llvm-project/llvm/lib/Target/PowerPC/PPCInstrFormats.td

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//===- PowerPCInstrFormats.td - PowerPC Instruction Formats --*- tablegen -*-=//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
//
// PowerPC instruction formats
class I<bits<6> opcode, dag OOL, dag IOL, string asmstr, InstrItinClass itin>
: Instruction {
field bits<32> Inst;
field bits<32> SoftFail = 0;
let Size = 4;
bit PPC64 = 0; // Default value, override with isPPC64
let Namespace = "PPC";
let Inst{0-5} = opcode;
let OutOperandList = OOL;
let InOperandList = IOL;
let AsmString = asmstr;
let Itinerary = itin;
bits<1> PPC970_First = 0;
bits<1> PPC970_Single = 0;
bits<1> PPC970_Cracked = 0;
bits<3> PPC970_Unit = 0;
/// These fields correspond to the fields in PPCInstrInfo.h. Any changes to
/// these must be reflected there! See comments there for what these are.
let TSFlags{0} = PPC970_First;
let TSFlags{1} = PPC970_Single;
let TSFlags{2} = PPC970_Cracked;
let TSFlags{5-3} = PPC970_Unit;
// Fields used for relation models.
string BaseName = "";
// For cases where multiple instruction definitions really represent the
// same underlying instruction but with one definition for 64-bit arguments
// and one for 32-bit arguments, this bit breaks the degeneracy between
// the two forms and allows TableGen to generate mapping tables.
bit Interpretation64Bit = 0;
}
class PPC970_DGroup_First { bits<1> PPC970_First = 1; }
class PPC970_DGroup_Single { bits<1> PPC970_Single = 1; }
class PPC970_DGroup_Cracked { bits<1> PPC970_Cracked = 1; }
class PPC970_MicroCode;
class PPC970_Unit_Pseudo { bits<3> PPC970_Unit = 0; }
class PPC970_Unit_FXU { bits<3> PPC970_Unit = 1; }
class PPC970_Unit_LSU { bits<3> PPC970_Unit = 2; }
class PPC970_Unit_FPU { bits<3> PPC970_Unit = 3; }
class PPC970_Unit_CRU { bits<3> PPC970_Unit = 4; }
class PPC970_Unit_VALU { bits<3> PPC970_Unit = 5; }
class PPC970_Unit_VPERM { bits<3> PPC970_Unit = 6; }
class PPC970_Unit_BRU { bits<3> PPC970_Unit = 7; }
// Two joined instructions; used to emit two adjacent instructions as one.
// The itinerary from the first instruction is used for scheduling and
// classification.
class I2<bits<6> opcode1, bits<6> opcode2, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: Instruction {
field bits<64> Inst;
field bits<64> SoftFail = 0;
let Size = 8;
bit PPC64 = 0; // Default value, override with isPPC64
let Namespace = "PPC";
let Inst{0-5} = opcode1;
let Inst{32-37} = opcode2;
let OutOperandList = OOL;
let InOperandList = IOL;
let AsmString = asmstr;
let Itinerary = itin;
bits<1> PPC970_First = 0;
bits<1> PPC970_Single = 0;
bits<1> PPC970_Cracked = 0;
bits<3> PPC970_Unit = 0;
/// These fields correspond to the fields in PPCInstrInfo.h. Any changes to
/// these must be reflected there! See comments there for what these are.
let TSFlags{0} = PPC970_First;
let TSFlags{1} = PPC970_Single;
let TSFlags{2} = PPC970_Cracked;
let TSFlags{5-3} = PPC970_Unit;
// Fields used for relation models.
string BaseName = "";
bit Interpretation64Bit = 0;
}
// 1.7.1 I-Form
class IForm<bits<6> opcode, bit aa, bit lk, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
let Pattern = pattern;
bits<24> LI;
let Inst{6-29} = LI;
let Inst{30} = aa;
let Inst{31} = lk;
}
// 1.7.2 B-Form
class BForm<bits<6> opcode, bit aa, bit lk, dag OOL, dag IOL, string asmstr>
: I<opcode, OOL, IOL, asmstr, IIC_BrB> {
bits<7> BIBO; // 2 bits of BI and 5 bits of BO.
