1/* 2 * Copyright (c) 2010 ARM Limited 3 * All rights reserved 4 * 5 * The license below extends only to copyright in the software and shall 6 * not be construed as granting a license to any other intellectual 7 * property including but not limited to intellectual property relating 8 * to a hardware implementation of the functionality of the software --- 96 unchanged lines hidden (view full) --- 105 VfpRoundZero = 3 106}; 107 108template <class fpType> 109static inline void 110vfpFlushToZero(uint32_t &_fpscr, fpType &op) 111{ 112 FPSCR fpscr = _fpscr; |
113 fpType junk = 0.0; |
114 if (fpscr.fz == 1 && (std::fpclassify(op) == FP_SUBNORMAL)) { 115 fpscr.idc = 1; |
116 uint64_t bitMask = ULL(0x1) << (sizeof(fpType) * 8 - 1); 117 op = bitsToFp(fpToBits(op) & bitMask, junk); |
118 } 119 _fpscr = fpscr; 120} 121 122template <class fpType> 123static inline void 124vfpFlushToZero(uint32_t &fpscr, fpType &op1, fpType &op2) 125{ 126 vfpFlushToZero(fpscr, op1); 127 vfpFlushToZero(fpscr, op2); 128} 129 |
130template <class fpType> 131static inline bool 132flushToZero(fpType &op) 133{ 134 fpType junk = 0.0; 135 if (std::fpclassify(op) == FP_SUBNORMAL) { 136 uint64_t bitMask = ULL(0x1) << (sizeof(fpType) * 8 - 1); 137 op = bitsToFp(fpToBits(op) & bitMask, junk); 138 return true; 139 } 140 return false; 141} 142 143template <class fpType> 144static inline bool 145flushToZero(fpType &op1, fpType &op2) 146{ 147 bool flush1 = flushToZero(op1); 148 bool flush2 = flushToZero(op2); 149 return flush1 || flush2; 150} 151 |
152static inline uint32_t 153fpToBits(float fp) 154{ 155 union 156 { 157 float fp; 158 uint32_t bits; 159 } val; --- 32 unchanged lines hidden (view full) --- 192 { 193 double fp; 194 uint64_t bits; 195 } val; 196 val.bits = bits; 197 return val.fp; 198} 199 |
200typedef int VfpSavedState; 201 202static inline VfpSavedState 203prepVfpFpscr(FPSCR fpscr) 204{ 205 int roundingMode = fegetround(); 206 feclearexcept(FeAllExceptions); 207 switch (fpscr.rMode) { 208 case VfpRoundNearest: 209 fesetround(FeRoundNearest); 210 break; 211 case VfpRoundUpward: 212 fesetround(FeRoundUpward); 213 break; 214 case VfpRoundDown: 215 fesetround(FeRoundDown); 216 break; 217 case VfpRoundZero: 218 fesetround(FeRoundZero); 219 break; 220 } 221 return roundingMode; 222} 223 224static inline VfpSavedState 225prepFpState(uint32_t rMode) 226{ 227 int roundingMode = fegetround(); 228 feclearexcept(FeAllExceptions); 229 switch (rMode) { 230 case VfpRoundNearest: 231 fesetround(FeRoundNearest); 232 break; 233 case VfpRoundUpward: 234 fesetround(FeRoundUpward); 235 break; 236 case VfpRoundDown: 237 fesetround(FeRoundDown); 238 break; 239 case VfpRoundZero: 240 fesetround(FeRoundZero); 241 break; 242 } 243 return roundingMode; 244} 245 246static inline FPSCR 247setVfpFpscr(FPSCR fpscr, VfpSavedState state) 248{ 249 int exceptions = fetestexcept(FeAllExceptions); 250 if (exceptions & FeInvalid) { 251 fpscr.ioc = 1; 252 } 253 if (exceptions & FeDivByZero) { 254 fpscr.dzc = 1; 255 } 256 if (exceptions & FeOverflow) { 257 fpscr.ofc = 1; 258 } 259 if (exceptions & FeUnderflow) { 260 fpscr.ufc = 1; 261 } 262 if (exceptions & FeInexact) { 263 fpscr.ixc = 1; 264 } 265 fesetround(state); 266 return fpscr; 267} 268 269static inline void 270finishVfp(FPSCR &fpscr, VfpSavedState state) 271{ 272 int exceptions = fetestexcept(FeAllExceptions); 273 bool underflow = false; 274 if (exceptions & FeInvalid) { 275 fpscr.ioc = 1; 276 } 277 if (exceptions & FeDivByZero) { 278 fpscr.dzc = 1; 279 } 280 if (exceptions & FeOverflow) { 281 fpscr.ofc = 1; 282 } 283 if (exceptions & FeUnderflow) { 284 underflow = true; 285 fpscr.ufc = 1; 286 } 287 if ((exceptions & FeInexact) && !