LCOV - code coverage report
Current view: top level - asmjit - x86logging.cpp (source / functions) Hit Total Coverage
Test: plumed test coverage (other modules) Lines: 0 203 0.0 %
Date: 2024-10-18 13:59:33 Functions: 0 8 0.0 %

          Line data    Source code
       1             : /* +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
       2             : Copyright (c) 2008-2017, Petr Kobalicek
       3             : 
       4             : This software is provided 'as-is', without any express or implied
       5             : warranty. In no event will the authors be held liable for any damages
       6             : arising from the use of this software.
       7             : 
       8             : Permission is granted to anyone to use this software for any purpose,
       9             : including commercial applications, and to alter it and redistribute it
      10             : freely, subject to the following restrictions:
      11             : 
      12             : 1. The origin of this software must not be misrepresented; you must not
      13             :    claim that you wrote the original software. If you use this software
      14             :    in a product, an acknowledgment in the product documentation would be
      15             :    appreciated but is not required.
      16             : 2. Altered source versions must be plainly marked as such, and must not be
      17             :    misrepresented as being the original software.
      18             : 3. This notice may not be removed or altered from any source distribution.
      19             : +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ */
      20             : #ifdef __PLUMED_HAS_ASMJIT
      21             : #pragma GCC diagnostic push
      22             : #pragma GCC diagnostic ignored "-Wpedantic"
      23             : // [AsmJit]
      24             : // Complete x86/x64 JIT and Remote Assembler for C++.
      25             : //
      26             : // [License]
      27             : // Zlib - See LICENSE.md file in the package.
      28             : 
      29             : // [Export]
      30             : #define ASMJIT_EXPORTS
      31             : 
      32             : // [Guard]
      33             : #include "./asmjit_build.h"
      34             : #if !defined(ASMJIT_DISABLE_LOGGING)
      35             : 
      36             : // [Dependencies]
      37             : #include "./misc_p.h"
      38             : #include "./x86inst.h"
      39             : #include "./x86logging_p.h"
      40             : #include "./x86operand.h"
      41             : 
      42             : #if !defined(ASMJIT_DISABLE_COMPILER)
      43             : #include "./codecompiler.h"
      44             : #endif // !ASMJIT_DISABLE_COMPILER
      45             : 
      46             : // [Api-Begin]
      47             : #include "./asmjit_apibegin.h"
      48             : 
      49             : namespace PLMD {
      50             : namespace asmjit {
      51             : 
      52             : // ============================================================================
      53             : // [asmjit::X86Logging - Constants]
      54             : // ============================================================================
      55             : 
      56             : struct X86RegFormatInfo {
      57             :   uint8_t count;
      58             :   uint8_t formatIndex;
      59             :   uint8_t specialIndex;
      60             :   uint8_t specialCount;
      61             : };
      62             : 
      63             : static const char x86RegFormatStrings[] =
      64             :   "r%ub"  "\0" // #0
      65             :   "r%uh"  "\0" // #5
      66             :   "r%uw"  "\0" // #10
      67             :   "r%ud"  "\0" // #15
      68             :   "r%u"   "\0" // #20
      69             :   "xmm%u" "\0" // #24
      70             :   "ymm%u" "\0" // #30
      71             :   "zmm%u" "\0" // #36
      72             :   "rip%u" "\0" // #42
      73             :   "seg%u" "\0" // #48
      74             :   "fp%u"  "\0" // #54
      75             :   "mm%u"  "\0" // #59
      76             :   "k%u"   "\0" // #64
      77             :   "bnd%u" "\0" // #68
      78             :   "cr%u"  "\0" // #74
      79             :   "dr%u"  "\0" // #79
      80             : 
      81             :   "rip\0"      // #84
      82             :   "\0\0\0\0"   // #88
      83             :   "\0\0\0\0"   // #92
      84             : 
      85             :   "al\0\0" "cl\0\0" "dl\0\0" "bl\0\0" "spl\0"  "bpl\0"  "sil\0"  "dil\0"  // #96
      86             :   "ah\0\0" "ch\0\0" "dh\0\0" "bh\0\0" "n/a\0"  "n/a\0"  "n/a\0"  "n/a\0"  // #128
      87             :   "eax\0"  "ecx\0"  "edx\0"  "ebx\0"  "esp\0"  "ebp\0"  "esi\0"  "edi\0"  // #160
      88             :   "rax\0"  "rcx\0"  "rdx\0"  "rbx\0"  "rsp\0"  "rbp\0"  "rsi\0"  "rdi\0"  // #192
