gcc/config/i386/driver-i386.c - gcc - Git at Google

 /* Subroutines for the gcc driver.
    Copyright (C) 2006-2021 Free Software Foundation, Inc.

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 3, or (at your option)
 any later version.

 GCC is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #define IN_TARGET_CODE 1

 #include "config.h"
 #include "system.h"
 #include "coretypes.h"
 #include "tm.h"

 const char *host_detect_local_cpu (int argc, const char **argv);

 #if defined(__GNUC__) && (__GNUC__ >= 5 || !defined(__PIC__))
 #include "cpuid.h"
 #include "common/config/i386/cpuinfo.h"
 #include "common/config/i386/i386-isas.h"

 struct cache_desc
 {
   unsigned sizekb;
   unsigned assoc;
   unsigned line;
 };

 /* Returns command line parameters that describe size and
    cache line size of the processor caches.  */

 static char *
 describe_cache (struct cache_desc level1, struct cache_desc level2)
 {
   char size[100], line[100], size2[100];

   /* At the moment, gcc does not use the information
      about the associativity of the cache.  */

   snprintf (size, sizeof (size),
 	    "--param l1-cache-size=%u ", level1.sizekb);
   snprintf (line, sizeof (line),
 	    "--param l1-cache-line-size=%u ", level1.line);

   snprintf (size2, sizeof (size2),
 	    "--param l2-cache-size=%u ", level2.sizekb);

   return concat (size, line, size2, NULL);
 }

 /* Detect L2 cache parameters using CPUID extended function 0x80000006.  */

 static void
 detect_l2_cache (struct cache_desc *level2)
 {
   unsigned eax, ebx, ecx, edx;
   unsigned assoc;

   __cpuid (0x80000006, eax, ebx, ecx, edx);

   level2->sizekb = (ecx >> 16) & 0xffff;
   level2->line = ecx & 0xff;

   assoc = (ecx >> 12) & 0xf;
   if (assoc == 6)
     assoc = 8;
   else if (assoc == 8)
     assoc = 16;
   else if (assoc >= 0xa && assoc <= 0xc)
     assoc = 32 + (assoc - 0xa) * 16;
   else if (assoc >= 0xd && assoc <= 0xe)
     assoc = 96 + (assoc - 0xd) * 32;

   level2->assoc = assoc;
 }

 /* Returns the description of caches for an AMD processor.  */

 static const char *
 detect_caches_amd (unsigned max_ext_level)
 {
   unsigned eax, ebx, ecx, edx;

   struct cache_desc level1, level2 = {0, 0, 0};

   if (max_ext_level < 0x80000005)
     return "";

   __cpuid (0x80000005, eax, ebx, ecx, edx);

   level1.sizekb = (ecx >> 24) & 0xff;
   level1.assoc = (ecx >> 16) & 0xff;
   level1.line = ecx & 0xff;

   if (max_ext_level >= 0x80000006)
     detect_l2_cache (&level2);

   return describe_cache (level1, level2);
 }

 /* Decodes the size, the associativity and the cache line size of
    L1/L2 caches of an Intel processor.  Values are based on
    "Intel Processor Identification and the CPUID Instruction"
    [Application Note 485], revision -032, December 2007.  */

 static void
 decode_caches_intel (unsigned reg, bool xeon_mp,
 		     struct cache_desc *level1, struct cache_desc *level2)
 {
   int i;

   for (i = 24; i >= 0; i -= 8)
     switch ((reg >> i) & 0xff)
       {
       case 0x0a:
 	level1->sizekb = 8; level1->assoc = 2; level1->line = 32;
 	break;
       case 0x0c:
 	level1->sizekb = 16; level1->assoc = 4; level1->line = 32;
 	break;
       case 0x0d:
 	level1->sizekb = 16; level1->assoc = 4; level1->line = 64;
 	break;
       case 0x0e:
 	level1->sizekb = 24; level1->assoc = 6; level1->line = 64;
 	break;
       case 0x21:
 	level2->sizekb = 256; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x24:
 	level2->sizekb = 1024; level2->assoc = 16; level2->line = 64;
 	break;
       case 0x2c:
 	level1->sizekb = 32; level1->assoc = 8; level1->line = 64;
 	break;
       case 0x39:
 	level2->sizekb = 128; level2->assoc = 4; level2->line = 64;
 	break;
       case 0x3a:
 	level2->sizekb = 192; level2->assoc = 6; level2->line = 64;
 	break;
       case 0x3b:
 	level2->sizekb = 128; level2->assoc = 2; level2->line = 64;
 	break;
       case 0x3c:
 	level2->sizekb = 256; level2->assoc = 4; level2->line = 64;
 	break;
       case 0x3d:
 	level2->sizekb = 384; level2->assoc = 6; level2->line = 64;
 	break;
       case 0x3e:
 	level2->sizekb = 512; level2->assoc = 4; level2->line = 64;
 	break;
       case 0x41:
 	level2->sizekb = 128; level2->assoc = 4; level2->line = 32;
 	break;
       case 0x42:
 	level2->sizekb = 256; level2->assoc = 4; level2->line = 32;
 	break;
       case 0x43:
 	level2->sizekb = 512; level2->assoc = 4; level2->line = 32;
 	break;
       case 0x44:
 	level2->sizekb = 1024; level2->assoc = 4; level2->line = 32;
 	break;
       case 0x45:
 	level2->sizekb = 2048; level2->assoc = 4; level2->line = 32;
 	break;
       case 0x48:
 	level2->sizekb = 3072; level2->assoc = 12; level2->line = 64;
 	break;
       case 0x49:
 	if (xeon_mp)
 	  break;
 	level2->sizekb = 4096; level2->assoc = 16; level2->line = 64;
 	break;
       case 0x4e:
 	level2->sizekb = 6144; level2->assoc = 24; level2->line = 64;
 	break;
       case 0x60:
 	level1->sizekb = 16; level1->assoc = 8; level1->line = 64;
 	break;
       case 0x66:
 	level1->sizekb = 8; level1->assoc = 4; level1->line = 64;
 	break;
       case 0x67:
 	level1->sizekb = 16; level1->assoc = 4; level1->line = 64;
 	break;
       case 0x68:
 	level1->sizekb = 32; level1->assoc = 4; level1->line = 64;
 	break;
       case 0x78:
 	level2->sizekb = 1024; level2->assoc = 4; level2->line = 64;
 	break;
       case 0x79:
 	level2->sizekb = 128; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x7a:
 	level2->sizekb = 256; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x7b:
 	level2->sizekb = 512; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x7c:
 	level2->sizekb = 1024; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x7d:
 	level2->sizekb = 2048; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x7f:
 	level2->sizekb = 512; level2->assoc = 2; level2->line = 64;
 	break;
       case 0x80:
 	level2->sizekb = 512; level2->assoc = 8; level2->line = 64;
 	break;
       case 0x82:
 	level2->sizekb = 256; level2->assoc = 8; level2->line = 32;
 	break;
       case 0x83:
 	level2->sizekb = 512; level2->assoc = 8; level2->line = 32;
 	break;
       case 0x84:
 	level2->sizekb = 1024; level2->assoc = 8; level2->line = 32;
 	break;
       case 0x85:
 	level2->sizekb = 2048; level2->assoc = 8; level2->line = 32;
 	break;
       case 0x86:
 	level2->sizekb = 512; level2->assoc = 4; level2->line = 64;
 	break;
       case 0x87:
 	level2->sizekb = 1024; level2->assoc = 8; level2->line = 64;

