:$disp),
|
|
"#ADDIStocHA",
|
|
[(set i64:$rD,
|
|
(PPCaddisTocHA i64:$reg, tglobaladdr:$disp))]>,
|
|
isPPC64;
|
|
def LDtocL: Pseudo<(outs g8rc:$rD), (ins tocentry:$disp, g8rc_nox0:$reg),
|
|
"#LDtocL",
|
|
[(set i64:$rD,
|
|
(PPCldTocL tglobaladdr:$disp, i64:$reg))]>, isPPC64;
|
|
def ADDItocL: Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, tocentry:$disp),
|
|
"#ADDItocL",
|
|
[(set i64:$rD,
|
|
(PPCaddiTocL i64:$reg, tglobaladdr:$disp))]>, isPPC64;
|
|
|
|
// Support for thread-local storage.
|
|
def ADDISgotTprelHA: Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDISgotTprelHA",
|
|
[(set i64:$rD,
|
|
(PPCaddisGotTprelHA i64:$reg,
|
|
tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
def LDgotTprelL: Pseudo<(outs g8rc:$rD), (ins s16imm64:$disp, g8rc_nox0:$reg),
|
|
"#LDgotTprelL",
|
|
[(set i64:$rD,
|
|
(PPCldGotTprelL tglobaltlsaddr:$disp, i64:$reg))]>,
|
|
isPPC64;
|
|
def : Pat<(PPCaddTls i64:$in, tglobaltlsaddr:$g),
|
|
(ADD8TLS $in, tglobaltlsaddr:$g)>;
|
|
def ADDIStlsgdHA: Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDIStlsgdHA",
|
|
[(set i64:$rD,
|
|
(PPCaddisTlsgdHA i64:$reg, tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
def ADDItlsgdL : Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDItlsgdL",
|
|
[(set i64:$rD,
|
|
(PPCaddiTlsgdL i64:$reg, tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
def GETtlsADDR : Pseudo<(outs g8rc:$rD), (ins g8rc:$reg, tlsgd:$sym),
|
|
"#GETtlsADDR",
|
|
[(set i64:$rD,
|
|
(PPCgetTlsAddr i64:$reg, tglobaltlsaddr:$sym))]>,
|
|
isPPC64;
|
|
def ADDIStlsldHA: Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDIStlsldHA",
|
|
[(set i64:$rD,
|
|
(PPCaddisTlsldHA i64:$reg, tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
def ADDItlsldL : Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDItlsldL",
|
|
[(set i64:$rD,
|
|
(PPCaddiTlsldL i64:$reg, tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
def GETtlsldADDR : Pseudo<(outs g8rc:$rD), (ins g8rc:$reg, tlsgd:$sym),
|
|
"#GETtlsldADDR",
|
|
[(set i64:$rD,
|
|
(PPCgetTlsldAddr i64:$reg, tglobaltlsaddr:$sym))]>,
|
|
isPPC64;
|
|
def ADDISdtprelHA: Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDISdtprelHA",
|
|
[(set i64:$rD,
|
|
(PPCaddisDtprelHA i64:$reg,
|
|
tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
def ADDIdtprelL : Pseudo<(outs g8rc:$rD), (ins g8rc_nox0:$reg, s16imm64:$disp),
|
|
"#ADDIdtprelL",
|
|
[(set i64:$rD,
|
|
(PPCaddiDtprelL i64:$reg, tglobaltlsaddr:$disp))]>,
|
|
isPPC64;
|
|
|
|
let PPC970_Unit = 2 in {
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
|
|
// Truncating stores.
|
|
def STB8 : DForm_1<38, (outs), (ins g8rc:$rS, memri:$src),
|
|
"stb $rS, $src", IIC_LdStStore,
|
|
[(truncstorei8 i64:$rS, iaddr:$src)]>;
|
|
def STH8 : DForm_1<44, (outs), (ins g8rc:$rS, memri:$src),
|
|
"sth $rS, $src", IIC_LdStStore,
|
|
[(truncstorei16 i64:$rS, iaddr:$src)]>;
|
|
def STW8 : DForm_1<36, (outs), (ins g8rc:$rS, memri:$src),
|
|
"stw $rS, $src", IIC_LdStStore,
|
|
[(truncstorei32 i64:$rS, iaddr:$src)]>;
|
|
def STBX8 : XForm_8<31, 215, (outs), (ins g8rc:$rS, memrr:$dst),
|
|
"stbx $rS, $dst", IIC_LdStStore,
|
|
[(truncstorei8 i64:$rS, xaddr:$dst)]>,
|
|
PPC970_DGroup_Cracked;
|
|
def STHX8 : XForm_8<31, 407, (outs), (ins g8rc:$rS, memrr:$dst),
|
|
"sthx $rS, $dst", IIC_LdStStore,
|
|
[(truncstorei16 i64:$rS, xaddr:$dst)]>,
|
|
PPC970_DGroup_Cracked;
|
|
def STWX8 : XForm_8<31, 151, (outs), (ins g8rc:$rS, memrr:$dst),
|
|
"stwx $rS, $dst", IIC_LdStStore,
|
|
[(truncstorei32 i64:$rS, xaddr:$dst)]>,
|
|
PPC970_DGroup_Cracked;
|
|
} // Interpretation64Bit
|
|
|
|
// Normal 8-byte stores.
