* config/i386/i386.c (assign_386_stack_local): Align DImode slots

[pf3gnuchains/gcc-fork.git] / gcc / config / i386 / i386.c

diff --git a/gcc/config/i386/i386.c b/gcc/config/i386/i386.c
index 0429d23..60c000c 100644 (file)
--- a/gcc/config/i386/i386.c
+++ b/gcc/config/i386/i386.c
@@ -1,6 +1,7 @@
 /* Subroutines used for code generation on IA-32.
    Copyright (C) 1988, 1992, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001,
-   2002, 2003, 2004, 2005, 2006, 2007 Free Software Foundation, Inc.
+   2002, 2003, 2004, 2005, 2006, 2007, 2008
+   Free Software Foundation, Inc.
 
 This file is part of GCC.
 
@@ -700,7 +701,7 @@ struct processor_costs k8_cost = {
      to limit number of prefetches at all, as their execution also takes some
      time).  */
   100,                                 /* number of parallel prefetches */
-  5,                                   /* Branch cost */
+  3,                                   /* Branch cost */
   COSTS_N_INSNS (4),                   /* cost of FADD and FSUB insns.  */
   COSTS_N_INSNS (4),                   /* cost of FMUL instruction.  */
   COSTS_N_INSNS (19),                  /* cost of FDIV instruction.  */
@@ -724,8 +725,8 @@ struct processor_costs k8_cost = {
   2,                                    /* vec_align_load_cost.  */
   3,                                    /* vec_unalign_load_cost.  */
   3,                                    /* vec_store_cost.  */
-  6,                                    /* cond_taken_branch_cost.  */
-  1,                                    /* cond_not_taken_branch_cost.  */
+  3,                                    /* cond_taken_branch_cost.  */
+  2,                                    /* cond_not_taken_branch_cost.  */
 };
 
 struct processor_costs amdfam10_cost = {
@@ -786,7 +787,7 @@ struct processor_costs amdfam10_cost = {
      to limit number of prefetches at all, as their execution also takes some
      time).  */
   100,                                 /* number of parallel prefetches */
-  5,                                   /* Branch cost */
+  2,                                   /* Branch cost */
   COSTS_N_INSNS (4),                   /* cost of FADD and FSUB insns.  */
   COSTS_N_INSNS (4),                   /* cost of FMUL instruction.  */
   COSTS_N_INSNS (19),                  /* cost of FDIV instruction.  */
@@ -811,7 +812,7 @@ struct processor_costs amdfam10_cost = {
   2,                                    /* vec_align_load_cost.  */
   2,                                    /* vec_unalign_load_cost.  */
   2,                                    /* vec_store_cost.  */
-  6,                                    /* cond_taken_branch_cost.  */
+  2,                                    /* cond_taken_branch_cost.  */
   1,                                    /* cond_not_taken_branch_cost.  */
 };
 
@@ -1767,35 +1768,65 @@ int ix86_isa_flags = TARGET_64BIT_DEFAULT | TARGET_SUBTARGET_ISA_DEFAULT;
    was set or cleared on the command line.  */
 static int ix86_isa_flags_explicit;
 
-/* Define a set of ISAs which aren't available for a given ISA. MMX
-   and SSE ISAs are handled separately.  */
+/* Define a set of ISAs which are available when a given ISA is
+   enabled.  MMX and SSE ISAs are handled separately.  */
+
+#define OPTION_MASK_ISA_MMX_SET OPTION_MASK_ISA_MMX
+#define OPTION_MASK_ISA_3DNOW_SET \
+  (OPTION_MASK_ISA_3DNOW | OPTION_MASK_ISA_MMX_SET)
+
+#define OPTION_MASK_ISA_SSE_SET OPTION_MASK_ISA_SSE
+#define OPTION_MASK_ISA_SSE2_SET \
+  (OPTION_MASK_ISA_SSE2 | OPTION_MASK_ISA_SSE_SET)
+#define OPTION_MASK_ISA_SSE3_SET \
+  (OPTION_MASK_ISA_SSE3 | OPTION_MASK_ISA_SSE2_SET)
+#define OPTION_MASK_ISA_SSSE3_SET \
+  (OPTION_MASK_ISA_SSSE3 | OPTION_MASK_ISA_SSE3_SET)
+#define OPTION_MASK_ISA_SSE4_1_SET \
+  (OPTION_MASK_ISA_SSE4_1 | OPTION_MASK_ISA_SSSE3_SET)
+#define OPTION_MASK_ISA_SSE4_2_SET \
+  (OPTION_MASK_ISA_SSE4_2 | OPTION_MASK_ISA_SSE4_1_SET)
+
+/* SSE4 includes both SSE4.1 and SSE4.2. -msse4 should be the same
+   as -msse4.2.  */
+#define OPTION_MASK_ISA_SSE4_SET OPTION_MASK_ISA_SSE4_2_SET
+
+#define OPTION_MASK_ISA_SSE4A_SET \
+  (OPTION_MASK_ISA_SSE4A | OPTION_MASK_ISA_SSE3_SET)
+#define OPTION_MASK_ISA_SSE5_SET \
+  (OPTION_MASK_ISA_SSE5 | OPTION_MASK_ISA_SSE4A_SET)
+
+/* Define a set of ISAs which aren't available when a given ISA is
+   disabled.  MMX and SSE ISAs are handled separately.  */
 
 #define OPTION_MASK_ISA_MMX_UNSET \
-  (OPTION_MASK_ISA_3DNOW | OPTION_MASK_ISA_3DNOW_UNSET)
-#define OPTION_MASK_ISA_3DNOW_UNSET OPTION_MASK_ISA_3DNOW_A
+  (OPTION_MASK_ISA_MMX | OPTION_MASK_ISA_3DNOW_UNSET)
+#define OPTION_MASK_ISA_3DNOW_UNSET \
+  (OPTION_MASK_ISA_3DNOW | OPTION_MASK_ISA_3DNOW_A_UNSET)
+#define OPTION_MASK_ISA_3DNOW_A_UNSET OPTION_MASK_ISA_3DNOW_A
 
 #define OPTION_MASK_ISA_SSE_UNSET \
-  (OPTION_MASK_ISA_SSE2 | OPTION_MASK_ISA_SSE2_UNSET)
+  (OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_SSE2_UNSET)
 #define OPTION_MASK_ISA_SSE2_UNSET \
-  (OPTION_MASK_ISA_SSE3 | OPTION_MASK_ISA_SSE3_UNSET)
+  (OPTION_MASK_ISA_SSE2 | OPTION_MASK_ISA_SSE3_UNSET)
 #define OPTION_MASK_ISA_SSE3_UNSET \
-  (OPTION_MASK_ISA_SSSE3 | OPTION_MASK_ISA_SSSE3_UNSET)
+  (OPTION_MASK_ISA_SSE3 \
+   | OPTION_MASK_ISA_SSSE3_UNSET \
+   | OPTION_MASK_ISA_SSE4A_UNSET )
 #define OPTION_MASK_ISA_SSSE3_UNSET \
-  (OPTION_MASK_ISA_SSE4_1 | OPTION_MASK_ISA_SSE4_1_UNSET)
+  (OPTION_MASK_ISA_SSSE3 | OPTION_MASK_ISA_SSE4_1_UNSET)
 #define OPTION_MASK_ISA_SSE4_1_UNSET \
-  (OPTION_MASK_ISA_SSE4_2 | OPTION_MASK_ISA_SSE4_2_UNSET)
-#define OPTION_MASK_ISA_SSE4_2_UNSET OPTION_MASK_ISA_SSE4A
+  (OPTION_MASK_ISA_SSE4_1 | OPTION_MASK_ISA_SSE4_2_UNSET)
+#define OPTION_MASK_ISA_SSE4_2_UNSET OPTION_MASK_ISA_SSE4_2
 
-/* SSE4 includes both SSE4.1 and SSE4.2. -msse4 should be the same
-   as -msse4.1 -msse4.2.  -mno-sse4 should the same as -mno-sse4.1. */
-#define OPTION_MASK_ISA_SSE4 \
-  (OPTION_MASK_ISA_SSE4_1 | OPTION_MASK_ISA_SSE4_2)
+/* SSE4 includes both SSE4.1 and SSE4.2.  -mno-sse4 should the same
+   as -mno-sse4.1. */
 #define OPTION_MASK_ISA_SSE4_UNSET OPTION_MASK_ISA_SSE4_1_UNSET
 
-#define OPTION_MASK_ISA_SSE4A_UNSET OPTION_MASK_ISA_SSE4
+#define OPTION_MASK_ISA_SSE4A_UNSET \
+  (OPTION_MASK_ISA_SSE4A | OPTION_MASK_ISA_SSE5_UNSET)
 