       default:
 	break;
       }
 }

 /* Detect cache parameters using CPUID function 2.  */

 static void
 detect_caches_cpuid2 (bool xeon_mp,
 		      struct cache_desc *level1, struct cache_desc *level2)
 {
   unsigned regs[4];
   int nreps, i;

   __cpuid (2, regs[0], regs[1], regs[2], regs[3]);

   nreps = regs[0] & 0x0f;
   regs[0] &= ~0x0f;

   while (--nreps >= 0)
     {
       for (i = 0; i < 4; i++)
 	if (regs[i] && !((regs[i] >> 31) & 1))
 	  decode_caches_intel (regs[i], xeon_mp, level1, level2);

       if (nreps)
 	__cpuid (2, regs[0], regs[1], regs[2], regs[3]);
     }
 }

 /* Detect cache parameters using CPUID function 4. This
    method doesn't require hardcoded tables.  */

 enum cache_type
 {
   CACHE_END = 0,
   CACHE_DATA = 1,
   CACHE_INST = 2,
   CACHE_UNIFIED = 3
 };

 static void
 detect_caches_cpuid4 (struct cache_desc *level1, struct cache_desc *level2,
 		      struct cache_desc *level3)
 {
   struct cache_desc *cache;

   unsigned eax, ebx, ecx, edx;
   int count;

   for (count = 0;; count++)
     {
       __cpuid_count(4, count, eax, ebx, ecx, edx);
       switch (eax & 0x1f)
 	{
 	case CACHE_END:
 	  return;
 	case CACHE_DATA:
 	case CACHE_UNIFIED:
 	  {
 	    switch ((eax >> 5) & 0x07)
 	      {
 	      case 1:
 		cache = level1;
 		break;
 	      case 2:
 		cache = level2;
 		break;
 	      case 3:
 		cache = level3;
 		break;
 	      default:
 		cache = NULL;
 	      }

 	    if (cache)
 	      {
 		unsigned sets = ecx + 1;
 		unsigned part = ((ebx >> 12) & 0x03ff) + 1;

 		cache->assoc = ((ebx >> 22) & 0x03ff) + 1;
 		cache->line = (ebx & 0x0fff) + 1;

 		cache->sizekb = (cache->assoc * part
 				 * cache->line * sets) / 1024;
 	      }
 	  }
 	default:
 	  break;
 	}
     }
 }

 /* Returns the description of caches for an Intel processor.  */

 static const char *
 detect_caches_intel (bool xeon_mp, unsigned max_level,
 		     unsigned max_ext_level, unsigned *l2sizekb)
 {
   struct cache_desc level1 = {0, 0, 0}, level2 = {0, 0, 0}, level3 = {0, 0, 0};

   if (max_level >= 4)
     detect_caches_cpuid4 (&level1, &level2, &level3);
   else if (max_level >= 2)
     detect_caches_cpuid2 (xeon_mp, &level1, &level2);
   else
     return "";

   if (level1.sizekb == 0)
     return "";

   /* Let the L3 replace the L2. This assumes inclusive caches
      and single threaded program for now. */
   if (level3.sizekb)
     level2 = level3;

   /* Intel CPUs are equipped with AMD style L2 cache info.  Try this
      method if other methods fail to provide L2 cache parameters.  */
   if (level2.sizekb == 0 && max_ext_level >= 0x80000006)
     detect_l2_cache (&level2);

   *l2sizekb = level2.sizekb;

   return describe_cache (level1, level2);
 }

 /* This will be called by the spec parser in gcc.c when it sees
    a %:local_cpu_detect(args) construct.  Currently it will be
    called with either "arch [32|64]" or "tune [32|64]" as argument
    depending on if -march=native or -mtune=native is to be substituted.

    It returns a string containing new command line parameters to be
    put at the place of the above two options, depending on what CPU
    this is executed.  E.g. "-march=k8" on an AMD64 machine
    for -march=native.

    ARGC and ARGV are set depending on the actual arguments given
    in the spec.  */

 const char *host_detect_local_cpu (int argc, const char **argv)
 {
   enum processor_type processor = PROCESSOR_I386;
   const char *cpu = "i386";

   const char *cache = "";
   const char *options = "";

   unsigned int ebx, ecx, edx;

   unsigned int max_level, ext_level;

   unsigned int vendor;
   unsigned int model, family;

   bool arch;

   unsigned int l2sizekb = 0;

   if (argc < 2)
     return NULL;

   arch = !strcmp (argv[0], "arch");

   if (!arch && strcmp (argv[0], "tune"))
     return NULL;

   bool codegen_x86_64;

   if (!strcmp (argv[1], "32"))
     codegen_x86_64 = false;
   else if (!strcmp (argv[1], "64"))
     codegen_x86_64 = true;
   else
     return NULL;

   struct __processor_model cpu_model = { };
   struct __processor_model2 cpu_model2 = { };
   unsigned int cpu_features2[SIZE_OF_CPU_FEATURES] = { };

   if (cpu_indicator_init (&cpu_model, &cpu_model2, cpu_features2) != 0)
     goto done;

   vendor = cpu_model.__cpu_vendor;
   family = cpu_model2.__cpu_family;
   model = cpu_model2.__cpu_model;
   max_level = cpu_model2.__cpu_max_level;
   ext_level = cpu_model2.__cpu_ext_level;

   if (!arch)
     {
       if (vendor == VENDOR_AMD
 	  || vendor == VENDOR_CENTAUR
 	  || vendor == VENDOR_CYRIX
 	  || vendor == VENDOR_NSC)
 	cache = detect_caches_amd (ext_level);
       else if (vendor == VENDOR_INTEL)
 	{
 	  bool xeon_mp = (family == 15 && model == 6);
 	  cache = detect_caches_intel (xeon_mp, max_level,
 				       ext_level, &l2sizekb);
 	}
     }