bits<3> CR;
bits<14> BD;
bits<5> BI;
let BI{0-1} = BIBO{5-6};
let BI{2-4} = CR{0-2};
let Inst{6-10} = BIBO{4-0};
let Inst{11-15} = BI;
let Inst{16-29} = BD;
let Inst{30} = aa;
let Inst{31} = lk;
}
class BForm_1<bits<6> opcode, bits<5> bo, bit aa, bit lk, dag OOL, dag IOL,
string asmstr>
: BForm<opcode, aa, lk, OOL, IOL, asmstr> {
let BIBO{4-0} = bo;
let BIBO{6-5} = 0;
let CR = 0;
}
class BForm_2<bits<6> opcode, bits<5> bo, bits<5> bi, bit aa, bit lk,
dag OOL, dag IOL, string asmstr>
: I<opcode, OOL, IOL, asmstr, IIC_BrB> {
bits<14> BD;
let Inst{6-10} = bo;
let Inst{11-15} = bi;
let Inst{16-29} = BD;
let Inst{30} = aa;
let Inst{31} = lk;
}
class BForm_3<bits<6> opcode, bit aa, bit lk,
dag OOL, dag IOL, string asmstr>
: I<opcode, OOL, IOL, asmstr, IIC_BrB> {
bits<5> BO;
bits<5> BI;
bits<14> BD;
let Inst{6-10} = BO;
let Inst{11-15} = BI;
let Inst{16-29} = BD;
let Inst{30} = aa;
let Inst{31} = lk;
}
Add CR-bit tracking to the PowerPC backend for i1 values 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 llvm-svn: 202451
2014-02-28 08:27:01 +08:00
class BForm_4<bits<6> opcode, bits<5> bo, bit aa, bit lk,
dag OOL, dag IOL, string asmstr>
: I<opcode, OOL, IOL, asmstr, IIC_BrB> {
bits<5> BI;
bits<14> BD;
let Inst{6-10} = bo;
let Inst{11-15} = BI;
let Inst{16-29} = BD;
let Inst{30} = aa;
let Inst{31} = lk;
}
// 1.7.3 SC-Form
class SCForm<bits<6> opcode, bits<1> xo,
dag OOL, dag IOL, string asmstr, InstrItinClass itin,
list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<7> LEV;
let Pattern = pattern;
let Inst{20-26} = LEV;
let Inst{30} = xo;
}
// 1.7.4 D-Form
class DForm_base<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<5> B;
bits<16> C;
let Pattern = pattern;
let Inst{6-10} = A;
let Inst{11-15} = B;
let Inst{16-31} = C;
}
class DForm_1<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<21> Addr;
let Pattern = pattern;
let Inst{6-10} = A;
let Inst{11-15} = Addr{20-16}; // Base Reg
let Inst{16-31} = Addr{15-0}; // Displacement
}
class DForm_1a<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<16> C;
bits<5> B;
let Pattern = pattern;
let Inst{6-10} = A;
let Inst{11-15} = B;
let Inst{16-31} = C;
}
class DForm_2<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: DForm_base<opcode, OOL, IOL, asmstr, itin, pattern> {
// Even though ADDICo does not really have an RC bit, provide
// the declaration of one here so that isDOT has something to set.