-#define OPTION_MASK_ISA_SSE5_UNSET \
-  (OPTION_MASK_ISA_3DNOW | OPTION_MASK_ISA_3DNOW_UNSET)
+#define OPTION_MASK_ISA_SSE5_UNSET OPTION_MASK_ISA_SSE5
 
 /* Vectorization library interface and handlers.  */
 tree (*ix86_veclib_handler)(enum built_in_function, tree, tree) = NULL;
@@ -1809,8 +1840,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
   switch (code)
     {
     case OPT_mmmx:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_MMX;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_MMX_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_MMX_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_MMX_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_MMX_UNSET;
@@ -1818,8 +1853,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_m3dnow:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_3DNOW_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_3DNOW_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW_UNSET;
@@ -1830,8 +1869,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return false;
 
     case OPT_msse:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE_UNSET;
@@ -1839,8 +1882,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse2:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE2_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE2_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2_UNSET;
@@ -1848,8 +1895,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse3:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE3;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE3_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE3_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE3_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE3_UNSET;
@@ -1857,8 +1908,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_mssse3:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSSE3;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSSE3_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSSE3_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSSE3_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSSE3_UNSET;
@@ -1866,8 +1921,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse4_1:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_1;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE4_1_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_1_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4_1_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_1_UNSET;
@@ -1875,8 +1934,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse4_2:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_2;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE4_2_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_2_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4_2_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_2_UNSET;
@@ -1884,8 +1947,8 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse4:
-      ix86_isa_flags |= OPTION_MASK_ISA_SSE4;
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4;
+      ix86_isa_flags |= OPTION_MASK_ISA_SSE4_SET;
+      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_SET;
       return true;
 
     case OPT_mno_sse4:
@@ -1894,8 +1957,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse4a:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4A;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE4A_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4A_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4A_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4A_UNSET;
@@ -1903,8 +1970,12 @@ ix86_handle_option (size_t code, const char *arg ATTRIBUTE_UNUSED, int value)
       return true;
 
     case OPT_msse5:
-      ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE5;
-      if (!value)
+      if (value)
+       {
+         ix86_isa_flags |= OPTION_MASK_ISA_SSE5_SET;
+         ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE5_SET;
+       }
+      else
        {
          ix86_isa_flags &= ~OPTION_MASK_ISA_SSE5_UNSET;
          ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE5_UNSET;
@@ -1963,7 +2034,31 @@ override_options (void)
       {&amdfam10_cost, 32, 24, 32, 7, 32}
     };
 
-  static const char * const cpu_names[] = TARGET_CPU_DEFAULT_NAMES;
+  static const char *const cpu_names[TARGET_CPU_DEFAULT_max] =
+    {
+      "generic",
+      "i386",
+      "i486",
+      "pentium",
+      "pentium-mmx",
+      "pentiumpro",
+      "pentium2",
+      "pentium3",
+      "pentium4",
+      "pentium-m",
+      "prescott",
+      "nocona",
+      "core2",
+      "geode",
+      "k6",
+      "k6-2",
+      "k6-3",
+      "athlon",
+      "athlon-4",
+      "k8",
+      "amdfam10"
+    };
+
   enum pta_flags
     {
       PTA_SSE = 1 << 0,
@@ -2138,7 +2233,7 @@ override_options (void)
        ix86_tune_string = ix86_arch_string;
       if (!ix86_tune_string)
        {
-         ix86_tune_string = cpu_names [TARGET_CPU_DEFAULT];
+         ix86_tune_string = cpu_names[TARGET_CPU_DEFAULT];
          ix86_tune_defaulted = 1;
        }
 
@@ -2505,34 +2600,6 @@ override_options (void)
   if (!TARGET_80387)
     target_flags |= MASK_NO_FANCY_MATH_387;
 
-  /* Turn on SSE4A bultins for -msse5.  */
-  if (TARGET_SSE5)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSE4A;
-
-  /* Turn on SSE4.1 builtins for -msse4.2.  */
-  if (TARGET_SSE4_2)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSE4_1;
-
-  /* Turn on SSSE3 builtins for -msse4.1.  */
-  if (TARGET_SSE4_1)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSSE3;
-
-  /* Turn on SSE3 builtins for -mssse3.  */
-  if (TARGET_SSSE3)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSE3;
-
-  /* Turn on SSE3 builtins for -msse4a.  */
-  if (TARGET_SSE4A)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSE3;
-
-  /* Turn on SSE2 builtins for -msse3.  */
-  if (TARGET_SSE3)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSE2;
-
-  /* Turn on SSE builtins for -msse2.  */
-  if (TARGET_SSE2)
-    ix86_isa_flags |= OPTION_MASK_ISA_SSE;
-
   /* Turn on MMX builtins for -msse.  */
   if (TARGET_SSE)
     {
@@ -2540,10 +2607,6 @@ override_options (void)
       x86_prefetch_sse = true;
     }
 
-  /* Turn on MMX builtins for 3Dnow.  */
-  if (TARGET_3DNOW)
-    ix86_isa_flags |= OPTION_MASK_ISA_MMX;
-
   /* Turn on popcnt instruction for -msse4.2 or -mabm.  */
   if (TARGET_SSE4_2 || TARGET_ABM)
     x86_popcnt = true;
@@ -2637,6 +2700,18 @@ override_options (void)
       target_flags |= MASK_ACCUMULATE_OUTGOING_ARGS;
     }
 
+  /* If stack probes are required, the space used for large function
+     arguments on the stack must also be probed, so enable
+     -maccumulate-outgoing-args so this happens in the prologue.  */
+  if (TARGET_STACK_PROBE
+      && !(target_flags & MASK_ACCUMULATE_OUTGOING_ARGS))
+    {
+      if (target_flags_explicit & MASK_ACCUMULATE_OUTGOING_ARGS)
+       warning (0, "stack probing requires -maccumulate-outgoing-args "
+                "for correctness");
+      target_flags |= MASK_ACCUMULATE_OUTGOING_ARGS;
+    }
+
   /* For sane SSE instruction set generation we need fcomi instruction.
      It is safe to enable all CMOVE instructions.  */
   if (TARGET_SSE)
@@ -2665,6 +2740,11 @@ override_options (void)
     set_param_value ("l1-cache-size", ix86_cost->l1_cache_size);
   if (!PARAM_SET_P (PARAM_L2_CACHE_SIZE))
     set_param_value ("l2-cache-size", ix86_cost->l2_cache_size);
+
+  /* If using typedef char *va_list, signal that __builtin_va_start (&ap, 0)
+     can be optimized to ap = __builtin_next_arg (0).  */
+  if (!TARGET_64BIT || TARGET_64BIT_MS_ABI)
+    targetm.expand_builtin_va_start = NULL;
 }
 \f
 /* Return true if this goes in large data/bss.  */
@@ -2904,6 +2984,7 @@ optimization_options (int level, int size ATTRIBUTE_UNUSED)
     flag_omit_frame_pointer = 2;
   flag_pcc_struct_return = 2;
   flag_asynchronous_unwind_tables = 2;
+  flag_vect_cost_model = 1;
 #ifdef SUBTARGET_OPTIMIZATION_OPTIONS
   SUBTARGET_OPTIMIZATION_OPTIONS;
 #endif
@@ -3174,9 +3255,9 @@ ix86_function_regparm (const_tree type, const_tree decl)
          struct function *f;
 
          /* Make sure no regparm register is taken by a
-            global register variable.  */
-         for (local_regparm = 0; local_regparm < 3; local_regparm++)
-           if (global_regs[local_regparm])
+            fixed register variable.  */
+         for (local_regparm = 0; local_regparm < REGPARM_MAX; local_regparm++)
+           if (fixed_regs[local_regparm])
              break;
 
          /* We can't use regparm(3) for nested functions as these use
@@ -3198,12 +3279,14 @@ ix86_function_regparm (const_tree type, const_tree decl)
                                        TYPE_ATTRIBUTES (TREE_TYPE (decl)))))
            local_regparm = 2;
 
-         /* Each global register variable increases register preassure,
-            so the more global reg vars there are, the smaller regparm
-            optimization use, unless requested by the user explicitly.  */
-         for (regno = 0; regno < 6; regno++)
-           if (global_regs[regno])
+         /* Each fixed register usage increases register pressure,
+            so less registers should be used for argument passing.
+            This functionality can be overriden by an explicit
+            regparm value.  */
+         for (regno = 0; regno <= DI_REG; regno++)
+           if (fixed_regs[regno])
              globals++;
+
          local_regparm
            = globals < local_regparm ? local_regparm - globals : 0;
 
