+2016-12-15 Richard Earnshaw <rearnsha@arm.com>
+
+ * arm-fpus.def: Add CNAME field to all FPU definitions.
+ * genopt.sh: Use explicit enumeration tags for FPU entries.
+ * arm-tables.opt: Regenerated.
+ * arm.opt (mfpu): Provide initial value.
+ * arm-opts.h (enum fpu_type): Build the enumeration from the list of
+ available FPUs. Add 'auto' entry on the end.
+ * arm.c (arm_configure_build_target): Only do explicit configuration
+ of the FPU features if the selected FPU is not 'auto'.
+ (arm_option_override): Adjust initialization of arm_fpu_index.
+ Emit an error if we have a hard float ABI request, but the processor
+ does not support floating-point.
+ (arm_option_print): Handle -mfpu=auto.
+ (arm_valid_target_attribute_rec): Don't permit fpu=auto in pragmas
+ or function attributes.
+ (arm_identify_fpu_from_isa): Handle effective soft-float when
+ the FPU is automatically detected.
+ * arm-cores.def (arm1136jf-s): Add feature ISA_FP_DBL.
+ (arm1176jzf-s): Likewise.
+ (mpcore): Likewise.
+ (arm1156t2f-s): Likewise.
+
2016-12-15 Richard Earnshaw <rearnsha@arm.com>
* arm-fpus.def (ARM_FPU): Remove features field from all definitions.
/* V6 Architecture Processors */
ARM_CORE("arm1136j-s", arm1136js, arm1136js, TF_LDSCHED, 6J, ISA_FEAT(ISA_ARMv6j), 9e)
-ARM_CORE("arm1136jf-s", arm1136jfs, arm1136jfs, TF_LDSCHED, 6J, ISA_FEAT(ISA_ARMv6j) ISA_FEAT(isa_bit_VFPv2), 9e)
+ARM_CORE("arm1136jf-s", arm1136jfs, arm1136jfs, TF_LDSCHED, 6J, ISA_FEAT(ISA_ARMv6j) ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL), 9e)
ARM_CORE("arm1176jz-s", arm1176jzs, arm1176jzs, TF_LDSCHED, 6KZ, ISA_FEAT(ISA_ARMv6kz), 9e)
-ARM_CORE("arm1176jzf-s", arm1176jzfs, arm1176jzfs, TF_LDSCHED, 6KZ, ISA_FEAT(ISA_ARMv6kz) ISA_FEAT(isa_bit_VFPv2), 9e)
+ARM_CORE("arm1176jzf-s", arm1176jzfs, arm1176jzfs, TF_LDSCHED, 6KZ, ISA_FEAT(ISA_ARMv6kz) ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL), 9e)
ARM_CORE("mpcorenovfp", mpcorenovfp, mpcorenovfp, TF_LDSCHED, 6K, ISA_FEAT(ISA_ARMv6k), 9e)
-ARM_CORE("mpcore", mpcore, mpcore, TF_LDSCHED, 6K, ISA_FEAT(ISA_ARMv6k) ISA_FEAT(isa_bit_VFPv2), 9e)
+ARM_CORE("mpcore", mpcore, mpcore, TF_LDSCHED, 6K, ISA_FEAT(ISA_ARMv6k) ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL), 9e)
ARM_CORE("arm1156t2-s", arm1156t2s, arm1156t2s, TF_LDSCHED, 6T2, ISA_FEAT(ISA_ARMv6t2), v6t2)
-ARM_CORE("arm1156t2f-s", arm1156t2fs, arm1156t2fs, TF_LDSCHED, 6T2, ISA_FEAT(ISA_ARMv6t2) ISA_FEAT(isa_bit_VFPv2), v6t2)
+ARM_CORE("arm1156t2f-s", arm1156t2fs, arm1156t2fs, TF_LDSCHED, 6T2, ISA_FEAT(ISA_ARMv6t2) ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL), v6t2)
/* V6M Architecture Processors */
ARM_CORE("cortex-m1", cortexm1, cortexm1, TF_LDSCHED, 6M, ISA_FEAT(ISA_ARMv6m), v6m)
/* Before using #include to read this file, define a macro:
- ARM_FPU(NAME, ISA)
+ ARM_FPU(NAME, CNAME, ISA)
- The arguments are the fields of struct arm_fpu_desc.
+ NAME is the publicly visible option name.
+ CNAME is a C-compatible variable name substring.