bit RC = 0;
}
class DForm_2_r0<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<16> B;
let Pattern = pattern;
let Inst{6-10} = A;
let Inst{11-15} = 0;
let Inst{16-31} = B;
}
class DForm_4<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> B;
bits<5> A;
bits<16> C;
let Pattern = pattern;
let Inst{6-10} = A;
let Inst{11-15} = B;
let Inst{16-31} = C;
}
class DForm_4_zero<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: DForm_1<opcode, OOL, IOL, asmstr, itin, pattern> {
let A = 0;
let Addr = 0;
}
Improve instruction scheduling for the PPC POWER7 Aside from a few minor latency corrections, the major change here is a new hazard recognizer which focuses on better dispatch-group formation on the POWER7. As with the PPC970's hazard recognizer, the most important thing it does is avoid load-after-store hazards within the same dispatch group. It uses the POWER7's special dispatch-group-terminating nop instruction (instead of inserting multiple regular nop instructions). This new hazard recognizer makes use of the scheduling dependency graph itself, built using AA information, to robustly detect the possibility of load-after-store hazards. significant test-suite performance changes (the error bars are 99.5% confidence intervals based on 5 test-suite runs both with and without the change -- speedups are negative): speedups: MultiSource/Benchmarks/FreeBench/pcompress2/pcompress2 -0.55171% +/- 0.333168% MultiSource/Benchmarks/TSVC/CrossingThresholds-dbl/CrossingThresholds-dbl -17.5576% +/- 14.598% MultiSource/Benchmarks/TSVC/Reductions-dbl/Reductions-dbl -29.5708% +/- 7.09058% MultiSource/Benchmarks/TSVC/Reductions-flt/Reductions-flt -34.9471% +/- 11.4391% SingleSource/Benchmarks/BenchmarkGame/puzzle -25.1347% +/- 11.0104% SingleSource/Benchmarks/Misc/flops-8 -17.7297% +/- 9.79061% SingleSource/Benchmarks/Shootout-C++/ary3 -35.5018% +/- 23.9458% SingleSource/Regression/C/uint64_to_float -56.3165% +/- 25.4234% SingleSource/UnitTests/Vectorizer/gcc-loops -18.5309% +/- 6.8496% regressions: MultiSource/Benchmarks/ASCI_Purple/SMG2000/smg2000 18.351% +/- 12.156% SingleSource/Benchmarks/Shootout-C++/methcall 27.3086% +/- 14.4733% llvm-svn: 197099
2013-12-12 08:19:11 +08:00
class DForm_4_fixedreg_zero<bits<6> opcode, bits<5> R, dag OOL, dag IOL,
string asmstr, InstrItinClass itin,
list<dag> pattern>
: DForm_4<opcode, OOL, IOL, asmstr, itin, pattern> {
let A = R;
let B = R;
let C = 0;
}
class IForm_and_DForm_1<bits<6> opcode1, bit aa, bit lk, bits<6> opcode2,
dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I2<opcode1, opcode2, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<21> Addr;
let Pattern = pattern;
bits<24> LI;
let Inst{6-29} = LI;
let Inst{30} = aa;
let Inst{31} = lk;
let Inst{38-42} = A;
let Inst{43-47} = Addr{20-16}; // Base Reg
let Inst{48-63} = Addr{15-0}; // Displacement
}
// This is used to emit BL8+NOP.
class IForm_and_DForm_4_zero<bits<6> opcode1, bit aa, bit lk, bits<6> opcode2,
dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: IForm_and_DForm_1<opcode1, aa, lk, opcode2,
OOL, IOL, asmstr, itin, pattern> {
let A = 0;
let Addr = 0;
}
class DForm_5<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> BF;
bits<1> L;
bits<5> RA;
bits<16> I;
let Inst{6-8} = BF;
let Inst{9} = 0;
let Inst{10} = L;
let Inst{11-15} = RA;
let Inst{16-31} = I;
}
class DForm_5_ext<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: DForm_5<opcode, OOL, IOL, asmstr, itin> {
let L = PPC64;
}
class DForm_6<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: DForm_5<opcode, OOL, IOL, asmstr, itin>;
class DForm_6_ext<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: DForm_6<opcode, OOL, IOL, asmstr, itin> {
let L = PPC64;
}
// 1.7.5 DS-Form
class DSForm_1<bits<6> opcode, bits<2> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RST;
bits<19> DS_RA;
let Pattern = pattern;
let Inst{6-10} = RST;
let Inst{11-15} = DS_RA{18-14}; // Register #
let Inst{16-29} = DS_RA{13-0}; // Displacement.