@@ -3221,7 +3304,7 @@ ix86_function_regparm (const_tree type, const_tree decl)
    indirectly or considering a libcall.  Otherwise return 0.  */
 
 static int
-ix86_function_sseregparm (const_tree type, const_tree decl)
+ix86_function_sseregparm (const_tree type, const_tree decl, bool warn)
 {
   gcc_assert (!TARGET_64BIT);
 
@@ -3232,12 +3315,15 @@ ix86_function_sseregparm (const_tree type, const_tree decl)
     {
       if (!TARGET_SSE)
        {
-         if (decl)
-           error ("Calling %qD with attribute sseregparm without "
-                  "SSE/SSE2 enabled", decl);
-         else
-           error ("Calling %qT with attribute sseregparm without "
-                  "SSE/SSE2 enabled", type);
+         if (warn)
+           {
+             if (decl)
+               error ("Calling %qD with attribute sseregparm without "
+                      "SSE/SSE2 enabled", decl);
+             else
+               error ("Calling %qT with attribute sseregparm without "
+                      "SSE/SSE2 enabled", type);
+           }
          return 0;
        }
 
@@ -3399,6 +3485,7 @@ init_cumulative_args (CUMULATIVE_ARGS *cum,  /* Argument info to initialize */
                      rtx libname,      /* SYMBOL_REF of library name or 0 */
                      tree fndecl)
 {
+  struct cgraph_local_info *i = fndecl ? cgraph_local_info (fndecl) : NULL;
   memset (cum, 0, sizeof (*cum));
 
   /* Set up the number of registers to use for passing arguments.  */
@@ -3409,6 +3496,15 @@ init_cumulative_args (CUMULATIVE_ARGS *cum,  /* Argument info to initialize */
     cum->mmx_nregs = MMX_REGPARM_MAX;
   cum->warn_sse = true;
   cum->warn_mmx = true;
+
+  /* Because type might mismatch in between caller and callee, we need to
+     use actual type of function for local calls.
+     FIXME: cgraph_analyze can be told to actually record if function uses
+     va_start so for local functions maybe_vaarg can be made aggressive
+     helping K&R code.
+     FIXME: once typesytem is fixed, we won't need this code anymore.  */
+  if (i && i->local)
+    fntype = TREE_TYPE (fndecl);
   cum->maybe_vaarg = (fntype
                      ? (!prototype_p (fntype) || stdarg_p (fntype))
                      : !libname);
@@ -3442,7 +3538,7 @@ init_cumulative_args (CUMULATIVE_ARGS *cum,  /* Argument info to initialize */
 
       /* Set up the number of SSE registers used for passing SFmode
         and DFmode arguments.  Warn for mismatching ABI.  */
-      cum->float_in_sse = ix86_function_sseregparm (fntype, fndecl);
+      cum->float_in_sse = ix86_function_sseregparm (fntype, fndecl, true);
     }
 }
 
@@ -3742,7 +3838,7 @@ classify_argument (enum machine_mode mode, const_tree type,
     }
 
   /* for V1xx modes, just use the base mode */
-  if (VECTOR_MODE_P (mode)
+  if (VECTOR_MODE_P (mode) && mode != V1DImode
       && GET_MODE_SIZE (GET_MODE_INNER (mode)) == bytes)
     mode = GET_MODE_INNER (mode);
 
@@ -3814,6 +3910,7 @@ classify_argument (enum machine_mode mode, const_tree type,
       classes[0] = X86_64_SSE_CLASS;
       classes[1] = X86_64_SSEUP_CLASS;
       return 2;
+    case V1DImode:
     case V2SFmode:
     case V2SImode:
     case V4HImode:
@@ -4115,6 +4212,7 @@ function_arg_advance_32 (CUMULATIVE_ARGS *cum, enum machine_mode mode,
     case V4HImode:
     case V2SImode:
     case V2SFmode:
+    case V1DImode:
       if (!type || !AGGREGATE_TYPE_P (type))
        {
          cum->mmx_words += words;
@@ -4229,10 +4327,13 @@ function_arg_32 (CUMULATIVE_ARGS *cum, enum machine_mode mode,
          int regno = cum->regno;
 
          /* Fastcall allocates the first two DWORD (SImode) or
-            smaller arguments to ECX and EDX.  */
+            smaller arguments to ECX and EDX if it isn't an
+            aggregate type .  */
          if (cum->fastcall)
            {
-             if (mode == BLKmode || mode == DImode)
+             if (mode == BLKmode
+                 || mode == DImode
+                 || (type && AGGREGATE_TYPE_P (type)))
                break;
 
              /* ECX not EAX is the first allocated register.  */
@@ -4275,6 +4376,7 @@ function_arg_32 (CUMULATIVE_ARGS *cum, enum machine_mode mode,
     case V4HImode:
     case V2SImode:
     case V2SFmode:
+    case V1DImode:
       if (!type || !AGGREGATE_TYPE_P (type))
        {
          if (!TARGET_MMX && !warnedmmx && cum->warn_mmx)
@@ -4564,7 +4666,7 @@ function_value_32 (enum machine_mode orig_mode, enum machine_mode mode,
      SSE math is enabled or for functions with sseregparm attribute.  */
   if ((fn || fntype) && (mode == SFmode || mode == DFmode))
     {
-      int sse_level = ix86_function_sseregparm (fntype, fn);
+      int sse_level = ix86_function_sseregparm (fntype, fn, false);
       if ((sse_level >= 1 && mode == SFmode)
          || (sse_level == 2 && mode == DFmode))
        regno = FIRST_SSE_REG;
@@ -5013,7 +5115,7 @@ ix86_setup_incoming_varargs (CUMULATIVE_ARGS *cum, enum machine_mode mode,
 
 /* Implement va_start.  */
 
-void
+static void
 ix86_va_start (tree valist, rtx nextarg)
 {
   HOST_WIDE_INT words, n_gpr, n_fpr;
@@ -6283,8 +6385,12 @@ ix86_expand_prologue (void)
     allocate += frame.nregs * UNITS_PER_WORD;
 
   /* When using red zone we may start register saving before allocating
-     the stack frame saving one cycle of the prologue.  */
-  if (TARGET_RED_ZONE && frame.save_regs_using_mov)
+     the stack frame saving one cycle of the prologue. However I will
+     avoid doing this if I am going to have to probe the stack since
+     at least on x86_64 the stack probe can turn into a call that clobbers
+     a red zone location */
+  if (TARGET_RED_ZONE && frame.save_regs_using_mov
+      && (! TARGET_STACK_PROBE || allocate < CHECK_STACK_LIMIT))
     ix86_emit_save_regs_using_mov (frame_pointer_needed ? hard_frame_pointer_rtx
                                   : stack_pointer_rtx,
                                   -frame.nregs * UNITS_PER_WORD);
@@ -6340,7 +6446,9 @@ ix86_expand_prologue (void)
        }
     }
 
-  if (frame.save_regs_using_mov && !TARGET_RED_ZONE)
+  if (frame.save_regs_using_mov
+      && !(TARGET_RED_ZONE
+         && (! TARGET_STACK_PROBE || allocate < CHECK_STACK_LIMIT)))
     {
       if (!frame_pointer_needed || !frame.to_allocate)
         ix86_emit_save_regs_using_mov (stack_pointer_rtx, frame.to_allocate);
@@ -6757,7 +6865,7 @@ ix86_decompose_address (rtx addr, struct ix86_address *out)
 
   /* Special case: on K6, [%esi] makes the instruction vector decoded.
      Avoid this by transforming to [%esi+0].  */
-  if (ix86_tune == PROCESSOR_K6 && !optimize_size
+  if (TARGET_K6 && !optimize_size
       && base_reg && !index_reg && !disp
       && REG_P (base_reg)
       && REGNO_REG_CLASS (REGNO (base_reg)) == SIREG)
@@ -10795,6 +10903,14 @@ ix86_expand_convert_uns_didf_sse (rtx target, rtx input)
   ix86_expand_vector_extract (false, target, fp_xmm, 0);
 }
 
+/* Not used, but eases macroization of patterns.  */
+void
+ix86_expand_convert_uns_sixf_sse (rtx target ATTRIBUTE_UNUSED,
+                                 rtx input ATTRIBUTE_UNUSED)
+{
+  gcc_unreachable ();
+}
+
 /* Convert an unsigned SImode value into a DFmode.  Only currently used
    for SSE, but applicable anywhere.  */
 