   /* Extended features */
 #define has_feature(f) \
   has_cpu_feature (&cpu_model, cpu_features2, f)

   if (vendor == VENDOR_AMD)
     {
       unsigned int name;

       /* Detect geode processor by its processor signature.  */
       if (ext_level >= 0x80000002)
 	__cpuid (0x80000002, name, ebx, ecx, edx);
       else
 	name = 0;

       if (name == signature_NSC_ebx)
 	processor = PROCESSOR_GEODE;
       else if (has_feature (FEATURE_MOVBE) && family == 22)
 	processor = PROCESSOR_BTVER2;
       else if (has_feature (FEATURE_VAES))
 	processor = PROCESSOR_ZNVER3;
       else if (has_feature (FEATURE_CLWB))
 	processor = PROCESSOR_ZNVER2;
       else if (has_feature (FEATURE_CLZERO))
 	processor = PROCESSOR_ZNVER1;
       else if (has_feature (FEATURE_AVX2))
 	processor = PROCESSOR_BDVER4;
       else if (has_feature (FEATURE_XSAVEOPT))
 	processor = PROCESSOR_BDVER3;
       else if (has_feature (FEATURE_BMI))
 	processor = PROCESSOR_BDVER2;
       else if (has_feature (FEATURE_XOP))
 	processor = PROCESSOR_BDVER1;
       else if (has_feature (FEATURE_SSE4_A)
 	       && has_feature (FEATURE_SSSE3))
 	processor = PROCESSOR_BTVER1;
       else if (has_feature (FEATURE_SSE4_A))
 	processor = PROCESSOR_AMDFAM10;
       else if (has_feature (FEATURE_SSE2)
 	       || has_feature (FEATURE_LM))
 	processor = PROCESSOR_K8;
       else if (has_feature (FEATURE_3DNOWP) && family == 6)
 	processor = PROCESSOR_ATHLON;
       else if (has_feature (FEATURE_MMX))
 	processor = PROCESSOR_K6;
       else
 	processor = PROCESSOR_PENTIUM;
     }
   else if (vendor == VENDOR_CENTAUR)
     {
       processor = PROCESSOR_GENERIC;

       switch (family)
 	{
 	default:
 	  /* We have no idea.  */
 	  break;

 	case 5:
 	  if (has_feature (FEATURE_3DNOW)
 	      || has_feature (FEATURE_MMX))
 	    processor = PROCESSOR_I486;
 	  break;

 	case 6:
 	  if (has_feature (FEATURE_LM))
 	    processor = PROCESSOR_K8;
 	  else if (model >= 9)
 	    processor = PROCESSOR_PENTIUMPRO;
 	  else if (model >= 6)
 	    processor = PROCESSOR_I486;
 	}
     }
   else
     {
       switch (family)
 	{
 	case 4:
 	  processor = PROCESSOR_I486;
 	  break;
 	case 5:
 	  processor = PROCESSOR_PENTIUM;
 	  break;
 	case 6:
 	  processor = PROCESSOR_PENTIUMPRO;
 	  break;
 	case 15:
 	  processor = PROCESSOR_PENTIUM4;
 	  break;
 	default:
 	  /* We have no idea.  */
 	  processor = PROCESSOR_GENERIC;
 	}
     }