let Inst{30-31} = xo;
}
// 1.7.6 X-Form
class XForm_base_r3xo<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RST;
bits<5> A;
bits<5> B;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = RST;
let Inst{11-15} = A;
let Inst{16-20} = B;
let Inst{21-30} = xo;
let Inst{31} = RC;
}
class XForm_tlb<bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin> : XForm_base_r3xo<31, xo, OOL, IOL, asmstr, itin, []> {
let RST = 0;
}
// This is the same as XForm_base_r3xo, but the first two operands are swapped
// when code is emitted.
class XForm_base_r3xo_swapped
<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<5> RST;
bits<5> B;
bit RC = 0; // set by isDOT
let Inst{6-10} = RST;
let Inst{11-15} = A;
let Inst{16-20} = B;
let Inst{21-30} = xo;
let Inst{31} = RC;
}
class XForm_1<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern>;
class XForm_1a<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let RST = 0;
}
class XForm_rs<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let A = 0;
let B = 0;
}
class XForm_6<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo_swapped<opcode, xo, OOL, IOL, asmstr, itin> {
2005-09-03 06:35:53 +08:00
let Pattern = pattern;
}
class XForm_8<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern>;
class XForm_10<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo_swapped<opcode, xo, OOL, IOL, asmstr, itin> {
let Pattern = pattern;
}
class XForm_11<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo_swapped<opcode, xo, OOL, IOL, asmstr, itin> {
let B = 0;
2005-09-03 06:35:53 +08:00
let Pattern = pattern;
}
class XForm_16<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> BF;
bits<1> L;
bits<5> RA;
bits<5> RB;
let Inst{6-8} = BF;
let Inst{9} = 0;
let Inst{10} = L;
let Inst{11-15} = RA;
let Inst{16-20} = RB;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XForm_sr<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RS;
bits<4> SR;
let Inst{6-10} = RS;
let Inst{12-15} = SR;
let Inst{21-30} = xo;
}
class XForm_mbar<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> MO;
let Inst{6-10} = MO;
let Inst{21-30} = xo;
}
class XForm_srin<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RS;
bits<5> RB;
let Inst{6-10} = RS;
let Inst{16-20} = RB;
let Inst{21-30} = xo;
}
class XForm_mtmsr<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RS;
bits<1> L;
let Inst{6-10} = RS;
let Inst{15} = L;
let Inst{21-30} = xo;
}
class XForm_16_ext<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: XForm_16<opcode, xo, OOL, IOL, asmstr, itin> {
let L = PPC64;
}
class XForm_17<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> BF;
bits<5> FRA;
bits<5> FRB;
let Inst{6-8} = BF;
let Inst{9-10} = 0;
let Inst{11-15} = FRA;
let Inst{16-20} = FRB;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XForm_24<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
let Pattern = pattern;
let Inst{6-10} = 31;
let Inst{11-15} = 0;
let Inst{16-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XForm_24_sync<bits<6> opcode, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<2> L;
let Pattern = pattern;
let Inst{6-8} = 0;
let Inst{9-10} = L;
let Inst{11-15} = 0;
let Inst{16-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XForm_24_eieio<bits<6> opcode, bits<10> xo, dag OOL, dag IOL,
string asmstr, InstrItinClass itin, list<dag> pattern>
: XForm_24_sync<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let L = 0;
}
class XForm_25<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
}
class XForm_26<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let A = 0;
}
class XForm_28<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
}
// This is used for MFFS, MTFSB0, MTFSB1. 42 is arbitrary; this series of
// numbers presumably relates to some document, but I haven't found it.