@@ -10978,7 +11094,6 @@ ix86_expand_fp_absneg_operator (enum rtx_code code, enum machine_mode mode,
                                rtx operands[])
 {
   rtx mask, set, use, clob, dst, src;
-  bool matching_memory;
   bool use_sse = false;
   bool vector_mode = VECTOR_MODE_P (mode);
   enum machine_mode elt_mode = mode;
@@ -11003,19 +11118,6 @@ ix86_expand_fp_absneg_operator (enum rtx_code code, enum machine_mode mode,
   dst = operands[0];
   src = operands[1];
 
-  /* If the destination is memory, and we don't have matching source
-     operands or we're using the x87, do things in registers.  */
-  matching_memory = false;
-  if (MEM_P (dst))
-    {
-      if (use_sse && rtx_equal_p (dst, src))
-       matching_memory = true;
-      else
-       dst = gen_reg_rtx (mode);
-    }
-  if (MEM_P (src) && !matching_memory)
-    src = force_reg (mode, src);
-
   if (vector_mode)
     {
       set = gen_rtx_fmt_ee (code == NEG ? XOR : AND, mode, src, mask);
@@ -11036,9 +11138,6 @@ ix86_expand_fp_absneg_operator (enum rtx_code code, enum machine_mode mode,
       else
        emit_insn (set);
     }
-
-  if (dst != operands[0])
-    emit_move_insn (operands[0], dst);
 }
 
 /* Expand a copysign operation.  Special case operand 0 being a constant.  */
@@ -12058,16 +12157,30 @@ ix86_expand_branch (enum rtx_code code, rtx label)
 
        /* Otherwise, if we are doing less-than or greater-or-equal-than,
           op1 is a constant and the low word is zero, then we can just
-          examine the high word.  */
+          examine the high word.  Similarly for low word -1 and
+          less-or-equal-than or greater-than.  */
 
-       if (CONST_INT_P (hi[1]) && lo[1] == const0_rtx)
+       if (CONST_INT_P (hi[1]))
          switch (code)
            {
            case LT: case LTU: case GE: case GEU:
-             ix86_compare_op0 = hi[0];
-             ix86_compare_op1 = hi[1];
-             ix86_expand_branch (code, label);
-             return;
+             if (lo[1] == const0_rtx)
+               {
+                 ix86_compare_op0 = hi[0];
+                 ix86_compare_op1 = hi[1];
+                 ix86_expand_branch (code, label);
+                 return;
+               }
+             break;
+           case LE: case LEU: case GT: case GTU:
+             if (lo[1] == constm1_rtx)
+               {
+                 ix86_compare_op0 = hi[0];
+                 ix86_compare_op1 = hi[1];
+                 ix86_expand_branch (code, label);
+                 return;
+               }
+             break;
            default:
              break;
            }
@@ -15075,8 +15188,9 @@ decide_alg (HOST_WIDE_INT count, HOST_WIDE_INT expected_size, bool memset,
      additionally, memset wants eax and memcpy wants esi.  Don't
      consider such algorithms if the user has appropriated those
      registers for their own purposes. */
-  bool rep_prefix_usable = !(global_regs[CX_REG] || global_regs[DI_REG]
-                             || (memset ? global_regs[AX_REG] : global_regs[SI_REG]));
+  bool rep_prefix_usable = !(fixed_regs[CX_REG] || fixed_regs[DI_REG]
+                             || (memset
+                                ? fixed_regs[AX_REG] : fixed_regs[SI_REG]));
 
 #define ALG_USABLE_P(alg) (rep_prefix_usable                   \
                           || (alg != rep_prefix_1_byte         \
@@ -15246,7 +15360,7 @@ smallest_pow2_greater_than (int val)
 }
 
 /* Expand string move (memcpy) operation.  Use i386 string operations when
-   profitable.  expand_clrmem contains similar code. The code depends upon
+   profitable.  expand_setmem contains similar code.  The code depends upon
    architecture, block size and alignment, but always has the same
    overall structure:
 
@@ -15297,6 +15411,10 @@ ix86_expand_movmem (rtx dst, rtx src, rtx count_exp, rtx align_exp,
   if (CONST_INT_P (expected_size_exp) && count == 0)
     expected_size = INTVAL (expected_size_exp);
 
+  /* Make sure we don't need to care about overflow later on.  */
+  if (count > ((unsigned HOST_WIDE_INT) 1 << 30))
+    return 0;
+
   /* Step 0: Decide on preferred algorithm, desired alignment and
      size of chunks to be copied by main loop.  */
 
@@ -15342,12 +15460,7 @@ ix86_expand_movmem (rtx dst, rtx src, rtx count_exp, rtx align_exp,
 
   /* Alignment code needs count to be in register.  */
   if (CONST_INT_P (count_exp) && desired_align > align)
-    {
-      enum machine_mode mode = SImode;
-      if (TARGET_64BIT && (count & ~0xffffffff))
-       mode = DImode;
-      count_exp = force_reg (mode, count_exp);
-    }
+    count_exp = force_reg (counter_mode (count_exp), count_exp);
   gcc_assert (desired_align >= 1 && align >= 1);
 
   /* Ensure that alignment prologue won't copy past end of block.  */
@@ -15358,29 +15471,48 @@ ix86_expand_movmem (rtx dst, rtx src, rtx count_exp, rtx align_exp,
         Make sure it is power of 2.  */
       epilogue_size_needed = smallest_pow2_greater_than (epilogue_size_needed);
 
-      label = gen_label_rtx ();
-      emit_cmp_and_jump_insns (count_exp,
-                              GEN_INT (epilogue_size_needed),
-                              LTU, 0, counter_mode (count_exp), 1, label);
-      if (GET_CODE (count_exp) == CONST_INT)
-       ;
-      else if (expected_size == -1 || expected_size < epilogue_size_needed)
-       predict_jump (REG_BR_PROB_BASE * 60 / 100);
+      if (CONST_INT_P (count_exp))
+       {
+         if (UINTVAL (count_exp) < (unsigned HOST_WIDE_INT)epilogue_size_needed)
+           goto epilogue;
+       }
       else
-       predict_jump (REG_BR_PROB_BASE * 20 / 100);
+       {
+         label = gen_label_rtx ();
+         emit_cmp_and_jump_insns (count_exp,
+                                  GEN_INT (epilogue_size_needed),
+                                  LTU, 0, counter_mode (count_exp), 1, label);
+         if (expected_size == -1 || expected_size < epilogue_size_needed)
+           predict_jump (REG_BR_PROB_BASE * 60 / 100);
+         else
+           predict_jump (REG_BR_PROB_BASE * 20 / 100);
+       }
     }
+
   /* Emit code to decide on runtime whether library call or inline should be
      used.  */
   if (dynamic_check != -1)
     {
-      rtx hot_label = gen_label_rtx ();
-      jump_around_label = gen_label_rtx ();
-      emit_cmp_and_jump_insns (count_exp, GEN_INT (dynamic_check - 1),
-                              LEU, 0, GET_MODE (count_exp), 1, hot_label);
-      predict_jump (REG_BR_PROB_BASE * 90 / 100);
-      emit_block_move_via_libcall (dst, src, count_exp, false);
-      emit_jump (jump_around_label);
-      emit_label (hot_label);
+      if (CONST_INT_P (count_exp))
+       {
+         if (UINTVAL (count_exp) >= (unsigned HOST_WIDE_INT)dynamic_check)
+           {
+             emit_block_move_via_libcall (dst, src, count_exp, false);
+             count_exp = const0_rtx;
+             goto epilogue;
+           }
+       }
+      else
+       {
+         rtx hot_label = gen_label_rtx ();
+         jump_around_label = gen_label_rtx ();
+         emit_cmp_and_jump_insns (count_exp, GEN_INT (dynamic_check - 1),
+                                  LEU, 0, GET_MODE (count_exp), 1, hot_label);
+         predict_jump (REG_BR_PROB_BASE * 90 / 100);
+         emit_block_move_via_libcall (dst, src, count_exp, false);
+         emit_jump (jump_around_label);
+         emit_label (hot_label);
+       }
     }
 
   /* Step 2: Alignment prologue.  */
@@ -15453,7 +15585,7 @@ ix86_expand_movmem (rtx dst, rtx src, rtx count_exp, rtx align_exp,
     }
 
   /* Step 4: Epilogue to copy the remaining bytes.  */
-
+ epilogue:
   if (label)
     {
       /* When the main loop is done, COUNT_EXP might hold original count,
@@ -15607,6 +15739,10 @@ ix86_expand_setmem (rtx dst, rtx count_exp, rtx val_exp, rtx align_exp,
   if (CONST_INT_P (expected_size_exp) && count == 0)
     expected_size = INTVAL (expected_size_exp);
 