+ ISA is the list of feature bits that this FPU provides.
genopt.sh assumes no whitespace up to the first "," in each entry. */
-ARM_FPU("vfp", ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL))
-ARM_FPU("vfpv2", ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL))
-ARM_FPU("vfpv3", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_D32))
-ARM_FPU("vfpv3-fp16", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_D32) ISA_FEAT(isa_bit_fp16conv))
-ARM_FPU("vfpv3-d16", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_DBL))
-ARM_FPU("vfpv3-d16-fp16", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_DBL) ISA_FEAT(isa_bit_fp16conv))
-ARM_FPU("vfpv3xd", ISA_FEAT(ISA_VFPv3))
-ARM_FPU("vfpv3xd-fp16", ISA_FEAT(ISA_VFPv3) ISA_FEAT(isa_bit_fp16conv))
-ARM_FPU("neon", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_NEON))
-ARM_FPU("neon-vfpv3", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_NEON))
-ARM_FPU("neon-fp16", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_NEON) ISA_FEAT(isa_bit_fp16conv))
-ARM_FPU("vfpv4", ISA_FEAT(ISA_VFPv4) ISA_FEAT(ISA_FP_D32))
-ARM_FPU("neon-vfpv4", ISA_FEAT(ISA_VFPv4) ISA_FEAT(ISA_NEON))
-ARM_FPU("vfpv4-d16", ISA_FEAT(ISA_VFPv4) ISA_FEAT(ISA_FP_DBL))
-ARM_FPU("fpv4-sp-d16", ISA_FEAT(ISA_VFPv4))
-ARM_FPU("fpv5-sp-d16", ISA_FEAT(ISA_FPv5))
-ARM_FPU("fpv5-d16", ISA_FEAT(ISA_FPv5) ISA_FEAT(ISA_FP_DBL))
-ARM_FPU("fp-armv8", ISA_FEAT(ISA_FP_ARMv8) ISA_FEAT(ISA_FP_D32))
-ARM_FPU("neon-fp-armv8", ISA_FEAT(ISA_FP_ARMv8) ISA_FEAT(ISA_NEON))
-ARM_FPU("crypto-neon-fp-armv8", ISA_FEAT(ISA_FP_ARMv8) ISA_FEAT(ISA_CRYPTO))
+ARM_FPU("vfp", vfp, ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL))
+ARM_FPU("vfpv2", vfpv2, ISA_FEAT(ISA_VFPv2) ISA_FEAT(ISA_FP_DBL))
+ARM_FPU("vfpv3", vfpv3, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_D32))
+ARM_FPU("vfpv3-fp16", vfpv3_fp16, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_D32) ISA_FEAT(isa_bit_fp16conv))
+ARM_FPU("vfpv3-d16", vfpv3_d16, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_DBL))
+ARM_FPU("vfpv3-d16-fp16", vfpv3_d16_fp16, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_DBL) ISA_FEAT(isa_bit_fp16conv))
+ARM_FPU("vfpv3xd", vfpv3xd, ISA_FEAT(ISA_VFPv3))
+ARM_FPU("vfpv3xd-fp16", vfpv3xd_fp16, ISA_FEAT(ISA_VFPv3) ISA_FEAT(isa_bit_fp16conv))
+ARM_FPU("neon", neon, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_NEON))
+ARM_FPU("neon-vfpv3", neon_vfpv3, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_NEON))
+ARM_FPU("neon-fp16", neon_fp16, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_NEON) ISA_FEAT(isa_bit_fp16conv))
+ARM_FPU("vfpv4", vfpv4, ISA_FEAT(ISA_VFPv4) ISA_FEAT(ISA_FP_D32))
+ARM_FPU("neon-vfpv4", neon_vfpv4, ISA_FEAT(ISA_VFPv4) ISA_FEAT(ISA_NEON))
+ARM_FPU("vfpv4-d16", vfpv4_d16, ISA_FEAT(ISA_VFPv4) ISA_FEAT(ISA_FP_DBL))
+ARM_FPU("fpv4-sp-d16", fpv4_sp_d16, ISA_FEAT(ISA_VFPv4))
+ARM_FPU("fpv5-sp-d16", fpv5_sp_d16, ISA_FEAT(ISA_FPv5))
+ARM_FPU("fpv5-d16", fpv5_d16, ISA_FEAT(ISA_FPv5) ISA_FEAT(ISA_FP_DBL))
+ARM_FPU("fp-armv8", fp_armv8, ISA_FEAT(ISA_FP_ARMv8) ISA_FEAT(ISA_FP_D32))
+ARM_FPU("neon-fp-armv8", neon_fp_armv8, ISA_FEAT(ISA_FP_ARMv8) ISA_FEAT(ISA_NEON))
+ARM_FPU("crypto-neon-fp-armv8", crypto_neon_fp_armv8, ISA_FEAT(ISA_FP_ARMv8) ISA_FEAT(ISA_CRYPTO))
/* Compatibility aliases. */
-ARM_FPU("vfp3", ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_D32))
+ARM_FPU("vfp3", vfp3, ISA_FEAT(ISA_VFPv3) ISA_FEAT(ISA_FP_D32))
TARGET_CPU_arm_none
};
+/* The various ARM FPUs. */
+enum fpu_type
+{
+#undef ARM_FPU
+#define ARM_FPU(NAME, CNAME, ISA) TARGET_FPU_##CNAME,
+#include "arm-fpus.def"
+ TARGET_FPU_auto
+#undef ARM_FPU
+};
+
/* Which __fp16 format to use.