class XForm_42<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = RST;
let Inst{11-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = RC;
}
class XForm_43<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let Pattern = pattern;
bits<5> FM;
bit RC = 0; // set by isDOT
let Inst{6-10} = FM;
let Inst{11-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = RC;
}
class XForm_0<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let RST = 0;
let A = 0;
let B = 0;
}
class XForm_16b<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: XForm_base_r3xo<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let RST = 0;
let A = 0;
}
[PowerPC] Initial support for the VSX instruction set VSX is an ISA extension supported on the POWER7 and later cores that enhances floating-point vector and scalar capabilities. Among other things, this adds <2 x double> support and generally helps to reduce register pressure. The interesting part of this ISA feature is the register configuration: there are 64 new 128-bit vector registers, the 32 of which are super-registers of the existing 32 scalar floating-point registers, and the second 32 of which overlap with the 32 Altivec vector registers. This makes things like vector insertion and extraction tricky: this can be free but only if we force a restriction to the right register subclass when needed. A new "minipass" PPCVSXCopy takes care of this (although it could do a more-optimal job of it; see the comment about unnecessary copies below). Please note that, currently, VSX is not enabled by default when targeting anything because it is not yet ready for that. The assembler and disassembler are fully implemented and tested. However: - CodeGen support causes miscompiles; test-suite runtime failures: MultiSource/Benchmarks/FreeBench/distray/distray MultiSource/Benchmarks/McCat/08-main/main MultiSource/Benchmarks/Olden/voronoi/voronoi MultiSource/Benchmarks/mafft/pairlocalalign MultiSource/Benchmarks/tramp3d-v4/tramp3d-v4 SingleSource/Benchmarks/CoyoteBench/almabench SingleSource/Benchmarks/Misc/matmul_f64_4x4 - The lowering currently falls back to using Altivec instructions far more than it should. Worse, there are some things that are scalarized through the stack that shouldn't be. - A lot of unnecessary copies make it past the optimizers, and this needs to be fixed. - Many more regression tests are needed. Normally, I'd fix these things prior to committing, but there are some students and other contributors who would like to work this, and so it makes sense to move this development process upstream where it can be subject to the regular code-review procedures. llvm-svn: 203768
2014-03-13 15:58:58 +08:00
// XX*-Form (VSX)
class XX1Form<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<5> A;
bits<5> B;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = A;
let Inst{16-20} = B;
let Inst{21-30} = xo;
let Inst{31} = XT{5};
}
class XX2Form<bits<6> opcode, bits<9> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XB;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = 0;
let Inst{16-20} = XB{4-0};
let Inst{21-29} = xo;
let Inst{30} = XB{5};
let Inst{31} = XT{5};
}
class XX2Form_1<bits<6> opcode, bits<9> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> CR;
bits<6> XB;
let Pattern = pattern;
let Inst{6-8} = CR;
let Inst{9-15} = 0;
let Inst{16-20} = XB{4-0};
let Inst{21-29} = xo;
let Inst{30} = XB{5};
let Inst{31} = 0;
}
class XX2Form_2<bits<6> opcode, bits<9> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XB;
bits<2> D;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-13} = 0;
let Inst{14-15} = D;
let Inst{16-20} = XB{4-0};
let Inst{21-29} = xo;
let Inst{30} = XB{5};
let Inst{31} = XT{5};
}
class XX3Form<bits<6> opcode, bits<8> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = XA{4-0};
let Inst{16-20} = XB{4-0};
let Inst{21-28} = xo;
let Inst{29} = XA{5};
let Inst{30} = XB{5};
let Inst{31} = XT{5};
}
class XX3Form_1<bits<6> opcode, bits<8> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> CR;
bits<6> XA;
bits<6> XB;
let Pattern = pattern;
let Inst{6-8} = CR;
let Inst{9-10} = 0;
let Inst{11-15} = XA{4-0};
let Inst{16-20} = XB{4-0};
let Inst{21-28} = xo;
let Inst{29} = XA{5};
let Inst{30} = XB{5};
let Inst{31} = 0;
}
class XX3Form_2<bits<6> opcode, bits<5> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
bits<2> D;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = XA{4-0};
let Inst{16-20} = XB{4-0};
let Inst{21} = 0;
let Inst{22-23} = D;
let Inst{24-28} = xo;
let Inst{29} = XA{5};
let Inst{30} = XB{5};
let Inst{31} = XT{5};
}
class XX3Form_Rc<bits<6> opcode, bits<7> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = XT{4-0};
let Inst{11-15} = XA{4-0};
let Inst{16-20} = XB{4-0};
let Inst{21} = RC;
let Inst{22-28} = xo;
let Inst{29} = XA{5};
let Inst{30} = XB{5};
let Inst{31} = XT{5};
}
class XX4Form<bits<6> opcode, bits<2> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<6> XT;
bits<6> XA;
bits<6> XB;
bits<6> XC;
let Pattern = pattern;
let Inst{6-10} = XT{4-0};
let Inst{11-15} = XA{4-0};
let Inst{16-20} = XB{4-0};
let Inst{21-25} = XC{4-0};
let Inst{26-27} = xo;
let Inst{28} = XC{5};
let Inst{29} = XA{5};
let Inst{30} = XB{5};
let Inst{31} = XT{5};
}
// DCB_Form - Form X instruction, used for dcb* instructions.