   switch (processor)
     {
     case PROCESSOR_I386:
       /* Default.  */
       break;
     case PROCESSOR_I486:
       if (arch && vendor == VENDOR_CENTAUR)
 	{
 	  if (model >= 6)
 	    cpu = "c3";
 	  else if (has_feature (FEATURE_3DNOW))
 	    cpu = "winchip2";
 	  else
 	    /* Assume WinChip C6.  */
 	    cpu = "winchip-c6";
 	}
       else
 	cpu = "i486";
       break;
     case PROCESSOR_PENTIUM:
       if (arch && has_feature (FEATURE_MMX))
 	cpu = "pentium-mmx";
       else
 	cpu = "pentium";
       break;
     case PROCESSOR_PENTIUMPRO:
       cpu = get_intel_cpu (&cpu_model, &cpu_model2, cpu_features2);
       if (cpu == NULL)
 	{
 	  if (arch)
 	    {
 	      /* This is unknown family 0x6 CPU.  */
 	      if (has_feature (FEATURE_AVX))
 		{
 		  if (has_feature (FEATURE_AVX512VP2INTERSECT))
 		    {
 		      if (has_feature (FEATURE_TSXLDTRK))
 			/* Assume Sapphire Rapids.  */
 			cpu = "sapphirerapids";
 		      else
 			/* Assume Tiger Lake */
 			cpu = "tigerlake";
 		    }
 		  /* Assume Cooper Lake */
 		  else if (has_feature (FEATURE_AVX512BF16))
 		    cpu = "cooperlake";
 		  /* Assume Ice Lake Server.  */
 		  else if (has_feature (FEATURE_WBNOINVD))
 		    cpu = "icelake-server";
 		/* Assume Ice Lake.  */
 		else if (has_feature (FEATURE_AVX512BITALG))
 		  cpu = "icelake-client";
 		/* Assume Cannon Lake.  */
 		else if (has_feature (FEATURE_AVX512VBMI))
 		  cpu = "cannonlake";
 		/* Assume Knights Mill.  */
 		else if (has_feature (FEATURE_AVX5124VNNIW))
 		  cpu = "knm";
 		/* Assume Knights Landing.  */
 		else if (has_feature (FEATURE_AVX512ER))
 		  cpu = "knl";
 		/* Assume Skylake with AVX-512.  */
 		else if (has_feature (FEATURE_AVX512F))
 		  cpu = "skylake-avx512";
 		 /* Assume Alder Lake */
 		else if (has_feature (FEATURE_SERIALIZE))
 		    cpu = "alderlake";
 		/* Assume Skylake.  */
 		else if (has_feature (FEATURE_CLFLUSHOPT))
 		  cpu = "skylake";
 		/* Assume Broadwell.  */
 		else if (has_feature (FEATURE_ADX))
 		  cpu = "broadwell";
 		else if (has_feature (FEATURE_AVX2))
 		/* Assume Haswell.  */
 		  cpu = "haswell";
 		else
 		/* Assume Sandy Bridge.  */
 		  cpu = "sandybridge";
 	      }
 	      else if (has_feature (FEATURE_SSE4_2))
 		{
 		  if (has_feature (FEATURE_GFNI))
 		    /* Assume Tremont.  */
 		    cpu = "tremont";
 		  else if (has_feature (FEATURE_SGX))
 		    /* Assume Goldmont Plus.  */
 		    cpu = "goldmont-plus";
 		  else if (has_feature (FEATURE_XSAVE))
 		    /* Assume Goldmont.  */
 		    cpu = "goldmont";
 		  else if (has_feature (FEATURE_MOVBE))
 		    /* Assume Silvermont.  */
 		    cpu = "silvermont";
 		  else
 		    /* Assume Nehalem.  */
 		    cpu = "nehalem";
 		}
 	      else if (has_feature (FEATURE_SSSE3))
 		{
 		  if (has_feature (FEATURE_MOVBE))
 		    /* Assume Bonnell.  */
 		    cpu = "bonnell";
 		  else
 		    /* Assume Core 2.  */
 		    cpu = "core2";
 		}
 	      else if (has_feature (FEATURE_LM))
 		/* Perhaps some emulator?  Assume x86-64, otherwise gcc
 		   -march=native would be unusable for 64-bit compilations,
 		   as all the CPUs below are 32-bit only.  */
 		cpu = "x86-64";
 	      else if (has_feature (FEATURE_SSE3))
 		{
 		  if (vendor == VENDOR_CENTAUR)
 		    /* C7 / Eden "Esther" */
 		    cpu = "c7";
 		  else
 		    /* It is Core Duo.  */
 		    cpu = "pentium-m";
 		}
 	      else if (has_feature (FEATURE_SSE2))
 		/* It is Pentium M.  */
 		cpu = "pentium-m";
 	      else if (has_feature (FEATURE_SSE))
 		{
 		  if (vendor == VENDOR_CENTAUR)
 		    {
 		      if (model >= 9)
 			/* Eden "Nehemiah" */
 			cpu = "nehemiah";
 		      else
 			cpu = "c3-2";
 		    }
 		  else
 		    /* It is Pentium III.  */
 		    cpu = "pentium3";
 		}
 	      else if (has_feature (FEATURE_MMX))
 		/* It is Pentium II.  */
 		cpu = "pentium2";
 	      else
 		/* Default to Pentium Pro.  */
 		cpu = "pentiumpro";
 	    }
 	  else
 	    /* For -mtune, we default to -mtune=generic.  */
 	    cpu = "generic";
 	}
       break;
     case PROCESSOR_PENTIUM4:
       if (has_feature (FEATURE_SSE3))
 	{
 	  if (has_feature (FEATURE_LM))
 	    cpu = "nocona";
 	  else
 	    cpu = "prescott";
 	}
       else
 	cpu = "pentium4";
       break;
     case PROCESSOR_GEODE:
       cpu = "geode";
       break;
     case PROCESSOR_K6:
       if (arch && has_feature (FEATURE_3DNOW))
 	cpu = "k6-3";
       else
 	cpu = "k6";
       break;
     case PROCESSOR_ATHLON:
       if (arch && has_feature (FEATURE_SSE))
 	cpu = "athlon-4";
       else
 	cpu = "athlon";
       break;
     case PROCESSOR_K8:
       if (arch)
 	{
 	  if (vendor == VENDOR_CENTAUR)
 	    {
 	      if (has_feature (FEATURE_SSE4_1))
 		/* Nano 3000 | Nano dual / quad core | Eden X4 */
 		cpu = "nano-3000";
 	      else if (has_feature (FEATURE_SSSE3))
 		/* Nano 1000 | Nano 2000 */
 		cpu = "nano";
 	      else if (has_feature (FEATURE_SSE3))
 		/* Eden X2 */
 		cpu = "eden-x2";
 	      else
 		/* Default to k8 */
 		cpu = "k8";
 	    }
 	  else if (has_feature (FEATURE_SSE3))
 	    cpu = "k8-sse3";
 	  else
 	    cpu = "k8";
 	}
       else
 	/* For -mtune, we default to -mtune=k8 */
 	cpu = "k8";
       break;
     case PROCESSOR_AMDFAM10:
       cpu = "amdfam10";
       break;
     case PROCESSOR_BDVER1:
       cpu = "bdver1";
       break;
     case PROCESSOR_BDVER2:
       cpu = "bdver2";
       break;
     case PROCESSOR_BDVER3:
       cpu = "bdver3";
       break;
     case PROCESSOR_BDVER4:
       cpu = "bdver4";
       break;
     case PROCESSOR_ZNVER1:
       cpu = "znver1";
       break;
     case PROCESSOR_ZNVER2:
       cpu = "znver2";
       break;
     case PROCESSOR_ZNVER3:
       cpu = "znver3";
       break;
     case PROCESSOR_BTVER1:
       cpu = "btver1";
       break;
     case PROCESSOR_BTVER2:
       cpu = "btver2";
       break;

     default:
       /* Use something reasonable.  */
       if (arch)
 	{
 	  if (has_feature (FEATURE_SSSE3))
 	    cpu = "core2";
 	  else if (has_feature (FEATURE_SSE3))
 	    {
 	      if (has_feature (FEATURE_LM))
 		cpu = "nocona";
 	      else
 		cpu = "prescott";
 	    }
 	  else if (has_feature (FEATURE_LM))
 	    /* Perhaps some emulator?  Assume x86-64, otherwise gcc
 	       -march=native would be unusable for 64-bit compilations,
 	       as all the CPUs below are 32-bit only.  */
 	    cpu = "x86-64";
 	  else if (has_feature (FEATURE_SSE2))
 	    cpu = "pentium4";
 	  else if (has_feature (FEATURE_CMOV))
 	    cpu = "pentiumpro";
 	  else if (has_feature (FEATURE_MMX))
 	    cpu = "pentium-mmx";
 	  else if (has_feature (FEATURE_CMPXCHG8B))
 	    cpu = "pentium";
 	}
       else
 	cpu = "generic";
     }

   if (arch)
     {
       unsigned int i;
       const char *const neg_option = " -mno-";
       for (i = 0; i < ARRAY_SIZE (isa_names_table); i++)
 	if (isa_names_table[i].option)
 	  {
 	    if (has_feature (isa_names_table[i].feature))
 	      {
 		if (codegen_x86_64
 		    || isa_names_table[i].feature != FEATURE_UINTR)
 		  options = concat (options, " ",
 				    isa_names_table[i].option, NULL);
 	      }
 	    else
 	      options = concat (options, neg_option,
 				isa_names_table[i].option + 2, NULL);
 	  }
     }

 done:
   return concat (cache, "-m", argv[0], "=", cpu, options, NULL);
 }
 #else

 /* If we are compiling with GCC where %EBX register is fixed, then the
    driver will just ignore -march and -mtune "native" target and will leave
    to the newly built compiler to generate code for its default target.  */

 const char *host_detect_local_cpu (int, const char **)
 {
   return NULL;
 }
 #endif /* __GNUC__ */
	/* Subroutines for the gcc driver.
	Copyright (C) 2006-2021 Free Software Foundation, Inc.