(underflow && fpscr.fz)) { 288 fpscr.ixc = 1; 289 } 290 fesetround(state); 291} 292 |
293template <class fpType> 294static inline fpType 295fixDest(FPSCR fpscr, fpType val, fpType op1) 296{ 297 int fpClass = std::fpclassify(val); 298 fpType junk = 0.0; 299 if (fpClass == FP_NAN) { 300 const bool single = (sizeof(val) == sizeof(float)); 301 const uint64_t qnan = single ? 0x7fc00000 : ULL(0x7ff8000000000000); 302 const bool nan = std::isnan(op1); 303 if (!nan || (fpscr.dn == 1)) { 304 val = bitsToFp(qnan, junk); 305 } else if (nan) { 306 val = bitsToFp(fpToBits(op1) | qnan, junk); 307 } 308 } else if (fpClass == FP_SUBNORMAL && fpscr.fz == 1) { 309 // Turn val into a zero with the correct sign; 310 uint64_t bitMask = ULL(0x1) << (sizeof(fpType) * 8 - 1); 311 val = bitsToFp(fpToBits(val) & bitMask, junk); |
312 feclearexcept(FeInexact); |
313 feraiseexcept(FeUnderflow); 314 } 315 return val; 316} 317 318template <class fpType> 319static inline fpType 320fixDest(FPSCR fpscr, fpType val, fpType op1, fpType op2) --- 17 unchanged lines hidden (view full) --- 338 val = op1; 339 } else if (nan2) { 340 val = op2; 341 } 342 } else if (fpClass == FP_SUBNORMAL && fpscr.fz == 1) { 343 // Turn val into a zero with the correct sign; 344 uint64_t bitMask = ULL(0x1) << (sizeof(fpType) * 8 - 1); 345 val = bitsToFp(fpToBits(val) & bitMask, junk); |
346 feclearexcept(FeInexact); |
347 feraiseexcept(FeUnderflow); 348 } 349 return val; 350} 351 352template <class fpType> 353static inline fpType |
354fixDivDest(FPSCR fpscr, fpType val, fpType op1, fpType op2) 355{ 356 fpType mid = fixDest(fpscr, val, op1, op2); 357 const bool single = (sizeof(fpType) == sizeof(float)); 358 const fpType junk = 0.0; 359 if ((single && (val == bitsToFp(0x00800000, junk) || 360 val == bitsToFp(0x80800000, junk))) || 361 (!single && (val == bitsToFp(ULL(0x0010000000000000), junk) || 362 val == bitsToFp(ULL(0x8010000000000000), junk))) 363 ) { 364 __asm__ __volatile__("" : "=m" (op1) : "m" (op1)); 365 fesetround(FeRoundZero); 366 fpType temp = 0.0; 367 __asm__ __volatile__("" : "=m" (temp) : "m" (temp)); 368 temp = op1 / op2; |
369 if (flushToZero(temp)) { |
370 feraiseexcept(FeUnderflow); |
371 if (fpscr.fz) { 372 feclearexcept(FeInexact); 373 mid = temp; 374 } |
375 } 376 __asm__ __volatile__("" :: "m" (temp)); 377 } 378 return mid; 379} 380 381static inline float 382fixFpDFpSDest(FPSCR fpscr, double val) 383{ 384 const float junk = 0.0; 385 float op1 = 0.0; 386 if (std::isnan(val)) { 387 uint64_t valBits = fpToBits(val); 388 uint32_t op1Bits = bits(valBits, 50, 29) | 389 (mask(9) << 22) | 390 (bits(valBits, 63) << 31); 391 op1 = bitsToFp(op1Bits, junk); 392 } 393 float mid = fixDest(fpscr, (float)val, op1); |