      89             :   "n/a\0"  "es\0\0" "cs\0\0" "ss\0\0" "ds\0\0" "fs\0\0" "gs\0\0" "n/a\0"; // #224
      90             : 
      91             : template<uint32_t X>
      92             : struct X86RegFormatInfo_T {
      93             :   enum {
      94             :     kFormatIndex  = X == X86Reg::kRegGpbLo ? 0   :
      95             :                     X == X86Reg::kRegGpbHi ? 5   :
      96             :                     X == X86Reg::kRegGpw   ? 10  :
      97             :                     X == X86Reg::kRegGpd   ? 15  :
      98             :                     X == X86Reg::kRegGpq   ? 20  :
      99             :                     X == X86Reg::kRegXmm   ? 24  :
     100             :                     X == X86Reg::kRegYmm   ? 30  :
     101             :                     X == X86Reg::kRegZmm   ? 36  :
     102             :                     X == X86Reg::kRegRip   ? 42  :
     103             :                     X == X86Reg::kRegSeg   ? 48  :
     104             :                     X == X86Reg::kRegFp    ? 54  :
     105             :                     X == X86Reg::kRegMm    ? 59  :
     106             :                     X == X86Reg::kRegK     ? 64  :
     107             :                     X == X86Reg::kRegBnd   ? 68  :
     108             :                     X == X86Reg::kRegCr    ? 74  :
     109             :                     X == X86Reg::kRegDr    ? 79  : 0,
     110             : 
     111             :     kSpecialIndex = X == X86Reg::kRegGpbLo ? 96  :
     112             :                     X == X86Reg::kRegGpbHi ? 128 :
     113             :                     X == X86Reg::kRegGpw   ? 161 :
     114             :                     X == X86Reg::kRegGpd   ? 160 :
     115             :                     X == X86Reg::kRegGpq   ? 192 :
     116             :                     X == X86Reg::kRegRip   ? 84  :
     117             :                     X == X86Reg::kRegSeg   ? 224 : 0,
     118             : 
     119             :     kSpecialCount = X == X86Reg::kRegGpbLo ? 8   :
     120             :                     X == X86Reg::kRegGpbHi ? 4   :
     121             :                     X == X86Reg::kRegGpw   ? 8   :
     122             :                     X == X86Reg::kRegGpd   ? 8   :
     123             :                     X == X86Reg::kRegGpq   ? 8   :
     124             :                     X == X86Reg::kRegRip   ? 1   :
     125             :                     X == X86Reg::kRegSeg   ? 7   : 0
     126             :   };
     127             : };
     128             : 
     129             : #define ASMJIT_X86_REG_FORMAT(TYPE) {      \
     130             :   X86RegTraits<TYPE>::kCount,              \
     131             :   X86RegFormatInfo_T<TYPE>::kFormatIndex,  \
     132             :   X86RegFormatInfo_T<TYPE>::kSpecialIndex, \
     133             :   X86RegFormatInfo_T<TYPE>::kSpecialCount  \
     134             : }
     135             : 
     136             : static const X86RegFormatInfo x86RegFormatInfo[] = {
     137             :   ASMJIT_TABLE_16(ASMJIT_X86_REG_FORMAT, 0 ),
     138             :   ASMJIT_TABLE_16(ASMJIT_X86_REG_FORMAT, 16)
     139             : };
     140             : 
     141           0 : static const char* x86GetAddressSizeString(uint32_t size) noexcept {
     142           0 :   switch (size) {
     143             :     case 1 : return "byte ";
     144           0 :     case 2 : return "word ";
     145           0 :     case 4 : return "dword ";
     146           0 :     case 6 : return "fword ";
     147           0 :     case 8 : return "qword ";
     148           0 :     case 10: return "tword ";
     149           0 :     case 16: return "oword ";
     150           0 :     case 32: return "yword ";
     151           0 :     case 64: return "zword ";
     152           0 :     default: return "";
     153             :   }
     154             : }
     155             : 
     156             : // ============================================================================
     157             : // [asmjit::X86Logging - Format Operand]
     158             : // ============================================================================
     159             : 
     160           0 : ASMJIT_FAVOR_SIZE Error X86Logging::formatOperand(
     161             :   StringBuilder& sb,
     162             :   uint32_t logOptions,
     163             :   const CodeEmitter* emitter,
     164             :   uint32_t archType,
     165             :   const Operand_& op) noexcept {
     166             : 
     167           0 :   if (op.isReg())
     168           0 :     return formatRegister(sb, logOptions, emitter, archType, op.as<Reg>().getType(), op.as<Reg>().getId());
     169             : 
     170           0 :   if (op.isMem()) {
     171             :     const X86Mem& m = op.as<X86Mem>();
     172           0 :     ASMJIT_PROPAGATE(sb.appendString(x86GetAddressSizeString(m.getSize())));
     173             : 
     174             :     // Segment override prefix.