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3, or (at your option)
	any later version.

	GCC is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#define IN_TARGET_CODE 1

	#include "config.h"
	#include "system.h"
	#include "coretypes.h"
	#include "tm.h"

	const char host_detect_local_cpu (int argc, const char *argv);

	#if defined(__GNUC__) && (__GNUC__ >= 5 \|\| !defined(__PIC__))
	#include "cpuid.h"
	#include "common/config/i386/cpuinfo.h"
	#include "common/config/i386/i386-isas.h"

	struct cache_desc
	{
	unsigned sizekb;
	unsigned assoc;
	unsigned line;
	};

	/* Returns command line parameters that describe size and
	cache line size of the processor caches. */

	static char *
	describe_cache (struct cache_desc level1, struct cache_desc level2)
	{
	char size[100], line[100], size2[100];

	/* At the moment, gcc does not use the information
	about the associativity of the cache. */

	snprintf (size, sizeof (size),
	"--param l1-cache-size=%u ", level1.sizekb);
	snprintf (line, sizeof (line),
	"--param l1-cache-line-size=%u ", level1.line);

	snprintf (size2, sizeof (size2),
	"--param l2-cache-size=%u ", level2.sizekb);

	return concat (size, line, size2, NULL);
	}

	/* Detect L2 cache parameters using CPUID extended function 0x80000006. */

	static void
	detect_l2_cache (struct cache_desc *level2)
	{
	unsigned eax, ebx, ecx, edx;
	unsigned assoc;

	__cpuid (0x80000006, eax, ebx, ecx, edx);

	level2->sizekb = (ecx >> 16) & 0xffff;
	level2->line = ecx & 0xff;

	assoc = (ecx >> 12) & 0xf;
	if (assoc == 6)
	assoc = 8;
	else if (assoc == 8)
	assoc = 16;
	else if (assoc >= 0xa && assoc <= 0xc)
	assoc = 32 + (assoc - 0xa) * 16;
	else if (assoc >= 0xd && assoc <= 0xe)
	assoc = 96 + (assoc - 0xd) * 32;

	level2->assoc = assoc;
	}

	/* Returns the description of caches for an AMD processor. */

	static const char *
	detect_caches_amd (unsigned max_ext_level)
	{
	unsigned eax, ebx, ecx, edx;

	struct cache_desc level1, level2 = {0, 0, 0};

	if (max_ext_level < 0x80000005)
	return "";

	__cpuid (0x80000005, eax, ebx, ecx, edx);

	level1.sizekb = (ecx >> 24) & 0xff;
	level1.assoc = (ecx >> 16) & 0xff;
	level1.line = ecx & 0xff;

	if (max_ext_level >= 0x80000006)
	detect_l2_cache (&level2);

	return describe_cache (level1, level2);
	}

	/* Decodes the size, the associativity and the cache line size of
	L1/L2 caches of an Intel processor. Values are based on
	"Intel Processor Identification and the CPUID Instruction"
	[Application Note 485], revision -032, December 2007. */

	static void
	decode_caches_intel (unsigned reg, bool xeon_mp,
	struct cache_desc level1, struct cache_desc level2)
	{
	int i;

	for (i = 24; i >= 0; i -= 8)
	switch ((reg >> i) & 0xff)
	{
	case 0x0a:
	level1->sizekb = 8; level1->assoc = 2; level1->line = 32;
	break;
	case 0x0c:
	level1->sizekb = 16; level1->assoc = 4; level1->line = 32;
	break;
	case 0x0d:
	level1->sizekb = 16; level1->assoc = 4; level1->line = 64;
	break;
	case 0x0e:
	level1->sizekb = 24; level1->assoc = 6; level1->line = 64;
	break;
	case 0x21:
	level2->sizekb = 256; level2->assoc = 8; level2->line = 64;
	break;
	case 0x24:
	level2->sizekb = 1024; level2->assoc = 16; level2->line = 64;
	break;
	case 0x2c:
	level1->sizekb = 32; level1->assoc = 8; level1->line = 64;
	break;
	case 0x39:
	level2->sizekb = 128; level2->assoc = 4; level2->line = 64;
	break;
	case 0x3a:
	level2->sizekb = 192; level2->assoc = 6; level2->line = 64;
	break;
	case 0x3b:
	level2->sizekb = 128; level2->assoc = 2; level2->line = 64;
	break;
	case 0x3c:
	level2->sizekb = 256; level2->assoc = 4; level2->line = 64;
	break;
	case 0x3d:
	level2->sizekb = 384; level2->assoc = 6; level2->line = 64;
	break;
	case 0x3e:
	level2->sizekb = 512; level2->assoc = 4; level2->line = 64;
	break;
	case 0x41:
	level2->sizekb = 128; level2->assoc = 4; level2->line = 32;
	break;
	case 0x42:
	level2->sizekb = 256; level2->assoc = 4; level2->line = 32;
	break;
	case 0x43:
	level2->sizekb = 512; level2->assoc = 4; level2->line = 32;
	break;
	case 0x44:
	level2->sizekb = 1024; level2->assoc = 4; level2->line = 32;
	break;
	case 0x45:
	level2->sizekb = 2048; level2->assoc = 4; level2->line = 32;
	break;
	case 0x48:
	level2->sizekb = 3072; level2->assoc = 12; level2->line = 64;
	break;
	case 0x49:
	if (xeon_mp)
	break;
	level2->sizekb = 4096; level2->assoc = 16; level2->line = 64;
	break;
	case 0x4e:
	level2->sizekb = 6144; level2->assoc = 24; level2->line = 64;
	break;
	case 0x60:
	level1->sizekb = 16; level1->assoc = 8; level1->line = 64;
	break;
	case 0x66:
	level1->sizekb = 8; level1->assoc = 4; level1->line = 64;
	break;
	case 0x67:
	level1->sizekb = 16; level1->assoc = 4; level1->line = 64;
	break;
	case 0x68:
	level1->sizekb = 32; level1->assoc = 4; level1->line = 64;
	break;
	case 0x78:
	level2->sizekb = 1024; level2->assoc = 4; level2->line = 64;
	break;
	case 0x79:
	level2->sizekb = 128; level2->assoc = 8; level2->line = 64;
	break;
	case 0x7a:
	level2->sizekb = 256; level2->assoc = 8; level2->line = 64;
	break;
	case 0x7b:
	level2->sizekb = 512; level2->assoc = 8; level2->line = 64;
	break;
	case 0x7c:
	level2->sizekb = 1024; level2->assoc = 8; level2->line = 64;
	break;
	case 0x7d:
	level2->sizekb = 2048; level2->assoc = 8; level2->line = 64;
	break;
	case 0x7f:
	level2->sizekb = 512; level2->assoc = 2; level2->line = 64;
	break;
	case 0x80:
	level2->sizekb = 512; level2->assoc = 8; level2->line = 64;
	break;
	case 0x82:
	level2->sizekb = 256; level2->assoc = 8; level2->line = 32;
	break;
	case 0x83:
	level2->sizekb = 512; level2->assoc = 8; level2->line = 32;
	break;
	case 0x84:
	level2->sizekb = 1024; level2->assoc = 8; level2->line = 32;
	break;
	case 0x85:
	level2->sizekb = 2048; level2->assoc = 8; level2->line = 32;
	break;
	case 0x86:
	level2->sizekb = 512; level2->assoc = 4; level2->line = 64;
	break;
	case 0x87:
	level2->sizekb = 1024; level2->assoc = 8; level2->line = 64;