394 if (fpscr.fz && fetestexcept(FeUnderflow | FeInexact) == 395 (FeUnderflow | FeInexact)) { 396 feclearexcept(FeInexact); 397 } |
398 if (mid == bitsToFp(0x00800000, junk) || 399 mid == bitsToFp(0x80800000, junk)) { 400 __asm__ __volatile__("" : "=m" (val) : "m" (val)); 401 fesetround(FeRoundZero); 402 float temp = 0.0; 403 __asm__ __volatile__("" : "=m" (temp) : "m" (temp)); 404 temp = val; |
405 if (flushToZero(temp)) { |
406 feraiseexcept(FeUnderflow); |
407 if (fpscr.fz) { 408 feclearexcept(FeInexact); 409 mid = temp; 410 } |
411 } 412 __asm__ __volatile__("" :: "m" (temp)); 413 } 414 return mid; 415} 416 |
417static inline double 418fixFpSFpDDest(FPSCR fpscr, float val) 419{ 420 const double junk = 0.0; 421 double op1 = 0.0; 422 if (std::isnan(val)) { 423 uint32_t valBits = fpToBits(val); 424 uint64_t op1Bits = ((uint64_t)bits(valBits, 21, 0) << 29) | 425 (mask(12) << 51) | 426 ((uint64_t)bits(valBits, 31) << 63); 427 op1 = bitsToFp(op1Bits, junk); 428 } 429 double mid = fixDest(fpscr, (double)val, op1); 430 if (mid == bitsToFp(ULL(0x0010000000000000), junk) || 431 mid == bitsToFp(ULL(0x8010000000000000), junk)) { 432 __asm__ __volatile__("" : "=m" (val) : "m" (val)); 433 fesetround(FeRoundZero); 434 double temp = 0.0; 435 __asm__ __volatile__("" : "=m" (temp) : "m" (temp)); 436 temp = val; 437 if (flushToZero(temp)) { 438 feraiseexcept(FeUnderflow); 439 if (fpscr.fz) { 440 feclearexcept(FeInexact); 441 mid = temp; 442 } 443 } 444 __asm__ __volatile__("" :: "m" (temp)); 445 } 446 return mid; 447} 448 449static inline double 450makeDouble(uint32_t low, uint32_t high) 451{ 452 double junk = 0.0; 453 return bitsToFp((uint64_t)low | ((uint64_t)high << 32), junk); 454} 455 456static inline uint32_t 457lowFromDouble(double val) 458{ 459 return fpToBits(val); 460} 461 462static inline uint32_t 463highFromDouble(double val) 464{ 465 return fpToBits(val) >> 32; 466} 467 |
468static inline uint64_t 469vfpFpSToFixed(float val, bool isSigned, bool half, 470 uint8_t imm, bool rzero = true) 471{ |
472 int rmode = rzero ? FeRoundZero : fegetround(); 473 __asm__ __volatile__("" : "=m" (rmode) : "m" (rmode)); |
474 fesetround(FeRoundNearest); 475 val = val * powf(2.0, imm); 476 __asm__ __volatile__("" : "=m" (val) : "m" (val)); |
477 fesetround(rmode); |
478 feclearexcept(FeAllExceptions); 479 __asm__ __volatile__("" : "=m" (val) : "m" (val)); 480 float origVal = val; 481 val = rintf(val); 482 int fpType = std::fpclassify(val); 483 if (fpType == FP_SUBNORMAL || fpType == FP_NAN) { 484 if (fpType == FP_NAN) { 485 feraiseexcept(FeInvalid); 486 } 487 val = 0.0; 488 } else if (origVal != val) { |
489 switch (rmode) { 490 case FeRoundNearest: 491 if (origVal - val > 0.5) 492 val += 1.0; 493 else if (val - origVal > 0.5) 494 val -= 1.0; 495 break; 496 case FeRoundDown: 497 if (origVal < val) 498 val -= 1.0; 499 break; 500 case FeRoundUpward: 501 if (origVal > val) 502 val += 1.0; 503 break; 504 } |
505 feraiseexcept(FeInexact); 506 } 507 508 if (isSigned) { 509 if (half) { 510 if ((double)val < (int16_t)(1 << 15)) { 511 feraiseexcept(FeInvalid); 512 feclearexcept(FeInexact); --- 72 unchanged lines hidden (view full) --- 585 __asm__ __volatile__("" : "=m" (scale) : "m" (scale)); 586 return fixDivDest(fpscr, val / scale, (float)val, scale); 587} 588 589static inline uint64_t 590vfpFpDToFixed(double val, bool isSigned, bool half, 591 uint8_t imm, bool rzero = true) 592{ |