     175             :     uint32_t seg = m.getSegmentId();
     176           0 :     if (seg != X86Seg::kIdNone && seg < X86Seg::kIdCount)
     177           0 :       ASMJIT_PROPAGATE(sb.appendFormat("%s:", x86RegFormatStrings + 224 + seg * 4));
     178             : 
     179           0 :     ASMJIT_PROPAGATE(sb.appendChar('['));
     180           0 :     if (m.isAbs())
     181           0 :       ASMJIT_PROPAGATE(sb.appendString("abs "));
     182             : 
     183           0 :     if (m.hasBase()) {
     184           0 :       if (m.hasBaseLabel()) {
     185           0 :         ASMJIT_PROPAGATE(Logging::formatLabel(sb, logOptions, emitter, m.getBaseId()));
     186             :       }
     187             :       else {
     188           0 :         if (m.isArgHome()) ASMJIT_PROPAGATE(sb.appendString("$"));
     189           0 :         if (m.isRegHome()) ASMJIT_PROPAGATE(sb.appendString("&"));
     190           0 :         ASMJIT_PROPAGATE(formatRegister(sb, logOptions, emitter, archType, m.getBaseType(), m.getBaseId()));
     191             :       }
     192             :     }
     193             : 
     194           0 :     if (m.hasIndex()) {
     195           0 :       ASMJIT_PROPAGATE(sb.appendChar('+'));
     196           0 :       ASMJIT_PROPAGATE(formatRegister(sb, logOptions, emitter, archType, m.getIndexType(), m.getIndexId()));
     197           0 :       if (m.hasShift())
     198           0 :         ASMJIT_PROPAGATE(sb.appendFormat("*%u", 1 << m.getShift()));
     199             :     }
     200             : 
     201           0 :     uint64_t off = static_cast<uint64_t>(m.getOffset());
     202           0 :     if (off) {
     203             :       uint32_t base = 10;
     204             :       char prefix = '+';
     205             : 
     206           0 :       if (static_cast<int64_t>(off) < 0) {
     207           0 :         off = ~off + 1;
     208             :         prefix = '-';
     209             :       }
     210             : 
     211           0 :       ASMJIT_PROPAGATE(sb.appendChar(prefix));
     212           0 :       if ((logOptions & Logger::kOptionHexDisplacement) != 0 && off > 9) {
     213           0 :         ASMJIT_PROPAGATE(sb.appendString("0x", 2));
     214             :         base = 16;
     215             :       }
     216           0 :       ASMJIT_PROPAGATE(sb.appendUInt(off, base));
     217             :     }
     218             : 
     219           0 :     return sb.appendChar(']');
     220             :   }
     221             : 
     222           0 :   if (op.isImm()) {
     223             :     const Imm& i = op.as<Imm>();
     224             :     int64_t val = i.getInt64();
     225             : 
     226           0 :     if ((logOptions & Logger::kOptionHexImmediate) != 0 && static_cast<uint64_t>(val) > 9)
     227           0 :       return sb.appendUInt(static_cast<uint64_t>(val), 16);
     228             :     else
     229           0 :       return sb.appendInt(val, 10);
     230             :   }
     231             : 
     232           0 :   if (op.isLabel()) {
     233           0 :     return Logging::formatLabel(sb, logOptions, emitter, op.getId());
     234             :   }
     235             : 
     236           0 :   return sb.appendString("<None>");
     237             : }
     238             : 
     239             : // ============================================================================
     240             : // [asmjit::X86Logging - Format Immediate (Extension)]
     241             : // ============================================================================
     242             : 
     243             : struct ImmBits {
     244             :   enum Mode {
     245             :     kModeLookup = 0x0,
     246             :     kModeFormat = 0x1
     247             :   };
     248             : 
     249             :   uint8_t mask;
     250             :   uint8_t shift;
     251             :   uint8_t mode;
     252             :   char text[45];
     253             : };
     254             : 
     255           0 : ASMJIT_FAVOR_SIZE static Error X86Logging_formatImmShuf(StringBuilder& sb, uint32_t u8, uint32_t bits, uint32_t count) noexcept {
     256           0 :   ASMJIT_PROPAGATE(sb.appendChar('<'));
     257           0 :   uint32_t mask = (1 << bits) - 1;
     258             : 
     259           0 :   for (uint32_t i = 0; i < count; i++, u8 >>= bits) {
     260           0 :     uint32_t value = u8 & mask;
     261           0 :     if (i != 0)
     262           0 :       ASMJIT_PROPAGATE(sb.appendChar('|'));
     263           0 :     ASMJIT_PROPAGATE(sb.appendUInt(value));
     264             :   }
     265             : 
     266           0 :   return sb.appendChar('>');
     267             : }
     268             : 
     269           0 : ASMJIT_FAVOR_SIZE static Error X86Logging_formatImmBits(StringBuilder& sb, uint32_t u8, const ImmBits* bits, uint32_t count) noexcept {
     270             :   uint32_t n = 0;