	default:
	break;
	}
	}

	/* Detect cache parameters using CPUID function 2. */

	static void
	detect_caches_cpuid2 (bool xeon_mp,
	struct cache_desc level1, struct cache_desc level2)
	{
	unsigned regs[4];
	int nreps, i;

	__cpuid (2, regs[0], regs[1], regs[2], regs[3]);

	nreps = regs[0] & 0x0f;
	regs[0] &= ~0x0f;

	while (--nreps >= 0)
	{
	for (i = 0; i < 4; i++)
	if (regs[i] && !((regs[i] >> 31) & 1))
	decode_caches_intel (regs[i], xeon_mp, level1, level2);

	if (nreps)
	__cpuid (2, regs[0], regs[1], regs[2], regs[3]);
	}
	}

	/* Detect cache parameters using CPUID function 4. This
	method doesn't require hardcoded tables. */

	enum cache_type
	{
	CACHE_END = 0,
	CACHE_DATA = 1,
	CACHE_INST = 2,
	CACHE_UNIFIED = 3
	};

	static void
	detect_caches_cpuid4 (struct cache_desc level1, struct cache_desc level2,
	struct cache_desc *level3)
	{
	struct cache_desc *cache;

	unsigned eax, ebx, ecx, edx;
	int count;

	for (count = 0;; count++)
	{
	__cpuid_count(4, count, eax, ebx, ecx, edx);
	switch (eax & 0x1f)
	{
	case CACHE_END:
	return;
	case CACHE_DATA:
	case CACHE_UNIFIED:
	{
	switch ((eax >> 5) & 0x07)
	{
	case 1:
	cache = level1;
	break;
	case 2:
	cache = level2;
	break;
	case 3:
	cache = level3;
	break;
	default:
	cache = NULL;
	}

	if (cache)
	{
	unsigned sets = ecx + 1;
	unsigned part = ((ebx >> 12) & 0x03ff) + 1;

	cache->assoc = ((ebx >> 22) & 0x03ff) + 1;
	cache->line = (ebx & 0x0fff) + 1;

	cache->sizekb = (cache->assoc * part
	* cache->line * sets) / 1024;
	}
	}
	default:
	break;
	}
	}
	}

	/* Returns the description of caches for an Intel processor. */

	static const char *
	detect_caches_intel (bool xeon_mp, unsigned max_level,
	unsigned max_ext_level, unsigned *l2sizekb)
	{
	struct cache_desc level1 = {0, 0, 0}, level2 = {0, 0, 0}, level3 = {0, 0, 0};

	if (max_level >= 4)
	detect_caches_cpuid4 (&level1, &level2, &level3);
	else if (max_level >= 2)
	detect_caches_cpuid2 (xeon_mp, &level1, &level2);
	else
	return "";

	if (level1.sizekb == 0)
	return "";

	/* Let the L3 replace the L2. This assumes inclusive caches
	and single threaded program for now. */
	if (level3.sizekb)
	level2 = level3;

	/* Intel CPUs are equipped with AMD style L2 cache info. Try this
	method if other methods fail to provide L2 cache parameters. */
	if (level2.sizekb == 0 && max_ext_level >= 0x80000006)
	detect_l2_cache (&level2);

	*l2sizekb = level2.sizekb;

	return describe_cache (level1, level2);
	}

	/* This will be called by the spec parser in gcc.c when it sees
	a %:local_cpu_detect(args) construct. Currently it will be
	called with either "arch [32\|64]" or "tune [32\|64]" as argument
	depending on if -march=native or -mtune=native is to be substituted.

	It returns a string containing new command line parameters to be
	put at the place of the above two options, depending on what CPU
	this is executed. E.g. "-march=k8" on an AMD64 machine
	for -march=native.

	ARGC and ARGV are set depending on the actual arguments given
	in the spec. */

	const char host_detect_local_cpu (int argc, const char *argv)
	{
	enum processor_type processor = PROCESSOR_I386;
	const char *cpu = "i386";

	const char *cache = "";
	const char *options = "";

	unsigned int ebx, ecx, edx;

	unsigned int max_level, ext_level;

	unsigned int vendor;
	unsigned int model, family;

	bool arch;

	unsigned int l2sizekb = 0;

	if (argc < 2)
	return NULL;

	arch = !strcmp (argv[0], "arch");

	if (!arch && strcmp (argv[0], "tune"))
	return NULL;

	bool codegen_x86_64;

	if (!strcmp (argv[1], "32"))
	codegen_x86_64 = false;
	else if (!strcmp (argv[1], "64"))
	codegen_x86_64 = true;
	else
	return NULL;

	struct __processor_model cpu_model = { };
	struct __processor_model2 cpu_model2 = { };
	unsigned int cpu_features2[SIZE_OF_CPU_FEATURES] = { };

	if (cpu_indicator_init (&cpu_model, &cpu_model2, cpu_features2) != 0)
	goto done;

	vendor = cpu_model.__cpu_vendor;
	family = cpu_model2.__cpu_family;
	model = cpu_model2.__cpu_model;
	max_level = cpu_model2.__cpu_max_level;
	ext_level = cpu_model2.__cpu_ext_level;

	if (!arch)
	{
	if (vendor == VENDOR_AMD
	\|\| vendor == VENDOR_CENTAUR
	\|\| vendor == VENDOR_CYRIX
	\|\| vendor == VENDOR_NSC)
	cache = detect_caches_amd (ext_level);
	else if (vendor == VENDOR_INTEL)
	{
	bool xeon_mp = (family == 15 && model == 6);
	cache = detect_caches_intel (xeon_mp, max_level,
	ext_level, &l2sizekb);
	}
	}