+  /* Make sure we don't need to care about overflow later on.  */
+  if (count > ((unsigned HOST_WIDE_INT) 1 << 30))
+    return 0;
+
   /* Step 0: Decide on preferred algorithm, desired alignment and
      size of chunks to be copied by main loop.  */
 
@@ -16037,7 +16173,7 @@ ix86_expand_strlen (rtx out, rtx src, rtx eoschar, rtx align)
       rtx unspec;
 
       /* Can't use this if the user has appropriated eax, ecx, or edi.  */
-      if (global_regs[AX_REG] || global_regs[CX_REG] || global_regs[DI_REG])
+      if (fixed_regs[AX_REG] || fixed_regs[CX_REG] || fixed_regs[DI_REG])
         return false;
 
       scratch2 = gen_reg_rtx (Pmode);
@@ -16179,6 +16315,7 @@ rtx
 assign_386_stack_local (enum machine_mode mode, enum ix86_stack_slot n)
 {
   struct stack_local_entry *s;
+  int align;
 
   gcc_assert (n < MAX_386_STACK_LOCALS);
 
@@ -16189,11 +16326,19 @@ assign_386_stack_local (enum machine_mode mode, enum ix86_stack_slot n)
     if (s->mode == mode && s->n == n)
       return copy_rtx (s->rtl);
 
+  /* Align DImode slots to their natural alignment
+     to avoid store forwarding stalls.  */
+  if (mode == DImode
+      && (GET_MODE_BITSIZE (mode) > GET_MODE_ALIGNMENT (mode)))
+    align = GET_MODE_BITSIZE (mode);
+  else
+    align = 0;
+
   s = (struct stack_local_entry *)
     ggc_alloc (sizeof (struct stack_local_entry));
   s->n = n;
   s->mode = mode;
-  s->rtl = assign_stack_local (mode, GET_MODE_SIZE (mode), 0);
+  s->rtl = assign_stack_local (mode, GET_MODE_SIZE (mode), align);
 
   s->next = ix86_stack_locals;
   ix86_stack_locals = s;
@@ -16637,15 +16782,18 @@ ix86_adjust_cost (rtx insn, rtx link, rtx dep_insn, int cost)
 static int
 ia32_multipass_dfa_lookahead (void)
 {
-  if (ix86_tune == PROCESSOR_PENTIUM)
-    return 2;
+  switch (ix86_tune)
+    {
+    case PROCESSOR_PENTIUM:
+      return 2;
 
-  if (ix86_tune == PROCESSOR_PENTIUMPRO
-      || ix86_tune == PROCESSOR_K6)
-    return 1;
+    case PROCESSOR_PENTIUMPRO:
+    case PROCESSOR_K6:
+      return 1;
 
-  else
-    return 0;
+    default:
+      return 0;
+    }
 }
 
 \f
@@ -16658,7 +16806,8 @@ ia32_multipass_dfa_lookahead (void)
 int
 ix86_constant_alignment (tree exp, int align)
 {
-  if (TREE_CODE (exp) == REAL_CST)
+  if (TREE_CODE (exp) == REAL_CST || TREE_CODE (exp) == VECTOR_CST
+      || TREE_CODE (exp) == INTEGER_CST)
     {
       if (TYPE_MODE (TREE_TYPE (exp)) == DFmode && align < 64)
        return 64;
@@ -17020,9 +17169,11 @@ enum ix86_builtins
   IX86_BUILTIN_RCPPS,
   IX86_BUILTIN_RCPSS,
   IX86_BUILTIN_RSQRTPS,
+  IX86_BUILTIN_RSQRTPS_NR,
   IX86_BUILTIN_RSQRTSS,
   IX86_BUILTIN_RSQRTF,
   IX86_BUILTIN_SQRTPS,
+  IX86_BUILTIN_SQRTPS_NR,
   IX86_BUILTIN_SQRTSS,
 
   IX86_BUILTIN_UNPCKHPS,
@@ -17776,7 +17927,7 @@ static const struct builtin_description bdesc_2arg[] =
   { OPTION_MASK_ISA_SSE, CODE_FOR_addv4sf3, "__builtin_ia32_addps", IX86_BUILTIN_ADDPS, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_subv4sf3, "__builtin_ia32_subps", IX86_BUILTIN_SUBPS, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_mulv4sf3, "__builtin_ia32_mulps", IX86_BUILTIN_MULPS, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE, CODE_FOR_divv4sf3, "__builtin_ia32_divps", IX86_BUILTIN_DIVPS, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE, CODE_FOR_sse_divv4sf3, "__builtin_ia32_divps", IX86_BUILTIN_DIVPS, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_vmaddv4sf3,  "__builtin_ia32_addss", IX86_BUILTIN_ADDSS, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_vmsubv4sf3,  "__builtin_ia32_subss", IX86_BUILTIN_SUBSS, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_vmmulv4sf3,  "__builtin_ia32_mulss", IX86_BUILTIN_MULSS, UNKNOWN, 0 },
@@ -17825,11 +17976,11 @@ static const struct builtin_description bdesc_2arg[] =
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_addv8qi3, "__builtin_ia32_paddb", IX86_BUILTIN_PADDB, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_addv4hi3, "__builtin_ia32_paddw", IX86_BUILTIN_PADDW, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_addv2si3, "__builtin_ia32_paddd", IX86_BUILTIN_PADDD, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_mmx_adddi3, "__builtin_ia32_paddq", IX86_BUILTIN_PADDQ, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE2, CODE_FOR_mmx_addv1di3, "__builtin_ia32_paddq", IX86_BUILTIN_PADDQ, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_subv8qi3, "__builtin_ia32_psubb", IX86_BUILTIN_PSUBB, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_subv4hi3, "__builtin_ia32_psubw", IX86_BUILTIN_PSUBW, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_subv2si3, "__builtin_ia32_psubd", IX86_BUILTIN_PSUBD, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_mmx_subdi3, "__builtin_ia32_psubq", IX86_BUILTIN_PSUBQ, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE2, CODE_FOR_mmx_subv1di3, "__builtin_ia32_psubq", IX86_BUILTIN_PSUBQ, UNKNOWN, 0 },
 
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ssaddv8qi3, "__builtin_ia32_paddsb", IX86_BUILTIN_PADDSB, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ssaddv4hi3, "__builtin_ia32_paddsw", IX86_BUILTIN_PADDSW, UNKNOWN, 0 },
@@ -17880,25 +18031,6 @@ static const struct builtin_description bdesc_2arg[] =
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_cvtsi2ss, 0, IX86_BUILTIN_CVTSI2SS, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_64BIT, CODE_FOR_sse_cvtsi2ssq, 0, IX86_BUILTIN_CVTSI642SS, UNKNOWN, 0 },
 
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashlv4hi3, 0, IX86_BUILTIN_PSLLW, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashlv4hi3, 0, IX86_BUILTIN_PSLLWI, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashlv2si3, 0, IX86_BUILTIN_PSLLD, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashlv2si3, 0, IX86_BUILTIN_PSLLDI, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashldi3, 0, IX86_BUILTIN_PSLLQ, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashldi3, 0, IX86_BUILTIN_PSLLQI, UNKNOWN, 0 },
-
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_lshrv4hi3, 0, IX86_BUILTIN_PSRLW, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_lshrv4hi3, 0, IX86_BUILTIN_PSRLWI, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_lshrv2si3, 0, IX86_BUILTIN_PSRLD, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_lshrv2si3, 0, IX86_BUILTIN_PSRLDI, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_lshrdi3, 0, IX86_BUILTIN_PSRLQ, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_lshrdi3, 0, IX86_BUILTIN_PSRLQI, UNKNOWN, 0 },
-
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashrv4hi3, 0, IX86_BUILTIN_PSRAW, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashrv4hi3, 0, IX86_BUILTIN_PSRAWI, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashrv2si3, 0, IX86_BUILTIN_PSRAD, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_ashrv2si3, 0, IX86_BUILTIN_PSRADI, UNKNOWN, 0 },
-
   { OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_3DNOW_A, CODE_FOR_mmx_psadbw, 0, IX86_BUILTIN_PSADBW, UNKNOWN, 0 },
   { OPTION_MASK_ISA_MMX, CODE_FOR_mmx_pmaddwd, 0, IX86_BUILTIN_PMADDWD, UNKNOWN, 0 },
 
@@ -18007,20 +18139,9 @@ static const struct builtin_description bdesc_2arg[] =
   { OPTION_MASK_ISA_SSE2, CODE_FOR_umulv8hi3_highpart, "__builtin_ia32_pmulhuw128", IX86_BUILTIN_PMULHUW128, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_psadbw, 0, IX86_BUILTIN_PSADBW128, UNKNOWN, 0 },
 