     271             :   char buf[64];
     272             : 
     273           0 :   for (uint32_t i = 0; i < count; i++) {
     274           0 :     const ImmBits& spec = bits[i];
     275             : 
     276           0 :     uint32_t value = (u8 & static_cast<uint32_t>(spec.mask)) >> spec.shift;
     277             :     const char* str = nullptr;
     278             : 
     279           0 :     switch (spec.mode) {
     280           0 :       case ImmBits::kModeLookup:
     281           0 :         str = Utils::findPackedString(spec.text, value);
     282             :         break;
     283             : 
     284           0 :       case ImmBits::kModeFormat:
     285           0 :         snprintf(buf, sizeof(buf), spec.text, static_cast<unsigned int>(value));
     286             :         str = buf;
     287           0 :         break;
     288             : 
     289             :       default:
     290             :         return DebugUtils::errored(kErrorInvalidState);
     291             :     }
     292             : 
     293           0 :     if (!str[0])
     294           0 :       continue;
     295             : 
     296           0 :     ASMJIT_PROPAGATE(sb.appendChar(++n == 1 ? '<' : '|'));
     297           0 :     ASMJIT_PROPAGATE(sb.appendString(str));
     298             :   }
     299             : 
     300           0 :   return n ? sb.appendChar('>') : static_cast<Error>(kErrorOk);
     301             : }
     302             : 
     303           0 : ASMJIT_FAVOR_SIZE static Error X86Logging_formatImmText(StringBuilder& sb, uint32_t u8, uint32_t bits, uint32_t advance, const char* text, uint32_t count = 1) noexcept {
     304           0 :   ASMJIT_PROPAGATE(sb.appendChar('<'));
     305             : 
     306           0 :   uint32_t mask = (1 << bits) - 1;
     307             :   uint32_t pos = 0;
     308             : 
     309           0 :   for (uint32_t i = 0; i < count; i++, u8 >>= bits, pos += advance) {
     310           0 :     uint32_t value = (u8 & mask) + pos;
     311           0 :     if (i != 0)
     312           0 :       ASMJIT_PROPAGATE(sb.appendChar('|'));
     313           0 :     ASMJIT_PROPAGATE(sb.appendString(Utils::findPackedString(text, value)));
     314             :   }
     315             : 
     316           0 :   return sb.appendChar('>');
     317             : }
     318             : 
     319           0 : ASMJIT_FAVOR_SIZE static Error X86Logging_formatImmExtended(
     320             :   StringBuilder& sb,
     321             :   uint32_t logOptions,
     322             :   uint32_t instId,
     323             :   uint32_t vecSize,
     324             :   const Imm& imm) noexcept {
     325             : 
     326             :   static const char vcmpx[] =
     327             :     "eq_oq\0" "lt_os\0"  "le_os\0"  "unord_q\0"  "neq_uq\0" "nlt_us\0" "nle_us\0" "ord_q\0"
     328             :     "eq_uq\0" "nge_us\0" "ngt_us\0" "false_oq\0" "neq_oq\0" "ge_os\0"  "gt_os\0"  "true_uq\0"
     329             :     "eq_os\0" "lt_oq\0"  "le_oq\0"  "unord_s\0"  "neq_us\0" "nlt_uq\0" "nle_uq\0" "ord_s\0"
     330             :     "eq_us\0" "nge_uq\0" "ngt_uq\0" "false_os\0" "neq_os\0" "ge_oq\0"  "gt_oq\0"  "true_us\0";
     331             : 
     332             :   // Try to find 7 differences...
     333             :   static const char vpcmpx[] = "eq\0" "lt\0" "le\0" "false\0" "neq\0" "ge\0"  "gt\0"    "true\0";
     334             :   static const char vpcomx[] = "lt\0" "le\0" "gt\0" "ge\0"    "eq\0"  "neq\0" "false\0" "true\0";
     335             : 
     336             :   static const char vshufpd[] = "a0\0a1\0b0\0b1\0a2\0a3\0b2\0b3\0a4\0a5\0b4\0b5\0a6\0a7\0b6\0b7\0";
     337             :   static const char vshufps[] = "a0\0a1\0a2\0a3\0a0\0a1\0a2\0a3\0b0\0b1\0b2\0b3\0b0\0b1\0b2\0b3\0";
     338             : 
     339             :   static const ImmBits vfpclassxx[] = {
     340             :     { 0x07, 0, ImmBits::kModeLookup, "qnan\0" "+0\0" "-0\0" "+inf\0" "-inf\0" "denormal\0" "-finite\0" "snan\0" }
     341             :   };
     342             : 
     343             :   static const ImmBits vgetmantxx[] = {
     344             :     { 0x03, 0, ImmBits::kModeLookup, "[1, 2)\0" "[1/2, 2)\0" "1/2, 1)\0" "[3/4, 3/2)\0" },
     345             :     { 0x04, 2, ImmBits::kModeLookup, "\0" "no-sign\0" },
     346             :     { 0x08, 3, ImmBits::kModeLookup, "\0" "qnan-if-sign\0" }
     347             :   };
     348             : 
     349             :   static const ImmBits vmpsadbw[] = {
     350             :     { 0x04, 2, ImmBits::kModeLookup, "blk1[0]\0" "blk1[1]\0" },
     351             :     { 0x03, 0, ImmBits::kModeLookup, "blk2[0]\0" "blk2[1]\0" "blk2[2]\0" "blk2[3]\0" },
     352             :     { 0x40, 6, ImmBits::kModeLookup, "blk1[4]\0" "blk1[5]\0" },
     353             :     { 0x30, 4, ImmBits::kModeLookup, "blk2[4]\0" "blk2[5]\0" "blk2[6]\0" "blk2[7]\0" }
     354             :   };
     355             : 
     356             :   static const ImmBits vpclmulqdq[] = {
