// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_PPC_CONSTANTS_PPC_H_ #define V8_PPC_CONSTANTS_PPC_H_ #include #include "src/base/logging.h" #include "src/base/macros.h" #include "src/globals.h" namespace v8 { namespace internal { // Number of registers const int kNumRegisters = 32; // FP support. const int kNumDoubleRegisters = 32; const int kNoRegister = -1; // Used in embedded constant pool builder - max reach in bits for // various load instructions (one less due to unsigned) const int kLoadPtrMaxReachBits = 15; const int kLoadDoubleMaxReachBits = 15; // sign-extend the least significant 16-bits of value #define SIGN_EXT_IMM16(imm) ((static_cast(imm) << 16) >> 16) // sign-extend the least significant 26-bits of value #define SIGN_EXT_IMM26(imm) ((static_cast(imm) << 6) >> 6) // ----------------------------------------------------------------------------- // Conditions. // Defines constants and accessor classes to assemble, disassemble and // simulate PPC instructions. // // Section references in the code refer to the "PowerPC Microprocessor // Family: The Programmer.s Reference Guide" from 10/95 // https://www-01.ibm.com/chips/techlib/techlib.nsf/techdocs/852569B20050FF778525699600741775/$file/prg.pdf // // Constants for specific fields are defined in their respective named enums. // General constants are in an anonymous enum in class Instr. enum Condition { kNoCondition = -1, eq = 0, // Equal. ne = 1, // Not equal. ge = 2, // Greater or equal. lt = 3, // Less than. gt = 4, // Greater than. le = 5, // Less then or equal unordered = 6, // Floating-point unordered ordered = 7, overflow = 8, // Summary overflow nooverflow = 9, al = 10 // Always. }; inline Condition NegateCondition(Condition cond) { DCHECK(cond != al); return static_cast(cond ^ ne); } // Commute a condition such that {a cond b == b cond' a}. inline Condition CommuteCondition(Condition cond) { switch (cond) { case lt: return gt; case gt: return lt; case ge: return le; case le: return ge; default: return cond; } } // ----------------------------------------------------------------------------- // Instructions encoding. // Instr is merely used by the Assembler to distinguish 32bit integers // representing instructions from usual 32 bit values. // Instruction objects are pointers to 32bit values, and provide methods to // access the various ISA fields. typedef uint32_t Instr; #define PPC_XX3_OPCODE_LIST(V) \ /* VSX Scalar Add Double-Precision */ \ V(xsadddp, XSADDDP, 0xF0000100) \ /* VSX Scalar Add Single-Precision */ \ V(xsaddsp, XSADDSP, 0xF0000000) \ /* VSX Scalar Compare Ordered Double-Precision */ \ V(xscmpodp, XSCMPODP, 0xF0000158) \ /* VSX Scalar Compare Unordered Double-Precision */ \ V(xscmpudp, XSCMPUDP, 0xF0000118) \ /* VSX Scalar Copy Sign Double-Precision */ \ V(xscpsgndp, XSCPSGNDP, 0xF0000580) \ /* VSX Scalar Divide Double-Precision */ \ V(xsdivdp, XSDIVDP, 0xF00001C0) \ /* VSX Scalar Divide Single-Precision */ \ V(xsdivsp, XSDIVSP, 0xF00000C0) \ /* VSX Scalar Multiply-Add Type-A Double-Precision */ \ V(xsmaddadp, XSMADDADP, 0xF0000108) \ /* VSX Scalar Multiply-Add Type-A Single-Precision */ \ V(xsmaddasp, XSMADDASP, 0xF0000008) \ /* VSX Scalar Multiply-Add Type-M Double-Precision */ \ V(xsmaddmdp, XSMADDMDP, 0xF0000148) \ /* VSX Scalar Multiply-Add Type-M Single-Precision */ \ V(xsmaddmsp, XSMADDMSP, 0xF0000048) \ /* VSX Scalar Maximum Double-Precision */ \ V(xsmaxdp, XSMAXDP, 0xF0000500) \ /* VSX Scalar Minimum Double-Precision */ \ V(xsmindp, XSMINDP, 0xF0000540) \ /* VSX Scalar Multiply-Subtract Type-A Double-Precision */ \ V(xsmsubadp, XSMSUBADP, 0xF0000188) \ /* VSX Scalar Multiply-Subtract Type-A Single-Precision */ \ V(xsmsubasp, XSMSUBASP, 0xF0000088) \ /* VSX Scalar Multiply-Subtract Type-M Double-Precision */ \ V(xsmsubmdp, XSMSUBMDP, 0xF00001C8) \ /* VSX Scalar Multiply-Subtract Type-M Single-Precision */ \ V(xsmsubmsp, XSMSUBMSP, 0xF00000C8) \ /* VSX Scalar Multiply Double-Precision */ \ V(xsmuldp, XSMULDP, 0xF0000180) \ /* VSX Scalar Multiply Single-Precision */ \ V(xsmulsp, XSMULSP, 0xF0000080) \ /* VSX Scalar Negative Multiply-Add Type-A Double-Precision */ \ V(xsnmaddadp, XSNMADDADP, 0xF0000508) \ /* VSX Scalar Negative Multiply-Add Type-A Single-Precision */ \ V(xsnmaddasp, XSNMADDASP, 0xF0000408) \ /* VSX Scalar Negative Multiply-Add Type-M Double-Precision */ \ V(xsnmaddmdp, XSNMADDMDP, 0xF0000548) \ /* VSX Scalar Negative Multiply-Add Type-M Single-Precision */ \ V(xsnmaddmsp, XSNMADDMSP, 0xF0000448) \ /* VSX Scalar Negative Multiply-Subtract Type-A Double-Precision */ \ V(xsnmsubadp, XSNMSUBADP, 0xF0000588) \ /* VSX Scalar Negative Multiply-Subtract Type-A Single-Precision */ \ V(xsnmsubasp, XSNMSUBASP, 0xF0000488) \ /* VSX Scalar Negative Multiply-Subtract Type-M Double-Precision */ \ V(xsnmsubmdp, XSNMSUBMDP, 0xF00005C8) \ /* VSX Scalar Negative Multiply-Subtract Type-M Single-Precision */ \ V(xsnmsubmsp, XSNMSUBMSP, 0xF00004C8) \ /* VSX Scalar Reciprocal Estimate Double-Precision */ \ V(xsredp, XSREDP, 0xF0000168) \ /* VSX Scalar Reciprocal Estimate Single-Precision */ \ V(xsresp, XSRESP, 0xF0000068) \ /* VSX Scalar Subtract Double-Precision */ \ V(xssubdp, XSSUBDP, 0xF0000140) \ /* VSX Scalar Subtract Single-Precision */ \ V(xssubsp, XSSUBSP, 0xF0000040) \ /* VSX Scalar Test for software Divide Double-Precision */ \ V(xstdivdp, XSTDIVDP, 0xF00001E8) \ /* VSX Vector Add Double-Precision */ \ V(xvadddp, XVADDDP, 0xF0000300) \ /* VSX Vector Add Single-Precision */ \ V(xvaddsp, XVADDSP, 0xF0000200) \ /* VSX Vector Compare Equal To Double-Precision */ \ V(xvcmpeqdp, XVCMPEQDP, 0xF0000318) \ /* VSX Vector Compare Equal To Double-Precision & record CR6 */ \ V(xvcmpeqdpx, XVCMPEQDPx, 0xF0000718) \ /* VSX Vector Compare Equal To Single-Precision */ \ V(xvcmpeqsp, XVCMPEQSP, 0xF0000218) \ /* VSX Vector Compare Equal To Single-Precision & record CR6 */ \ V(xvcmpeqspx, XVCMPEQSPx, 0xF0000618) \ /* VSX Vector Compare Greater Than or Equal To Double-Precision */ \ V(xvcmpgedp, XVCMPGEDP, 0xF0000398) \ /* VSX Vector Compare Greater Than or Equal To Double-Precision & record */ \ /* CR6 */ \ V(xvcmpgedpx, XVCMPGEDPx, 0xF0000798) \ /* VSX Vector Compare Greater Than or Equal To Single-Precision */ \ V(xvcmpgesp, XVCMPGESP, 0xF0000298) \ /* VSX Vector Compare Greater Than or Equal To Single-Precision & record */ \ /* CR6 */ \ V(xvcmpgespx, XVCMPGESPx, 0xF0000698) \ /* VSX Vector Compare Greater Than Double-Precision */ \ V(xvcmpgtdp, XVCMPGTDP, 0xF0000358) \ /* VSX Vector Compare Greater Than Double-Precision & record CR6 */ \ V(xvcmpgtdpx, XVCMPGTDPx, 0xF0000758) \ /* VSX Vector Compare Greater Than Single-Precision */ \ V(xvcmpgtsp, XVCMPGTSP, 0xF0000258) \ /* VSX Vector Compare Greater Than Single-Precision & record CR6 */ \ V(xvcmpgtspx, XVCMPGTSPx, 0xF0000658) \ /* VSX Vector Copy Sign Double-Precision */ \ V(xvcpsgndp, XVCPSGNDP, 0xF0000780) \ /* VSX Vector Copy Sign Single-Precision */ \ V(xvcpsgnsp, XVCPSGNSP, 0xF0000680) \ /* VSX Vector Divide Double-Precision */ \ V(xvdivdp, XVDIVDP, 0xF00003C0) \ /* VSX Vector Divide Single-Precision */ \ V(xvdivsp, XVDIVSP, 0xF00002C0) \ /* VSX Vector Multiply-Add Type-A Double-Precision */ \ V(xvmaddadp, XVMADDADP, 0xF0000308) \ /* VSX Vector Multiply-Add Type-A Single-Precision */ \ V(xvmaddasp, XVMADDASP, 0xF0000208) \ /* VSX Vector Multiply-Add Type-M Double-Precision */ \ V(xvmaddmdp, XVMADDMDP, 0xF0000348) \ /* VSX Vector Multiply-Add Type-M Single-Precision */ \ V(xvmaddmsp, XVMADDMSP, 0xF0000248) \ /* VSX Vector Maximum Double-Precision */ \ V(xvmaxdp, XVMAXDP, 0xF0000700) \ /* VSX Vector Maximum Single-Precision */ \ V(xvmaxsp, XVMAXSP, 0xF0000600) \ /* VSX Vector Minimum Double-Precision */ \ V(xvmindp, XVMINDP, 0xF0000740) \ /* VSX Vector Minimum Single-Precision */ \ V(xvminsp, XVMINSP, 0xF0000640) \ /* VSX Vector Multiply-Subtract Type-A Double-Precision */ \ V(xvmsubadp, XVMSUBADP, 0xF0000388) \ /* VSX Vector Multiply-Subtract Type-A Single-Precision */ \ V(xvmsubasp, XVMSUBASP, 0xF0000288) \ /* VSX Vector Multiply-Subtract Type-M Double-Precision */ \ V(xvmsubmdp, XVMSUBMDP, 0xF00003C8) \ /* VSX Vector Multiply-Subtract Type-M Single-Precision */ \ V(xvmsubmsp, XVMSUBMSP, 0xF00002C8) \ /* VSX Vector Multiply Double-Precision */ \ V(xvmuldp, XVMULDP, 0xF0000380) \ /* VSX Vector Multiply Single-Precision */ \ V(xvmulsp, XVMULSP, 0xF0000280) \ /* VSX Vector Negative Multiply-Add Type-A Double-Precision */ \ V(xvnmaddadp, XVNMADDADP, 0xF0000708) \ /* VSX Vector Negative Multiply-Add Type-A Single-Precision */ \ V(xvnmaddasp, XVNMADDASP, 0xF0000608) \ /* VSX Vector Negative Multiply-Add Type-M Double-Precision */ \ V(xvnmaddmdp, XVNMADDMDP, 0xF0000748) \ /* VSX Vector Negative Multiply-Add Type-M Single-Precision */ \ V(xvnmaddmsp, XVNMADDMSP, 0xF0000648) \ /* VSX Vector Negative Multiply-Subtract Type-A Double-Precision */ \ V(xvnmsubadp, XVNMSUBADP, 0xF0000788) \ /* VSX Vector Negative Multiply-Subtract Type-A Single-Precision */ \ V(xvnmsubasp, XVNMSUBASP, 0xF0000688) \ /* VSX Vector Negative Multiply-Subtract Type-M Double-Precision */ \ V(xvnmsubmdp, XVNMSUBMDP, 0xF00007C8) \ /* VSX Vector Negative Multiply-Subtract Type-M Single-Precision */ \ V(xvnmsubmsp, XVNMSUBMSP, 0xF00006C8) \ /* VSX Vector Reciprocal Estimate Double-Precision */ \ V(xvredp, XVREDP, 0xF0000368) \ /* VSX Vector Reciprocal Estimate Single-Precision */ \ V(xvresp, XVRESP, 0xF0000268) \ /* VSX Vector Subtract Double-Precision */ \ V(xvsubdp, XVSUBDP, 0xF0000340) \ /* VSX Vector Subtract Single-Precision */ \ V(xvsubsp, XVSUBSP, 0xF0000240) \ /* VSX Vector Test for software Divide Double-Precision */ \ V(xvtdivdp, XVTDIVDP, 0xF00003E8) \ /* VSX Vector Test for software Divide Single-Precision */ \ V(xvtdivsp, XVTDIVSP, 0xF00002E8) \ /* VSX Logical AND */ \ V(xxland, XXLAND, 0xF0000410) \ /* VSX Logical AND with Complement */ \ V(xxlandc, XXLANDC, 0xF0000450) \ /* VSX Logical Equivalence */ \ V(xxleqv, XXLEQV, 0xF00005D0) \ /* VSX Logical NAND */ \ V(xxlnand, XXLNAND, 0xF0000590) \ /* VSX Logical NOR */ \ V(xxlnor, XXLNOR, 0xF0000510) \ /* VSX Logical OR */ \ V(xxlor, XXLOR, 0xF0000490) \ /* VSX Logical OR with Complement */ \ V(xxlorc, XXLORC, 0xF0000550) \ /* VSX Logical XOR */ \ V(xxlxor, XXLXOR, 0xF00004D0) \ /* VSX Merge High Word */ \ V(xxmrghw, XXMRGHW, 0xF0000090) \ /* VSX Merge Low Word */ \ V(xxmrglw, XXMRGLW, 0xF0000190) \ /* VSX Permute Doubleword Immediate */ \ V(xxpermdi, XXPERMDI, 0xF0000050) \ /* VSX Shift Left Double by Word Immediate */ \ V(xxsldwi, XXSLDWI, 0xF0000010) \ /* VSX Splat Word */ \ V(xxspltw, XXSPLTW, 0xF0000290) #define PPC_Z23_OPCODE_LIST(V) \ /* Decimal Quantize */ \ V(dqua, DQUA, 0xEC000006) \ /* Decimal Quantize Immediate */ \ V(dquai, DQUAI, 0xEC000086) \ /* Decimal Quantize Immediate Quad */ \ V(dquaiq, DQUAIQ, 0xFC000086) \ /* Decimal Quantize Quad */ \ V(dquaq, DQUAQ, 0xFC000006) \ /* Decimal Floating Round To FP Integer Without Inexact */ \ V(drintn, DRINTN, 0xEC0001C6) \ /* Decimal Floating Round To FP Integer Without Inexact Quad */ \ V(drintnq, DRINTNQ, 0xFC0001C6) \ /* Decimal Floating Round To FP Integer With Inexact */ \ V(drintx, DRINTX, 0xEC0000C6) \ /* Decimal Floating Round To FP Integer With Inexact Quad */ \ V(drintxq, DRINTXQ, 0xFC0000C6) \ /* Decimal Floating Reround */ \ V(drrnd, DRRND, 0xEC000046) \ /* Decimal Floating Reround Quad */ \ V(drrndq, DRRNDQ, 0xFC000046) #define PPC_Z22_OPCODE_LIST(V) \ /* Decimal Floating Shift Coefficient Left Immediate */ \ V(dscli, DSCLI, 0xEC000084) \ /* Decimal Floating Shift Coefficient Left Immediate Quad */ \ V(dscliq, DSCLIQ, 0xFC000084) \ /* Decimal Floating Shift Coefficient Right Immediate */ \ V(dscri, DSCRI, 0xEC0000C4) \ /* Decimal Floating Shift Coefficient Right Immediate Quad */ \ V(dscriq, DSCRIQ, 0xFC0000C4) \ /* Decimal Floating Test Data Class */ \ V(dtstdc, DTSTDC, 0xEC000184) \ /* Decimal Floating Test Data Class Quad */ \ V(dtstdcq, DTSTDCQ, 0xFC000184) \ /* Decimal Floating Test Data Group */ \ V(dtstdg, DTSTDG, 0xEC0001C4) \ /* Decimal Floating Test Data Group Quad */ \ V(dtstdgq, DTSTDGQ, 0xFC0001C4) #define PPC_XX2_OPCODE_LIST(V) \ /* Move To VSR Doubleword */ \ V(mtvsrd, MTVSRD, 0x7C000166) \ /* Move To VSR Word Algebraic */ \ V(mtvsrwa, MTVSRWA, 0x7C0001A6) \ /* Move To VSR Word and Zero */ \ V(mtvsrwz, MTVSRWZ, 0x7C0001E6) \ /* VSX Scalar Absolute Value Double-Precision */ \ V(xsabsdp, XSABSDP, 0xF0000564) \ /* VSX Scalar Convert Double-Precision to Single-Precision */ \ V(xscvdpsp, XSCVDPSP, 0xF0000424) \ /* VSX Scalar Convert Double-Precision to Single-Precision format Non- */ \ /* signalling */ \ V(xscvdpspn, XSCVDPSPN, 0xF000042C) \ /* VSX Scalar Convert Double-Precision to Signed Fixed-Point Doubleword */ \ /* Saturate */ \ V(xscvdpsxds, XSCVDPSXDS, 0xF0000560) \ /* VSX Scalar Convert Double-Precision to Signed Fixed-Point Word */ \ /* Saturate */ \ V(xscvdpsxws, XSCVDPSXWS, 0xF0000160) \ /* VSX Scalar Convert Double-Precision to Unsigned Fixed-Point */ \ /* Doubleword Saturate */ \ V(xscvdpuxds, XSCVDPUXDS, 0xF0000520) \ /* VSX Scalar Convert Double-Precision to Unsigned Fixed-Point Word */ \ /* Saturate */ \ V(xscvdpuxws, XSCVDPUXWS, 0xF0000120) \ /* VSX Scalar Convert Single-Precision to Double-Precision (p=1) */ \ V(xscvspdp, XSCVSPDP, 0xF0000524) \ /* Scalar Convert Single-Precision to Double-Precision format Non- */ \ /* signalling */ \ V(xscvspdpn, XSCVSPDPN, 0xF000052C) \ /* VSX Scalar Convert Signed Fixed-Point Doubleword to Double-Precision */ \ V(xscvsxddp, XSCVSXDDP, 0xF00005E0) \ /* VSX Scalar Convert Signed Fixed-Point Doubleword to Single-Precision */ \ V(xscvsxdsp, XSCVSXDSP, 0xF00004E0) \ /* VSX Scalar Convert Unsigned Fixed-Point Doubleword to Double- */ \ /* Precision */ \ V(xscvuxddp, XSCVUXDDP, 0xF00005A0) \ /* VSX Scalar Convert Unsigned Fixed-Point Doubleword to Single- */ \ /* Precision */ \ V(xscvuxdsp, XSCVUXDSP, 0xF00004A0) \ /* VSX Scalar Negative Absolute Value Double-Precision */ \ V(xsnabsdp, XSNABSDP, 0xF00005A4) \ /* VSX Scalar Negate Double-Precision */ \ V(xsnegdp, XSNEGDP, 0xF00005E4) \ /* VSX Scalar Round to Double-Precision Integer */ \ V(xsrdpi, XSRDPI, 0xF0000124) \ /* VSX Scalar Round to Double-Precision Integer using Current rounding */ \ /* mode */ \ V(xsrdpic, XSRDPIC, 0xF00001AC) \ /* VSX Scalar Round to Double-Precision Integer toward -Infinity */ \ V(xsrdpim, XSRDPIM, 0xF00001E4) \ /* VSX Scalar Round to Double-Precision Integer toward +Infinity */ \ V(xsrdpip, XSRDPIP, 0xF00001A4) \ /* VSX Scalar Round to Double-Precision Integer toward Zero */ \ V(xsrdpiz, XSRDPIZ, 0xF0000164) \ /* VSX Scalar Round to Single-Precision */ \ V(xsrsp, XSRSP, 0xF0000464) \ /* VSX Scalar Reciprocal Square Root Estimate Double-Precision */ \ V(xsrsqrtedp, XSRSQRTEDP, 0xF0000128) \ /* VSX Scalar Reciprocal Square Root Estimate Single-Precision */ \ V(xsrsqrtesp, XSRSQRTESP, 0xF0000028) \ /* VSX Scalar Square Root Double-Precision */ \ V(xssqrtdp, XSSQRTDP, 0xF000012C) \ /* VSX Scalar Square Root Single-Precision */ \ V(xssqrtsp, XSSQRTSP, 0xF000002C) \ /* VSX Scalar Test for software Square Root Double-Precision */ \ V(xstsqrtdp, XSTSQRTDP, 0xF00001A8) \ /* VSX Vector Absolute Value Double-Precision */ \ V(xvabsdp, XVABSDP, 0xF0000764) \ /* VSX Vector Absolute Value Single-Precision */ \ V(xvabssp, XVABSSP, 0xF0000664) \ /* VSX Vector Convert Double-Precision to Single-Precision */ \ V(xvcvdpsp, XVCVDPSP, 0xF0000624) \ /* VSX Vector Convert Double-Precision to Signed Fixed-Point Doubleword */ \ /* Saturate */ \ V(xvcvdpsxds, XVCVDPSXDS, 0xF0000760) \ /* VSX Vector Convert Double-Precision to Signed Fixed-Point Word */ \ /* Saturate */ \ V(xvcvdpsxws, XVCVDPSXWS, 0xF0000360) \ /* VSX Vector Convert Double-Precision to Unsigned Fixed-Point */ \ /* Doubleword Saturate */ \ V(xvcvdpuxds, XVCVDPUXDS, 0xF0000720) \ /* VSX Vector Convert Double-Precision to Unsigned Fixed-Point Word */ \ /* Saturate */ \ V(xvcvdpuxws, XVCVDPUXWS, 0xF0000320) \ /* VSX Vector Convert Single-Precision to Double-Precision */ \ V(xvcvspdp, XVCVSPDP, 0xF0000724) \ /* VSX Vector Convert Single-Precision to Signed Fixed-Point Doubleword */ \ /* Saturate */ \ V(xvcvspsxds, XVCVSPSXDS, 0xF0000660) \ /* VSX Vector Convert Single-Precision to Signed Fixed-Point Word */ \ /* Saturate */ \ V(xvcvspsxws, XVCVSPSXWS, 0xF0000260) \ /* VSX Vector Convert Single-Precision to Unsigned Fixed-Point */ \ /* Doubleword Saturate */ \ V(xvcvspuxds, XVCVSPUXDS, 0xF0000620) \ /* VSX Vector Convert Single-Precision to Unsigned Fixed-Point Word */ \ /* Saturate */ \ V(xvcvspuxws, XVCVSPUXWS, 0xF0000220) \ /* VSX Vector Convert Signed Fixed-Point Doubleword to Double-Precision */ \ V(xvcvsxddp, XVCVSXDDP, 0xF00007E0) \ /* VSX Vector Convert Signed Fixed-Point Doubleword to Single-Precision */ \ V(xvcvsxdsp, XVCVSXDSP, 0xF00006E0) \ /* VSX Vector Convert Signed Fixed-Point Word to Double-Precision */ \ V(xvcvsxwdp, XVCVSXWDP, 0xF00003E0) \ /* VSX Vector Convert Signed Fixed-Point Word to Single-Precision */ \ V(xvcvsxwsp, XVCVSXWSP, 0xF00002E0) \ /* VSX Vector Convert Unsigned Fixed-Point Doubleword to Double- */ \ /* Precision */ \ V(xvcvuxddp, XVCVUXDDP, 0xF00007A0) \ /* VSX Vector Convert Unsigned Fixed-Point Doubleword to Single- */ \ /* Precision */ \ V(xvcvuxdsp, XVCVUXDSP, 0xF00006A0) \ /* VSX Vector Convert Unsigned Fixed-Point Word to Double-Precision */ \ V(xvcvuxwdp, XVCVUXWDP, 0xF00003A0) \ /* VSX Vector Convert Unsigned Fixed-Point Word to Single-Precision */ \ V(xvcvuxwsp, XVCVUXWSP, 0xF00002A0) \ /* VSX Vector Negative Absolute Value Double-Precision */ \ V(xvnabsdp, XVNABSDP, 0xF00007A4) \ /* VSX Vector Negative Absolute Value Single-Precision */ \ V(xvnabssp, XVNABSSP, 0xF00006A4) \ /* VSX Vector Negate Double-Precision */ \ V(xvnegdp, XVNEGDP, 0xF00007E4) \ /* VSX Vector Negate Single-Precision */ \ V(xvnegsp, XVNEGSP, 0xF00006E4) \ /* VSX Vector Round to Double-Precision Integer */ \ V(xvrdpi, XVRDPI, 0xF0000324) \ /* VSX Vector Round to Double-Precision Integer using Current rounding */ \ /* mode */ \ V(xvrdpic, XVRDPIC, 0xF00003AC) \ /* VSX Vector Round to Double-Precision Integer toward -Infinity */ \ V(xvrdpim, XVRDPIM, 0xF00003E4) \ /* VSX Vector Round to Double-Precision Integer toward +Infinity */ \ V(xvrdpip, XVRDPIP, 0xF00003A4) \ /* VSX Vector Round to Double-Precision Integer toward Zero */ \ V(xvrdpiz, XVRDPIZ, 0xF0000364) \ /* VSX Vector Round to Single-Precision Integer */ \ V(xvrspi, XVRSPI, 0xF0000224) \ /* VSX Vector Round to Single-Precision Integer using Current rounding */ \ /* mode */ \ V(xvrspic, XVRSPIC, 0xF00002AC) \ /* VSX Vector Round to Single-Precision Integer toward -Infinity */ \ V(xvrspim, XVRSPIM, 0xF00002E4) \ /* VSX Vector Round to Single-Precision Integer toward +Infinity */ \ V(xvrspip, XVRSPIP, 0xF00002A4) \ /* VSX Vector Round to Single-Precision Integer toward Zero */ \ V(xvrspiz, XVRSPIZ, 0xF0000264) \ /* VSX Vector Reciprocal Square Root Estimate Double-Precision */ \ V(xvrsqrtedp, XVRSQRTEDP, 0xF0000328) \ /* VSX Vector Reciprocal Square Root Estimate Single-Precision */ \ V(xvrsqrtesp, XVRSQRTESP, 0xF0000228) \ /* VSX Vector Square Root Double-Precision */ \ V(xvsqrtdp, XVSQRTDP, 0xF000032C) \ /* VSX Vector Square Root Single-Precision */ \ V(xvsqrtsp, XVSQRTSP, 0xF000022C) \ /* VSX Vector Test for software Square Root Double-Precision */ \ V(xvtsqrtdp, XVTSQRTDP, 0xF00003A8) \ /* VSX Vector Test for software Square Root Single-Precision */ \ V(xvtsqrtsp, XVTSQRTSP, 0xF00002A8) #define PPC_EVX_OPCODE_LIST(V) \ /* Vector Load Double Word into Double Word by External PID Indexed */ \ V(evlddepx, EVLDDEPX, 0x7C00063E) \ /* Vector Store Double of Double by External PID Indexed */ \ V(evstddepx, EVSTDDEPX, 0x7C00073E) \ /* Bit Reversed Increment */ \ V(brinc, BRINC, 0x1000020F) \ /* Vector Absolute Value */ \ V(evabs, EVABS, 0x10000208) \ /* Vector Add Immediate Word */ \ V(evaddiw, EVADDIW, 0x10000202) \ /* Vector Add Signed, Modulo, Integer to Accumulator Word */ \ V(evaddsmiaaw, EVADDSMIAAW, 0x100004C9) \ /* Vector Add Signed, Saturate, Integer to Accumulator Word */ \ V(evaddssiaaw, EVADDSSIAAW, 0x100004C1) \ /* Vector Add Unsigned, Modulo, Integer to Accumulator Word */ \ V(evaddumiaaw, EVADDUMIAAW, 0x100004C8) \ /* Vector Add Unsigned, Saturate, Integer to Accumulator Word */ \ V(evaddusiaaw, EVADDUSIAAW, 0x100004C0) \ /* Vector Add Word */ \ V(evaddw, EVADDW, 0x10000200) \ /* Vector AND */ \ V(evand, EVAND, 0x10000211) \ /* Vector AND with Complement */ \ V(evandc, EVANDC, 0x10000212) \ /* Vector Compare Equal */ \ V(evcmpeq, EVCMPEQ, 0x10000234) \ /* Vector Compare Greater Than Signed */ \ V(evcmpgts, EVCMPGTS, 0x10000231) \ /* Vector Compare Greater Than Unsigned */ \ V(evcmpgtu, EVCMPGTU, 0x10000230) \ /* Vector Compare Less Than Signed */ \ V(evcmplts, EVCMPLTS, 0x10000233) \ /* Vector Compare Less Than Unsigned */ \ V(evcmpltu, EVCMPLTU, 0x10000232) \ /* Vector Count Leading Signed Bits Word */ \ V(evcntlsw, EVCNTLSW, 0x1000020E) \ /* Vector Count Leading Zeros Word */ \ V(evcntlzw, EVCNTLZW, 0x1000020D) \ /* Vector Divide Word Signed */ \ V(evdivws, EVDIVWS, 0x100004C6) \ /* Vector Divide Word Unsigned */ \ V(evdivwu, EVDIVWU, 0x100004C7) \ /* Vector Equivalent */ \ V(eveqv, EVEQV, 0x10000219) \ /* Vector Extend Sign Byte */ \ V(evextsb, EVEXTSB, 0x1000020A) \ /* Vector Extend Sign Half Word */ \ V(evextsh, EVEXTSH, 0x1000020B) \ /* Vector Load Double Word into Double Word */ \ V(evldd, EVLDD, 0x10000301) \ /* Vector Load Double Word into Double Word Indexed */ \ V(evlddx, EVLDDX, 0x10000300) \ /* Vector Load Double into Four Half Words */ \ V(evldh, EVLDH, 0x10000305) \ /* Vector Load Double into Four Half Words Indexed */ \ V(evldhx, EVLDHX, 0x10000304) \ /* Vector Load Double into Two Words */ \ V(evldw, EVLDW, 0x10000303) \ /* Vector Load Double into Two Words Indexed */ \ V(evldwx, EVLDWX, 0x10000302) \ /* Vector Load Half Word into Half Words Even and Splat */ \ V(evlhhesplat, EVLHHESPLAT, 0x10000309) \ /* Vector Load Half Word into Half Words Even and Splat Indexed */ \ V(evlhhesplatx, EVLHHESPLATX, 0x10000308) \ /* Vector Load Half Word into Half Word Odd Signed and Splat */ \ V(evlhhossplat, EVLHHOSSPLAT, 0x1000030F) \ /* Vector Load Half Word into Half Word Odd Signed and Splat Indexed */ \ V(evlhhossplatx, EVLHHOSSPLATX, 0x1000030E) \ /* Vector Load Half Word into Half Word Odd Unsigned and Splat */ \ V(evlhhousplat, EVLHHOUSPLAT, 0x1000030D) \ /* Vector Load Half Word into Half Word Odd Unsigned and Splat Indexed */ \ V(evlhhousplatx, EVLHHOUSPLATX, 0x1000030C) \ /* Vector Load Word into Two Half Words Even */ \ V(evlwhe, EVLWHE, 0x10000311) \ /* Vector Load Word into Two Half Words Even Indexed */ \ V(evlwhex, EVLWHEX, 0x10000310) \ /* Vector Load Word into Two Half Words Odd Signed (with sign extension) */ \ V(evlwhos, EVLWHOS, 0x10000317) \ /* Vector Load Word into Two Half Words Odd Signed Indexed (with sign */ \ /* extension) */ \ V(evlwhosx, EVLWHOSX, 0x10000316) \ /* Vector Load Word into Two Half Words Odd Unsigned (zero-extended) */ \ V(evlwhou, EVLWHOU, 0x10000315) \ /* Vector Load Word into Two Half Words Odd Unsigned Indexed (zero- */ \ /* extended) */ \ V(evlwhoux, EVLWHOUX, 0x10000314) \ /* Vector Load Word into Two Half Words and Splat */ \ V(evlwhsplat, EVLWHSPLAT, 0x1000031D) \ /* Vector Load Word into Two Half Words and Splat Indexed */ \ V(evlwhsplatx, EVLWHSPLATX, 0x1000031C) \ /* Vector Load Word into Word and Splat */ \ V(evlwwsplat, EVLWWSPLAT, 0x10000319) \ /* Vector Load Word into Word and Splat Indexed */ \ V(evlwwsplatx, EVLWWSPLATX, 0x10000318) \ /* Vector Merge High */ \ V(evmergehi, EVMERGEHI, 0x1000022C) \ /* Vector Merge High/Low */ \ V(evmergehilo, EVMERGEHILO, 0x1000022E) \ /* Vector Merge Low */ \ V(evmergelo, EVMERGELO, 0x1000022D) \ /* Vector Merge Low/High */ \ V(evmergelohi, EVMERGELOHI, 0x1000022F) \ /* Vector Multiply Half Words, Even, Guarded, Signed, Modulo, Fractional */ \ /* and Accumulate */ \ V(evmhegsmfaa, EVMHEGSMFAA, 0x1000052B) \ /* Vector Multiply Half Words, Even, Guarded, Signed, Modulo, Fractional */ \ /* and Accumulate Negative */ \ V(evmhegsmfan, EVMHEGSMFAN, 0x100005AB) \ /* Vector Multiply Half Words, Even, Guarded, Signed, Modulo, Integer */ \ /* and Accumulate */ \ V(evmhegsmiaa, EVMHEGSMIAA, 0x10000529) \ /* Vector Multiply Half Words, Even, Guarded, Signed, Modulo, Integer */ \ /* and Accumulate Negative */ \ V(evmhegsmian, EVMHEGSMIAN, 0x100005A9) \ /* Vector Multiply Half Words, Even, Guarded, Unsigned, Modulo, Integer */ \ /* and Accumulate */ \ V(evmhegumiaa, EVMHEGUMIAA, 0x10000528) \ /* Vector Multiply Half Words, Even, Guarded, Unsigned, Modulo, Integer */ \ /* and Accumulate Negative */ \ V(evmhegumian, EVMHEGUMIAN, 0x100005A8) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Fractional */ \ V(evmhesmf, EVMHESMF, 0x1000040B) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Fractional to */ \ /* Accumulator */ \ V(evmhesmfa, EVMHESMFA, 0x1000042B) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Fractional and */ \ /* Accumulate into Words */ \ V(evmhesmfaaw, EVMHESMFAAW, 0x1000050B) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Fractional and */ \ /* Accumulate Negative into Words */ \ V(evmhesmfanw, EVMHESMFANW, 0x1000058B) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Integer */ \ V(evmhesmi, EVMHESMI, 0x10000409) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Integer to */ \ /* Accumulator */ \ V(evmhesmia, EVMHESMIA, 0x10000429) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Integer and */ \ /* Accumulate into Words */ \ V(evmhesmiaaw, EVMHESMIAAW, 0x10000509) \ /* Vector Multiply Half Words, Even, Signed, Modulo, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmhesmianw, EVMHESMIANW, 0x10000589) \ /* Vector Multiply Half Words, Even, Signed, Saturate, Fractional */ \ V(evmhessf, EVMHESSF, 0x10000403) \ /* Vector Multiply Half Words, Even, Signed, Saturate, Fractional to */ \ /* Accumulator */ \ V(evmhessfa, EVMHESSFA, 0x10000423) \ /* Vector Multiply Half Words, Even, Signed, Saturate, Fractional and */ \ /* Accumulate into Words */ \ V(evmhessfaaw, EVMHESSFAAW, 0x10000503) \ /* Vector Multiply Half Words, Even, Signed, Saturate, Fractional and */ \ /* Accumulate Negative into Words */ \ V(evmhessfanw, EVMHESSFANW, 0x10000583) \ /* Vector Multiply Half Words, Even, Signed, Saturate, Integer and */ \ /* Accumulate into Words */ \ V(evmhessiaaw, EVMHESSIAAW, 0x10000501) \ /* Vector Multiply Half Words, Even, Signed, Saturate, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmhessianw, EVMHESSIANW, 0x10000581) \ /* Vector Multiply Half Words, Even, Unsigned, Modulo, Integer */ \ V(evmheumi, EVMHEUMI, 0x10000408) \ /* Vector Multiply Half Words, Even, Unsigned, Modulo, Integer