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_umulsidi3, 0, IX86_BUILTIN_PMULUDQ, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_umulv1siv1di3, 0, IX86_BUILTIN_PMULUDQ, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_umulv2siv2di3, 0, IX86_BUILTIN_PMULUDQ128, UNKNOWN, 0 },
 
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_ashlv8hi3, 0, IX86_BUILTIN_PSLLWI128, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_ashlv4si3, 0, IX86_BUILTIN_PSLLDI128, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_ashlv2di3, 0, IX86_BUILTIN_PSLLQI128, UNKNOWN, 0 },
-
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_lshrv8hi3, 0, IX86_BUILTIN_PSRLWI128, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_lshrv4si3, 0, IX86_BUILTIN_PSRLDI128, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_lshrv2di3, 0, IX86_BUILTIN_PSRLQI128, UNKNOWN, 0 },
-
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_ashrv8hi3, 0, IX86_BUILTIN_PSRAWI128, UNKNOWN, 0 },
-  { OPTION_MASK_ISA_SSE2, CODE_FOR_ashrv4si3, 0, IX86_BUILTIN_PSRADI128, UNKNOWN, 0 },
-
   { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_pmaddwd, 0, IX86_BUILTIN_PMADDWD128, UNKNOWN, 0 },
 
   { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_cvtsi2sd, 0, IX86_BUILTIN_CVTSI2SD, UNKNOWN, 0 },
@@ -18082,11 +18203,14 @@ static const struct builtin_description bdesc_2arg[] =
 
 static const struct builtin_description bdesc_1arg[] =
 {
+  /* SSE */
   { OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_3DNOW_A, CODE_FOR_mmx_pmovmskb, 0, IX86_BUILTIN_PMOVMSKB, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_movmskps, 0, IX86_BUILTIN_MOVMSKPS, UNKNOWN, 0 },
 
-  { OPTION_MASK_ISA_SSE, CODE_FOR_sqrtv4sf2, 0, IX86_BUILTIN_SQRTPS, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE, CODE_FOR_sse_sqrtv4sf2, 0, IX86_BUILTIN_SQRTPS, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE, CODE_FOR_sqrtv4sf2, 0, IX86_BUILTIN_SQRTPS_NR, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_rsqrtv4sf2, 0, IX86_BUILTIN_RSQRTPS, UNKNOWN, 0 },
+  { OPTION_MASK_ISA_SSE, CODE_FOR_rsqrtv4sf2, 0, IX86_BUILTIN_RSQRTPS_NR, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_rcpv4sf2, 0, IX86_BUILTIN_RCPPS, UNKNOWN, 0 },
 
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_cvtps2pi, 0, IX86_BUILTIN_CVTPS2PI, UNKNOWN, 0 },
@@ -18096,6 +18220,7 @@ static const struct builtin_description bdesc_1arg[] =
   { OPTION_MASK_ISA_SSE, CODE_FOR_sse_cvttss2si, 0, IX86_BUILTIN_CVTTSS2SI, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_64BIT, CODE_FOR_sse_cvttss2siq, 0, IX86_BUILTIN_CVTTSS2SI64, UNKNOWN, 0 },
 
+  /* SSE2 */
   { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_pmovmskb, 0, IX86_BUILTIN_PMOVMSKB128, UNKNOWN, 0 },
   { OPTION_MASK_ISA_SSE2, CODE_FOR_sse2_movmskpd, 0, IX86_BUILTIN_MOVMSKPD, UNKNOWN, 0 },
 
@@ -18453,6 +18578,8 @@ ix86_init_mmx_sse_builtins (void)
 
   tree V16QI_type_node = build_vector_type_for_mode (char_type_node, V16QImode);
   tree V2SI_type_node = build_vector_type_for_mode (intSI_type_node, V2SImode);
+  tree V1DI_type_node
+    = build_vector_type_for_mode (long_long_integer_type_node, V1DImode);
   tree V2SF_type_node = build_vector_type_for_mode (float_type_node, V2SFmode);
   tree V2DI_type_node
     = build_vector_type_for_mode (long_long_integer_type_node, V2DImode);
@@ -18517,14 +18644,13 @@ ix86_init_mmx_sse_builtins (void)
   tree v4hi_ftype_v4hi_int
     = build_function_type_list (V4HI_type_node,
                                V4HI_type_node, integer_type_node, NULL_TREE);
-  tree v4hi_ftype_v4hi_di
-    = build_function_type_list (V4HI_type_node,
-                               V4HI_type_node, long_long_unsigned_type_node,
-                               NULL_TREE);
-  tree v2si_ftype_v2si_di
+  tree v2si_ftype_v2si_int
     = build_function_type_list (V2SI_type_node,
-                               V2SI_type_node, long_long_unsigned_type_node,
-                               NULL_TREE);
+                               V2SI_type_node, integer_type_node, NULL_TREE);
+  tree v1di_ftype_v1di_int
+    = build_function_type_list (V1DI_type_node,
+                               V1DI_type_node, integer_type_node, NULL_TREE);
+
   tree void_ftype_void
     = build_function_type (void_type_node, void_list_node);
   tree void_ftype_unsigned
@@ -18591,10 +18717,9 @@ ix86_init_mmx_sse_builtins (void)
   tree v2si_ftype_v2si_v2si
     = build_function_type_list (V2SI_type_node,
                                V2SI_type_node, V2SI_type_node, NULL_TREE);
-  tree di_ftype_di_di
-    = build_function_type_list (long_long_unsigned_type_node,
-                               long_long_unsigned_type_node,
-                               long_long_unsigned_type_node, NULL_TREE);
+  tree v1di_ftype_v1di_v1di
+    = build_function_type_list (V1DI_type_node,
+                               V1DI_type_node, V1DI_type_node, NULL_TREE);
 
   tree di_ftype_di_di_int
     = build_function_type_list (long_long_unsigned_type_node,
@@ -18718,11 +18843,11 @@ ix86_init_mmx_sse_builtins (void)
   tree v4si_ftype_v8hi_v8hi
     = build_function_type_list (V4SI_type_node,
                                V8HI_type_node, V8HI_type_node, NULL_TREE);
-  tree di_ftype_v8qi_v8qi
-    = build_function_type_list (long_long_unsigned_type_node,
+  tree v1di_ftype_v8qi_v8qi
+    = build_function_type_list (V1DI_type_node,
                                V8QI_type_node, V8QI_type_node, NULL_TREE);
-  tree di_ftype_v2si_v2si
-    = build_function_type_list (long_long_unsigned_type_node,
+  tree v1di_ftype_v2si_v2si
+    = build_function_type_list (V1DI_type_node,
                                V2SI_type_node, V2SI_type_node, NULL_TREE);
   tree v2di_ftype_v16qi_v16qi
     = build_function_type_list (V2DI_type_node,
@@ -19050,8 +19175,8 @@ ix86_init_mmx_sse_builtins (void)
        case V2SImode:
          type = v2si_ftype_v2si_v2si;
          break;
-       case DImode:
-         type = di_ftype_di_di;
+       case V1DImode:
+         type = v1di_ftype_v1di_v1di;
          break;
 
        default:
@@ -19143,16 +19268,25 @@ ix86_init_mmx_sse_builtins (void)
 
   /* Add the remaining MMX insns with somewhat more complicated types.  */
   def_builtin (OPTION_MASK_ISA_MMX, "__builtin_ia32_emms", void_ftype_void, IX86_BUILTIN_EMMS);
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psllw", v4hi_ftype_v4hi_di, IX86_BUILTIN_PSLLW);
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_pslld", v2si_ftype_v2si_di, IX86_BUILTIN_PSLLD);
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psllq", di_ftype_di_di, IX86_BUILTIN_PSLLQ);
-
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrlw", v4hi_ftype_v4hi_di, IX86_BUILTIN_PSRLW);
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrld", v2si_ftype_v2si_di, IX86_BUILTIN_PSRLD);
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrlq", di_ftype_di_di, IX86_BUILTIN_PSRLQ);
 