     357             :     { 0x01, 0, ImmBits::kModeLookup, "lq\0" "hq\0" },
     358             :     { 0x10, 4, ImmBits::kModeLookup, "lq\0" "hq\0" }
     359             :   };
     360             : 
     361             :   static const ImmBits vperm2x128[] = {
     362             :     { 0x0B, 0, ImmBits::kModeLookup, "a0\0" "a1\0" "b0\0" "b1\0" "\0" "\0" "\0" "\0" "0\0" "0\0" "0\0" "0\0" },
     363             :     { 0xB0, 4, ImmBits::kModeLookup, "a0\0" "a1\0" "b0\0" "b1\0" "\0" "\0" "\0" "\0" "0\0" "0\0" "0\0" "0\0" }
     364             :   };
     365             : 
     366             :   static const ImmBits vrangexx[] = {
     367             :     { 0x03, 0, ImmBits::kModeLookup, "min\0" "max\0" "min-abs\0" "max-abs\0" },
     368             :     { 0x0C, 2, ImmBits::kModeLookup, "sign=src1\0" "sign=src2\0" "sign=0\0" "sign=1\0" }
     369             :   };
     370             : 
     371             :   static const ImmBits vreducexx_vrndscalexx[] = {
     372             :     { 0x07, 0, ImmBits::kModeLookup, "\0" "\0" "\0" "\0" "round\0" "floor\0" "ceil\0" "truncate\0" },
     373             :     { 0x08, 3, ImmBits::kModeLookup, "\0" "suppress\0" },
     374             :     { 0xF0, 4, ImmBits::kModeFormat, "len=%d" }
     375             :   };
     376             : 
     377             :   static const ImmBits vroundxx[] = {
     378             :     { 0x07, 0, ImmBits::kModeLookup, "round\0" "floor\0" "ceil\0" "truncate\0" "\0" "\0" "\0" "\0" },
     379             :     { 0x08, 3, ImmBits::kModeLookup, "\0" "inexact\0" }
     380             :   };
     381             : 
     382             :   uint32_t u8 = imm.getUInt8();
     383           0 :   switch (instId) {
     384           0 :     case X86Inst::kIdVblendpd:
     385             :     case X86Inst::kIdBlendpd:
     386           0 :       return X86Logging_formatImmShuf(sb, u8, 1, vecSize / 8);
     387             : 
     388           0 :     case X86Inst::kIdVblendps:
     389             :     case X86Inst::kIdBlendps:
     390           0 :       return X86Logging_formatImmShuf(sb, u8, 1, vecSize / 4);
     391             : 
     392           0 :     case X86Inst::kIdVcmppd:
     393             :     case X86Inst::kIdVcmpps:
     394             :     case X86Inst::kIdVcmpsd:
     395             :     case X86Inst::kIdVcmpss:
     396           0 :       return X86Logging_formatImmText(sb, u8, 5, 0, vcmpx);
     397             : 
     398           0 :     case X86Inst::kIdCmppd:
     399             :     case X86Inst::kIdCmpps:
     400             :     case X86Inst::kIdCmpsd:
     401             :     case X86Inst::kIdCmpss:
     402           0 :       return X86Logging_formatImmText(sb, u8, 3, 0, vcmpx);
     403             : 
     404           0 :     case X86Inst::kIdVdbpsadbw:
     405           0 :       return X86Logging_formatImmShuf(sb, u8, 2, 4);
     406             : 
     407           0 :     case X86Inst::kIdVdppd:
     408             :     case X86Inst::kIdVdpps:
     409             :     case X86Inst::kIdDppd:
     410             :     case X86Inst::kIdDpps:
     411           0 :       return X86Logging_formatImmShuf(sb, u8, 1, 8);
     412             : 
     413           0 :     case X86Inst::kIdVmpsadbw:
     414             :     case X86Inst::kIdMpsadbw:
     415           0 :       return X86Logging_formatImmBits(sb, u8, vmpsadbw, std::min<uint32_t>(vecSize / 8, 4));
     416             : 
     417           0 :     case X86Inst::kIdVpblendw:
     418             :     case X86Inst::kIdPblendw:
     419           0 :       return X86Logging_formatImmShuf(sb, u8, 1, 8);
     420             : 
     421           0 :     case X86Inst::kIdVpblendd:
     422           0 :       return X86Logging_formatImmShuf(sb, u8, 1, std::min<uint32_t>(vecSize / 4, 8));
     423             : 
     424           0 :     case X86Inst::kIdVpclmulqdq:
     425             :     case X86Inst::kIdPclmulqdq:
     426           0 :       return X86Logging_formatImmBits(sb, u8, vpclmulqdq, ASMJIT_ARRAY_SIZE(vpclmulqdq));
     427             : 
     428           0 :     case X86Inst::kIdVroundpd:
     429             :     case X86Inst::kIdVroundps:
     430             :     case X86Inst::kIdVroundsd:
     431             :     case X86Inst::kIdVroundss:
     432             :     case X86Inst::kIdRoundpd:
     433             :     case X86Inst::kIdRoundps:
     434             :     case X86Inst::kIdRoundsd:
     435             :     case X86Inst::kIdRoundss:
     436           0 :       return X86Logging_formatImmBits(sb, u8, vroundxx, ASMJIT_ARRAY_SIZE(vroundxx));
     437             : 
     438           0 :     case X86Inst::kIdVshufpd:
     439             :     case X86Inst::kIdShufpd:
     440           0 :       return X86Logging_formatImmText(sb, u8, 1, 2, vshufpd, std::min<uint32_t>(vecSize / 8, 8));
     441             : 
     442           0 :     case X86Inst::kIdVshufps:
     443             :     case X86Inst::kIdShufps:
     444           0 :       return X86Logging_formatImmText(sb, u8, 2, 4, vshufps, 4);
     445             : 
     446           0 :     case X86Inst::kIdVcvtps2ph:
     447           0 :       return X86Logging_formatImmBits(sb, u8, vroundxx, 1);
     448             : 
     449           0 :     case X86Inst::kIdVperm2f128:
     450             :     case X86Inst::kIdVperm2i128:
     451           0 :       return X86Logging_formatImmBits(sb, u8, vperm2x128, ASMJIT_ARRAY_SIZE(vperm2x128));
     452             : 
     453           0 :     case X86Inst::kIdVpermilpd:
     454           0 :       return X86Logging_formatImmShuf(sb, u8, 1, vecSize / 8);
     455             : 
     456           0 :     case X86Inst::kIdVpermilps:
     457           0 :       return X86Logging_formatImmShuf(sb, u8, 2, 4);
     458             : 
     459           0 :     case X86Inst::kIdVpshufd:
     460             :     case X86Inst::kIdPshufd:
     461           0 :       return X86Logging_formatImmShuf(sb, u8, 2, 4);
     462             : 
     463           0 :     case X86Inst::kIdVpshufhw:
     464             :     case X86Inst::kIdVpshuflw:
     465             :     case X86Inst::kIdPshufhw:
     466             :     case X86Inst::kIdPshuflw:
     467             :     case X86Inst::kIdPshufw:
     468           0 :       return X86Logging_formatImmShuf(sb, u8, 2, 4);
     469             : 
     470             :     // TODO: Maybe?
     471             :     case X86Inst::kIdVfixupimmpd:
     472             :     case X86Inst::kIdVfixupimmps:
     473             :     case X86Inst::kIdVfixupimmsd:
     474             :     case X86Inst::kIdVfixupimmss:
     475             :       return kErrorOk;
     476             : 
     477           0 :     case X86Inst::kIdVfpclasspd:
     478             :     case X86Inst::kIdVfpclassps:
     479             :     case X86Inst::kIdVfpclasssd:
     480             :     case X86Inst::kIdVfpclassss:
     481           0 :       return X86Logging_formatImmBits(sb, u8, vfpclassxx, ASMJIT_ARRAY_SIZE(vfpclassxx));
     482             : 
     483           0 :     case X86Inst::kIdVgetmantpd:
     484             :     case X86Inst::kIdVgetmantps:
     485             :     case X86Inst::kIdVgetmantsd:
     486             :     case X86Inst::kIdVgetmantss:
     487           0 :       return X86Logging_formatImmBits(sb, u8, vgetmantxx, ASMJIT_ARRAY_SIZE(vgetmantxx));
     488             : 
     489           0 :     case X86Inst::kIdVpcmpb:
     490             :     case X86Inst::kIdVpcmpd:
     491             :     case X86Inst::kIdVpcmpq:
     492             :     case X86Inst::kIdVpcmpw:
     493             :     case X86Inst::kIdVpcmpub:
     494             :     case X86Inst::kIdVpcmpud:
     495             :     case X86Inst::kIdVpcmpuq:
     496             :     case X86Inst::kIdVpcmpuw:
     497           0 :       return X86Logging_formatImmText(sb, u8, 2, 4, vpcmpx, 4);
     498             : 
     499           0 :     case X86Inst::kIdVpcomb:
     500             :     case X86Inst::kIdVpcomd:
     501             :     case X86Inst::kIdVpcomq:
     502             :     case X86Inst::kIdVpcomw:
     503             :     case X86Inst::kIdVpcomub:
     504             :     case X86Inst::kIdVpcomud:
     505             :     case X86Inst::kIdVpcomuq:
     506             :     case X86Inst::kIdVpcomuw:
     507           0 :       return X86Logging_formatImmText(sb, u8, 2, 4, vpcomx, 4);
     508             : 
     509           0 :     case X86Inst::kIdVpermq:
     510             :     case X86Inst::kIdVpermpd:
     511           0 :       return X86Logging_formatImmShuf(sb, u8, 2, 4);
     512             : 
     513           0 :     case X86Inst::kIdVpternlogd:
     514             :     case X86Inst::kIdVpternlogq:
     515           0 :       return X86Logging_formatImmShuf(sb, u8, 1, 8);
     516             : 
     517           0 :     case X86Inst::kIdVrangepd:
     518             :     case X86Inst::kIdVrangeps:
     519             :     case X86Inst::kIdVrangesd:
     520             :     case X86Inst::kIdVrangess:
     521           0 :       return X86Logging_formatImmBits(sb, u8, vrangexx, ASMJIT_ARRAY_SIZE(vrangexx));
     522             : 
     523           0 :     case X86Inst::kIdVreducepd:
     524             :     case X86Inst::kIdVreduceps:
     525             :     case X86Inst::kIdVreducesd:
     526             :     case X86Inst::kIdVreducess:
     527             :     case X86Inst::kIdVrndscalepd:
     528             :     case X86Inst::kIdVrndscaleps:
     529             :     case X86Inst::kIdVrndscalesd:
     530             :     case X86Inst::kIdVrndscaless:
     531           0 :       return X86Logging_formatImmBits(sb, u8, vreducexx_vrndscalexx, ASMJIT_ARRAY_SIZE(vreducexx_vrndscalexx));
     532             : 
     533           0 :     case X86Inst::kIdVshuff32x4:
     534             :     case X86Inst::kIdVshuff64x2:
     535             :     case X86Inst::kIdVshufi32x4:
     536             :     case X86Inst::kIdVshufi64x2: {
     537           0 :       uint32_t count = std::max<uint32_t>(vecSize / 16, 2);
     538           0 :       uint32_t bits = count <= 2 ? 1 : 2;
     539           0 :       return X86Logging_formatImmShuf(sb, u8, bits, count);
     540             :     }
     541             : 
     542             :     default:
     543             :       return kErrorOk;
     544             :   }
     545             : }
     546             : 
     547             : // ============================================================================
     548             : // [asmjit::X86Logging - Format Register]
     549             : // ============================================================================
     550             : 
     551           0 : ASMJIT_FAVOR_SIZE Error X86Logging::formatRegister(
     552             :   StringBuilder& sb,
     553             :   uint32_t logOptions,
     554             :   const CodeEmitter* emitter,
     555             :   uint32_t archType,
     556             :   uint32_t rType,
     557             :   uint32_t rId) noexcept {
     558             : 
     559             :   ASMJIT_UNUSED(logOptions);
     560             :   ASMJIT_UNUSED(archType);
     561             : 
     562           0 :   if (Operand::isPackedId(rId)) {
     563             : #if !defined(ASMJIT_DISABLE_COMPILER)
     564           0 :     if (emitter && emitter->getType() == CodeEmitter::kTypeCompiler) {
     565             :       const CodeCompiler* cc = static_cast<const CodeCompiler*>(emitter);
     566             : 
     567           0 :       if (cc->isVirtRegValid(rId)) {
     568             :         VirtReg* vReg = cc->getVirtRegById(rId);
     569             :         ASMJIT_ASSERT(vReg != nullptr);
     570             : 
     571             :         const char* name = vReg->getName();
     572           0 :         if (name && name[0] != '\0')
     573           0 :           return sb.appendString(name);
     574             :         else
     575           0 :           return sb.appendFormat("v%u", static_cast<unsigned int>(Operand::unpackId(rId)));
     576             :       }
     577             :     }
     578             : #endif // !ASMJIT_DISABLE_COMPILER
     579             : 
     580           0 :     return sb.appendFormat("VirtReg<Type=%u Id=%u>", rType, rId);
     581             :   }
     582             :   else {
     583           0 :     if (rType < ASMJIT_ARRAY_SIZE(x86RegFormatInfo)) {
     584             :       const X86RegFormatInfo& rfi = x86RegFormatInfo[rType];
     585             : 
     586           0 :       if (rId < rfi.specialCount)
     587           0 :         return sb.appendString(x86RegFormatStrings + rfi.specialIndex + rId * 4);
     588             : 
     589           0 :       if (rId < rfi.count)
     590           0 :         return sb.appendFormat(x86RegFormatStrings + rfi.formatIndex, static_cast<unsigned int>(rId));
     591             :     }
     592             : 
     593           0 :     return sb.appendFormat("PhysReg<Type=%u Id=%u>", rType, rId);
     594             :   }
     595             : }
     596             : 
     597             : // ============================================================================
     598             : // [asmjit::X86Logging - Format Instruction]
     599             : // ============================================================================
     600             : 
     601           0 : ASMJIT_FAVOR_SIZE Error X86Logging::formatInstruction(
     602             :   StringBuilder& sb,
     603             :   uint32_t logOptions,
     604             :   const CodeEmitter* emitter,
     605             :   uint32_t archType,
     606             :   const Inst::Detail& detail, const Operand_* opArray, uint32_t opCount) noexcept {
     607             : 
     608           0 :   uint32_t instId = detail.instId;
     609           0 :   uint32_t options = detail.options;
     610             : 
     611             :   // Format instruction options and instruction mnemonic.
     612           0 :   if (instId < X86Inst::_kIdCount) {
     613             :     const X86Inst& instInfo = X86Inst::getInst(instId);
     614             : 
     615             :     // SHORT|LONG options.
     616           0 :     if (options & X86Inst::kOptionShortForm) ASMJIT_PROPAGATE(sb.appendString("short "));
     617           0 :     if (options & X86Inst::kOptionLongForm) ASMJIT_PROPAGATE(sb.appendString("long "));
     618             : 
     619             :     // LOCK|XACQUIRE|XRELEASE options.
     620           0 :     if (options & X86Inst::kOptionXAcquire) ASMJIT_PROPAGATE(sb.appendString("xacquire "));
     621           0 :     if (options & X86Inst::kOptionXRelease) ASMJIT_PROPAGATE(sb.appendString("xrelease "));
     622           0 :     if (options & X86Inst::kOptionLock) ASMJIT_PROPAGATE(sb.appendString("lock "));
     623             : 
     624             :     // REP|REPNZ options.