|
|
def STD : DSForm_1<62, 0, (outs), (ins g8rc:$rS, memrix:$dst),
|
|
"std $rS, $dst", IIC_LdStSTD,
|
|
[(aligned4store i64:$rS, ixaddr:$dst)]>, isPPC64;
|
|
def STDX : XForm_8<31, 149, (outs), (ins g8rc:$rS, memrr:$dst),
|
|
"stdx $rS, $dst", IIC_LdStSTD,
|
|
[(store i64:$rS, xaddr:$dst)]>, isPPC64,
|
|
PPC970_DGroup_Cracked;
|
|
def STDBRX: XForm_8<31, 660, (outs), (ins g8rc:$rS, memrr:$dst),
|
|
"stdbrx $rS, $dst", IIC_LdStStore,
|
|
[(PPCstbrx i64:$rS, xoaddr:$dst, i64)]>, isPPC64,
|
|
PPC970_DGroup_Cracked;
|
|
}
|
|
|
|
// Stores with Update (pre-inc).
|
|
let PPC970_Unit = 2, mayStore = 1 in {
|
|
let Interpretation64Bit = 1, isCodeGenOnly = 1 in {
|
|
def STBU8 : DForm_1<39, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memri:$dst),
|
|
"stbu $rS, $dst", IIC_LdStStoreUpd, []>,
|
|
RegConstraint<"$dst.reg = $ea_res">, NoEncode<"$ea_res">;
|
|
def STHU8 : DForm_1<45, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memri:$dst),
|
|
"sthu $rS, $dst", IIC_LdStStoreUpd, []>,
|
|
RegConstraint<"$dst.reg = $ea_res">, NoEncode<"$ea_res">;
|
|
def STWU8 : DForm_1<37, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memri:$dst),
|
|
"stwu $rS, $dst", IIC_LdStStoreUpd, []>,
|
|
RegConstraint<"$dst.reg = $ea_res">, NoEncode<"$ea_res">;
|
|
|
|
def STBUX8: XForm_8<31, 247, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memrr:$dst),
|
|
"stbux $rS, $dst", IIC_LdStStoreUpd, []>,
|
|
RegConstraint<"$dst.ptrreg = $ea_res">, NoEncode<"$ea_res">,
|
|
PPC970_DGroup_Cracked;
|
|
def STHUX8: XForm_8<31, 439, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memrr:$dst),
|
|
"sthux $rS, $dst", IIC_LdStStoreUpd, []>,
|
|
RegConstraint<"$dst.ptrreg = $ea_res">, NoEncode<"$ea_res">,
|
|
PPC970_DGroup_Cracked;
|
|
def STWUX8: XForm_8<31, 183, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memrr:$dst),
|
|
"stwux $rS, $dst", IIC_LdStStoreUpd, []>,
|
|
RegConstraint<"$dst.ptrreg = $ea_res">, NoEncode<"$ea_res">,
|
|
PPC970_DGroup_Cracked;
|
|
} // Interpretation64Bit
|
|
|
|
def STDU : DSForm_1<62, 1, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memrix:$dst),
|
|
"stdu $rS, $dst", IIC_LdStSTDU, []>,
|
|
RegConstraint<"$dst.reg = $ea_res">, NoEncode<"$ea_res">,
|
|
isPPC64;
|
|
|
|
def STDUX : XForm_8<31, 181, (outs ptr_rc_nor0:$ea_res), (ins g8rc:$rS, memrr:$dst),
|
|
"stdux $rS, $dst", IIC_LdStSTDUX, []>,
|
|
RegConstraint<"$dst.ptrreg = $ea_res">, NoEncode<"$ea_res">,
|
|
PPC970_DGroup_Cracked, isPPC64;
|
|
}
|
|
|
|
// Patterns to match the pre-inc stores. We can't put the patterns on
|
|
// the instruction definitions directly as ISel wants the address base
|
|
// and offset to be separate operands, not a single complex operand.