593 int rmode = rzero ? FeRoundZero : fegetround(); |
594 fesetround(FeRoundNearest); 595 val = val * pow(2.0, imm); 596 __asm__ __volatile__("" : "=m" (val) : "m" (val)); |
597 fesetround(rmode); |
598 feclearexcept(FeAllExceptions); 599 __asm__ __volatile__("" : "=m" (val) : "m" (val)); 600 double origVal = val; 601 val = rint(val); 602 int fpType = std::fpclassify(val); 603 if (fpType == FP_SUBNORMAL || fpType == FP_NAN) { 604 if (fpType == FP_NAN) { 605 feraiseexcept(FeInvalid); 606 } 607 val = 0.0; 608 } else if (origVal != val) { |
609 switch (rmode) { 610 case FeRoundNearest: 611 if (origVal - val > 0.5) 612 val += 1.0; 613 else if (val - origVal > 0.5) 614 val -= 1.0; 615 break; 616 case FeRoundDown: 617 if (origVal < val) 618 val -= 1.0; 619 break; 620 case FeRoundUpward: 621 if (origVal > val) 622 val += 1.0; 623 break; 624 } |
625 feraiseexcept(FeInexact); 626 } 627 if (isSigned) { 628 if (half) { 629 if (val < (int16_t)(1 << 15)) { 630 feraiseexcept(FeInvalid); 631 feclearexcept(FeInexact); 632 return (int16_t)(1 << 15); --- 67 unchanged lines hidden (view full) --- 700 val = sext<16>(val & mask(16)); 701 double scale = pow(2.0, imm); 702 __asm__ __volatile__("" : "=m" (scale) : "m" (scale)); 703 feclearexcept(FeAllExceptions); 704 __asm__ __volatile__("" : "=m" (scale) : "m" (scale)); 705 return fixDivDest(fpscr, val / scale, (double)val, scale); 706} 707 |
708class VfpMacroOp : public PredMacroOp 709{ 710 public: 711 static bool 712 inScalarBank(IntRegIndex idx) 713 { 714 return (idx % 32) < 8; 715 } --- 46 unchanged lines hidden (view full) --- 762 nextIdxs(IntRegIndex &dest) 763 { 764 unsigned stride = (machInst.fpscrStride == 0) ? 1 : 2; 765 assert(!inScalarBank(dest)); 766 dest = addStride(dest, stride); 767 } 768}; 769 |
770static inline float 771fpAddS(float a, float b) |
772{ |
773 return a + b; 774} 775 776static inline double 777fpAddD(double a, double b) 778{ 779 return a + b; 780} 781 782static inline float 783fpSubS(float a, float b) 784{ 785 return a - b; 786} 787 788static inline double 789fpSubD(double a, double b) 790{ 791 return a - b; 792} 793 794static inline float 795fpDivS(float a, float b) 796{ 797 return a / b; 798} 799 800static inline double 801fpDivD(double a, double b) 802{ 803 return a / b; 804} 805 806static inline float 807fpMulS(float a, float b) 808{ 809 return a * b; 810} 811 812static inline double 813fpMulD(double a, double b) 814{ 815 return a * b; 816} 817 818class FpOp : public PredOp 819{ |
820 protected: |
821 FpOp(const char *mnem, ExtMachInst _machInst, OpClass __opClass) : 822 PredOp(mnem, _machInst, __opClass) 823 {} 824 825 virtual float 826 doOp(float op1, float op2) const |
827 { |