     625           0 :     if (options & (X86Inst::kOptionRep | X86Inst::kOptionRepnz)) {
     626           0 :       sb.appendString((options & X86Inst::kOptionRep) ? "rep " : "repnz ");
     627           0 :       if (detail.hasExtraReg()) {
     628           0 :         ASMJIT_PROPAGATE(sb.appendChar('{'));
     629           0 :         ASMJIT_PROPAGATE(formatOperand(sb, logOptions, emitter, archType, detail.extraReg.toReg<Reg>()));
     630           0 :         ASMJIT_PROPAGATE(sb.appendString("} "));
     631             :       }
     632             :     }
     633             : 
     634             :     // REX options.
     635           0 :     if (options & X86Inst::kOptionRex) {
     636             :       const uint32_t kRXBWMask = X86Inst::kOptionOpCodeR |
     637             :                                  X86Inst::kOptionOpCodeX |
     638             :                                  X86Inst::kOptionOpCodeB |
     639             :                                  X86Inst::kOptionOpCodeW ;
     640           0 :       if (options & kRXBWMask) {
     641             :         sb.appendString("rex.");
     642           0 :         if (options & X86Inst::kOptionOpCodeR) sb.appendChar('r');
     643           0 :         if (options & X86Inst::kOptionOpCodeX) sb.appendChar('x');
     644           0 :         if (options & X86Inst::kOptionOpCodeB) sb.appendChar('b');
     645           0 :         if (options & X86Inst::kOptionOpCodeW) sb.appendChar('w');
     646             :         sb.appendChar(' ');
     647             :       }
     648             :       else {
     649           0 :         ASMJIT_PROPAGATE(sb.appendString("rex "));
     650             :       }
     651             :     }
     652             : 
     653             :     // VEX|EVEX options.
     654           0 :     if (options & X86Inst::kOptionVex3) ASMJIT_PROPAGATE(sb.appendString("vex3 "));
     655           0 :     if (options & X86Inst::kOptionEvex) ASMJIT_PROPAGATE(sb.appendString("evex "));
     656             : 
     657           0 :     ASMJIT_PROPAGATE(sb.appendString(instInfo.getName()));
     658             :   }
     659             :   else {
     660           0 :     ASMJIT_PROPAGATE(sb.appendFormat("<unknown id=#%u>", static_cast<unsigned int>(instId)));
     661             :   }
     662             : 
     663           0 :   for (uint32_t i = 0; i < opCount; i++) {
     664           0 :     const Operand_& op = opArray[i];
     665           0 :     if (op.isNone()) break;
     666             : 
     667           0 :     ASMJIT_PROPAGATE(sb.appendString(i == 0 ? " " : ", "));
     668           0 :     ASMJIT_PROPAGATE(formatOperand(sb, logOptions, emitter, archType, op));
     669             : 
     670           0 :     if (op.isImm() && (logOptions & Logger::kOptionImmExtended)) {
     671           0 :       uint32_t vecSize = 16;
     672           0 :       for (uint32_t j = 0; j < opCount; j++)
     673           0 :         if (opArray[j].isReg())
     674           0 :           vecSize = std::max<uint32_t>(vecSize, opArray[j].getSize());
     675           0 :       ASMJIT_PROPAGATE(X86Logging_formatImmExtended(sb, logOptions, instId, vecSize, op.as<Imm>()));
     676             :     }
     677             : 
     678             :     // Support AVX-512 {k}{z}.
     679           0 :     if (i == 0) {
     680           0 :       if (detail.extraReg.getKind() == X86Reg::kKindK) {
     681           0 :         ASMJIT_PROPAGATE(sb.appendString(" {"));
     682           0 :         ASMJIT_PROPAGATE(formatOperand(sb, logOptions, emitter, archType, detail.extraReg.toReg<Reg>()));
     683           0 :         ASMJIT_PROPAGATE(sb.appendChar('}'));
     684             : 
     685           0 :         if (options & X86Inst::kOptionZMask)
     686           0 :           ASMJIT_PROPAGATE(sb.appendString("{z}"));
     687             :       }
     688           0 :       else if (options & X86Inst::kOptionZMask) {
     689           0 :         ASMJIT_PROPAGATE(sb.appendString(" {z}"));
     690             :       }
     691             :     }
     692             : 
     693             :     // Support AVX-512 {1tox}.
     694           0 :     if (op.isMem() && (options & X86Inst::kOption1ToX))
     695           0 :       ASMJIT_PROPAGATE(sb.appendString(" {1tox}"));
     696             :   }
     697             : 
     698             :   return kErrorOk;
     699             : }
     700             : 
     701             : } // asmjit namespace
     702             : } // namespace PLMD
     703             : 
     704             : // [Api-End]
     705             : #include "./asmjit_apiend.h"
     706             : 
     707             : // [Guard]
     708             : #endif // !ASMJIT_DISABLE_LOGGING
     709             : #pragma GCC diagnostic pop
     710             : #endif // __PLUMED_HAS_ASMJIT

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