|
|
def : Pat<(pre_truncsti8 i64:$rS, iPTR:$ptrreg, iaddroff:$ptroff),
|
|
(STBU8 $rS, iaddroff:$ptroff, $ptrreg)>;
|
|
def : Pat<(pre_truncsti16 i64:$rS, iPTR:$ptrreg, iaddroff:$ptroff),
|
|
(STHU8 $rS, iaddroff:$ptroff, $ptrreg)>;
|
|
def : Pat<(pre_truncsti32 i64:$rS, iPTR:$ptrreg, iaddroff:$ptroff),
|
|
(STWU8 $rS, iaddroff:$ptroff, $ptrreg)>;
|
|
def : Pat<(aligned4pre_store i64:$rS, iPTR:$ptrreg, iaddroff:$ptroff),
|
|
(STDU $rS, iaddroff:$ptroff, $ptrreg)>;
|
|
|
|
def : Pat<(pre_truncsti8 i64:$rS, iPTR:$ptrreg, iPTR:$ptroff),
|
|
(STBUX8 $rS, $ptrreg, $ptroff)>;
|
|
def : Pat<(pre_truncsti16 i64:$rS, iPTR:$ptrreg, iPTR:$ptroff),
|
|
(STHUX8 $rS, $ptrreg, $ptroff)>;
|
|
def : Pat<(pre_truncsti32 i64:$rS, iPTR:$ptrreg, iPTR:$ptroff),
|
|
(STWUX8 $rS, $ptrreg, $ptroff)>;
|
|
def : Pat<(pre_store i64:$rS, iPTR:$ptrreg, iPTR:$ptroff),
|
|
(STDUX $rS, $ptrreg, $ptroff)>;
|
|
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Floating point instructions.
|
|
//
|
|
|
|
|
|
let PPC970_Unit = 3, neverHasSideEffects = 1,
|
|
Uses = [RM] in { // FPU Operations.
|
|
defm FCFID : XForm_26r<63, 846, (outs f8rc:$frD), (ins f8rc:$frB),
|
|
"fcfid", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f64:$frD, (PPCfcfid f64:$frB))]>, isPPC64;
|
|
defm FCTID : XForm_26r<63, 814, (outs f8rc:$frD), (ins f8rc:$frB),
|
|
"fctid", "$frD, $frB", IIC_FPGeneral,
|
|
[]>, isPPC64;
|
|
defm FCTIDZ : XForm_26r<63, 815, (outs f8rc:$frD), (ins f8rc:$frB),
|
|
"fctidz", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f64:$frD, (PPCfctidz f64:$frB))]>, isPPC64;
|
|
|
|
defm FCFIDU : XForm_26r<63, 974, (outs f8rc:$frD), (ins f8rc:$frB),
|
|
"fcfidu", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f64:$frD, (PPCfcfidu f64:$frB))]>, isPPC64;
|
|
defm FCFIDS : XForm_26r<59, 846, (outs f4rc:$frD), (ins f8rc:$frB),
|
|
"fcfids", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f32:$frD, (PPCfcfids f64:$frB))]>, isPPC64;
|
|
defm FCFIDUS : XForm_26r<59, 974, (outs f4rc:$frD), (ins f8rc:$frB),
|
|
"fcfidus", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f32:$frD, (PPCfcfidus f64:$frB))]>, isPPC64;
|
|
defm FCTIDUZ : XForm_26r<63, 943, (outs f8rc:$frD), (ins f8rc:$frB),
|
|
"fctiduz", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f64:$frD, (PPCfctiduz f64:$frB))]>, isPPC64;
|
|
defm FCTIWUZ : XForm_26r<63, 143, (outs f8rc:$frD), (ins f8rc:$frB),
|
|
"fctiwuz", "$frD, $frB", IIC_FPGeneral,
|
|
[(set f64:$frD, (PPCfctiwuz f64:$frB))]>, isPPC64;
|
|
}
|
|
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Instruction Patterns
|
|
//
|
|
|
|
// Extensions and truncates to/from 32-bit regs.
|
|
def : Pat<(i64 (zext i32:$in)),
|
|
(RLDICL (INSERT_SUBREG (i64 (IMPLICIT_DEF)), $in, sub_32),
|
|
0, 32)>;
|
|
def : Pat<(i64 (anyext i32:$in)),
|
|
(INSERT_SUBREG (i64 (IMPLICIT_DEF)), $in, sub_32)>;
|
|
def : Pat<(i32 (trunc i64:$in)),
|
|
(EXTRACT_SUBREG $in, sub_32)>;
|
|
|
|
// Implement the 'not' operation with the NOR instruction.
|
|
// (we could use the default xori pattern, but nor has lower latency on some
|
|
// cores (such as the A2)).
|
|
def i64not : OutPatFrag<(ops node:$in),
|
|
(NOR8 $in, $in)>;
|
|
def : Pat<(not i64:$in),
|
|
(i64not $in)>;
|
|
|
|
// Extending loads with i64 targets.