class DCB_Form<bits<10> xo, bits<5> immfield, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<31, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<5> B;
let Pattern = pattern;
let Inst{6-10} = immfield;
let Inst{11-15} = A;
let Inst{16-20} = B;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
// DSS_Form - Form X instruction, used for altivec dss* instructions.
class DSS_Form<bits<1> T, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<31, OOL, IOL, asmstr, itin> {
bits<2> STRM;
bits<5> A;
bits<5> B;
let Pattern = pattern;
let Inst{6} = T;
let Inst{7-8} = 0;
let Inst{9-10} = STRM;
let Inst{11-15} = A;
let Inst{16-20} = B;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
// 1.7.7 XL-Form
class XLForm_1<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> CRD;
bits<5> CRA;
bits<5> CRB;
let Pattern = pattern;
let Inst{6-10} = CRD;
let Inst{11-15} = CRA;
let Inst{16-20} = CRB;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XLForm_1_ext<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> CRD;
let Pattern = pattern;
let Inst{6-10} = CRD;
let Inst{11-15} = CRD;
let Inst{16-20} = CRD;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XLForm_2<bits<6> opcode, bits<10> xo, bit lk, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> BO;
bits<5> BI;
bits<2> BH;
let Pattern = pattern;
let Inst{6-10} = BO;
let Inst{11-15} = BI;
let Inst{16-18} = 0;
let Inst{19-20} = BH;
let Inst{21-30} = xo;
let Inst{31} = lk;
}
class XLForm_2_br<bits<6> opcode, bits<10> xo, bit lk,
dag OOL, dag IOL, string asmstr, InstrItinClass itin, list<dag> pattern>
: XLForm_2<opcode, xo, lk, OOL, IOL, asmstr, itin, pattern> {
bits<7> BIBO; // 2 bits of BI and 5 bits of BO.
bits<3> CR;
let BO = BIBO{4-0};
let BI{0-1} = BIBO{5-6};
let BI{2-4} = CR{0-2};
let BH = 0;
}
Add CR-bit tracking to the PowerPC backend for i1 values 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 llvm-svn: 202451
2014-02-28 08:27:01 +08:00
class XLForm_2_br2<bits<6> opcode, bits<10> xo, bits<5> bo, bit lk,
dag OOL, dag IOL, string asmstr, InstrItinClass itin, list<dag> pattern>
: XLForm_2<opcode, xo, lk, OOL, IOL, asmstr, itin, pattern> {
let BO = bo;
let BH = 0;
}
class XLForm_2_ext<bits<6> opcode, bits<10> xo, bits<5> bo, bits<5> bi, bit lk,
dag OOL, dag IOL, string asmstr, InstrItinClass itin, list<dag> pattern>
: XLForm_2<opcode, xo, lk, OOL, IOL, asmstr, itin, pattern> {
let BO = bo;
let BI = bi;
let BH = 0;
}
class XLForm_3<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<3> BF;
bits<3> BFA;
let Inst{6-8} = BF;
let Inst{9-10} = 0;
let Inst{11-13} = BFA;
let Inst{14-15} = 0;
let Inst{16-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
// 1.7.8 XFX-Form
class XFXForm_1<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
bits<10> SPR;
let Inst{6-10} = RT;
let Inst{11} = SPR{4};
let Inst{12} = SPR{3};
let Inst{13} = SPR{2};
let Inst{14} = SPR{1};
let Inst{15} = SPR{0};
let Inst{16} = SPR{9};
let Inst{17} = SPR{8};
let Inst{18} = SPR{7};
let Inst{19} = SPR{6};
let Inst{20} = SPR{5};
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XFXForm_1_ext<bits<6> opcode, bits<10> xo, bits<10> spr,
dag OOL, dag IOL, string asmstr, InstrItinClass itin>
: XFXForm_1<opcode, xo, OOL, IOL, asmstr, itin> {
let SPR = spr;
}
class XFXForm_3<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
let Inst{6-10} = RT;