to */ \ /* Accumulator */ \ V(evmheumia, EVMHEUMIA, 0x10000428) \ /* Vector Multiply Half Words, Even, Unsigned, Modulo, Integer and */ \ /* Accumulate into Words */ \ V(evmheumiaaw, EVMHEUMIAAW, 0x10000508) \ /* Vector Multiply Half Words, Even, Unsigned, Modulo, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmheumianw, EVMHEUMIANW, 0x10000588) \ /* Vector Multiply Half Words, Even, Unsigned, Saturate, Integer and */ \ /* Accumulate into Words */ \ V(evmheusiaaw, EVMHEUSIAAW, 0x10000500) \ /* Vector Multiply Half Words, Even, Unsigned, Saturate, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmheusianw, EVMHEUSIANW, 0x10000580) \ /* Vector Multiply Half Words, Odd, Guarded, Signed, Modulo, Fractional */ \ /* and Accumulate */ \ V(evmhogsmfaa, EVMHOGSMFAA, 0x1000052F) \ /* Vector Multiply Half Words, Odd, Guarded, Signed, Modulo, Fractional */ \ /* and Accumulate Negative */ \ V(evmhogsmfan, EVMHOGSMFAN, 0x100005AF) \ /* Vector Multiply Half Words, Odd, Guarded, Signed, Modulo, Integer, */ \ /* and Accumulate */ \ V(evmhogsmiaa, EVMHOGSMIAA, 0x1000052D) \ /* Vector Multiply Half Words, Odd, Guarded, Signed, Modulo, Integer and */ \ /* Accumulate Negative */ \ V(evmhogsmian, EVMHOGSMIAN, 0x100005AD) \ /* Vector Multiply Half Words, Odd, Guarded, Unsigned, Modulo, Integer */ \ /* and Accumulate */ \ V(evmhogumiaa, EVMHOGUMIAA, 0x1000052C) \ /* Vector Multiply Half Words, Odd, Guarded, Unsigned, Modulo, Integer */ \ /* and Accumulate Negative */ \ V(evmhogumian, EVMHOGUMIAN, 0x100005AC) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Fractional */ \ V(evmhosmf, EVMHOSMF, 0x1000040F) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Fractional to */ \ /* Accumulator */ \ V(evmhosmfa, EVMHOSMFA, 0x1000042F) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Fractional and */ \ /* Accumulate into Words */ \ V(evmhosmfaaw, EVMHOSMFAAW, 0x1000050F) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Fractional and */ \ /* Accumulate Negative into Words */ \ V(evmhosmfanw, EVMHOSMFANW, 0x1000058F) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Integer */ \ V(evmhosmi, EVMHOSMI, 0x1000040D) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Integer to */ \ /* Accumulator */ \ V(evmhosmia, EVMHOSMIA, 0x1000042D) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Integer and */ \ /* Accumulate into Words */ \ V(evmhosmiaaw, EVMHOSMIAAW, 0x1000050D) \ /* Vector Multiply Half Words, Odd, Signed, Modulo, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmhosmianw, EVMHOSMIANW, 0x1000058D) \ /* Vector Multiply Half Words, Odd, Signed, Saturate, Fractional */ \ V(evmhossf, EVMHOSSF, 0x10000407) \ /* Vector Multiply Half Words, Odd, Signed, Saturate, Fractional to */ \ /* Accumulator */ \ V(evmhossfa, EVMHOSSFA, 0x10000427) \ /* Vector Multiply Half Words, Odd, Signed, Saturate, Fractional and */ \ /* Accumulate into Words */ \ V(evmhossfaaw, EVMHOSSFAAW, 0x10000507) \ /* Vector Multiply Half Words, Odd, Signed, Saturate, Fractional and */ \ /* Accumulate Negative into Words */ \ V(evmhossfanw, EVMHOSSFANW, 0x10000587) \ /* Vector Multiply Half Words, Odd, Signed, Saturate, Integer and */ \ /* Accumulate into Words */ \ V(evmhossiaaw, EVMHOSSIAAW, 0x10000505) \ /* Vector Multiply Half Words, Odd, Signed, Saturate, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmhossianw, EVMHOSSIANW, 0x10000585) \ /* Vector Multiply Half Words, Odd, Unsigned, Modulo, Integer */ \ V(evmhoumi, EVMHOUMI, 0x1000040C) \ /* Vector Multiply Half Words, Odd, Unsigned, Modulo, Integer to */ \ /* Accumulator */ \ V(evmhoumia, EVMHOUMIA, 0x1000042C) \ /* Vector Multiply Half Words, Odd, Unsigned, Modulo, Integer and */ \ /* Accumulate into Words */ \ V(evmhoumiaaw, EVMHOUMIAAW, 0x1000050C) \ /* Vector Multiply Half Words, Odd, Unsigned, Modulo, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmhoumianw, EVMHOUMIANW, 0x1000058C) \ /* Vector Multiply Half Words, Odd, Unsigned, Saturate, Integer and */ \ /* Accumulate into Words */ \ V(evmhousiaaw, EVMHOUSIAAW, 0x10000504) \ /* Vector Multiply Half Words, Odd, Unsigned, Saturate, Integer and */ \ /* Accumulate Negative into Words */ \ V(evmhousianw, EVMHOUSIANW, 0x10000584) \ /* Initialize Accumulator */ \ V(evmra, EVMRA, 0x100004C4) \ /* Vector Multiply Word High Signed, Modulo, Fractional */ \ V(evmwhsmf, EVMWHSMF, 0x1000044F) \ /* Vector Multiply Word High Signed, Modulo, Fractional to Accumulator */ \ V(evmwhsmfa, EVMWHSMFA, 0x1000046F) \ /* Vector Multiply Word High Signed, Modulo, Integer */ \ V(evmwhsmi, EVMWHSMI, 0x1000044D) \ /* Vector Multiply Word High Signed, Modulo, Integer to Accumulator */ \ V(evmwhsmia, EVMWHSMIA, 0x1000046D) \ /* Vector Multiply Word High Signed, Saturate, Fractional */ \ V(evmwhssf, EVMWHSSF, 0x10000447) \ /* Vector Multiply Word High Signed, Saturate, Fractional to Accumulator */ \ V(evmwhssfa, EVMWHSSFA, 0x10000467) \ /* Vector Multiply Word High Unsigned, Modulo, Integer */ \ V(evmwhumi, EVMWHUMI, 0x1000044C) \ /* Vector Multiply Word High Unsigned, Modulo, Integer to Accumulator */ \ V(evmwhumia, EVMWHUMIA, 0x1000046C) \ /* Vector Multiply Word Low Signed, Modulo, Integer and Accumulate in */ \ /* Words */ \ V(evmwlsmiaaw, EVMWLSMIAAW, 0x10000549) \ /* Vector Multiply Word Low Signed, Modulo, Integer and Accumulate */ \ /* Negative in Words */ \ V(evmwlsmianw, EVMWLSMIANW, 0x100005C9) \ /* Vector Multiply Word Low Signed, Saturate, Integer and Accumulate in */ \ /* Words */ \ V(evmwlssiaaw, EVMWLSSIAAW, 0x10000541) \ /* Vector Multiply Word Low Signed, Saturate, Integer and Accumulate */ \ /* Negative in Words */ \ V(evmwlssianw, EVMWLSSIANW, 0x100005C1) \ /* Vector Multiply Word Low Unsigned, Modulo, Integer */ \ V(evmwlumi, EVMWLUMI, 0x10000448) \ /* Vector Multiply Word Low Unsigned, Modulo, Integer to Accumulator */ \ V(evmwlumia, EVMWLUMIA, 0x10000468) \ /* Vector Multiply Word Low Unsigned, Modulo, Integer and Accumulate in */ \ /* Words */ \ V(evmwlumiaaw, EVMWLUMIAAW, 0x10000548) \ /* Vector Multiply Word Low Unsigned, Modulo, Integer and Accumulate */ \ /* Negative in Words */ \ V(evmwlumianw, EVMWLUMIANW, 0x100005C8) \ /* Vector Multiply Word Low Unsigned, Saturate, Integer and Accumulate */ \ /* in Words */ \ V(evmwlusiaaw, EVMWLUSIAAW, 0x10000540) \ /* Vector Multiply Word Low Unsigned, Saturate, Integer and Accumulate */ \ /* Negative in Words */ \ V(evmwlusianw, EVMWLUSIANW, 0x100005C0) \ /* Vector Multiply Word Signed, Modulo, Fractional */ \ V(evmwsmf, EVMWSMF, 0x1000045B) \ /* Vector Multiply Word Signed, Modulo, Fractional to Accumulator */ \ V(evmwsmfa, EVMWSMFA, 0x1000047B) \ /* Vector Multiply Word Signed, Modulo, Fractional and Accumulate */ \ V(evmwsmfaa, EVMWSMFAA, 0x1000055B) \ /* Vector Multiply Word Signed, Modulo, Fractional and Accumulate */ \ /* Negative */ \ V(evmwsmfan, EVMWSMFAN, 0x100005DB) \ /* Vector Multiply Word Signed, Modulo, Integer */ \ V(evmwsmi, EVMWSMI, 0x10000459) \ /* Vector Multiply Word Signed, Modulo, Integer to Accumulator */ \ V(evmwsmia, EVMWSMIA, 0x10000479) \ /* Vector Multiply Word Signed, Modulo, Integer and Accumulate */ \ V(evmwsmiaa, EVMWSMIAA, 0x10000559) \ /* Vector Multiply Word Signed, Modulo, Integer and Accumulate Negative */ \ V(evmwsmian, EVMWSMIAN, 0x100005D9) \ /* Vector Multiply Word Signed, Saturate, Fractional */ \ V(evmwssf, EVMWSSF, 0x10000453) \ /* Vector Multiply Word Signed, Saturate, Fractional to Accumulator */ \ V(evmwssfa, EVMWSSFA, 0x10000473) \ /* Vector Multiply Word Signed, Saturate, Fractional and Accumulate */ \ V(evmwssfaa, EVMWSSFAA, 0x10000553) \ /* Vector Multiply Word Signed, Saturate, Fractional and Accumulate */ \ /* Negative */ \ V(evmwssfan, EVMWSSFAN, 0x100005D3) \ /* Vector Multiply Word Unsigned, Modulo, Integer */ \ V(evmwumi, EVMWUMI, 0x10000458) \ /* Vector Multiply Word Unsigned, Modulo, Integer to Accumulator */ \ V(evmwumia, EVMWUMIA, 0x10000478) \ /* Vector Multiply Word Unsigned, Modulo, Integer and Accumulate */ \ V(evmwumiaa, EVMWUMIAA, 0x10000558) \ /* Vector Multiply Word Unsigned, Modulo, Integer and Accumulate */ \ /* Negative */ \ V(evmwumian, EVMWUMIAN, 0x100005D8) \ /* Vector NAND */ \ V(evnand, EVNAND, 0x1000021E) \ /* Vector Negate */ \ V(evneg, EVNEG, 0x10000209) \ /* Vector NOR */ \ V(evnor, EVNOR, 0x10000218) \ /* Vector OR */ \ V(evor, EVOR, 0x10000217) \ /* Vector OR with Complement */ \ V(evorc, EVORC, 0x1000021B) \ /* Vector Rotate Left Word */ \ V(evrlw, EVRLW, 0x10000228) \ /* Vector Rotate Left Word Immediate */ \ V(evrlwi, EVRLWI, 0x1000022A) \ /* Vector Round Word */ \ V(evrndw, EVRNDW, 0x1000020C) \ /* Vector Shift Left Word */ \ V(evslw, EVSLW, 0x10000224) \ /* Vector Shift Left Word Immediate */ \ V(evslwi, EVSLWI, 0x10000226) \ /* Vector Splat Fractional Immediate */ \ V(evsplatfi, EVSPLATFI, 0x1000022B) \ /* Vector Splat Immediate */ \ V(evsplati, EVSPLATI, 0x10000229) \ /* Vector Shift Right Word Immediate Signed */ \ V(evsrwis, EVSRWIS, 0x10000223) \ /* Vector Shift Right Word Immediate Unsigned */ \ V(evsrwiu, EVSRWIU, 0x10000222) \ /* Vector Shift Right Word Signed */ \ V(evsrws, EVSRWS, 0x10000221) \ /* Vector Shift Right Word Unsigned */ \ V(evsrwu, EVSRWU, 0x10000220) \ /* Vector Store Double of Double */ \ V(evstdd, EVSTDD, 0x10000321) \ /* Vector Store Double of Double Indexed */ \ V(evstddx, EVSTDDX, 0x10000320) \ /* Vector Store Double of Four Half Words */ \ V(evstdh, EVSTDH, 0x10000325) \ /* Vector Store Double of Four Half Words Indexed */ \ V(evstdhx, EVSTDHX, 0x10000324) \ /* Vector Store Double of Two Words */ \ V(evstdw, EVSTDW, 0x10000323) \ /* Vector Store Double of Two Words Indexed */ \ V(evstdwx, EVSTDWX, 0x10000322) \ /* Vector Store Word of Two Half Words from Even */ \ V(evstwhe, EVSTWHE, 0x10000331) \ /* Vector Store Word of Two Half Words from Even Indexed */ \ V(evstwhex, EVSTWHEX, 0x10000330) \ /* Vector Store Word of Two Half Words from Odd */ \ V(evstwho, EVSTWHO, 0x10000335) \ /* Vector Store Word of Two Half Words from Odd Indexed */ \ V(evstwhox, EVSTWHOX, 0x10000334) \ /* Vector Store Word of Word from Even */ \ V(evstwwe, EVSTWWE, 0x10000339) \ /* Vector Store Word of Word from Even Indexed */ \ V(evstwwex, EVSTWWEX, 0x10000338) \ /* Vector Store Word of Word from Odd */ \ V(evstwwo, EVSTWWO, 0x1000033D) \ /* Vector Store Word of Word from Odd Indexed */ \ V(evstwwox, EVSTWWOX, 0x1000033C) \ /* Vector Subtract Signed, Modulo, Integer to Accumulator Word */ \ V(evsubfsmiaaw, EVSUBFSMIAAW, 0x100004CB) \ /* Vector Subtract Signed, Saturate, Integer to Accumulator Word */ \ V(evsubfssiaaw, EVSUBFSSIAAW, 0x100004C3) \ /* Vector Subtract Unsigned, Modulo, Integer to Accumulator Word */ \ V(evsubfumiaaw, EVSUBFUMIAAW, 0x100004CA) \ /* Vector Subtract Unsigned, Saturate, Integer to Accumulator Word */ \ V(evsubfusiaaw, EVSUBFUSIAAW, 0x100004C2) \ /* Vector Subtract from Word */ \ V(evsubfw, EVSUBFW, 0x10000204) \ /* Vector Subtract Immediate from Word */ \ V(evsubifw, EVSUBIFW, 0x10000206) \ /* Vector XOR */ \ V(evxor, EVXOR, 0x10000216) \ /* Floating-Point Double-Precision Absolute Value */ \ V(efdabs, EFDABS, 0x100002E4) \ /* Floating-Point Double-Precision Add */ \ V(efdadd, EFDADD, 0x100002E0) \ /* Floating-Point Double-Precision Convert from Single-Precision */ \ V(efdcfs, EFDCFS, 0x100002EF) \ /* Convert Floating-Point Double-Precision from Signed Fraction */ \ V(efdcfsf, EFDCFSF, 0x100002F3) \ /* Convert Floating-Point Double-Precision from Signed Integer */ \ V(efdcfsi, EFDCFSI, 0x100002F1) \ /* Convert Floating-Point Double-Precision from Signed Integer */ \ /* Doubleword */ \ V(efdcfsid, EFDCFSID, 0x100002E3) \ /* Convert Floating-Point Double-Precision from Unsigned Fraction */ \ V(efdcfuf, EFDCFUF, 0x100002F2) \ /* Convert Floating-Point Double-Precision from Unsigned Integer */ \ V(efdcfui, EFDCFUI, 0x100002F0) \ /* Convert Floating-Point Double-Precision fromUnsigned Integer */ \ /* Doubleword */ \ V(efdcfuid, EFDCFUID, 0x100002E2) \ /* Floating-Point Double-Precision Compare Equal */ \ V(efdcmpeq, EFDCMPEQ, 0x100002EE) \ /* Floating-Point Double-Precision Compare Greater Than */ \ V(efdcmpgt, EFDCMPGT, 0x100002EC) \ /* Floating-Point Double-Precision Compare Less Than */ \ V(efdcmplt, EFDCMPLT, 0x100002ED) \ /* Convert Floating-Point Double-Precision to Signed Fraction */ \ V(efdctsf, EFDCTSF, 0x100002F7) \ /* Convert Floating-Point Double-Precision to Signed Integer */ \ V(efdctsi, EFDCTSI, 0x100002F5) \ /* Convert Floating-Point Double-Precision to Signed Integer Doubleword */ \ /* with Round toward Zero */ \ V(efdctsidz, EFDCTSIDZ, 0x100002EB) \ /* Convert Floating-Point Double-Precision to Signed Integer with Round */ \ /* toward Zero */ \ V(efdctsiz, EFDCTSIZ, 0x100002FA) \ /* Convert Floating-Point Double-Precision to Unsigned Fraction */ \ V(efdctuf, EFDCTUF, 0x100002F6) \ /* Convert Floating-Point Double-Precision to Unsigned Integer */ \ V(efdctui, EFDCTUI, 0x100002F4) \ /* Convert Floating-Point Double-Precision to Unsigned Integer */ \ /* Doubleword with Round toward Zero */ \ V(efdctuidz, EFDCTUIDZ, 0x100002EA) \ /* Convert Floating-Point Double-Precision to Unsigned Integer with */ \ /* Round toward Zero */ \ V(efdctuiz, EFDCTUIZ, 0x100002F8) \ /* Floating-Point Double-Precision Divide */ \ V(efddiv, EFDDIV, 0x100002E9) \ /* Floating-Point Double-Precision Multiply */ \ V(efdmul, EFDMUL, 0x100002E8) \ /* Floating-Point Double-Precision Negative Absolute Value */ \ V(efdnabs, EFDNABS, 0x100002E5) \ /* Floating-Point Double-Precision Negate */ \ V(efdneg, EFDNEG, 0x100002E6) \ /* Floating-Point Double-Precision Subtract */ \ V(efdsub, EFDSUB, 0x100002E1) \ /* Floating-Point Double-Precision Test Equal */ \ V(efdtsteq, EFDTSTEQ, 0x100002FE) \ /* Floating-Point Double-Precision Test Greater Than */ \ V(efdtstgt, EFDTSTGT, 0x100002FC) \ /* Floating-Point Double-Precision Test Less Than */ \ V(efdtstlt, EFDTSTLT, 0x100002FD) \ /* Floating-Point Single-Precision Convert from Double-Precision */ \ V(efscfd, EFSCFD, 0x100002CF) \ /* Floating-Point Absolute Value */ \ V(efsabs, EFSABS, 0x100002C4) \ /* Floating-Point Add */ \ V(efsadd, EFSADD, 0x100002C0) \ /* Convert Floating-Point from Signed Fraction */ \ V(efscfsf, EFSCFSF, 0x100002D3) \ /* Convert Floating-Point from Signed Integer */ \ V(efscfsi, EFSCFSI, 0x100002D1) \ /* Convert Floating-Point from Unsigned Fraction */ \ V(efscfuf, EFSCFUF, 0x100002D2) \ /* Convert Floating-Point from Unsigned Integer */ \ V(efscfui, EFSCFUI, 0x100002D0) \ /* Floating-Point Compare Equal */ \ V(efscmpeq, EFSCMPEQ, 0x100002CE) \ /* Floating-Point Compare Greater Than */ \ V(efscmpgt, EFSCMPGT, 0x100002CC) \ /* Floating-Point Compare Less Than */ \ V(efscmplt, EFSCMPLT, 0x100002CD) \ /* Convert Floating-Point to Signed Fraction */ \ V(efsctsf, EFSCTSF, 0x100002D7) \ /* Convert Floating-Point to Signed Integer */ \ V(efsctsi, EFSCTSI, 0x100002D5) \ /* Convert Floating-Point to Signed Integer with Round toward Zero */ \ V(efsctsiz, EFSCTSIZ, 0x100002DA) \ /* Convert Floating-Point to Unsigned Fraction */ \ V(efsctuf, EFSCTUF, 0x100002D6) \ /* Convert Floating-Point to Unsigned Integer */ \ V(efsctui, EFSCTUI, 0x100002D4) \ /* Convert Floating-Point to Unsigned Integer with Round toward Zero */ \ V(efsctuiz, EFSCTUIZ, 0x100002D8) \ /* Floating-Point Divide */ \ V(efsdiv, EFSDIV, 0x100002C9) \ /* Floating-Point Multiply */ \ V(efsmul, EFSMUL, 0x100002C8) \ /* Floating-Point Negative Absolute Value */ \ V(efsnabs, EFSNABS, 0x100002C5) \ /* Floating-Point Negate */ \ V(efsneg, EFSNEG, 0x100002C6) \ /* Floating-Point Subtract */ \ V(efssub, EFSSUB, 0x100002C1) \ /* Floating-Point Test Equal */ \ V(efststeq, EFSTSTEQ, 0x100002DE) \ /* Floating-Point Test Greater Than */ \ V(efststgt, EFSTSTGT, 0x100002DC) \ /* Floating-Point Test Less Than */ \ V(efststlt, EFSTSTLT, 0x100002DD) \ /* Vector Floating-Point Absolute Value */ \ V(evfsabs, EVFSABS, 0x10000284) \ /* Vector Floating-Point Add */ \ V(evfsadd, EVFSADD, 0x10000280) \ /* Vector Convert Floating-Point from Signed Fraction */ \ V(evfscfsf, EVFSCFSF, 0x10000293) \ /* Vector Convert Floating-Point from Signed Integer */ \ V(evfscfsi, EVFSCFSI, 0x10000291) \ /* Vector Convert Floating-Point from Unsigned Fraction */ \ V(evfscfuf, EVFSCFUF, 0x10000292) \ /* Vector Convert Floating-Point from Unsigned Integer */ \ V(evfscfui, EVFSCFUI, 0x10000290) \ /* Vector Floating-Point Compare Equal */ \ V(evfscmpeq, EVFSCMPEQ, 0x1000028E) \ /* Vector Floating-Point Compare Greater Than */ \ V(evfscmpgt, EVFSCMPGT, 0x1000028C) \ /* Vector Floating-Point Compare Less Than */ \ V(evfscmplt, EVFSCMPLT, 0x1000028D) \ /* Vector Convert Floating-Point to Signed Fraction */ \ V(evfsctsf, EVFSCTSF, 0x10000297) \ /* Vector Convert Floating-Point to Signed Integer */ \ V(evfsctsi, EVFSCTSI, 0x10000295) \ /* Vector Convert Floating-Point to Signed Integer with Round toward */ \ /* Zero */ \ V(evfsctsiz, EVFSCTSIZ, 0x1000029A) \ /* Vector Convert Floating-Point to Unsigned Fraction */ \ V(evfsctuf, EVFSCTUF, 0x10000296) \ /* Vector Convert Floating-Point to Unsigned Integer */ \ V(evfsctui, EVFSCTUI, 0x10000294) \ /* Vector Convert Floating-Point to Unsigned Integer with Round toward */ \ /* Zero */ \ V(evfsctuiz, EVFSCTUIZ, 0x10000298) \ /* Vector Floating-Point Divide */ \ V(evfsdiv, EVFSDIV, 0x10000289) \ /* Vector Floating-Point Multiply */ \ V(evfsmul, EVFSMUL, 0x10000288) \ /* Vector Floating-Point Negative Absolute Value */ \ V(evfsnabs, EVFSNABS, 0x10000285) \ /* Vector Floating-Point Negate */ \ V(evfsneg, EVFSNEG, 0x10000286) \ /* Vector Floating-Point Subtract */ \ V(evfssub, EVFSSUB, 0x10000281) \ /* Vector Floating-Point Test Equal */ \ V(evfststeq, EVFSTSTEQ, 0x1000029E) \ /* Vector Floating-Point Test Greater Than */ \ V(evfststgt, EVFSTSTGT, 0x1000029C) \ /* Vector Floating-Point Test Less Than */ \ V(evfststlt, EVFSTSTLT, 0x1000029D) #define PPC_VC_OPCODE_LIST(V) \ /* Vector Compare Bounds Single-Precision */ \ V(vcmpbfp, VCMPBFP, 0x100003C6) \ /* Vector Compare Equal To Single-Precision */ \ V(vcmpeqfp, VCMPEQFP, 0x100000C6) \ /* Vector Compare Equal To Unsigned Byte */ \ V(vcmpequb, VCMPEQUB, 0x10000006) \ /* Vector Compare Equal To Unsigned Doubleword */ \ V(vcmpequd, VCMPEQUD, 0x100000C7) \ /* Vector Compare Equal To Unsigned Halfword */ \ V(vcmpequh, VCMPEQUH, 0x10000046) \ /* Vector Compare Equal To Unsigned Word */ \ V(vcmpequw, VCMPEQUW, 0x10000086) \ /* Vector Compare Greater Than or Equal To Single-Precision */ \ V(vcmpgefp, VCMPGEFP, 0x100001C6) \ /* Vector Compare Greater Than Single-Precision */ \ V(vcmpgtfp, VCMPGTFP, 0x100002C6) \ /* Vector Compare Greater Than Signed Byte */ \ V(vcmpgtsb, VCMPGTSB, 0x10000306) \ /* Vector Compare Greater Than Signed Doubleword */ \ V(vcmpgtsd, VCMPGTSD, 0x100003C7) \ /* Vector Compare Greater Than Signed Halfword */ \ V(vcmpgtsh, VCMPGTSH, 0x10000346) \ /* Vector Compare Greater Than Signed Word */ \ V(vcmpgtsw, VCMPGTSW, 0x10000386) \ /* Vector Compare Greater Than Unsigned Byte */ \ V(vcmpgtub, VCMPGTUB, 0x10000206) \ /* Vector Compare Greater Than Unsigned Doubleword */ \ V(vcmpgtud, VCMPGTUD, 0x100002C7) \ /* Vector Compare Greater Than Unsigned Halfword */ \ V(vcmpgtuh, VCMPGTUH, 0x10000246) \ /* Vector Compare Greater Than Unsigned Word */ \ V(vcmpgtuw, VCMPGTUW, 0x10000286) #define PPC_X_OPCODE_LIST(V) \ /* Bit Permute Doubleword */ \ V(bpermd, BPERMD, 0x7C0001F8) \ /* Count Leading Zeros Doubleword */ \ V(cntlzd, CNTLZDX, 0x7C000074) \ /* Extend Sign Word */ \ V(extsw, EXTSW, 0x7C0007B4) \ /* Load Doubleword And Reserve Indexed */ \ V(ldarx, LDARX, 0x7C0000A8) \ /* Load Doubleword Byte-Reverse Indexed */ \ V(ldbrx, LDBRX, 0x7C000428) \ /* Load Doubleword with Update Indexed */ \ V(ldux, LDUX, 0x7C00006A) \ /* Load Doubleword Indexed */ \ V(ldx, LDX, 0x7C00002A) \ /* Load Word Algebraic with Update Indexed */ \ V(lwaux, LWAUX, 0x7C0002EA) \ /* Load Word Algebraic Indexed */ \ V(lwax, LWAX, 0x7C0002AA) \ /* Modulo Signed Dword */ \ V(modsd, MODSD, 0x7C000612) \ /* Modulo Unsigned Dword */ \ V(modud, MODUD, 0x7C000212) \ /* Population Count Doubleword */ \ V(popcntd, POPCNTD, 0x7C0003F4) \ /* Parity Doubleword */ \ V(prtyd, PRTYD, 0x7C000174) \ /* Shift Left Doubleword */ \ V(sld, SLDX, 0x7C000036) \ /* Shift Right Algebraic Doubleword */ \ V(srad, SRAD, 0x7C000634) \ /* Shift Right Doubleword */ \ V(srd, SRDX, 0x7C000436) \ /* Store Doubleword Byte-Reverse Indexed */ \ V(stdbrx, STDBRX, 0x7C000528) \ /* Store Doubleword Conditional Indexed & record CR0 */ \ V(stdcx, STDCX, 0x7C0001AD) \ /* Store Doubleword with Update Indexed */ \ V(stdux, STDUX, 0x7C00016A) \ /* Store Doubleword Indexed */ \ V(stdx, STDX, 0x7C00012A) \ /* Trap Doubleword */ \ V(td, TD, 0x7C000088) \ /* AND */ \ V(andx, ANDX, 0x7C000038) \ /* AND with Complement */ \ V(andc, ANDCX, 0x7C000078) \ /* Branch Conditional to Branch Target Address Register */ \ V(bctar, BCTAR, 0x4C000460) \ /* Compare */ \ V(cmp, CMP, 0x7C000000) \ /* Compare Byte */ \ V(cmpb, CMPB, 0x7C0003F8) \ /* Compare Logical */ \ V(cmpl, CMPL, 0x7C000040) \ /* Count Leading Zeros Word */ \ V(cntlzw, CNTLZWX, 0x7C000034) \ /* Data Cache Block Flush */ \ V(dcbf, DCBF, 0x7C0000AC) \ /* Data Cache Block Store */ \ V(dcbst, DCBST, 0x7C00006C) \ /* Data Cache Block Touch */ \ V(dcbt, DCBT, 0x7C00022C) \ /* Data Cache Block Touch for Store */ \ V(dcbtst, DCBTST, 0x7C0001EC) \ /* Data Cache Block Zero */ \ V(dcbz, DCBZ, 0x7C0007EC) \ /* Equivalent */ \ V(eqv, EQV, 0x7C000238) \ /* Extend Sign Byte */ \ V(extsb, EXTSB, 0x7C000774) \ /* Extend Sign Halfword */ \ V(extsh, EXTSH, 0x7C000734) \ /* Instruction Cache Block Invalidate */ \ V(icbi, ICBI, 0x7C0007AC) \ /* Load Byte And Reserve Indexed */ \ V(lbarx, LBARX, 0x7C000068) \ /* Load Byte and Zero with Update Indexed */ \ V(lbzux, LBZUX, 0x7C0000EE) \ /* Load Byte and Zero Indexed */ \ V(lbzx, LBZX, 0x7C0000AE) \ /* Load Halfword And Reserve Indexed Xform */ \ V(lharx, LHARX, 0x7C0000E8) \ /* Load Halfword Algebraic with Update Indexed */ \ V(lhaux, LHAUX, 0x7C0002EE) \ /* Load Halfword Algebraic Indexed */ \ V(lhax, LHAX, 0x7C0002AE) \ /* Load Halfword Byte-Reverse Indexed */ \ V(lhbrx, LHBRX, 0x7C00062C) \ /* Load Halfword and Zero with Update Indexed */ \ V(lhzux, LHZUX, 0x7C00026E) \ /* Load Halfword and Zero Indexed */ \ V(lhzx, LHZX, 0x7C00022E) \ /* Load Word and Reserve Indexed */ \ V(lwarx, LWARX, 0x7C000028) \ /* Load Word Byte-Reverse Indexed */ \ V(lwbrx, LWBRX, 0x7C00042C) \ /* Load Word and Zero with Update Indexed */ \ V(lwzux, LWZUX, 0x7C00006E) \ /* Load Word and Zero Indexed */ \ V(lwzx, LWZX, 0x7C00002E) \ /* Modulo Signed Word */ \ V(mods, MODSW, 0x7C000616) \ /* Modulo Unsigned Word */ \ V(moduw, MODUW, 0x7C000216) \ /* NAND */ \ V(nand, NAND, 0x7C0003B8) \ /* NOR */ \ V(nor, NORX, 0x7C0000F8) \ /* OR */ \ V(orx, ORX, 0x7C000378) \ /* OR with Complement */ \ V(orc, ORC, 0x7C000338) \ /* Population Count Byte-wise */ \ V(popcntb, POPCNTB, 0x7C0000F4) \ /* Population Count Words */ \ V(popcntw, POPCNTW, 0x7C0002F4) \ /* Parity Word */ \ V(prtyw, PRTYW, 0x7C000134) \ /* Shift Left Word */ \ V(slw, SLWX, 0x7C000030) \ /* Shift Right Algebraic Word */ \ V(sraw, SRAW, 0x7C000630) \ /* Shift Right Algebraic Word Immediate */ \ V(srawi, SRAWIX, 0x7C000670) \ /* Shift Right Word */ \ V(srw, SRWX, 0x7C000430) \ /* Store Byte Conditional Indexed */ \ V(stbcx, STBCX, 0x7C00056D) \ /* Store Byte with Update Indexed */ \ V(stbux, STBUX, 0x7C0001EE) \ /* Store Byte Indexed */ \ V(stbx, STBX, 0x7C0001AE) \ /* Store Halfword Byte-Reverse Indexed */ \ V(sthbrx, STHBRX, 0x7C00072C) \ /* Store Halfword Conditional Indexed Xform */ \ V(sthcx, STHCX, 0x7C0005AD) \ /* Store Halfword with Update Indexed */ \ V(sthux, STHUX, 0x7C00036E) \ /* Store Halfword Indexed */ \ V(sthx, STHX, 0x7C00032E) \ /* Store Word Byte-Reverse Indexed */ \ V(stwbrx, STWBRX, 0x7C00052C) \ /* Store Word Conditional Indexed & record CR0 */ \ V(stwcx, STWCX, 0x7C00012D) \ /* Store Word with Update Indexed */ \ V(stwux, STWUX, 0x7C00016E) \ /* Store Word Indexed */ \ V(stwx, STWX, 0x7C00012E) \ /* Synchronize */ \ V(sync, SYNC, 0x7C0004AC) \ /* Trap Word */ \ V(tw, TW, 0x7C000008) \ /* ExecuExecuted No Operation */ \ V(xnop, XNOP, 0x68000000) \ /* XOR */ \ V(xorx, XORX, 0x7C000278) \ /* Convert Binary Coded Decimal To Declets */ \ V(cbcdtd, CBCDTD, 0x7C000274) \ /* Convert Declets To Binary Coded Decimal */ \ V(cdtbcd, CDTBCD, 0x7C000234) \ /* Decimal Floating Add */ \ V(dadd, DADD, 0xEC000004) \ /* Decimal Floating Add Quad */ \ V(daddq, DADDQ, 0xFC000004) \ /* Decimal Floating Convert From Fixed */ \ V(dcffix, DCFFIX, 0xEC000644) \ /* Decimal Floating Convert From Fixed Quad */ \ V(dcffixq, DCFFIXQ, 0xFC000644) \ /* Decimal Floating Compare Ordered */ \ V(dcmpo, DCMPO, 0xEC000104) \ /* Decimal Floating Compare Ordered Quad */ \ V(dcmpoq, DCMPOQ, 0xFC000104) \ /* Decimal Floating Compare Unordered */ \ V(dcmpu, DCMPU, 0xEC000504) \ /* Decimal Floating Compare Unordered Quad */ \ V(dcmpuq, DCMPUQ, 0xFC000504) \ /* Decimal Floating Convert To DFP Long */ \ V(dctdp, DCTDP, 0xEC000204) \ /* Decimal Floating Convert To Fixed */ \ V(dctfix, DCTFIX, 0xEC000244) \ /* Decimal Floating Convert To Fixed Quad */ \ V(dctfixq, DCTFIXQ, 0xFC000244) \ /* Decimal Floating Convert To DFP Extended */ \ V(dctqpq, DCTQPQ, 0xFC000204) \ /* Decimal Floating Decode DPD To BCD */ \ V(ddedpd, DDEDPD, 0xEC000284) \ /* Decimal Floating Decode DPD To BCD Quad */ \ V(ddedpdq, DDEDPDQ, 0xFC000284) \ /* Decimal Floating Divide */ \ V(ddiv, DDIV, 0xEC000444) \ /* Decimal Floating Divide Quad */ \ V(ddivq, DDIVQ, 0xFC000444) \ /* Decimal Floating Encode BCD To DPD */ \ V(denbcd, DENBCD, 0xEC000684) \ /* Decimal Floating Encode BCD To DPD Quad */ \ V(denbcdq, DENBCDQ, 0xFC000684) \ /* Decimal Floating Insert Exponent */ \ V(diex, DIEX, 0xEC0006C4) \ /* Decimal Floating Insert Exponent Quad */ \ V(diexq, DIEXQ, 0xFC0006C4) \ /* Decimal Floating Multiply */ \ V(dmul, DMUL, 0xEC000044) \ /* Decimal Floating Multiply Quad */ \ V(dmulq, DMULQ, 0xFC000044) \ /* Decimal Floating Round To DFP Long */ \ V(drdpq, DRDPQ, 0xFC000604) \ /* Decimal Floating Round To DFP Short */ \ V(drsp, DRSP, 0xEC000604) \ /* Decimal Floating Subtract */ \ V(dsub, DSUB, 0xEC000404) \ /* Decimal Floating Subtract Quad */ \ V(dsubq, DSUBQ, 0xFC000404) \ /* Decimal Floating Test Exponent */ \ V(dtstex, DTSTEX, 0xEC000144) \ /* Decimal Floating Test Exponent Quad */ \ V(dtstexq, DTSTEXQ, 0xFC000144) \ /* Decimal Floating Test Significance */ \ V(dtstsf, DTSTSF, 0xEC000544) \ /* Decimal Floating Test Significance Quad */ \ V(dtstsfq, DTSTSFQ, 0xFC000544) \ /* Decimal Floating Extract Exponent */ \ V(dxex, DXEX, 0xEC0002C4) \ /* Decimal Floating Extract Exponent Quad */ \ V(dxexq, DXEXQ, 