	/* Extended features */
	#define has_feature(f) \
	has_cpu_feature (&cpu_model, cpu_features2, f)

	if (vendor == VENDOR_AMD)
	{
	unsigned int name;

	/* Detect geode processor by its processor signature. */
	if (ext_level >= 0x80000002)
	__cpuid (0x80000002, name, ebx, ecx, edx);
	else
	name = 0;

	if (name == signature_NSC_ebx)
	processor = PROCESSOR_GEODE;
	else if (has_feature (FEATURE_MOVBE) && family == 22)
	processor = PROCESSOR_BTVER2;
	else if (has_feature (FEATURE_VAES))
	processor = PROCESSOR_ZNVER3;
	else if (has_feature (FEATURE_CLWB))
	processor = PROCESSOR_ZNVER2;
	else if (has_feature (FEATURE_CLZERO))
	processor = PROCESSOR_ZNVER1;
	else if (has_feature (FEATURE_AVX2))
	processor = PROCESSOR_BDVER4;
	else if (has_feature (FEATURE_XSAVEOPT))
	processor = PROCESSOR_BDVER3;
	else if (has_feature (FEATURE_BMI))
	processor = PROCESSOR_BDVER2;
	else if (has_feature (FEATURE_XOP))
	processor = PROCESSOR_BDVER1;
	else if (has_feature (FEATURE_SSE4_A)
	&& has_feature (FEATURE_SSSE3))
	processor = PROCESSOR_BTVER1;
	else if (has_feature (FEATURE_SSE4_A))
	processor = PROCESSOR_AMDFAM10;
	else if (has_feature (FEATURE_SSE2)
	\|\| has_feature (FEATURE_LM))
	processor = PROCESSOR_K8;
	else if (has_feature (FEATURE_3DNOWP) && family == 6)
	processor = PROCESSOR_ATHLON;
	else if (has_feature (FEATURE_MMX))
	processor = PROCESSOR_K6;
	else
	processor = PROCESSOR_PENTIUM;
	}
	else if (vendor == VENDOR_CENTAUR)
	{
	processor = PROCESSOR_GENERIC;

	switch (family)
	{
	default:
	/* We have no idea. */
	break;

	case 5:
	if (has_feature (FEATURE_3DNOW)
	\|\| has_feature (FEATURE_MMX))
	processor = PROCESSOR_I486;
	break;

	case 6:
	if (has_feature (FEATURE_LM))
	processor = PROCESSOR_K8;
	else if (model >= 9)
	processor = PROCESSOR_PENTIUMPRO;
	else if (model >= 6)
	processor = PROCESSOR_I486;
	}
	}
	else
	{
	switch (family)
	{
	case 4:
	processor = PROCESSOR_I486;
	break;
	case 5:
	processor = PROCESSOR_PENTIUM;
	break;
	case 6:
	processor = PROCESSOR_PENTIUMPRO;
	break;
	case 15:
	processor = PROCESSOR_PENTIUM4;
	break;
	default:
	/* We have no idea. */
	processor = PROCESSOR_GENERIC;
	}
	}