let Inst{11-20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XFXForm_5<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<8> FXM;
bits<5> rS;
let Inst{6-10} = rS;
let Inst{11} = 0;
let Inst{12-19} = FXM;
let Inst{20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XFXForm_5a<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> ST;
bits<8> FXM;
let Inst{6-10} = ST;
let Inst{11} = 1;
let Inst{12-19} = FXM;
let Inst{20} = 0;
let Inst{21-30} = xo;
let Inst{31} = 0;
}
class XFXForm_7<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin>
: XFXForm_1<opcode, xo, OOL, IOL, asmstr, itin>;
class XFXForm_7_ext<bits<6> opcode, bits<10> xo, bits<10> spr,
dag OOL, dag IOL, string asmstr, InstrItinClass itin>
: XFXForm_7<opcode, xo, OOL, IOL, asmstr, itin> {
let SPR = spr;
}
// XFL-Form - MTFSF
// This is probably 1.7.9, but I don't have the reference that uses this
// numbering scheme...
class XFLForm<bits<6> opcode, bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag>pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<8> FM;
bits<5> rT;
bit RC = 0; // set by isDOT
let Pattern = pattern;
let Inst{6} = 0;
let Inst{7-14} = FM;
let Inst{15} = 0;
let Inst{16-20} = rT;
let Inst{21-30} = xo;
let Inst{31} = RC;
}
// 1.7.10 XS-Form - SRADI.
class XSForm_1<bits<6> opcode, bits<9> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> A;
bits<5> RS;
bits<6> SH;
bit RC = 0; // set by isDOT
let Pattern = pattern;
let Inst{6-10} = RS;
let Inst{11-15} = A;
let Inst{16-20} = SH{4,3,2,1,0};
let Inst{21-29} = xo;
let Inst{30} = SH{5};
let Inst{31} = RC;
}
// 1.7.11 XO-Form
class XOForm_1<bits<6> opcode, bits<9> xo, bit oe, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
bits<5> RA;
bits<5> RB;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = RT;
let Inst{11-15} = RA;
let Inst{16-20} = RB;
let Inst{21} = oe;
let Inst{22-30} = xo;
let Inst{31} = RC;
}
class XOForm_3<bits<6> opcode, bits<9> xo, bit oe,
dag OOL, dag IOL, string asmstr, InstrItinClass itin, list<dag> pattern>
: XOForm_1<opcode, xo, oe, OOL, IOL, asmstr, itin, pattern> {
let RB = 0;
}
// 1.7.12 A-Form
class AForm_1<bits<6> opcode, bits<5> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> FRT;
bits<5> FRA;
bits<5> FRC;
bits<5> FRB;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = FRT;
let Inst{11-15} = FRA;
let Inst{16-20} = FRB;
let Inst{21-25} = FRC;
let Inst{26-30} = xo;
let Inst{31} = RC;
}
class AForm_2<bits<6> opcode, bits<5> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: AForm_1<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let FRC = 0;
}
class AForm_3<bits<6> opcode, bits<5> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: AForm_1<opcode, xo, OOL, IOL, asmstr, itin, pattern> {
let FRB = 0;
}
class AForm_4<bits<6> opcode, bits<5> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RT;
bits<5> RA;
bits<5> RB;
bits<5> COND;
let Pattern = pattern;
let Inst{6-10} = RT;
let Inst{11-15} = RA;
let Inst{16-20} = RB;
let Inst{21-25} = COND;
let Inst{26-30} = xo;
let Inst{31} = 0;
}
// 1.7.13 M-Form
class MForm_1<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RA;
bits<5> RS;
bits<5> RB;
bits<5> MB;
bits<5> ME;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = RS;
let Inst{11-15} = RA;
let Inst{16-20} = RB;
let Inst{21-25} = MB;
let Inst{26-30} = ME;
let Inst{31} = RC;
}