828 panic("Unimplemented version of doOp called.\n"); 829 } 830 831 virtual float 832 doOp(float op1) const 833 { 834 panic("Unimplemented version of doOp called.\n"); 835 } 836 837 virtual double 838 doOp(double op1, double op2) const 839 { 840 panic("Unimplemented version of doOp called.\n"); 841 } 842 843 virtual double 844 doOp(double op1) const 845 { 846 panic("Unimplemented version of doOp called.\n"); 847 } 848 849 double 850 dbl(uint32_t low, uint32_t high) const 851 { 852 double junk = 0.0; 853 return bitsToFp((uint64_t)low | ((uint64_t)high << 32), junk); 854 } 855 856 uint32_t 857 dblLow(double val) const 858 { 859 return fpToBits(val); 860 } 861 862 uint32_t 863 dblHi(double val) const 864 { 865 return fpToBits(val) >> 32; 866 } 867 868 template <class fpType> 869 fpType 870 binaryOp(FPSCR &fpscr, fpType op1, fpType op2, 871 fpType (*func)(fpType, fpType), 872 bool flush, uint32_t rMode) const 873 { 874 const bool single = (sizeof(fpType) == sizeof(float)); 875 fpType junk = 0.0; 876 877 if (flush && flushToZero(op1, op2)) 878 fpscr.idc = 1; 879 VfpSavedState state = prepFpState(rMode); 880 __asm__ __volatile__ ("" : "=m" (op1), "=m" (op2), "=m" (state) 881 : "m" (op1), "m" (op2), "m" (state)); 882 fpType dest = func(op1, op2); 883 __asm__ __volatile__ ("" : "=m" (dest) : "m" (dest)); 884 885 int fpClass = std::fpclassify(dest); 886 // Get NAN behavior right. This varies between x86 and ARM. 887 if (fpClass == FP_NAN) { 888 const bool single = (sizeof(fpType) == sizeof(float)); 889 const uint64_t qnan = 890 single ? 0x7fc00000 : ULL(0x7ff8000000000000); 891 const bool nan1 = std::isnan(op1); 892 const bool nan2 = std::isnan(op2); 893 const bool signal1 = nan1 && ((fpToBits(op1) & qnan) != qnan); 894 const bool signal2 = nan2 && ((fpToBits(op2) & qnan) != qnan); 895 if ((!nan1 && !nan2) || (fpscr.dn == 1)) { 896 dest = bitsToFp(qnan, junk); 897 } else if (signal1) { 898 dest = bitsToFp(fpToBits(op1) | qnan, junk); 899 } else if (signal2) { 900 dest = bitsToFp(fpToBits(op2) | qnan, junk); 901 } else if (nan1) { 902 dest = op1; 903 } else if (nan2) { 904 dest = op2; 905 } 906 } else if (flush && flushToZero(dest)) { 907 feraiseexcept(FeUnderflow); 908 } else if (( 909 (single && (dest == bitsToFp(0x00800000, junk) || 910 dest == bitsToFp(0x80800000, junk))) || 911 (!single && 912 (dest == bitsToFp(ULL(0x0010000000000000), junk) || 913 dest == bitsToFp(ULL(0x8010000000000000), junk))) 914 ) && rMode != VfpRoundZero) { 915 /* 916 * Correct for the fact that underflow is detected -before- rounding 917 * in ARM and -after- rounding in x86. 918 */ 919 fesetround(FeRoundZero); 920 __asm__ __volatile__ ("" : "=m" (op1), "=m" (op2) 921 : "m" (op1), "m" (op2)); 922 fpType temp = func(op1, op2); 923 __asm__ __volatile__ ("" : "=m" (temp) : "m" (temp)); 924 if (flush && flushToZero(temp)) { 925 dest = temp; 926 } 927 } 928 finishVfp(fpscr, state); 929 return dest; 930 } 931 932 template <class fpType> 933 fpType 934 unaryOp(FPSCR &fpscr, fpType op1, 935 fpType (*func)(fpType), 936 bool flush, uint32_t rMode) const 937 { 938 const bool single = (sizeof(fpType) == sizeof(float)); 939 fpType junk = 0.0; 940 941 if (flush && flushToZero(op1)) 942 fpscr.idc = 1; 943 VfpSavedState state = prepFpState(rMode); 944 __asm__ __volatile__ ("" : "=m" (op1), "=m" (state) 945 : "m" (op1), "m" (state)); 946 fpType dest = func(op1); 947 __asm__ __volatile__ ("" : "=m" (dest) : "m" (dest)); 948 949 int fpClass = std::fpclassify(dest); 950 // Get NAN behavior right. This varies between x86 and ARM. 951 if (fpClass == FP_NAN) { 952 const bool single = (sizeof(fpType) == sizeof(float)); 953 const uint64_t qnan = 954 single ? 