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psraw", v4hi_ftype_v4hi_di, IX86_BUILTIN_PSRAW);
-  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrad", v2si_ftype_v2si_di, IX86_BUILTIN_PSRAD);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psllwi", v4hi_ftype_v4hi_int, IX86_BUILTIN_PSLLWI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_pslldi", v2si_ftype_v2si_int, IX86_BUILTIN_PSLLDI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psllqi", v1di_ftype_v1di_int, IX86_BUILTIN_PSLLQI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psllw", v4hi_ftype_v4hi_v4hi, IX86_BUILTIN_PSLLW);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_pslld", v2si_ftype_v2si_v2si, IX86_BUILTIN_PSLLD);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psllq", v1di_ftype_v1di_v1di, IX86_BUILTIN_PSLLQ);
+
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrlwi", v4hi_ftype_v4hi_int, IX86_BUILTIN_PSRLWI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrldi", v2si_ftype_v2si_int, IX86_BUILTIN_PSRLDI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrlqi", v1di_ftype_v1di_int, IX86_BUILTIN_PSRLQI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrlw", v4hi_ftype_v4hi_v4hi, IX86_BUILTIN_PSRLW);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrld", v2si_ftype_v2si_v2si, IX86_BUILTIN_PSRLD);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrlq", v1di_ftype_v1di_v1di, IX86_BUILTIN_PSRLQ);
+
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrawi", v4hi_ftype_v4hi_int, IX86_BUILTIN_PSRAWI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psradi", v2si_ftype_v2si_int, IX86_BUILTIN_PSRADI);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psraw", v4hi_ftype_v4hi_v4hi, IX86_BUILTIN_PSRAW);
+  def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_psrad", v2si_ftype_v2si_v2si, IX86_BUILTIN_PSRAD);
 
   def_builtin_const (OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_3DNOW_A, "__builtin_ia32_pshufw", v4hi_ftype_v4hi_int, IX86_BUILTIN_PSHUFW);
   def_builtin_const (OPTION_MASK_ISA_MMX, "__builtin_ia32_pmaddwd", v2si_ftype_v4hi_v4hi, IX86_BUILTIN_PMADDWD);
@@ -19201,17 +19335,19 @@ ix86_init_mmx_sse_builtins (void)
 
   def_builtin (OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_3DNOW_A, "__builtin_ia32_sfence", void_ftype_void, IX86_BUILTIN_SFENCE);
 
-  def_builtin_const (OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_3DNOW_A, "__builtin_ia32_psadbw", di_ftype_v8qi_v8qi, IX86_BUILTIN_PSADBW);
+  def_builtin_const (OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_3DNOW_A, "__builtin_ia32_psadbw", v1di_ftype_v8qi_v8qi, IX86_BUILTIN_PSADBW);
 
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_rcpps", v4sf_ftype_v4sf, IX86_BUILTIN_RCPPS);
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_rcpss", v4sf_ftype_v4sf, IX86_BUILTIN_RCPSS);
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_rsqrtps", v4sf_ftype_v4sf, IX86_BUILTIN_RSQRTPS);
+  def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_rsqrtps_nr", v4sf_ftype_v4sf, IX86_BUILTIN_RSQRTPS_NR);
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_rsqrtss", v4sf_ftype_v4sf, IX86_BUILTIN_RSQRTSS);
   ftype = build_function_type_list (float_type_node,
                                    float_type_node,
                                    NULL_TREE);
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_rsqrtf", ftype, IX86_BUILTIN_RSQRTF);
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_sqrtps", v4sf_ftype_v4sf, IX86_BUILTIN_SQRTPS);
+  def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_sqrtps_nr", v4sf_ftype_v4sf, IX86_BUILTIN_SQRTPS_NR);
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_sqrtss", v4sf_ftype_v4sf, IX86_BUILTIN_SQRTSS);
 
   def_builtin_const (OPTION_MASK_ISA_SSE, "__builtin_ia32_shufps", v4sf_ftype_v4sf_v4sf_int, IX86_BUILTIN_SHUFPS);
@@ -19303,7 +19439,7 @@ ix86_init_mmx_sse_builtins (void)
   def_builtin (OPTION_MASK_ISA_SSE2, "__builtin_ia32_loaddqu", v16qi_ftype_pcchar, IX86_BUILTIN_LOADDQU);
   def_builtin (OPTION_MASK_ISA_SSE2, "__builtin_ia32_storedqu", void_ftype_pchar_v16qi, IX86_BUILTIN_STOREDQU);
 
-  def_builtin_const (OPTION_MASK_ISA_SSE2, "__builtin_ia32_pmuludq", di_ftype_v2si_v2si, IX86_BUILTIN_PMULUDQ);
+  def_builtin_const (OPTION_MASK_ISA_SSE2, "__builtin_ia32_pmuludq", v1di_ftype_v2si_v2si, IX86_BUILTIN_PMULUDQ);
   def_builtin_const (OPTION_MASK_ISA_SSE2, "__builtin_ia32_pmuludq128", v2di_ftype_v4si_v4si, IX86_BUILTIN_PMULUDQ128);
 
   def_builtin_const (OPTION_MASK_ISA_SSE2, "__builtin_ia32_pslldqi128", v2di_ftype_v2di_int, IX86_BUILTIN_PSLLDQI128);
@@ -20695,6 +20831,39 @@ ix86_expand_builtin (tree exp, rtx target, rtx subtarget ATTRIBUTE_UNUSED,
       emit_insn (pat);
       return target;
 
+    case IX86_BUILTIN_PSLLW:
+    case IX86_BUILTIN_PSLLWI:
+      icode = CODE_FOR_mmx_ashlv4hi3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSLLD:
+    case IX86_BUILTIN_PSLLDI:
+      icode = CODE_FOR_mmx_ashlv2si3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSLLQ:
+    case IX86_BUILTIN_PSLLQI:
+      icode = CODE_FOR_mmx_ashlv1di3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSRAW:
+    case IX86_BUILTIN_PSRAWI:
+      icode = CODE_FOR_mmx_ashrv4hi3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSRAD:
+    case IX86_BUILTIN_PSRADI:
+      icode = CODE_FOR_mmx_ashrv2si3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSRLW:
+    case IX86_BUILTIN_PSRLWI:
+      icode = CODE_FOR_mmx_lshrv4hi3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSRLD:
+    case IX86_BUILTIN_PSRLDI:
+      icode = CODE_FOR_mmx_lshrv2si3;
+      goto do_pshift;
+    case IX86_BUILTIN_PSRLQ:
+    case IX86_BUILTIN_PSRLQI:
+      icode = CODE_FOR_mmx_lshrv1di3;
+      goto do_pshift;
+
     case IX86_BUILTIN_PSLLW128:
     case IX86_BUILTIN_PSLLWI128:
       icode = CODE_FOR_ashlv8hi3;
@@ -21228,7 +21397,7 @@ ix86_builtin_vectorized_function (unsigned int fn, tree type_out,
     case BUILT_IN_SQRTF:
       if (out_mode == SFmode && out_n == 4
          && in_mode == SFmode && in_n == 4)
-       return ix86_builtins[IX86_BUILTIN_SQRTPS];
+       return ix86_builtins[IX86_BUILTIN_SQRTPS_NR];
       break;
 
     case BUILT_IN_LRINT:
@@ -21390,8 +21559,8 @@ ix86_builtin_reciprocal (unsigned int fn, bool md_fn,
     switch (fn)
       {
        /* Vectorized version of sqrt to rsqrt conversion.  */
-      case IX86_BUILTIN_SQRTPS:
-       return ix86_builtins[IX86_BUILTIN_RSQRTPS];
+      case IX86_BUILTIN_SQRTPS_NR:
+       return ix86_builtins[IX86_BUILTIN_RSQRTPS_NR];
 
       default:
        return NULL_TREE;
@@ -21887,7 +22056,7 @@ ix86_register_move_cost (enum machine_mode mode, enum reg_class class1,
        where integer modes in MMX/SSE registers are not tieable
        because of missing QImode and HImode moves to, from or between
        MMX/SSE registers.  */
-    return MAX (ix86_cost->mmxsse_to_integer, 8);
+    return MAX (8, ix86_cost->mmxsse_to_integer);
 
   if (MAYBE_FLOAT_CLASS_P (class1))
     return ix86_cost->fp_move;
@@ -22175,7 +22344,7 @@ ix86_rtx_costs (rtx x, int code, int outer_code_i, int *total)
            nbits = 7;
 
          /* Compute costs correctly for widening multiplication.  */
-         if ((GET_CODE (op0) == SIGN_EXTEND || GET_CODE (op1) == ZERO_EXTEND)
+         if ((GET_CODE (op0) == SIGN_EXTEND || GET_CODE (op0) == ZERO_EXTEND)
              && GET_MODE_SIZE (GET_MODE (XEXP (op0, 0))) * 2
                 == GET_MODE_SIZE (mode))
            {
@@ -22546,6 +22715,7 @@ x86_this_parameter (tree function)
 {
   tree type = TREE_TYPE (function);
   bool aggr = aggregate_value_p (TREE_TYPE (type), type) != 0;
+  int nregs;
 
   if (TARGET_64BIT)
     {
@@ -22558,11 +22728,25 @@ x86_this_parameter (tree function)
       return gen_rtx_REG (DImode, parm_regs[aggr]);
     }
 