|
|
def : Pat<(zextloadi1 iaddr:$src),
|
|
(LBZ8 iaddr:$src)>;
|
|
def : Pat<(zextloadi1 xaddr:$src),
|
|
(LBZX8 xaddr:$src)>;
|
|
def : Pat<(extloadi1 iaddr:$src),
|
|
(LBZ8 iaddr:$src)>;
|
|
def : Pat<(extloadi1 xaddr:$src),
|
|
(LBZX8 xaddr:$src)>;
|
|
def : Pat<(extloadi8 iaddr:$src),
|
|
(LBZ8 iaddr:$src)>;
|
|
def : Pat<(extloadi8 xaddr:$src),
|
|
(LBZX8 xaddr:$src)>;
|
|
def : Pat<(extloadi16 iaddr:$src),
|
|
(LHZ8 iaddr:$src)>;
|
|
def : Pat<(extloadi16 xaddr:$src),
|
|
(LHZX8 xaddr:$src)>;
|
|
def : Pat<(extloadi32 iaddr:$src),
|
|
(LWZ8 iaddr:$src)>;
|
|
def : Pat<(extloadi32 xaddr:$src),
|
|
(LWZX8 xaddr:$src)>;
|
|
|
|
// Standard shifts. These are represented separately from the real shifts above
|
|
// so that we can distinguish between shifts that allow 6-bit and 7-bit shift
|
|
// amounts.
|
|
def : Pat<(sra i64:$rS, i32:$rB),
|
|
(SRAD $rS, $rB)>;
|
|
def : Pat<(srl i64:$rS, i32:$rB),
|
|
(SRD $rS, $rB)>;
|
|
def : Pat<(shl i64:$rS, i32:$rB),
|
|
(SLD $rS, $rB)>;
|
|
|
|
// SHL/SRL
|
|
def : Pat<(shl i64:$in, (i32 imm:$imm)),
|
|
(RLDICR $in, imm:$imm, (SHL64 imm:$imm))>;
|
|
def : Pat<(srl i64:$in, (i32 imm:$imm)),
|
|
(RLDICL $in, (SRL64 imm:$imm), imm:$imm)>;
|
|
|
|
// ROTL
|
|
def : Pat<(rotl i64:$in, i32:$sh),
|
|
(RLDCL $in, $sh, 0)>;
|
|
def : Pat<(rotl i64:$in, (i32 imm:$imm)),
|
|
(RLDICL $in, imm:$imm, 0)>;
|
|
|
|
// Hi and Lo for Darwin Global Addresses.
|
|
def : Pat<(PPChi tglobaladdr:$in, 0), (LIS8 tglobaladdr:$in)>;
|
|
def : Pat<(PPClo tglobaladdr:$in, 0), (LI8 tglobaladdr:$in)>;
|
|
def : Pat<(PPChi tconstpool:$in , 0), (LIS8 tconstpool:$in)>;
|
|
def : Pat<(PPClo tconstpool:$in , 0), (LI8 tconstpool:$in)>;
|
|
def : Pat<(PPChi tjumptable:$in , 0), (LIS8 tjumptable:$in)>;
|
|
def : Pat<(PPClo tjumptable:$in , 0), (LI8 tjumptable:$in)>;
|
|
def : Pat<(PPChi tblockaddress:$in, 0), (LIS8 tblockaddress:$in)>;
|
|
def : Pat<(PPClo tblockaddress:$in, 0), (LI8 tblockaddress:$in)>;
|
|
def : Pat<(PPChi tglobaltlsaddr:$g, i64:$in),
|
|
(ADDIS8 $in, tglobaltlsaddr:$g)>;
|
|
def : Pat<(PPClo tglobaltlsaddr:$g, i64:$in),
|
|
(ADDI8 $in, tglobaltlsaddr:$g)>;
|
|
def : Pat<(add i64:$in, (PPChi tglobaladdr:$g, 0)),
|
|
(ADDIS8 $in, tglobaladdr:$g)>;
|
|
def : Pat<(add i64:$in, (PPChi tconstpool:$g, 0)),
|
|
(ADDIS8 $in, tconstpool:$g)>;
|
|
def : Pat<(add i64:$in, (PPChi tjumptable:$g, 0)),
|
|
(ADDIS8 $in, tjumptable:$g)>;
|
|
def : Pat<(add i64:$in, (PPChi tblockaddress:$g, 0)),
|
|
(ADDIS8 $in, tblockaddress:$g)>;
|
|
|
|
// Patterns to match r+r indexed loads and stores for
|
|
// addresses without at least 4-byte alignment.
|
|
def : Pat<(i64 (unaligned4sextloadi32 xoaddr:$src)),
|
|
(LWAX xoaddr:$src)>;
|
|
def : Pat<(i64 (unaligned4load xoaddr:$src)),
|
|
(LDX xoaddr:$src)>;
|
|
def : Pat<(unaligned4store i64:$rS, xoaddr:$dst),
|
|
(STDX $rS, xoaddr:$dst)>;
|
|
|