0x7fc00000 : ULL(0x7ff8000000000000); 955 const bool nan = std::isnan(op1); 956 if (!nan || fpscr.dn == 1) { 957 dest = bitsToFp(qnan, junk); 958 } else if (nan) { 959 dest = bitsToFp(fpToBits(op1) | qnan, junk); 960 } 961 } else if (flush && flushToZero(dest)) { 962 feraiseexcept(FeUnderflow); 963 } else if (( 964 (single && (dest == bitsToFp(0x00800000, junk) || 965 dest == bitsToFp(0x80800000, junk))) || 966 (!single && 967 (dest == bitsToFp(ULL(0x0010000000000000), junk) || 968 dest == bitsToFp(ULL(0x8010000000000000), junk))) 969 ) && rMode != VfpRoundZero) { 970 /* 971 * Correct for the fact that underflow is detected -before- rounding 972 * in ARM and -after- rounding in x86. 973 */ 974 fesetround(FeRoundZero); 975 __asm__ __volatile__ ("" : "=m" (op1) : "m" (op1)); 976 fpType temp = func(op1); 977 __asm__ __volatile__ ("" : "=m" (temp) : "m" (temp)); 978 if (flush && flushToZero(temp)) { 979 dest = temp; 980 } 981 } 982 finishVfp(fpscr, state); 983 return dest; 984 } 985}; 986 987class FpRegRegOp : public FpOp 988{ 989 protected: 990 IntRegIndex dest; 991 IntRegIndex op1; 992 993 FpRegRegOp(const char *mnem, ExtMachInst _machInst, OpClass __opClass, 994 IntRegIndex _dest, IntRegIndex _op1, 995 VfpMicroMode mode = VfpNotAMicroop) : 996 FpOp(mnem, _machInst, __opClass), dest(_dest), op1(_op1) 997 { |
998 setVfpMicroFlags(mode, flags); 999 } |
1000 1001 std::string generateDisassembly(Addr pc, const SymbolTable *symtab) const; |
1002}; 1003 |
1004class FpRegImmOp : public FpOp |
1005{ 1006 protected: |
1007 IntRegIndex dest; 1008 uint64_t imm; 1009 1010 FpRegImmOp(const char *mnem, ExtMachInst _machInst, OpClass __opClass, 1011 IntRegIndex _dest, uint64_t _imm, 1012 VfpMicroMode mode = VfpNotAMicroop) : 1013 FpOp(mnem, _machInst, __opClass), dest(_dest), imm(_imm) |
1014 { 1015 setVfpMicroFlags(mode, flags); 1016 } |
1017 1018 std::string generateDisassembly(Addr pc, const SymbolTable *symtab) const; |
1019}; 1020 |
1021class FpRegRegImmOp : public FpOp |
1022{ 1023 protected: |
1024 IntRegIndex dest; 1025 IntRegIndex op1; 1026 uint64_t imm; 1027 1028 FpRegRegImmOp(const char *mnem, ExtMachInst _machInst, OpClass __opClass, 1029 IntRegIndex _dest, IntRegIndex _op1, 1030 uint64_t _imm, VfpMicroMode mode = VfpNotAMicroop) : 1031 FpOp(mnem, _machInst, __opClass), dest(_dest), op1(_op1), imm(_imm) |
1032 { 1033 setVfpMicroFlags(mode, flags); 1034 } |
1035 1036 std::string generateDisassembly(Addr pc, const SymbolTable *symtab) const; |
1037}; 1038 |
1039class FpRegRegRegOp : public FpOp |
1040{ 1041 protected: |
1042 IntRegIndex dest; 1043 IntRegIndex op1; 1044 IntRegIndex op2; 1045 1046 FpRegRegRegOp(const char *mnem, ExtMachInst _machInst, OpClass __opClass, 1047 IntRegIndex _dest, IntRegIndex _op1, IntRegIndex _op2, 1048 VfpMicroMode mode = VfpNotAMicroop) : 1049 FpOp(mnem, _machInst, __opClass), dest(_dest), op1(_op1), op2(_op2) |
1050 { 1051 setVfpMicroFlags(mode, flags); 1052 } |
1053 1054 std::string generateDisassembly(Addr pc, const SymbolTable *symtab) const; |
1055}; 1056 1057} 1058 1059#endif //__ARCH_ARM_INSTS_VFP_HH__ |