0xFC0002C4) \ /* Decorated Storage Notify */ \ V(dsn, DSN, 0x7C0003C6) \ /* Load Byte with Decoration Indexed */ \ V(lbdx, LBDX, 0x7C000406) \ /* Load Doubleword with Decoration Indexed */ \ V(lddx, LDDX, 0x7C0004C6) \ /* Load Floating Doubleword with Decoration Indexed */ \ V(lfddx, LFDDX, 0x7C000646) \ /* Load Halfword with Decoration Indexed */ \ V(lhdx, LHDX, 0x7C000446) \ /* Load Word with Decoration Indexed */ \ V(lwdx, LWDX, 0x7C000486) \ /* Store Byte with Decoration Indexed */ \ V(stbdx, STBDX, 0x7C000506) \ /* Store Doubleword with Decoration Indexed */ \ V(stddx, STDDX, 0x7C0005C6) \ /* Store Floating Doubleword with Decoration Indexed */ \ V(stfddx, STFDDX, 0x7C000746) \ /* Store Halfword with Decoration Indexed */ \ V(sthdx, STHDX, 0x7C000546) \ /* Store Word with Decoration Indexed */ \ V(stwdx, STWDX, 0x7C000586) \ /* Data Cache Block Allocate */ \ V(dcba, DCBA, 0x7C0005EC) \ /* Data Cache Block Invalidate */ \ V(dcbi, DCBI, 0x7C0003AC) \ /* Instruction Cache Block Touch */ \ V(icbt, ICBT, 0x7C00002C) \ /* Memory Barrier */ \ V(mbar, MBAR, 0x7C0006AC) \ /* Move to Condition Register from XER */ \ V(mcrxr, MCRXR, 0x7C000400) \ /* TLB Invalidate Local Indexed */ \ V(tlbilx, TLBILX, 0x7C000024) \ /* TLB Invalidate Virtual Address Indexed */ \ V(tlbivax, TLBIVAX, 0x7C000624) \ /* TLB Read Entry */ \ V(tlbre, TLBRE, 0x7C000764) \ /* TLB Search Indexed */ \ V(tlbsx, TLBSX, 0x7C000724) \ /* TLB Write Entry */ \ V(tlbwe, TLBWE, 0x7C0007A4) \ /* Write External Enable */ \ V(wrtee, WRTEE, 0x7C000106) \ /* Write External Enable Immediate */ \ V(wrteei, WRTEEI, 0x7C000146) \ /* Data Cache Read */ \ V(dcread, DCREAD, 0x7C00028C) \ /* Instruction Cache Read */ \ V(icread, ICREAD, 0x7C0007CC) \ /* Data Cache Invalidate */ \ V(dci, DCI, 0x7C00038C) \ /* Instruction Cache Invalidate */ \ V(ici, ICI, 0x7C00078C) \ /* Move From Device Control Register User Mode Indexed */ \ V(mfdcrux, MFDCRUX, 0x7C000246) \ /* Move From Device Control Register Indexed */ \ V(mfdcrx, MFDCRX, 0x7C000206) \ /* Move To Device Control Register User Mode Indexed */ \ V(mtdcrux, MTDCRUX, 0x7C000346) \ /* Move To Device Control Register Indexed */ \ V(mtdcrx, MTDCRX, 0x7C000306) \ /* Return From Debug Interrupt */ \ V(rfdi, RFDI, 0x4C00004E) \ /* Data Cache Block Flush by External PID */ \ V(dcbfep, DCBFEP, 0x7C0000FE) \ /* Data Cache Block Store by External PID */ \ V(dcbstep, DCBSTEP, 0x7C00007E) \ /* Data Cache Block Touch by External PID */ \ V(dcbtep, DCBTEP, 0x7C00027E) \ /* Data Cache Block Touch for Store by External PID */ \ V(dcbtstep, DCBTSTEP, 0x7C0001FE) \ /* Data Cache Block Zero by External PID */ \ V(dcbzep, DCBZEP, 0x7C0007FE) \ /* Instruction Cache Block Invalidate by External PID */ \ V(icbiep, ICBIEP, 0x7C0007BE) \ /* Load Byte and Zero by External PID Indexed */ \ V(lbepx, LBEPX, 0x7C0000BE) \ /* Load Floating-Point Double by External PID Indexed */ \ V(lfdepx, LFDEPX, 0x7C0004BE) \ /* Load Halfword and Zero by External PID Indexed */ \ V(lhepx, LHEPX, 0x7C00023E) \ /* Load Vector by External PID Indexed */ \ V(lvepx, LVEPX, 0x7C00024E) \ /* Load Vector by External PID Indexed Last */ \ V(lvepxl, LVEPXL, 0x7C00020E) \ /* Load Word and Zero by External PID Indexed */ \ V(lwepx, LWEPX, 0x7C00003E) \ /* Store Byte by External PID Indexed */ \ V(stbepx, STBEPX, 0x7C0001BE) \ /* Store Floating-Point Double by External PID Indexed */ \ V(stfdepx, STFDEPX, 0x7C0005BE) \ /* Store Halfword by External PID Indexed */ \ V(sthepx, STHEPX, 0x7C00033E) \ /* Store Vector by External PID Indexed */ \ V(stvepx, STVEPX, 0x7C00064E) \ /* Store Vector by External PID Indexed Last */ \ V(stvepxl, STVEPXL, 0x7C00060E) \ /* Store Word by External PID Indexed */ \ V(stwepx, STWEPX, 0x7C00013E) \ /* Load Doubleword by External PID Indexed */ \ V(ldepx, LDEPX, 0x7C00003A) \ /* Store Doubleword by External PID Indexed */ \ V(stdepx, STDEPX, 0x7C00013A) \ /* TLB Search and Reserve Indexed */ \ V(tlbsrx, TLBSRX, 0x7C0006A5) \ /* External Control In Word Indexed */ \ V(eciwx, ECIWX, 0x7C00026C) \ /* External Control Out Word Indexed */ \ V(ecowx, ECOWX, 0x7C00036C) \ /* Data Cache Block Lock Clear */ \ V(dcblc, DCBLC, 0x7C00030C) \ /* Data Cache Block Lock Query */ \ V(dcblq, DCBLQ, 0x7C00034D) \ /* Data Cache Block Touch and Lock Set */ \ V(dcbtls, DCBTLS, 0x7C00014C) \ /* Data Cache Block Touch for Store and Lock Set */ \ V(dcbtstls, DCBTSTLS, 0x7C00010C) \ /* Instruction Cache Block Lock Clear */ \ V(icblc, ICBLC, 0x7C0001CC) \ /* Instruction Cache Block Lock Query */ \ V(icblq, ICBLQ, 0x7C00018D) \ /* Instruction Cache Block Touch and Lock Set */ \ V(icbtls, ICBTLS, 0x7C0003CC) \ /* Floating Compare Ordered */ \ V(fcmpo, FCMPO, 0xFC000040) \ /* Floating Compare Unordered */ \ V(fcmpu, FCMPU, 0xFC000000) \ /* Floating Test for software Divide */ \ V(ftdiv, FTDIV, 0xFC000100) \ /* Floating Test for software Square Root */ \ V(ftsqrt, FTSQRT, 0xFC000140) \ /* Load Floating-Point Double with Update Indexed */ \ V(lfdux, LFDUX, 0x7C0004EE) \ /* Load Floating-Point Double Indexed */ \ V(lfdx, LFDX, 0x7C0004AE) \ /* Load Floating-Point as Integer Word Algebraic Indexed */ \ V(lfiwax, LFIWAX, 0x7C0006AE) \ /* Load Floating-Point as Integer Word and Zero Indexed */ \ V(lfiwzx, LFIWZX, 0x7C0006EE) \ /* Load Floating-Point Single with Update Indexed */ \ V(lfsux, LFSUX, 0x7C00046E) \ /* Load Floating-Point Single Indexed */ \ V(lfsx, LFSX, 0x7C00042E) \ /* Move To Condition Register from FPSCR */ \ V(mcrfs, MCRFS, 0xFC000080) \ /* Store Floating-Point Double with Update Indexed */ \ V(stfdux, STFDUX, 0x7C0005EE) \ /* Store Floating-Point Double Indexed */ \ V(stfdx, STFDX, 0x7C0005AE) \ /* Store Floating-Point as Integer Word Indexed */ \ V(stfiwx, STFIWX, 0x7C0007AE) \ /* Store Floating-Point Single with Update Indexed */ \ V(stfsux, STFSUX, 0x7C00056E) \ /* Store Floating-Point Single Indexed */ \ V(stfsx, STFSX, 0x7C00052E) \ /* Load Floating-Point Double Pair Indexed */ \ V(lfdpx, LFDPX, 0x7C00062E) \ /* Store Floating-Point Double Pair Indexed */ \ V(stfdpx, STFDPX, 0x7C00072E) \ /* Floating Absolute Value */ \ V(fabs, FABS, 0xFC000210) \ /* Floating Convert From Integer Doubleword */ \ V(fcfid, FCFID, 0xFC00069C) \ /* Floating Convert From Integer Doubleword Single */ \ V(fcfids, FCFIDS, 0xEC00069C) \ /* Floating Convert From Integer Doubleword Unsigned */ \ V(fcfidu, FCFIDU, 0xFC00079C) \ /* Floating Convert From Integer Doubleword Unsigned Single */ \ V(fcfidus, FCFIDUS, 0xEC00079C) \ /* Floating Copy Sign */ \ V(fcpsgn, FCPSGN, 0xFC000010) \ /* Floating Convert To Integer Doubleword */ \ V(fctid, FCTID, 0xFC00065C) \ /* Floating Convert To Integer Doubleword Unsigned */ \ V(fctidu, FCTIDU, 0xFC00075C) \ /* Floating Convert To Integer Doubleword Unsigned with round toward */ \ /* Zero */ \ V(fctiduz, FCTIDUZ, 0xFC00075E) \ /* Floating Convert To Integer Doubleword with round toward Zero */ \ V(fctidz, FCTIDZ, 0xFC00065E) \ /* Floating Convert To Integer Word */ \ V(fctiw, FCTIW, 0xFC00001C) \ /* Floating Convert To Integer Word Unsigned */ \ V(fctiwu, FCTIWU, 0xFC00011C) \ /* Floating Convert To Integer Word Unsigned with round toward Zero */ \ V(fctiwuz, FCTIWUZ, 0xFC00011E) \ /* Floating Convert To Integer Word with round to Zero */ \ V(fctiwz, FCTIWZ, 0xFC00001E) \ /* Floating Move Register */ \ V(fmr, FMR, 0xFC000090) \ /* Floating Negative Absolute Value */ \ V(fnabs, FNABS, 0xFC000110) \ /* Floating Negate */ \ V(fneg, FNEG, 0xFC000050) \ /* Floating Round to Single-Precision */ \ V(frsp, FRSP, 0xFC000018) \ /* Move From FPSCR */ \ V(mffs, MFFS, 0xFC00048E) \ /* Move To FPSCR Bit 0 */ \ V(mtfsb0, MTFSB0, 0xFC00008C) \ /* Move To FPSCR Bit 1 */ \ V(mtfsb1, MTFSB1, 0xFC00004C) \ /* Move To FPSCR Field Immediate */ \ V(mtfsfi, MTFSFI, 0xFC00010C) \ /* Floating Round To Integer Minus */ \ V(frim, FRIM, 0xFC0003D0) \ /* Floating Round To Integer Nearest */ \ V(frin, FRIN, 0xFC000310) \ /* Floating Round To Integer Plus */ \ V(frip, FRIP, 0xFC000390) \ /* Floating Round To Integer toward Zero */ \ V(friz, FRIZ, 0xFC000350) \ /* Multiply Cross Halfword to Word Signed */ \ V(mulchw, MULCHW, 0x10000150) \ /* Multiply Cross Halfword to Word Unsigned */ \ V(mulchwu, MULCHWU, 0x10000110) \ /* Multiply High Halfword to Word Signed */ \ V(mulhhw, MULHHW, 0x10000050) \ /* Multiply High Halfword to Word Unsigned */ \ V(mulhhwu, MULHHWU, 0x10000010) \ /* Multiply Low Halfword to Word Signed */ \ V(mullhw, MULLHW, 0x10000350) \ /* Multiply Low Halfword to Word Unsigned */ \ V(mullhwu, MULLHWU, 0x10000310) \ /* Determine Leftmost Zero Byte DQ 56 E0000000 P 58 LSQ lq Load Quadword */ \ V(dlmzb, DLMZB, 0x7C00009C) \ /* Load Quadword And Reserve Indexed */ \ V(lqarx, LQARX, 0x7C000228) \ /* Store Quadword Conditional Indexed and record CR0 */ \ V(stqcx, STQCX, 0x7C00016D) \ /* Load String Word Immediate */ \ V(lswi, LSWI, 0x7C0004AA) \ /* Load String Word Indexed */ \ V(lswx, LSWX, 0x7C00042A) \ /* Store String Word Immediate */ \ V(stswi, STSWI, 0x7C0005AA) \ /* Store String Word Indexed */ \ V(stswx, STSWX, 0x7C00052A) \ /* Clear BHRB */ \ V(clrbhrb, CLRBHRB, 0x7C00035C) \ /* Enforce In-order Execution of I/O */ \ V(eieio, EIEIO, 0x7C0006AC) \ /* Load Byte and Zero Caching Inhibited Indexed */ \ V(lbzcix, LBZCIX, 0x7C0006AA) \ /* Load Doubleword Caching Inhibited Indexed */ \ V(ldcix, LDCIX, 0x7C0006EA) \ /* Load Halfword and Zero Caching Inhibited Indexed */ \ V(lhzcix, LHZCIX, 0x7C00066A) \ /* Load Word and Zero Caching Inhibited Indexed */ \ V(lwzcix, LWZCIX, 0x7C00062A) \ /* Move From Segment Register */ \ V(mfsr, MFSR, 0x7C0004A6) \ /* Move From Segment Register Indirect */ \ V(mfsrin, MFSRIN, 0x7C000526) \ /* Move To Machine State Register Doubleword */ \ V(mtmsrd, MTMSRD, 0x7C000164) \ /* Move To Split Little Endian */ \ V(mtsle, MTSLE, 0x7C000126) \ /* Move To Segment Register */ \ V(mtsr, MTSR, 0x7C0001A4) \ /* Move To Segment Register Indirect */ \ V(mtsrin, MTSRIN, 0x7C0001E4) \ /* SLB Find Entry ESID */ \ V(slbfee, SLBFEE, 0x7C0007A7) \ /* SLB Invalidate All */ \ V(slbia, SLBIA, 0x7C0003E4) \ /* SLB Invalidate Entry */ \ V(slbie, SLBIE, 0x7C000364) \ /* SLB Move From Entry ESID */ \ V(slbmfee, SLBMFEE, 0x7C000726) \ /* SLB Move From Entry VSID */ \ V(slbmfev, SLBMFEV, 0x7C0006A6) \ /* SLB Move To Entry */ \ V(slbmte, SLBMTE, 0x7C000324) \ /* Store Byte Caching Inhibited Indexed */ \ V(stbcix, STBCIX, 0x7C0007AA) \ /* Store Doubleword Caching Inhibited Indexed */ \ V(stdcix, STDCIX, 0x7C0007EA) \ /* Store Halfword and Zero Caching Inhibited Indexed */ \ V(sthcix, STHCIX, 0x7C00076A) \ /* Store Word and Zero Caching Inhibited Indexed */ \ V(stwcix, STWCIX, 0x7C00072A) \ /* TLB Invalidate All */ \ V(tlbia, TLBIA, 0x7C0002E4) \ /* TLB Invalidate Entry */ \ V(tlbie, TLBIE, 0x7C000264) \ /* TLB Invalidate Entry Local */ \ V(tlbiel, TLBIEL, 0x7C000224) \ /* Message Clear Privileged */ \ V(msgclrp, MSGCLRP, 0x7C00015C) \ /* Message Send Privileged */ \ V(msgsndp, MSGSNDP, 0x7C00011C) \ /* Message Clear */ \ V(msgclr, MSGCLR, 0x7C0001DC) \ /* Message Send */ \ V(msgsnd, MSGSND, 0x7C00019C) \ /* Move From Machine State Register */ \ V(mfmsr, MFMSR, 0x7C0000A6) \ /* Move To Machine State Register */ \ V(mtmsr, MTMSR, 0x7C000124) \ /* TLB Synchronize */ \ V(tlbsync, TLBSYNC, 0x7C00046C) \ /* Transaction Abort */ \ V(tabort, TABORT, 0x7C00071D) \ /* Transaction Abort Doubleword Conditional */ \ V(tabortdc, TABORTDC, 0x7C00065D) \ /* Transaction Abort Doubleword Conditional Immediate */ \ V(tabortdci, TABORTDCI, 0x7C0006DD) \ /* Transaction Abort Word Conditional */ \ V(tabortwc, TABORTWC, 0x7C00061D) \ /* Transaction Abort Word Conditional Immediate */ \ V(tabortwci, TABORTWCI, 0x7C00069D) \ /* Transaction Begin */ \ V(tbegin, TBEGIN, 0x7C00051D) \ /* Transaction Check */ \ V(tcheck, TCHECK, 0x7C00059C) \ /* Transaction End */ \ V(tend, TEND, 0x7C00055C) \ /* Transaction Recheckpoint */ \ V(trechkpt, TRECHKPT, 0x7C0007DD) \ /* Transaction Reclaim */ \ V(treclaim, TRECLAIM, 0x7C00075D) \ /* Transaction Suspend or Resume */ \ V(tsr, TSR, 0x7C0005DC) \ /* Load Vector Element Byte Indexed */ \ V(lvebx, LVEBX, 0x7C00000E) \ /* Load Vector Element Halfword Indexed */ \ V(lvehx, LVEHX, 0x7C00004E) \ /* Load Vector Element Word Indexed */ \ V(lvewx, LVEWX, 0x7C00008E) \ /* Load Vector for Shift Left */ \ V(lvsl, LVSL, 0x7C00000C) \ /* Load Vector for Shift Right */ \ V(lvsr, LVSR, 0x7C00004C) \ /* Load Vector Indexed */ \ V(lvx, LVX, 0x7C0000CE) \ /* Load Vector Indexed Last */ \ V(lvxl, LVXL, 0x7C0002CE) \ /* Store Vector Element Byte Indexed */ \ V(stvebx, STVEBX, 0x7C00010E) \ /* Store Vector Element Halfword Indexed */ \ V(stvehx, STVEHX, 0x7C00014E) \ /* Store Vector Element Word Indexed */ \ V(stvewx, STVEWX, 0x7C00018E) \ /* Store Vector Indexed */ \ V(stvx, STVX, 0x7C0001CE) \ /* Store Vector Indexed Last */ \ V(stvxl, STVXL, 0x7C0003CE) \ /* Vector Minimum Signed Doubleword */ \ V(vminsd, VMINSD, 0x100003C2) \ /* Floating Merge Even Word */ \ V(fmrgew, FMRGEW, 0xFC00078C) \ /* Floating Merge Odd Word */ \ V(fmrgow, FMRGOW, 0xFC00068C) \ /* Wait for Interrupt */ \ V(wait, WAIT, 0x7C00007C) #define PPC_EVS_OPCODE_LIST(V) \ /* Vector Select */ \ V(evsel, EVSEL, 0x10000278) #define PPC_DS_OPCODE_LIST(V) \ /* Load Doubleword */ \ V(ld, LD, 0xE8000000) \ /* Load Doubleword with Update */ \ V(ldu, LDU, 0xE8000001) \ /* Load Word Algebraic */ \ V(lwa, LWA, 0xE8000002) \ /* Store Doubleword */ \ V(std, STD, 0xF8000000) \ /* Store Doubleword with Update */ \ V(stdu, STDU, 0xF8000001) \ /* Load Floating-Point Double Pair */ \ V(lfdp, LFDP, 0xE4000000) \ /* Store Floating-Point Double Pair */ \ V(stfdp, STFDP, 0xF4000000) \ /* Store Quadword */ \ V(stq, STQ, 0xF8000002) #define PPC_D_OPCODE_LIST(V) \ /* Trap Doubleword Immediate */ \ V(tdi, TDI, 0x08000000) \ /* Add Immediate */ \ V(addi, ADDI, 0x38000000) \ /* Add Immediate Carrying */ \ V(addic, ADDIC, 0x30000000) \ /* Add Immediate Carrying & record CR0 */ \ V(addicx, ADDICx, 0x34000000) \ /* Add Immediate Shifted */ \ V(addis, ADDIS, 0x3C000000) \ /* AND Immediate & record CR0 */ \ V(andix, ANDIx, 0x70000000) \ /* AND Immediate Shifted & record CR0 */ \ V(andisx, ANDISx, 0x74000000) \ /* Compare Immediate */ \ V(cmpi, CMPI, 0x2C000000) \ /* Compare Logical Immediate */ \ V(cmpli, CMPLI, 0x28000000) \ /* Load Byte and Zero */ \ V(lbz, LBZ, 0x88000000) \ /* Load Byte and Zero with Update */ \ V(lbzu, LBZU, 0x8C000000) \ /* Load Halfword Algebraic */ \ V(lha, LHA, 0xA8000000) \ /* Load Halfword Algebraic with Update */ \ V(lhau, LHAU, 0xAC000000) \ /* Load Halfword and Zero */ \ V(lhz, LHZ, 0xA0000000) \ /* Load Halfword and Zero with Update */ \ V(lhzu, LHZU, 0xA4000000) \ /* Load Multiple Word */ \ V(lmw, LMW, 0xB8000000) \ /* Load Word and Zero */ \ V(lwz, LWZ, 0x80000000) \ /* Load Word and Zero with Update */ \ V(lwzu, LWZU, 0x84000000) \ /* Multiply Low Immediate */ \ V(mulli, MULLI, 0x1C000000) \ /* OR Immediate */ \ V(ori, ORI, 0x60000000) \ /* OR Immediate Shifted */ \ V(oris, ORIS, 0x64000000) \ /* Store Byte */ \ V(stb, STB, 0x98000000) \ /* Store Byte with Update */ \ V(stbu, STBU, 0x9C000000) \ /* Store Halfword */ \ V(sth, STH, 0xB0000000) \ /* Store Halfword with Update */ \ V(sthu, STHU, 0xB4000000) \ /* Store Multiple Word */ \ V(stmw, STMW, 0xBC000000) \ /* Store Word */ \ V(stw, STW, 0x90000000) \ /* Store Word with Update */ \ V(stwu, STWU, 0x94000000) \ /* Subtract From Immediate Carrying */ \ V(subfic, SUBFIC, 0x20000000) \ /* Trap Word Immediate */ \ V(twi, TWI, 0x0C000000) \ /* XOR Immediate */ \ V(xori, XORI, 0x68000000) \ /* XOR Immediate Shifted */ \ V(xoris, XORIS, 0x6C000000) \ /* Load Floating-Point Double */ \ V(lfd, LFD, 0xC8000000) \ /* Load Floating-Point Double with Update */ \ V(lfdu, LFDU, 0xCC000000) \ /* Load Floating-Point Single */ \ V(lfs, LFS, 0xC0000000) \ /* Load Floating-Point Single with Update */ \ V(lfsu, LFSU, 0xC4000000) \ /* Store Floating-Point Double */ \ V(stfd, STFD, 0xD8000000) \ /* Store Floating-Point Double with Update */ \ V(stfdu, STFDU, 0xDC000000) \ /* Store Floating-Point Single */ \ V(stfs, STFS, 0xD0000000) \ /* Store Floating-Point Single with Update */ \ V(stfsu, STFSU, 0xD4000000) #define PPC_XFL_OPCODE_LIST(V) \ /* Move To FPSCR Fields */ \ V(mtfsf, MTFSF, 0xFC00058E) #define PPC_XFX_OPCODE_LIST(V) \ /* Move From Condition Register */ \ V(mfcr, MFCR, 0x7C000026) \ /* Move From One Condition Register Field */ \ V(mfocrf, MFOCRF, 0x7C100026) \ /* Move From Special Purpose Register */ \ V(mfspr, MFSPR, 0x7C0002A6) \ /* Move To Condition Register Fields */ \ V(mtcrf, MTCRF, 0x7C000120) \ /* Move To One Condition Register Field */ \ V(mtocrf, MTOCRF, 0x7C100120) \ /* Move To Special Purpose Register */ \ V(mtspr, MTSPR, 0x7C0003A6) \ /* Debugger Notify Halt */ \ V(dnh, DNH, 0x4C00018C) \ /* Move From Device Control Register */ \ V(mfdcr, MFDCR, 0x7C000286) \ /* Move To Device Control Register */ \ V(mtdcr, MTDCR, 0x7C000386) \ /* Move from Performance Monitor Register */ \ V(mfpmr, MFPMR, 0x7C00029C) \ /* Move To Performance Monitor Register */ \ V(mtpmr, MTPMR, 0x7C00039C) \ /* Move From Branch History Rolling Buffer */ \ V(mfbhrbe, MFBHRBE, 0x7C00025C) \ /* Move From Time Base */ \ V(mftb, MFTB, 0x7C0002E6) #define PPC_MDS_OPCODE_LIST(V) \ /* Rotate Left Doubleword then Clear Left */ \ V(rldcl, RLDCL, 0x78000010) \ /* Rotate Left Doubleword then Clear Right */ \ V(rldcr, RLDCR, 0x78000012) #define PPC_A_OPCODE_LIST(V) \ /* Integer Select */ \ V(isel, ISEL, 0x7C00001E) \ /* Floating Add */ \ V(fadd, FADD, 0xFC00002A) \ /* Floating Add Single */ \ V(fadds, FADDS, 0xEC00002A) \ /* Floating Divide */ \ V(fdiv, FDIV, 0xFC000024) \ /* Floating Divide Single */ \ V(fdivs, FDIVS, 0xEC000024) \ /* Floating Multiply-Add */ \ V(fmadd, FMADD, 0xFC00003A) \ /* Floating Multiply-Add Single */ \ V(fmadds, FMADDS, 0xEC00003A) \ /* Floating Multiply-Subtract */ \ V(fmsub, FMSUB, 0xFC000038) \ /* Floating Multiply-Subtract Single */ \ V(fmsubs, FMSUBS, 0xEC000038) \ /* Floating Multiply */ \ V(fmul, FMUL, 0xFC000032) \ /* Floating Multiply Single */ \ V(fmuls, FMULS, 0xEC000032) \ /* Floating Negative Multiply-Add */ \ V(fnmadd, FNMADD, 0xFC00003E) \ /* Floating Negative Multiply-Add Single */ \ V(fnmadds, FNMADDS, 0xEC00003E) \ /* Floating Negative Multiply-Subtract */ \ V(fnmsub, FNMSUB, 0xFC00003C) \ /* Floating Negative Multiply-Subtract Single */ \ V(fnmsubs, FNMSUBS, 0xEC00003C) \ /* Floating Reciprocal Estimate Single */ \ V(fres, FRES, 0xEC000030) \ /* Floating Reciprocal Square Root Estimate */ \ V(frsqrte, FRSQRTE, 0xFC000034) \ /* Floating Select */ \ V(fsel, FSEL, 0xFC00002E) \ /* Floating Square Root */ \ V(fsqrt, FSQRT, 0xFC00002C) \ /* Floating Square Root Single */ \ V(fsqrts, FSQRTS, 0xEC00002C) \ /* Floating Subtract */ \ V(fsub, FSUB, 0xFC000028) \ /* Floating Subtract Single */ \ V(fsubs, FSUBS, 0xEC000028) \ /* Floating Reciprocal Estimate */ \ V(fre, FRE, 0xFC000030) \ /* Floating Reciprocal Square Root Estimate Single */ \ V(frsqrtes, FRSQRTES, 0xEC000034) #define PPC_VA_OPCODE_LIST(V) \ /* Vector Add Extended & write Carry Unsigned Quadword */ \ V(vaddecuq, VADDECUQ, 0x1000003D) \ /* Vector Add Extended Unsigned Quadword Modulo */ \ V(vaddeuqm, VADDEUQM, 0x1000003C) \ /* Vector Multiply-Add Single-Precision */ \ V(vmaddfp, VMADDFP, 0x1000002E) \ /* Vector Multiply-High-Add Signed Halfword Saturate */ \ V(vmhaddshs, VMHADDSHS, 0x10000020) \ /* Vector Multiply-High-Round-Add Signed Halfword Saturate */ \ V(vmhraddshs, VMHRADDSHS, 0x10000021) \ /* Vector Multiply-Low-Add Unsigned Halfword Modulo */ \ V(vmladduhm, VMLADDUHM, 0x10000022) \ /* Vector Multiply-Sum Mixed Byte Modulo */ \ V(vmsummbm, VMSUMMBM, 0x10000025) \ /* Vector Multiply-Sum Signed Halfword Modulo */ \ V(vmsumshm, VMSUMSHM, 0x10000028) \ /* Vector Multiply-Sum Signed Halfword Saturate */ \ V(vmsumshs, VMSUMSHS, 0x10000029) \ /* Vector Multiply-Sum Unsigned Byte Modulo */ \ V(vmsumubm, VMSUMUBM, 0x10000024) \ /* Vector Multiply-Sum Unsigned Halfword Modulo */ \ V(vmsumuhm, VMSUMUHM, 0x10000026) \ /* Vector Multiply-Sum Unsigned Halfword Saturate */ \ V(vmsumuhs, VMSUMUHS, 0x10000027) \ /* Vector Negative Multiply-Subtract Single-Precision */ \ V(vnmsubfp, VNMSUBFP, 0x1000002F) \ /* Vector Permute */ \ V(vperm, VPERM, 0x1000002B) \ /* Vector Select */ \ V(vsel, VSEL, 0x1000002A) \ /* Vector Shift Left Double by Octet Immediate */ \ V(vsldoi, VSLDOI, 0x1000002C) \ /* Vector Subtract Extended & write Carry Unsigned Quadword */ \ V(vsubecuq, VSUBECUQ, 0x1000003F) \ /* Vector Subtract Extended Unsigned Quadword Modulo */ \ V(vsubeuqm, VSUBEUQM, 0x1000003E) \ /* Vector Permute and Exclusive-OR */ \ V(vpermxor, VPERMXOR, 0x1000002D) #define PPC_XX1_OPCODE_LIST(V) \ /* Load VSR Scalar Doubleword Indexed */ \ V(lxsdx, LXSDX, 0x7C000498) \ /* Load VSX Scalar as Integer Word Algebraic Indexed */ \ V(lxsiwax, LXSIWAX, 0x7C000098) \ /* Load VSX Scalar as Integer Word and Zero Indexed */ \ V(lxsiwzx, LXSIWZX, 0x7C000018) \ /* Load VSX Scalar Single-Precision Indexed */ \ V(lxsspx, LXSSPX, 0x7C000418) \ /* Load VSR Vector Doubleword*2 Indexed */ \ V(lxvd, LXVD, 0x7C000698) \ /* Load VSR Vector Doubleword & Splat Indexed */ \ V(lxvdsx, LXVDSX, 0x7C000298) \ /* Load VSR Vector Word*4 Indexed */ \ V(lxvw, LXVW, 0x7C000618) \ /* Move From VSR Doubleword */ \ V(mfvsrd, MFVSRD, 0x7C000066) \ /* Move From VSR Word and Zero */ \ V(mfvsrwz, MFVSRWZ, 0x7C0000E6) \ /* Store VSR Scalar Doubleword Indexed */ \ V(stxsdx, STXSDX, 0x7C000598) \ /* Store VSX Scalar as Integer Word Indexed */ \ V(stxsiwx, STXSIWX, 0x7C000118) \ /* Store VSR Scalar Word Indexed */ \ V(stxsspx, STXSSPX, 0x7C000518) \ /* Store VSR Vector Doubleword*2 Indexed */ \ V(stxvd, STXVD, 0x7C000798) \ /* Store VSR Vector Word*4 Indexed */ \ V(stxvw, STXVW, 0x7C000718) #define PPC_B_OPCODE_LIST(V) \ /* Branch Conditional */ \ V(bc, BCX, 0x40000000) #define PPC_XO_OPCODE_LIST(V) \ /* Divide Doubleword */ \ V(divd, DIVD, 0x7C0003D2) \ /* Divide Doubleword Extended */ \ V(divde, DIVDE, 0x7C000352) \ /* Divide Doubleword Extended & record OV */ \ V(divdeo, DIVDEO, 0x7C000752) \ /* Divide Doubleword Extended Unsigned */ \ V(divdeu, DIVDEU, 0x7C000312) \ /* Divide Doubleword Extended Unsigned & record OV */ \ V(divdeuo, DIVDEUO, 0x7C000712) \ /* Divide Doubleword & record OV */ \ V(divdo, DIVDO, 0x7C0007D2) \ /* Divide Doubleword Unsigned */ \ V(divdu, DIVDU, 0x7C000392) \ /* Divide Doubleword Unsigned & record OV */ \ V(divduo, DIVDUO, 0x7C000792) \ /* Multiply High Doubleword */ \ V(mulhd, MULHD, 0x7C000092) \ /* Multiply High Doubleword Unsigned */ \ V(mulhdu, MULHDU, 0x7C000012) \ /* Multiply Low Doubleword */ \ V(mulld, MULLD, 0x7C0001D2) \ /* Multiply Low Doubleword & record OV */ \ V(mulldo, MULLDO, 0x7C0005D2) \ /* Add */ \ V(add, ADDX, 0x7C000214) \ /* Add Carrying */ \ V(addc, ADDCX, 0x7C000014) \ /* Add Carrying & record OV */ \ V(addco, ADDCO, 0x7C000414) \ /* Add Extended */ \ V(adde, ADDEX, 0x7C000114) \ /* Add Extended & record OV & record OV */ \ V(addeo, ADDEO, 0x7C000514) \ /* Add to Minus One Extended */ \ V(addme, ADDME, 0x7C0001D4) \ /* Add to Minus One Extended & record OV */ \ V(addmeo, ADDMEO, 0x7C0005D4) \ /* Add & record OV */ \ V(addo, ADDO, 0x7C000614) \ /* Add to Zero Extended */ \ V(addze, ADDZEX, 0x7C000194) \ /* Add to Zero Extended & record OV */ \ V(addzeo, ADDZEO, 0x7C000594) \ /* Divide Word Format */ \ V(divw, DIVW, 0x7C0003D6) \ /* Divide Word Extended */ \ V(divwe, DIVWE, 0x7C000356) \ /* Divide Word Extended & record OV */ \ V(divweo, DIVWEO, 0x7C000756) \ /* Divide Word Extended Unsigned */ \ V(divweu, DIVWEU, 0x7C000316) \ /* Divide Word Extended Unsigned & record OV */ \ V(divweuo, DIVWEUO, 0x7C000716) \ /* Divide Word & record OV */ \ V(divwo, DIVWO, 0x7C0007D6) \ /* Divide Word Unsigned */ \ V(divwu, DIVWU, 0x7C000396) \ /* Divide Word Unsigned & record OV */ \ V(divwuo, DIVWUO, 0x7C000796) \ /* Multiply High Word */ \ V(mulhw, MULHWX, 0x7C000096) \ /* Multiply High Word Unsigned */ \ V(mulhwu, MULHWUX, 0x7C000016) \ /* Multiply Low Word */ \ V(mullw, MULLW, 0x7C0001D6) \ /* Multiply Low Word & record OV */ \ V(mullwo, MULLWO, 0x7C0005D6) \ /* Negate */ \ V(neg, NEGX, 0x7C0000D0) \ /* Negate & record OV */ \ V(nego, NEGO, 0x7C0004D0) \ /* Subtract From */ \ V(subf, SUBFX, 0x7C000050) \ /* Subtract From Carrying */ \ V(subfc, SUBFCX, 0x7C000010) \ /* Subtract From Carrying & record OV */ \ V(subfco, SUBFCO, 0x7C000410) \ /* Subtract From Extended */ \ V(subfe, SUBFEX, 0x7C000110) \ /* Subtract From Extended & record OV */ \ V(subfeo, SUBFEO, 0x7C000510) \ /* Subtract From Minus One Extended */ \ V(subfme, SUBFME, 0x7C0001D0) \ /* Subtract From Minus One Extended & record OV */ \ V(subfmeo, SUBFMEO, 0x7C0005D0) \ /* Subtract From & record OV */ \ V(subfo, SUBFO, 0x7C000450) \ /* Subtract From Zero Extended */ \ V(subfze, SUBFZE, 0x7C000190) \ /* Subtract From Zero Extended & record OV */ \ V(subfzeo, SUBFZEO, 0x7C000590) \ /* Add and Generate Sixes */ \ V(addg, ADDG, 0x7C000094) \ /* Multiply Accumulate Cross Halfword to Word Modulo Signed */ \ V(macchw, MACCHW, 0x10000158) \ /* Multiply Accumulate Cross Halfword to Word Modulo Signed & record OV */ \ V(macchwo, MACCHWO, 0x10000158) \ /* Multiply Accumulate Cross Halfword to Word Saturate Signed */ \ V(macchws, MACCHWS, 0x100001D8) \ /* Multiply Accumulate Cross Halfword to Word Saturate Signed & record */ \ /* OV */ \ V(macchwso, MACCHWSO, 0x100001D8) \ /* Multiply Accumulate Cross Halfword to Word Saturate Unsigned */ \ V(macchwsu, MACCHWSU, 0x10000198) \ /* Multiply Accumulate Cross Halfword to Word Saturate Unsigned & record */ \ /* OV */ \ V(macchwsuo, MACCHWSUO, 0x10000198) \ /* Multiply Accumulate Cross Halfword to Word Modulo Unsigned */ \ V(macchwu, MACCHWU, 0x10000118) \ /* Multiply Accumulate Cross Halfword to Word Modulo Unsigned & record */ \ /* OV */ \ V(macchwuo, MACCHWUO, 0x10000118) \ /* Multiply Accumulate High Halfword to Word Modulo Signed */ \ V(machhw, MACHHW, 0x10000058) \ /* Multiply Accumulate High Halfword to Word Modulo Signed & record OV */ \ V(machhwo, MACHHWO, 0x10000058) \ /* Multiply Accumulate High Halfword to Word Saturate Signed */ \ V(machhws, MACHHWS, 0x100000D8) \ /* Multiply Accumulate High Halfword to Word Saturate Signed & record OV */ \ V(machhwso, MACHHWSO, 0x100000D8) \ /* Multiply Accumulate High Halfword to Word Saturate Unsigned */ \ V(machhwsu, MACHHWSU, 0x10000098) \ /* Multiply Accumulate High Halfword to Word Saturate Unsigned & record */ \ /* OV */ \ V(machhwsuo, MACHHWSUO, 0x10000098) \ /* Multiply Accumulate High Halfword to Word Modulo Unsigned */ \ V(machhwu, MACHHWU, 0x10000018) \ /* Multiply Accumulate High Halfword to Word Modulo Unsigned & record OV */ \ V(machhwuo, MACHHWUO, 0x10000018) \ /* Multiply Accumulate Low Halfword to Word Modulo Signed */ \ V(maclhw, MACLHW, 0x10000358) \ /* Multiply Accumulate Low Halfword to Word Modulo Signed & record OV */ \ V(maclhwo, MACLHWO, 0x10000358) \ /* Multiply Accumulate Low Halfword to Word Saturate Signed */ \ V(maclhws, MACLHWS, 0x100003D8) \ /* Multiply Accumulate Low Halfword to Word Saturate Signed & record OV */ \ V(maclhwso, MACLHWSO, 0x100003D8) \ /* Multiply Accumulate Low Halfword to Word Saturate Unsigned */ \ V(maclhwsu, MACLHWSU, 0x10000398) \ /* Multiply Accumulate Low Halfword to Word Saturate Unsigned & record */ \ /* OV */ \ V(maclhwsuo, MACLHWSUO, 0x10000398) \ /* Multiply Accumulate Low Halfword to Word Modulo Unsigned */ \ V(maclhwu, MACLHWU, 0x10000318) \ /* Multiply Accumulate Low Halfword to Word Modulo Unsigned & record OV */ \ V(maclhwuo, MACLHWUO, 0x10000318) \ /* Negative Multiply Accumulate Cross Halfword to Word Modulo Signed */ \ V(nmacchw, NMACCHW, 0x1000015C) \ /* Negative Multiply Accumulate Cross Halfword to Word Modulo Signed & */ \ /* record OV */ \ V(nmacchwo, NMACCHWO, 0x1000015C) \ /* Negative Multiply Accumulate Cross Halfword to Word Saturate Signed */ \ V(nmacchws, NMACCHWS, 0x100001DC) \ /* Negative Multiply Accumulate Cross Halfword to Word Saturate Signed & */ \ /* record OV */ \ V(nmacchwso, NMACCHWSO, 0x100001DC) \ /* Negative Multiply Accumulate High Halfword to Word Modulo Signed */ \ V(nmachhw, NMACHHW, 0x1000005C) \ /* Negative Multiply Accumulate High Halfword to Word Modulo Signed & */ \ /* record OV */ \ V(nmachhwo, NMACHHWO, 0x1000005C) \ /* Negative Multiply Accumulate High Halfword to Word Saturate Signed */ \ V(nmachhws, NMACHHWS, 0x100000DC) \ /* Negative Multiply Accumulate High Halfword to Word Saturate Signed & */ \ /* record OV */ \ V(nmachhwso, NMACHHWSO, 0x100000DC) \ /* Negative Multiply Accumulate Low Halfword to Word Modulo Signed */ \ V(nmaclhw, NMACLHW, 0x1000035C) \ /* Negative Multiply Accumulate Low Halfword to Word Modulo Signed & */ \ /* record OV */ \ V(nmaclhwo, NMACLHWO, 0x1000035C) \ /* Negative Multiply Accumulate Low Halfword to Word Saturate Signed */ \ V(nmaclhws, NMACLHWS, 0x100003DC) \ /* Negative Multiply Accumulate Low Halfword to Word Saturate Signed & */ \ /* record OV */ \ V(nmaclhwso, NMACLHWSO, 0x100003DC) #define PPC_XL_OPCODE_LIST(V) \ /* Branch Conditional to Count Register */ \ V(bcctr, BCCTRX, 0x4C000420) \ /* Branch Conditional to Link Register */ \ V(bclr, BCLRX, 0x4C000020) \ /* Condition Register AND */ \ V(crand, CRAND, 0x4C000202) \ /* Condition Register AND with Complement */ \ V(crandc, CRANDC, 0x4C000102) \ /* Condition Register Equivalent */ \ V(creqv, CREQV, 0x4C000242) \ /* Condition Register NAND */ \ V(crnand, CRNAND, 0x4C0001C2) \ /* Condition Register NOR */ \ V(crnor, CRNOR, 0x4C000042) \ /* Condition Register OR */ \ V(cror, CROR, 0x4C000382) \ /* Condition Register OR with Complement */ \ V(crorc, CRORC, 0x4C000342) \ /* Condition Register XOR */ \ V(crxor, CRXOR, 0x4C000182) \ /* Instruction Synchronize */ \ V(isync, ISYNC, 0x4C00012C) \ /* Move Condition Register Field */ \ V(mcrf, MCRF, 0x4C000000) \ /* Return From Critical Interrupt */ \ V(rfci, RFCI, 0x4C000066) \ /* Return From Interrupt */ \ V(rfi, RFI, 0x4C000064) \ /* Return From Machine Check Interrupt */ \ V(rfmci, RFMCI, 0x4C00004C) \ /* Embedded Hypervisor Privilege */ \ V(ehpriv, EHPRIV, 0x7C00021C) \ /* Return From Guest Interrupt */ \ V(rfgi, RFGI, 0x4C0000CC) \ /* Doze */ \ V(doze, DOZE, 0x4C000324) \ /* Return From Interrupt Doubleword Hypervisor */ \ V(hrfid, HRFID, 0x4C000224) \ /* Nap */ \ V(nap, NAP, 0x4C000364) \ /* Return from Event Based Branch */ \ V(rfebb, RFEBB, 0x4C000124) \ /* Return from Interrupt Doubleword */ \ V(rfid, RFID, 0x4C000024) \ /* Rip Van Winkle */ \ V(rvwinkle, RVWINKLE, 0x4C0003E4) \ /* Sleep */ \ V(sleep, SLEEP, 0x4C0003A4) #define PPC_XX4_OPCODE_LIST(V) \ /* VSX Select */ \ V(xxsel, XXSEL, 0xF0000030) #define PPC_I_OPCODE_LIST(V) \ /* Branch */ \ V(b, BX, 0x48000000) #define PPC_M_OPCODE_LIST(V) \ /* Rotate Left Word Immediate then Mask Insert */ \ V(rlwimi, RLWIMIX, 0x50000000) \ /* Rotate Left Word Immediate then AND with Mask */ \ V(rlwinm, RLWINMX, 0x54000000) \ /* Rotate Left Word then AND with Mask */ \ V(rlwnm, RLWNMX, 0x5C000000) #define PPC_VX_OPCODE_LIST(V) \ /* Decimal Add Modulo */ \ V(bcdadd, BCDADD, 0xF0000400) \ /* Decimal Subtract Modulo */ \ V(bcdsub, BCDSUB, 0xF0000440) \ /* Move From Vector Status and Control Register */ \ V(mfvscr, MFVSCR, 0x10000604) \ /* Move To Vector Status and Control Register */ \ V(mtvscr, MTVSCR, 0x10000644) \ /* Vector Add & write Carry Unsigned Quadword */ \ V(vaddcuq, VADDCUQ, 0x10000140) \ /* Vector Add and Write Carry-Out Unsigned Word */ \ V(vaddcuw, VADDCUW, 0x10000180) \ /* Vector Add Single-Precision */ \ V(vaddfp, VADDFP, 0x1000000A) \ /* Vector Add Signed Byte Saturate */ \ V(vaddsbs, VADDSBS, 0x10000300) \ /* Vector Add Signed Halfword Saturate */ \ V(vaddshs, VADDSHS, 0x10000340) \ /* Vector Add Signed Word Saturate */ \ V(vaddsws, VADDSWS, 0x10000380) \ /* Vector Add Unsigned Byte Modulo */ \ V(vaddubm, VADDUBM, 0x10000000) \ /* Vector Add Unsigned Byte Saturate */ \ V(vaddubs, VADDUBS, 0x10000200) \ /* Vector Add Unsigned Doubleword Modulo */ \ V(vaddudm, VADDUDM, 0x100000C0) \ /* Vector Add Unsigned Halfword Modulo */ \ V(vadduhm, VADDUHM, 0x10000040) \ /* Vector Add Unsigned Halfword Saturate */ \ V(vadduhs, VADDUHS, 0x10000240) \ /* Vector Add Unsigned Quadword Modulo */ \ V(vadduqm, VADDUQM, 0x10000100) \ /* Vector Add Unsigned Word Modulo */ \ V(vadduwm, VADDUWM, 0x10000080) \ /* Vector Add Unsigned Word Saturate */ \ V(vadduws, VADDUWS, 0x10000280) \ /* Vector Logical AND */ \ V(vand, VAND, 0x10000404) \ /* Vector Logical AND with Complement */ \ V(vandc, VANDC, 0x10000444) \ /* Vector Average Signed Byte */ \ V(vavgsb, VAVGSB, 0x10000502) \ /* Vector Average Signed Halfword */ \ V(vavgsh, VAVGSH, 0x10000542) \ /* Vector Average Signed Word */ \ V(vavgsw, VAVGSW, 0x10000582) \ /* Vector Average Unsigned Byte */ \ V(vavgub, VAVGUB, 0x10000402) \ /* Vector Average Unsigned Halfword */ \ V(vavguh, VAVGUH, 0x10000442) \ /* Vector Average Unsigned Word */ \ V(vavguw, VAVGUW, 0x10000482) \ /* Vector Bit Permute Quadword */ \ V(vbpermq, VBPERMQ, 0x1000054C) \ /* Vector Convert From Signed Fixed-Point Word To Single-Precision */ \ V(vcfsx, VCFSX, 0x1000034A) \ /* Vector Convert From Unsigned Fixed-Point Word To Single-Precision */ \ V(vcfux, VCFUX, 0x1000030A) \ /* Vector Count Leading Zeros Byte */ \ V(vclzb, VCLZB, 0x10000702) \ /* Vector Count Leading Zeros Doubleword */ \ V(vclzd, VCLZD, 0x100007C2) \ /* Vector Count Leading Zeros Halfword */ \ V(vclzh, VCLZH, 0x10000742) \ /* Vector Count Leading Zeros Word */ \ V(vclzw, VCLZW, 0x10000782) \ /* Vector Convert From Single-Precision To Signed Fixed-Point Word */ \ /* Saturate */ \ V(vctsxs, VCTSXS, 0x100003CA) \ /* Vector Convert From Single-Precision To Unsigned Fixed-Point Word */ \ /* Saturate */ \ V(vctuxs, VCTUXS, 0x1000038A) \ /* Vector Equivalence */ \ V(veqv, VEQV, 0x10000684) \ /* Vector 2 Raised to the Exponent Estimate Single-Precision */ \ V(vexptefp, VEXPTEFP, 0x1000018A) \ /* Vector Gather Bits by Byte by Doubleword */ \ V(vgbbd, VGBBD, 0x1000050C) \ /* Vector Log Base 2 Estimate Single-Precision */ \ V(vlogefp, VLOGEFP, 0x100001CA) \ /* Vector Maximum Single-Precision */ \ V(vmaxfp, VMAXFP, 0x1000040A) \ /* Vector Maximum Signed Byte */ \ V(vmaxsb, VMAXSB, 0x10000102) \ /* Vector Maximum Signed Doubleword */ \ V(vmaxsd, VMAXSD, 0x100001C2) \ /* Vector Maximum Signed Halfword */ \ V(vmaxsh, VMAXSH, 0x10000142) \ /* Vector Maximum Signed Word */ \ V(vmaxsw, VMAXSW, 0x10000182) \ /* Vector Maximum Unsigned Byte */ \ V(vmaxub, VMAXUB, 0x10000002) \ /* Vector Maximum Unsigned Doubleword */ \ V(vmaxud, VMAXUD, 0x100000C2) \ /* Vector Maximum Unsigned Halfword */ \ V(vmaxuh, VMAXUH, 0x10000042) \ /* Vector Maximum Unsigned Word */ \ V(vmaxuw, VMAXUW, 0x10000082) \ /* Vector Minimum Single-Precision */ \ V(vminfp, VMINFP, 0x1000044A) \ /* Vector Minimum Signed Byte */ \ V(vminsb, VMINSB, 0x10000302) \ /* Vector Minimum Signed Halfword */ \ V(vminsh, VMINSH, 0x10000342) \ /* Vector Minimum Signed Word */ \ V(vminsw, VMINSW, 0x10000382) \ /* Vector Minimum Unsigned Byte */ \ V(vminub, VMINUB, 0x10000202) \ /* Vector Minimum Unsigned Doubleword */ \ V(vminud, VMINUD, 0x100002C2) \ /* Vector Minimum Unsigned Halfword */ \ V(vminuh, VMINUH, 0x10000242) \ /* Vector Minimum Unsigned Word */ \ V(vminuw, VMINUW, 0x10000282) \ /* Vector Merge High Byte */ \ V(vmrghb, VMRGHB, 0x1000000C) \ /* Vector Merge High Halfword */ \ V(vmrghh, VMRGHH, 0x1000004C) \ /* Vector Merge High Word */ \ V(vmrghw, VMRGHW, 0x1000008C) \ /* Vector Merge Low Byte */ \ V(vmrglb, VMRGLB, 0x1000010C) \ /* Vector Merge Low Halfword */ \ V(vmrglh, VMRGLH, 0x1000014C) \ /* Vector Merge Low Word */ \ V(vmrglw, VMRGLW, 0x1000018C) \ /* Vector Multiply Even Signed Byte */ \ V(vmulesb, VMULESB, 0x10000308) \ /* Vector Multiply Even Signed Halfword */ \ V(vmulesh, VMULESH, 0x10000348) \ /* Vector Multiply Even Signed Word */ \ V(vmulesw, VMULESW, 0x10000388) \ /* Vector Multiply Even Unsigned Byte */ \ V(vmuleub, VMULEUB, 0x10000208) \ /* Vector Multiply Even Unsigned Halfword */ \ V(vmuleuh, VMULEUH, 0x10000248) \ /* Vector Multiply Even Unsigned Word */ \ V(vmuleuw, VMULEUW, 0x10000288) \ /* Vector Multiply Odd Signed Byte */ \ V(vmulosb, VMULOSB, 0x10000108) \ /* Vector Multiply Odd Signed Halfword */ \ V(vmulosh, VMULOSH, 0x10000148) \ /* Vector Multiply Odd Signed Word */ \ V(vmulosw, VMULOSW, 0x10000188) \ /* Vector Multiply Odd Unsigned Byte */ \ V(vmuloub, VMULOUB, 0x10000008) \ /* Vector Multiply Odd Unsigned Halfword */ \ V(vmulouh, VMULOUH, 0x10000048) \ /* Vector Multiply Odd Unsigned Word */ \ V(vmulouw, VMULOUW, 0x10000088) \ /* Vector Multiply Unsigned Word Modulo */ \ V(vmuluwm, VMULUWM, 0x10000089) \ /* Vector NAND */ \ V(vnand, VNAND, 0x10000584) \ /* Vector Logical NOR */ \ V(vnor, VNOR, 0x10000504) \ /* Vector Logical OR */ \ V(vor, VOR, 0x10000484) \ /* Vector OR with Complement */ \ V(vorc, VORC, 0x10000544) \ /* Vector Pack Pixel */ \ V(vpkpx, VPKPX, 0x1000030E) \ /* Vector Pack Signed Doubleword Signed Saturate */ \ V(vpksdss, VPKSDSS, 0x100005CE) \ /* Vector Pack Signed Doubleword Unsigned Saturate */ \ V(vpksdus, VPKSDUS, 0x1000054E) \ /* Vector Pack Signed Halfword Signed Saturate */ \ V(vpkshss, VPKSHSS, 0x1000018E) \ /* Vector Pack Signed Halfword Unsigned Saturate */ \ V(vpkshus, VPKSHUS, 0x1000010E) \ /* Vector Pack Signed Word Signed Saturate */ \ V(vpkswss, VPKSWSS, 0x100001CE) \ /* Vector Pack Signed Word Unsigned Saturate */ \ V(vpkswus, VPKSWUS, 0x1000014E) \ /* Vector Pack Unsigned Doubleword Unsigned Modulo */ \ V(vpkudum, VPKUDUM, 0x1000044E) \ /* Vector Pack Unsigned Doubleword Unsigned Saturate */ \ V(vpkudus, VPKUDUS, 0x100004CE) \ /* Vector Pack Unsigned Halfword Unsigned Modulo */ \ V(vpkuhum, VPKUHUM, 0x1000000E) \ /* Vector Pack Unsigned Halfword Unsigned Saturate */ \ V(vpkuhus, VPKUHUS, 0x1000008E) \ /* Vector Pack Unsigned Word Unsigned Modulo */ \ V(vpkuwum, VPKUWUM, 0x1000004E) \ /* Vector Pack Unsigned Word Unsigned Saturate */ \ V(vpkuwus, VPKUWUS, 0x100000CE) \ /* Vector Polynomial Multiply-Sum Byte */ \ V(vpmsumb, VPMSUMB, 0x10000408) \ /* Vector Polynomial Multiply-Sum Doubleword */ \ V(vpmsumd, VPMSUMD, 0x100004C8) \ /* Vector Polynomial Multiply-Sum Halfword */ \ V(vpmsumh, VPMSUMH, 0x10000448) \ /* Vector Polynomial Multiply-Sum Word */ \ V(vpmsumw, VPMSUMW, 0x10000488) \ /* Vector Population Count Byte */ \ V(vpopcntb, VPOPCNTB, 0x10000703) \ /* Vector Population Count Doubleword */ \ V(vpopcntd, VPOPCNTD, 0x100007C3) \ /* Vector Population Count Halfword */ \ V(vpopcnth, VPOPCNTH, 0x10000743) \ /* Vector Population Count Word */ \ V(vpopcntw, VPOPCNTW, 0x10000783) \ /* Vector Reciprocal Estimate Single-Precision */ \ V(vrefp, VREFP, 0x1000010A) \ /* Vector Round to Single-Precision Integer toward -Infinity */ \ V(vrfim, VRFIM, 0x100002CA) \ /* Vector Round to Single-Precision Integer Nearest */ \ V(vrfin, VRFIN, 0x1000020A) \ /* Vector Round to Single-Precision Integer toward +Infinity */ \ V(vrfip, VRFIP, 0x1000028A) \ /* Vector Round to Single-Precision Integer toward Zero */ \ V(vrfiz, VRFIZ, 0x1000024A) \ /* Vector Rotate Left Byte */ \ V(vrlb, VRLB, 0x10000004) \ /* Vector Rotate Left Doubleword */ \ V(vrld, VRLD, 0x100000C4) \ /* Vector Rotate Left Halfword */ \ V(vrlh, VRLH, 0x10000044) \ /* Vector Rotate Left Word */ \ V(vrlw, VRLW, 0x10000084) \ /* Vector Reciprocal Square Root Estimate Single-Precision */ \ V(vrsqrtefp, VRSQRTEFP, 0x1000014A) \ /* Vector Shift Left */ \ V(vsl, VSL, 0x100001C4) \ /* Vector Shift Left Byte */ \ V(vslb, VSLB, 0x10000104) \ /* Vector Shift Left Doubleword */ \ V(vsld, VSLD, 0x100005C4) \ /* Vector Shift Left Halfword */ \ V(vslh, VSLH, 0x10000144) \ /* Vector Shift Left by Octet */ \ V(vslo, VSLO, 0x1000040C) \ /* Vector Shift Left Word */ \ V(vslw, VSLW, 0x10000184) \ /* Vector Splat Byte */ \ V(vspltb, VSPLTB, 0x1000020C) \ /* Vector Splat Halfword */ \ V(vsplth, VSPLTH, 0x1000024C) \ /* Vector Splat Immediate Signed Byte */ \ V(vspltisb, VSPLTISB, 0x1000030C) \ /* Vector Splat Immediate Signed