	switch (processor)
	{
	case PROCESSOR_I386:
	/* Default. */
	break;
	case PROCESSOR_I486:
	if (arch && vendor == VENDOR_CENTAUR)
	{
	if (model >= 6)
	cpu = "c3";
	else if (has_feature (FEATURE_3DNOW))
	cpu = "winchip2";
	else
	/* Assume WinChip C6. */
	cpu = "winchip-c6";
	}
	else
	cpu = "i486";
	break;
	case PROCESSOR_PENTIUM:
	if (arch && has_feature (FEATURE_MMX))
	cpu = "pentium-mmx";
	else
	cpu = "pentium";
	break;
	case PROCESSOR_PENTIUMPRO:
	cpu = get_intel_cpu (&cpu_model, &cpu_model2, cpu_features2);
	if (cpu == NULL)
	{
	if (arch)
	{
	/* This is unknown family 0x6 CPU. */
	if (has_feature (FEATURE_AVX))
	{
	if (has_feature (FEATURE_AVX512VP2INTERSECT))
	{
	if (has_feature (FEATURE_TSXLDTRK))
	/* Assume Sapphire Rapids. */
	cpu = "sapphirerapids";
	else
	/* Assume Tiger Lake */
	cpu = "tigerlake";
	}
	/* Assume Cooper Lake */
	else if (has_feature (FEATURE_AVX512BF16))
	cpu = "cooperlake";
	/* Assume Ice Lake Server. */
	else if (has_feature (FEATURE_WBNOINVD))
	cpu = "icelake-server";
	/* Assume Ice Lake. */
	else if (has_feature (FEATURE_AVX512BITALG))
	cpu = "icelake-client";
	/* Assume Cannon Lake. */
	else if (has_feature (FEATURE_AVX512VBMI))
	cpu = "cannonlake";
	/* Assume Knights Mill. */
	else if (has_feature (FEATURE_AVX5124VNNIW))
	cpu = "knm";
	/* Assume Knights Landing. */
	else if (has_feature (FEATURE_AVX512ER))
	cpu = "knl";
	/* Assume Skylake with AVX-512. */
	else if (has_feature (FEATURE_AVX512F))
	cpu = "skylake-avx512";
	/* Assume Alder Lake */
	else if (has_feature (FEATURE_SERIALIZE))
	cpu = "alderlake";
	/* Assume Skylake. */
	else if (has_feature (FEATURE_CLFLUSHOPT))
	cpu = "skylake";
	/* Assume Broadwell. */
	else if (has_feature (FEATURE_ADX))
	cpu = "broadwell";
	else if (has_feature (FEATURE_AVX2))
	/* Assume Haswell. */
	cpu = "haswell";
	else
	/* Assume Sandy Bridge. */
	cpu = "sandybridge";
	}
	else if (has_feature (FEATURE_SSE4_2))
	{
	if (has_feature (FEATURE_GFNI))
	/* Assume Tremont. */
	cpu = "tremont";
	else if (has_feature (FEATURE_SGX))
	/* Assume Goldmont Plus. */
	cpu = "goldmont-plus";
	else if (has_feature (FEATURE_XSAVE))
	/* Assume Goldmont. */
	cpu = "goldmont";
	else if (has_feature (FEATURE_MOVBE))
	/* Assume Silvermont. */
	cpu = "silvermont";
	else
	/* Assume Nehalem. */
	cpu = "nehalem";
	}
	else if (has_feature (FEATURE_SSSE3))
	{
	if (has_feature (FEATURE_MOVBE))
	/* Assume Bonnell. */
	cpu = "bonnell";
	else
	/* Assume Core 2. */
	cpu = "core2";
	}
	else if (has_feature (FEATURE_LM))
	/* Perhaps some emulator? Assume x86-64, otherwise gcc
	-march=native would be unusable for 64-bit compilations,
	as all the CPUs below are 32-bit only. */
	cpu = "x86-64";
	else if (has_feature (FEATURE_SSE3))
	{
	if (vendor == VENDOR_CENTAUR)
	/* C7 / Eden "Esther" */
	cpu = "c7";
	else
	/* It is Core Duo. */
	cpu = "pentium-m";
	}
	else if (has_feature (FEATURE_SSE2))
	/* It is Pentium M. */
	cpu = "pentium-m";
	else if (has_feature (FEATURE_SSE))
	{
	if (vendor == VENDOR_CENTAUR)
	{
	if (model >= 9)
	/* Eden "Nehemiah" */
	cpu = "nehemiah";
	else
	cpu = "c3-2";
	}
	else
	/* It is Pentium III. */
	cpu = "pentium3";
	}
	else if (has_feature (FEATURE_MMX))
	/* It is Pentium II. */
	cpu = "pentium2";
	else
	/* Default to Pentium Pro. */
	cpu = "pentiumpro";
	}
	else
	/* For -mtune, we default to -mtune=generic. */
	cpu = "generic";
	}
	break;
	case PROCESSOR_PENTIUM4:
	if (has_feature (FEATURE_SSE3))
	{
	if (has_feature (FEATURE_LM))
	cpu = "nocona";
	else
	cpu = "prescott";
	}
	else
	cpu = "pentium4";
	break;
	case PROCESSOR_GEODE:
	cpu = "geode";
	break;
	case PROCESSOR_K6:
	if (arch && has_feature (FEATURE_3DNOW))
	cpu = "k6-3";
	else
	cpu = "k6";
	break;
	case PROCESSOR_ATHLON:
	if (arch && has_feature (FEATURE_SSE))
	cpu = "athlon-4";
	else
	cpu = "athlon";
	break;
	case PROCESSOR_K8:
	if (arch)
	{
	if (vendor == VENDOR_CENTAUR)
	{
	if (has_feature (FEATURE_SSE4_1))
	/* Nano 3000 \| Nano dual / quad core \| Eden X4 */
	cpu = "nano-3000";
	else if (has_feature (FEATURE_SSSE3))
	/* Nano 1000 \| Nano 2000 */
	cpu = "nano";
	else if (has_feature (FEATURE_SSE3))
	/* Eden X2 */
	cpu = "eden-x2";
	else
	/* Default to k8 */
	cpu = "k8";
	}
	else if (has_feature (FEATURE_SSE3))
	cpu = "k8-sse3";
	else
	cpu = "k8";
	}
	else
	/* For -mtune, we default to -mtune=k8 */
	cpu = "k8";
	break;
	case PROCESSOR_AMDFAM10:
	cpu = "amdfam10";
	break;
	case PROCESSOR_BDVER1:
	cpu = "bdver1";
	break;
	case PROCESSOR_BDVER2:
	cpu = "bdver2";
	break;
	case PROCESSOR_BDVER3:
	cpu = "bdver3";
	break;
	case PROCESSOR_BDVER4:
	cpu = "bdver4";
	break;
	case PROCESSOR_ZNVER1:
	cpu = "znver1";
	break;
	case PROCESSOR_ZNVER2:
	cpu = "znver2";
	break;
	case PROCESSOR_ZNVER3:
	cpu = "znver3";
	break;
	case PROCESSOR_BTVER1:
	cpu = "btver1";
	break;
	case PROCESSOR_BTVER2:
	cpu = "btver2";
	break;

	default:
	/* Use something reasonable. */
	if (arch)
	{
	if (has_feature (FEATURE_SSSE3))
	cpu = "core2";
	else if (has_feature (FEATURE_SSE3))
	{
	if (has_feature (FEATURE_LM))
	cpu = "nocona";
	else
	cpu = "prescott";
	}
	else if (has_feature (FEATURE_LM))
	/* Perhaps some emulator? Assume x86-64, otherwise gcc
	-march=native would be unusable for 64-bit compilations,
	as all the CPUs below are 32-bit only. */
	cpu = "x86-64";
	else if (has_feature (FEATURE_SSE2))
	cpu = "pentium4";
	else if (has_feature (FEATURE_CMOV))
	cpu = "pentiumpro";
	else if (has_feature (FEATURE_MMX))
	cpu = "pentium-mmx";
	else if (has_feature (FEATURE_CMPXCHG8B))
	cpu = "pentium";
	}
	else
	cpu = "generic";
	}

	if (arch)
	{
	unsigned int i;
	const char *const neg_option = " -mno-";
	for (i = 0; i < ARRAY_SIZE (isa_names_table); i++)
	if (isa_names_table[i].option)
	{
	if (has_feature (isa_names_table[i].feature))
	{
	if (codegen_x86_64
	\|\| isa_names_table[i].feature != FEATURE_UINTR)
	options = concat (options, " ",
	isa_names_table[i].option, NULL);
	}
	else
	options = concat (options, neg_option,
	isa_names_table[i].option + 2, NULL);
	}
	}

	done:
	return concat (cache, "-m", argv[0], "=", cpu, options, NULL);
	}
	#else

	/* If we are compiling with GCC where %EBX register is fixed, then the
	driver will just ignore -march and -mtune "native" target and will leave
	to the newly built compiler to generate code for its default target. */

	const char host_detect_local_cpu (int, const char *)
	{
	return NULL;
	}
	#endif /* __GNUC__ */