-  if (ix86_function_regparm (type, function) > 0 && !stdarg_p (type))
+  nregs = ix86_function_regparm (type, function);
+
+  if (nregs > 0 && !stdarg_p (type))
     {
-      int regno = AX_REG;
+      int regno;
+
       if (lookup_attribute ("fastcall", TYPE_ATTRIBUTES (type)))
-       regno = CX_REG;
+       regno = aggr ? DX_REG : CX_REG;
+      else
+        {
+         regno = AX_REG;
+         if (aggr)
+           {
+             regno = DX_REG;
+             if (nregs == 1)
+               return gen_rtx_MEM (SImode,
+                                   plus_constant (stack_pointer_rtx, 4));
+           }
+       }
       return gen_rtx_REG (SImode, regno);
     }
 
@@ -23524,7 +23708,9 @@ ix86_expand_vector_init (bool mmx_ok, rtx target, rtx vals)
   for (i = 0; i < n_elts; ++i)
     {
       x = XVECEXP (vals, 0, i);
-      if (!CONSTANT_P (x))
+      if (!(CONST_INT_P (x)
+           || GET_CODE (x) == CONST_DOUBLE
+           || GET_CODE (x) == CONST_FIXED))
        n_var++, one_var = i;
       else if (x != CONST0_RTX (inner_mode))
        all_const_zero = false;
@@ -24101,7 +24287,7 @@ void ix86_emit_swdivsf (rtx res, rtx a, rtx b, enum machine_mode mode)
 
   /* a / b = a * rcp(b) * (2.0 - b * rcp(b)) */
 
-  /* x0 = 1./b estimate */
+  /* x0 = rcp(b) estimate */
   emit_insn (gen_rtx_SET (VOIDmode, x0,
                          gen_rtx_UNSPEC (mode, gen_rtvec (1, b),
                                          UNSPEC_RCP)));
@@ -24125,7 +24311,8 @@ void ix86_emit_swdivsf (rtx res, rtx a, rtx b, enum machine_mode mode)
 void ix86_emit_swsqrtsf (rtx res, rtx a, enum machine_mode mode,
                         bool recip)
 {
-  rtx x0, e0, e1, e2, e3, three, half, zero, mask;
+  rtx x0, e0, e1, e2, e3, mthree, mhalf;
+  REAL_VALUE_TYPE r;
 
   x0 = gen_reg_rtx (mode);
   e0 = gen_reg_rtx (mode);
@@ -24133,42 +24320,41 @@ void ix86_emit_swsqrtsf (rtx res, rtx a, enum machine_mode mode,
   e2 = gen_reg_rtx (mode);
   e3 = gen_reg_rtx (mode);
 
-  three = CONST_DOUBLE_FROM_REAL_VALUE (dconst3, SFmode);
-  half = CONST_DOUBLE_FROM_REAL_VALUE (dconsthalf, SFmode);
+  real_arithmetic (&r, NEGATE_EXPR, &dconst3, NULL);
+  mthree = CONST_DOUBLE_FROM_REAL_VALUE (r, SFmode);
 
-  mask = gen_reg_rtx (mode);
+  real_arithmetic (&r, NEGATE_EXPR, &dconsthalf, NULL);
+  mhalf = CONST_DOUBLE_FROM_REAL_VALUE (r, SFmode);
 
   if (VECTOR_MODE_P (mode))
     {
-      three = ix86_build_const_vector (SFmode, true, three);
-      half = ix86_build_const_vector (SFmode, true, half);
+      mthree = ix86_build_const_vector (SFmode, true, mthree);
+      mhalf = ix86_build_const_vector (SFmode, true, mhalf);
     }
 
-  three = force_reg (mode, three);
-  half = force_reg (mode, half);
-
-  zero = force_reg (mode, CONST0_RTX(mode));
-
-  /* sqrt(a) = 0.5 * a * rsqrtss(a) * (3.0 - a * rsqrtss(a) * rsqrtss(a))
-     1.0 / sqrt(a) = 0.5 * rsqrtss(a) * (3.0 - a * rsqrtss(a) * rsqrtss(a)) */
+  /* sqrt(a)  = -0.5 * a * rsqrtss(a) * (a * rsqrtss(a) * rsqrtss(a) - 3.0)
+     rsqrt(a) = -0.5     * rsqrtss(a) * (a * rsqrtss(a) * rsqrtss(a) - 3.0) */
 
-  /* Compare a to zero.  */
-  emit_insn (gen_rtx_SET (VOIDmode, mask,
-                         gen_rtx_NE (mode, a, zero)));
-
-  /* x0 = 1./sqrt(a) estimate */
+  /* x0 = rsqrt(a) estimate */
   emit_insn (gen_rtx_SET (VOIDmode, x0,
                          gen_rtx_UNSPEC (mode, gen_rtvec (1, a),
                                          UNSPEC_RSQRT)));
-  /* Filter out infinity.  */
-  if (VECTOR_MODE_P (mode))
-    emit_insn (gen_rtx_SET (VOIDmode, gen_lowpart (V4SFmode, x0),
-                           gen_rtx_AND (mode,
-                                        gen_lowpart (V4SFmode, x0),
-                                        gen_lowpart (V4SFmode, mask))));
-  else
-    emit_insn (gen_rtx_SET (VOIDmode, x0,
-                           gen_rtx_AND (mode, x0, mask)));
+
+  /* If (a == 0.0) Filter out infinity to prevent NaN for sqrt(0.0).  */
+  if (!recip)
+    {
+      rtx zero, mask;
+
+      zero = gen_reg_rtx (mode);
+      mask = gen_reg_rtx (mode);
+
+      zero = force_reg (mode, CONST0_RTX(mode));
+      emit_insn (gen_rtx_SET (VOIDmode, mask,
+                             gen_rtx_NE (mode, zero, a)));
+
+      emit_insn (gen_rtx_SET (VOIDmode, x0,
+                             gen_rtx_AND (mode, x0, mask)));
+    }
 
   /* e0 = x0 * a */
   emit_insn (gen_rtx_SET (VOIDmode, e0,
@@ -24176,17 +24362,21 @@ void ix86_emit_swsqrtsf (rtx res, rtx a, enum machine_mode mode,
   /* e1 = e0 * x0 */
   emit_insn (gen_rtx_SET (VOIDmode, e1,
                          gen_rtx_MULT (mode, e0, x0)));
-  /* e2 = 3. - e1 */
+
+  /* e2 = e1 - 3. */
+  mthree = force_reg (mode, mthree);
   emit_insn (gen_rtx_SET (VOIDmode, e2,
-                         gen_rtx_MINUS (mode, three, e1)));
+                         gen_rtx_PLUS (mode, e1, mthree)));
+
+  mhalf = force_reg (mode, mhalf);
   if (recip)
-    /* e3 = .5 * x0 */
+    /* e3 = -.5 * x0 */
     emit_insn (gen_rtx_SET (VOIDmode, e3,
-                           gen_rtx_MULT (mode, half, x0)));
+                           gen_rtx_MULT (mode, x0, mhalf)));
   else
-    /* e3 = .5 * e0 */
+    /* e3 = -.5 * e0 */
     emit_insn (gen_rtx_SET (VOIDmode, e3,
-                           gen_rtx_MULT (mode, half, e0)));
+                           gen_rtx_MULT (mode, e0, mhalf)));
   /* ret = e2 * e3 */
   emit_insn (gen_rtx_SET (VOIDmode, res,
                          gen_rtx_MULT (mode, e2, e3)));
@@ -24856,7 +25046,8 @@ ix86_expand_round (rtx operand0, rtx operand1)
    NUM is the number of operands.
    USES_OC0 is true if the instruction uses OC0 and provides 4 variants.
    NUM_MEMORY is the maximum number of memory operands to accept.  */
-bool ix86_sse5_valid_op_p (rtx operands[], rtx insn, int num, bool uses_oc0, int num_memory)
+bool
+ix86_sse5_valid_op_p (rtx operands[], rtx insn, int num, bool uses_oc0, int num_memory)
 {
   int mem_mask;
   int mem_count;
@@ -25207,6 +25398,9 @@ x86_builtin_vectorization_cost (bool runtime_test)
 #undef TARGET_BUILD_BUILTIN_VA_LIST
 #define TARGET_BUILD_BUILTIN_VA_LIST ix86_build_builtin_va_list
 
+#undef TARGET_EXPAND_BUILTIN_VA_START
+#define TARGET_EXPAND_BUILTIN_VA_START ix86_va_start
+
 #undef TARGET_MD_ASM_CLOBBERS
 #define TARGET_MD_ASM_CLOBBERS ix86_md_asm_clobbers