class MForm_2<bits<6> opcode, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: MForm_1<opcode, OOL, IOL, asmstr, itin, pattern> {
}
// 1.7.14 MD-Form
class MDForm_1<bits<6> opcode, bits<3> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RA;
bits<5> RS;
bits<6> SH;
bits<6> MBE;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = RS;
let Inst{11-15} = RA;
let Inst{16-20} = SH{4,3,2,1,0};
let Inst{21-26} = MBE{4,3,2,1,0,5};
let Inst{27-29} = xo;
let Inst{30} = SH{5};
let Inst{31} = RC;
}
class MDSForm_1<bits<6> opcode, bits<4> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<opcode, OOL, IOL, asmstr, itin> {
bits<5> RA;
bits<5> RS;
bits<5> RB;
bits<6> MBE;
let Pattern = pattern;
bit RC = 0; // set by isDOT
let Inst{6-10} = RS;
let Inst{11-15} = RA;
let Inst{16-20} = RB;
let Inst{21-26} = MBE{4,3,2,1,0,5};
let Inst{27-30} = xo;
let Inst{31} = RC;
}
// E-1 VA-Form
// VAForm_1 - DACB ordering.
class VAForm_1<bits<6> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> VA;
bits<5> VC;
bits<5> VB;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = VA;
let Inst{16-20} = VB;
let Inst{21-25} = VC;
let Inst{26-31} = xo;
}
// VAForm_1a - DABC ordering.
class VAForm_1a<bits<6> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> VA;
bits<5> VB;
bits<5> VC;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = VA;
let Inst{16-20} = VB;
let Inst{21-25} = VC;
let Inst{26-31} = xo;
}
class VAForm_2<bits<6> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> VA;
bits<5> VB;
bits<4> SH;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = VA;
let Inst{16-20} = VB;
let Inst{21} = 0;
let Inst{22-25} = SH;
let Inst{26-31} = xo;
}
// E-2 VX-Form
class VXForm_1<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> VA;
bits<5> VB;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = VA;
let Inst{16-20} = VB;
let Inst{21-31} = xo;
}
class VXForm_setzero<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: VXForm_1<xo, OOL, IOL, asmstr, itin, pattern> {
let VA = VD;
let VB = VD;
}
class VXForm_2<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> VB;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = 0;
let Inst{16-20} = VB;
let Inst{21-31} = xo;
}
class VXForm_3<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> IMM;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = IMM;
let Inst{16-20} = 0;
let Inst{21-31} = xo;
}
/// VXForm_4 - VX instructions with "VD,0,0" register fields, like mfvscr.
class VXForm_4<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = 0;
let Inst{16-20} = 0;
let Inst{21-31} = xo;
}
/// VXForm_5 - VX instructions with "0,0,VB" register fields, like mtvscr.
class VXForm_5<bits<11> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VB;
let Pattern = pattern;
let Inst{6-10} = 0;
let Inst{11-15} = 0;
let Inst{16-20} = VB;
let Inst{21-31} = xo;
}
// E-4 VXR-Form
class VXRForm_1<bits<10> xo, dag OOL, dag IOL, string asmstr,
InstrItinClass itin, list<dag> pattern>
: I<4, OOL, IOL, asmstr, itin> {
bits<5> VD;
bits<5> VA;
bits<5> VB;
bit RC = 0;
let Pattern = pattern;
let Inst{6-10} = VD;
let Inst{11-15} = VA;
let Inst{16-20} = VB;
let Inst{21} = RC;
let Inst{22-31} = xo;
}
//===----------------------------------------------------------------------===//
class Pseudo<dag OOL, dag IOL, string asmstr, list<dag> pattern>
: I<0, OOL, IOL, asmstr, NoItinerary> {
let isCodeGenOnly = 1;
let PPC64 = 0;
let Pattern = pattern;
let Inst{31-0} = 0;
}