Halfword */ \ V(vspltish, VSPLTISH, 0x1000034C) \ /* Vector Splat Immediate Signed Word */ \ V(vspltisw, VSPLTISW, 0x1000038C) \ /* Vector Splat Word */ \ V(vspltw, VSPLTW, 0x1000028C) \ /* Vector Shift Right */ \ V(vsr, VSR, 0x100002C4) \ /* Vector Shift Right Algebraic Byte */ \ V(vsrab, VSRAB, 0x10000304) \ /* Vector Shift Right Algebraic Doubleword */ \ V(vsrad, VSRAD, 0x100003C4) \ /* Vector Shift Right Algebraic Halfword */ \ V(vsrah, VSRAH, 0x10000344) \ /* Vector Shift Right Algebraic Word */ \ V(vsraw, VSRAW, 0x10000384) \ /* Vector Shift Right Byte */ \ V(vsrb, VSRB, 0x10000204) \ /* Vector Shift Right Doubleword */ \ V(vsrd, VSRD, 0x100006C4) \ /* Vector Shift Right Halfword */ \ V(vsrh, VSRH, 0x10000244) \ /* Vector Shift Right by Octet */ \ V(vsro, VSRO, 0x1000044C) \ /* Vector Shift Right Word */ \ V(vsrw, VSRW, 0x10000284) \ /* Vector Subtract & write Carry Unsigned Quadword */ \ V(vsubcuq, VSUBCUQ, 0x10000540) \ /* Vector Subtract and Write Carry-Out Unsigned Word */ \ V(vsubcuw, VSUBCUW, 0x10000580) \ /* Vector Subtract Single-Precision */ \ V(vsubfp, VSUBFP, 0x1000004A) \ /* Vector Subtract Signed Byte Saturate */ \ V(vsubsbs, VSUBSBS, 0x10000700) \ /* Vector Subtract Signed Halfword Saturate */ \ V(vsubshs, VSUBSHS, 0x10000740) \ /* Vector Subtract Signed Word Saturate */ \ V(vsubsws, VSUBSWS, 0x10000780) \ /* Vector Subtract Unsigned Byte Modulo */ \ V(vsububm, VSUBUBM, 0x10000400) \ /* Vector Subtract Unsigned Byte Saturate */ \ V(vsububs, VSUBUBS, 0x10000600) \ /* Vector Subtract Unsigned Doubleword Modulo */ \ V(vsubudm, VSUBUDM, 0x100004C0) \ /* Vector Subtract Unsigned Halfword Modulo */ \ V(vsubuhm, VSUBUHM, 0x10000440) \ /* Vector Subtract Unsigned Halfword Saturate */ \ V(vsubuhs, VSUBUHS, 0x10000640) \ /* Vector Subtract Unsigned Quadword Modulo */ \ V(vsubuqm, VSUBUQM, 0x10000500) \ /* Vector Subtract Unsigned Word Modulo */ \ V(vsubuwm, VSUBUWM, 0x10000480) \ /* Vector Subtract Unsigned Word Saturate */ \ V(vsubuws, VSUBUWS, 0x10000680) \ /* Vector Sum across Half Signed Word Saturate */ \ V(vsum2sws, VSUM2SWS, 0x10000688) \ /* Vector Sum across Quarter Signed Byte Saturate */ \ V(vsum4sbs, VSUM4SBS, 0x10000708) \ /* Vector Sum across Quarter Signed Halfword Saturate */ \ V(vsum4shs, VSUM4SHS, 0x10000648) \ /* Vector Sum across Quarter Unsigned Byte Saturate */ \ V(vsum4bus, VSUM4BUS, 0x10000608) \ /* Vector Sum across Signed Word Saturate */ \ V(vsumsws, VSUMSWS, 0x10000788) \ /* Vector Unpack High Pixel */ \ V(vupkhpx, VUPKHPX, 0x1000034E) \ /* Vector Unpack High Signed Byte */ \ V(vupkhsb, VUPKHSB, 0x1000020E) \ /* Vector Unpack High Signed Halfword */ \ V(vupkhsh, VUPKHSH, 0x1000024E) \ /* Vector Unpack High Signed Word */ \ V(vupkhsw, VUPKHSW, 0x1000064E) \ /* Vector Unpack Low Pixel */ \ V(vupklpx, VUPKLPX, 0x100003CE) \ /* Vector Unpack Low Signed Byte */ \ V(vupklsb, VUPKLSB, 0x1000028E) \ /* Vector Unpack Low Signed Halfword */ \ V(vupklsh, VUPKLSH, 0x100002CE) \ /* Vector Unpack Low Signed Word */ \ V(vupklsw, VUPKLSW, 0x100006CE) \ /* Vector Logical XOR */ \ V(vxor, VXOR, 0x100004C4) \ /* Vector AES Cipher */ \ V(vcipher, VCIPHER, 0x10000508) \ /* Vector AES Cipher Last */ \ V(vcipherlast, VCIPHERLAST, 0x10000509) \ /* Vector AES Inverse Cipher */ \ V(vncipher, VNCIPHER, 0x10000548) \ /* Vector AES Inverse Cipher Last */ \ V(vncipherlast, VNCIPHERLAST, 0x10000549) \ /* Vector AES S-Box */ \ V(vsbox, VSBOX, 0x100005C8) \ /* Vector SHA-512 Sigma Doubleword */ \ V(vshasigmad, VSHASIGMAD, 0x100006C2) \ /* Vector SHA-256 Sigma Word */ \ V(vshasigmaw, VSHASIGMAW, 0x10000682) \ /* Vector Merge Even Word */ \ V(vmrgew, VMRGEW, 0x1000078C) \ /* Vector Merge Odd Word */ \ V(vmrgow, VMRGOW, 0x1000068C) #define PPC_XS_OPCODE_LIST(V) \ /* Shift Right Algebraic Doubleword Immediate */ \ V(sradi, SRADIX, 0x7C000674) #define PPC_MD_OPCODE_LIST(V) \ /* Rotate Left Doubleword Immediate then Clear */ \ V(rldic, RLDIC, 0x78000008) \ /* Rotate Left Doubleword Immediate then Clear Left */ \ V(rldicl, RLDICL, 0x78000000) \ /* Rotate Left Doubleword Immediate then Clear Right */ \ V(rldicr, RLDICR, 0x78000004) \ /* Rotate Left Doubleword Immediate then Mask Insert */ \ V(rldimi, RLDIMI, 0x7800000C) #define PPC_SC_OPCODE_LIST(V) \ /* System Call */ \ V(sc, SC, 0x44000002) #define PPC_OPCODE_LIST(V) \ PPC_X_OPCODE_LIST(V) \ PPC_XO_OPCODE_LIST(V) \ PPC_DS_OPCODE_LIST(V) \ PPC_MDS_OPCODE_LIST(V) \ PPC_MD_OPCODE_LIST(V) \ PPC_XS_OPCODE_LIST(V) \ PPC_D_OPCODE_LIST(V) \ PPC_I_OPCODE_LIST(V) \ PPC_B_OPCODE_LIST(V) \ PPC_XL_OPCODE_LIST(V) \ PPC_A_OPCODE_LIST(V) \ PPC_XFX_OPCODE_LIST(V) \ PPC_M_OPCODE_LIST(V) \ PPC_SC_OPCODE_LIST(V) \ PPC_Z23_OPCODE_LIST(V) \ PPC_Z22_OPCODE_LIST(V) \ PPC_EVX_OPCODE_LIST(V) \ PPC_XFL_OPCODE_LIST(V) \ PPC_EVS_OPCODE_LIST(V) \ PPC_VX_OPCODE_LIST(V) \ PPC_VA_OPCODE_LIST(V) \ PPC_VC_OPCODE_LIST(V) \ PPC_XX1_OPCODE_LIST(V) \ PPC_XX2_OPCODE_LIST(V) \ PPC_XX3_OPCODE_LIST(V) \ PPC_XX4_OPCODE_LIST(V) enum Opcode : uint32_t { #define DECLARE_INSTRUCTION(name, opcode_name, opcode_value) \ opcode_name = opcode_value, PPC_OPCODE_LIST(DECLARE_INSTRUCTION) #undef DECLARE_INSTRUCTION EXT1 = 0x4C000000, // Extended code set 1 EXT2 = 0x7C000000, // Extended code set 2 EXT3 = 0xEC000000, // Extended code set 3 EXT4 = 0xFC000000, // Extended code set 4 EXT5 = 0x78000000, // Extended code set 5 - 64bit only EXT6 = 0xF0000000, // Extended code set 6 }; // Instruction encoding bits and masks. enum { // Instruction encoding bit B1 = 1 << 1, B2 = 1 << 2, B3 = 1 << 3, B4 = 1 << 4, B5 = 1 << 5, B7 = 1 << 7, B8 = 1 << 8, B9 = 1 << 9, B12 = 1 << 12, B18 = 1 << 18, B19 = 1 << 19, B20 = 1 << 20, B22 = 1 << 22, B23 = 1 << 23, B24 = 1 << 24, B25 = 1 << 25, B26 = 1 << 26, B27 = 1 << 27, B28 = 1 << 28, B6 = 1 << 6, B10 = 1 << 10, B11 = 1 << 11, B16 = 1 << 16, B17 = 1 << 17, B21 = 1 << 21, // Instruction bit masks kCondMask = 0x1F << 21, kOff12Mask = (1 << 12) - 1, kImm24Mask = (1 << 24) - 1, kOff16Mask = (1 << 16) - 1, kImm16Mask = (1 << 16) - 1, kImm26Mask = (1 << 26) - 1, kBOfieldMask = 0x1f << 21, kOpcodeMask = 0x3f << 26, kExt1OpcodeMask = 0x3ff << 1, kExt2OpcodeMask = 0x3ff << 1, kExt2OpcodeVariant2Mask = 0x1ff << 2, kExt5OpcodeMask = 0x3 << 2, kBOMask = 0x1f << 21, kBIMask = 0x1F << 16, kBDMask = 0x14 << 2, kAAMask = 0x01 << 1, kLKMask = 0x01, kRCMask = 0x01, kTOMask = 0x1f << 21 }; // ----------------------------------------------------------------------------- // Addressing modes and instruction variants. // Overflow Exception enum OEBit { SetOE = 1 << 10, // Set overflow exception LeaveOE = 0 << 10 // No overflow exception }; // Record bit enum RCBit { // Bit 0 SetRC = 1, // LT,GT,EQ,SO LeaveRC = 0 // None }; // Link bit enum LKBit { // Bit 0 SetLK = 1, // Load effective address of next instruction LeaveLK = 0 // No action }; enum BOfield { // Bits 25-21 DCBNZF = 0 << 21, // Decrement CTR; branch if CTR != 0 and condition false DCBEZF = 2 << 21, // Decrement CTR; branch if CTR == 0 and condition false BF = 4 << 21, // Branch if condition false DCBNZT = 8 << 21, // Decrement CTR; branch if CTR != 0 and condition true DCBEZT = 10 << 21, // Decrement CTR; branch if CTR == 0 and condition true BT = 12 << 21, // Branch if condition true DCBNZ = 16 << 21, // Decrement CTR; branch if CTR != 0 DCBEZ = 18 << 21, // Decrement CTR; branch if CTR == 0 BA = 20 << 21 // Branch always }; #if V8_OS_AIX #undef CR_LT #undef CR_GT #undef CR_EQ #undef CR_SO #endif enum CRBit { CR_LT = 0, CR_GT = 1, CR_EQ = 2, CR_SO = 3, CR_FU = 3 }; #define CRWIDTH 4 // These are the documented bit positions biased down by 32 enum FPSCRBit { VXSOFT = 21, // 53: Software-Defined Condition VXSQRT = 22, // 54: Invalid Square Root VXCVI = 23 // 55: Invalid Integer Convert }; // ----------------------------------------------------------------------------- // Supervisor Call (svc) specific support. // Special Software Interrupt codes when used in the presence of the PPC // simulator. // svc (formerly swi) provides a 24bit immediate value. Use bits 22:0 for // standard SoftwareInterrupCode. Bit 23 is reserved for the stop feature. enum SoftwareInterruptCodes { // transition to C code kCallRtRedirected = 0x10, // break point kBreakpoint = 0x821008, // bits23-0 of 0x7d821008 = twge r2, r2 // stop kStopCode = 1 << 23 }; const uint32_t kStopCodeMask = kStopCode - 1; const uint32_t kMaxStopCode = kStopCode - 1; const int32_t kDefaultStopCode = -1; // FP rounding modes. enum FPRoundingMode { RN = 0, // Round to Nearest. RZ = 1, // Round towards zero. RP = 2, // Round towards Plus Infinity. RM = 3, // Round towards Minus Infinity. // Aliases. kRoundToNearest = RN, kRoundToZero = RZ, kRoundToPlusInf = RP, kRoundToMinusInf = RM }; const uint32_t kFPRoundingModeMask = 3; enum CheckForInexactConversion { kCheckForInexactConversion, kDontCheckForInexactConversion }; // ----------------------------------------------------------------------------- // Specific instructions, constants, and masks. // These constants are declared in assembler-arm.cc, as they use named registers // and other constants. // add(sp, sp, 4) instruction (aka Pop()) extern const Instr kPopInstruction; // str(r, MemOperand(sp, 4, NegPreIndex), al) instruction (aka push(r)) // register r is not encoded. extern const Instr kPushRegPattern; // ldr(r, MemOperand(sp, 4, PostIndex), al) instruction (aka pop(r)) // register r is not encoded. extern const Instr kPopRegPattern; // use TWI to indicate redirection call for simulation mode const Instr rtCallRedirInstr = TWI; // ----------------------------------------------------------------------------- // Instruction abstraction. // The class Instruction enables access to individual fields defined in the PPC // architecture instruction set encoding. // Note that the Assembler uses typedef int32_t Instr. // // Example: Test whether the instruction at ptr does set the condition code // bits. // // bool InstructionSetsConditionCodes(byte* ptr) { // Instruction* instr = Instruction::At(ptr); // int type = instr->TypeValue(); // return ((type == 0) || (type == 1)) && instr->HasS(); // } // class Instruction { public: enum { kInstrSize = 4, kInstrSizeLog2 = 2, kPCReadOffset = 8 }; // Helper macro to define static accessors. // We use the cast to char* trick to bypass the strict anti-aliasing rules. #define DECLARE_STATIC_TYPED_ACCESSOR(return_type, Name) \ static inline return_type Name(Instr instr) { \ char* temp = reinterpret_cast(&instr); \ return reinterpret_cast(temp)->Name(); \ } #define DECLARE_STATIC_ACCESSOR(Name) DECLARE_STATIC_TYPED_ACCESSOR(int, Name) // Get the raw instruction bits. inline Instr InstructionBits() const { return *reinterpret_cast(this); } // Set the raw instruction bits to value. inline void SetInstructionBits(Instr value) { *reinterpret_cast(this) = value; } // Read one particular bit out of the instruction bits. inline int Bit(int nr) const { return (InstructionBits() >> nr) & 1; } // Read a bit field's value out of the instruction bits. inline int Bits(int hi, int lo) const { return (InstructionBits() >> lo) & ((2 << (hi - lo)) - 1); } // Read a bit field out of the instruction bits. inline uint32_t BitField(int hi, int lo) const { return InstructionBits() & (((2 << (hi - lo)) - 1) << lo); } // Static support. // Read one particular bit out of the instruction bits. static inline int Bit(Instr instr, int nr) { return (instr >> nr) & 1; } // Read the value of a bit field out of the instruction bits. static inline int Bits(Instr instr, int hi, int lo) { return (instr >> lo) & ((2 << (hi - lo)) - 1); } // Read a bit field out of the instruction bits. static inline uint32_t BitField(Instr instr, int hi, int lo) { return instr & (((2 << (hi - lo)) - 1) << lo); } inline int RSValue() const { return Bits(25, 21); } inline int RTValue() const { return Bits(25, 21); } inline int RAValue() const { return Bits(20, 16); } DECLARE_STATIC_ACCESSOR(RAValue); inline int RBValue() const { return Bits(15, 11); } DECLARE_STATIC_ACCESSOR(RBValue); inline int RCValue() const { return Bits(10, 6); } DECLARE_STATIC_ACCESSOR(RCValue); inline int OpcodeValue() const { return static_cast(Bits(31, 26)); } inline Opcode OpcodeField() const { return static_cast(BitField(31, 26)); } // Fields used in Software interrupt instructions inline SoftwareInterruptCodes SvcValue() const { return static_cast(Bits(23, 0)); } // Instructions are read of out a code stream. The only way to get a // reference to an instruction is to convert a pointer. There is no way // to allocate or create instances of class Instruction. // Use the At(pc) function to create references to Instruction. static Instruction* At(byte* pc) { return reinterpret_cast(pc); } private: // We need to prevent the creation of instances of class Instruction. DISALLOW_IMPLICIT_CONSTRUCTORS(Instruction); }; // Helper functions for converting between register numbers and names. class Registers { public: // Lookup the register number for the name provided. static int Number(const char* name); private: static const char* names_[kNumRegisters]; }; // Helper functions for converting between FP register numbers and names. class DoubleRegisters { public: // Lookup the register number for the name provided. static int Number(const char* name); private: static const char* names_[kNumDoubleRegisters]; }; } // namespace internal } // namespace v8 #endif // V8_PPC_CONSTANTS_PPC_H_