The enumeration values correspond to the numbering for the
Tag_ABI_FP_16bit_format attribute.
Enum(arm_arch) String(iwmmxt2) Value(34)
Enum
-Name(arm_fpu) Type(int)
+Name(arm_fpu) Type(enum fpu_type)
Known ARM FPUs (for use with the -mfpu= option):
EnumValue
-Enum(arm_fpu) String(vfp) Value(0)
+Enum(arm_fpu) String(vfp) Value(TARGET_FPU_vfp)
EnumValue
-Enum(arm_fpu) String(vfpv2) Value(1)
+Enum(arm_fpu) String(vfpv2) Value(TARGET_FPU_vfpv2)
EnumValue
-Enum(arm_fpu) String(vfpv3) Value(2)
+Enum(arm_fpu) String(vfpv3) Value(TARGET_FPU_vfpv3)
EnumValue
-Enum(arm_fpu) String(vfpv3-fp16) Value(3)
+Enum(arm_fpu) String(vfpv3-fp16) Value(TARGET_FPU_vfpv3_fp16)
EnumValue
-Enum(arm_fpu) String(vfpv3-d16) Value(4)
+Enum(arm_fpu) String(vfpv3-d16) Value(TARGET_FPU_vfpv3_d16)
EnumValue
-Enum(arm_fpu) String(vfpv3-d16-fp16) Value(5)
+Enum(arm_fpu) String(vfpv3-d16-fp16) Value(TARGET_FPU_vfpv3_d16_fp16)
EnumValue
-Enum(arm_fpu) String(vfpv3xd) Value(6)
+Enum(arm_fpu) String(vfpv3xd) Value(TARGET_FPU_vfpv3xd)
EnumValue
-Enum(arm_fpu) String(vfpv3xd-fp16) Value(7)
+Enum(arm_fpu) String(vfpv3xd-fp16) Value(TARGET_FPU_vfpv3xd_fp16)
EnumValue
-Enum(arm_fpu) String(neon) Value(8)
+Enum(arm_fpu) String(neon) Value(TARGET_FPU_neon)
EnumValue
-Enum(arm_fpu) String(neon-vfpv3) Value(9)
+Enum(arm_fpu) String(neon-vfpv3) Value(TARGET_FPU_neon_vfpv3)
EnumValue
-Enum(arm_fpu) String(neon-fp16) Value(10)
+Enum(arm_fpu) String(neon-fp16) Value(TARGET_FPU_neon_fp16)
EnumValue
-Enum(arm_fpu) String(vfpv4) Value(11)
+Enum(arm_fpu) String(vfpv4) Value(TARGET_FPU_vfpv4)
EnumValue
-Enum(arm_fpu) String(neon-vfpv4) Value(12)
+Enum(arm_fpu) String(neon-vfpv4) Value(TARGET_FPU_neon_vfpv4)
EnumValue
-Enum(arm_fpu) String(vfpv4-d16) Value(13)
+Enum(arm_fpu) String(vfpv4-d16) Value(TARGET_FPU_vfpv4_d16)
EnumValue
-Enum(arm_fpu) String(fpv4-sp-d16) Value(14)
+Enum(arm_fpu) String(fpv4-sp-d16) Value(TARGET_FPU_fpv4_sp_d16)
EnumValue
-Enum(arm_fpu) String(fpv5-sp-d16) Value(15)
+Enum(arm_fpu) String(fpv5-sp-d16) Value(TARGET_FPU_fpv5_sp_d16)
EnumValue
-Enum(arm_fpu) String(fpv5-d16) Value(16)
+Enum(arm_fpu) String(fpv5-d16) Value(TARGET_FPU_fpv5_d16)
EnumValue
-Enum(arm_fpu) String(fp-armv8) Value(17)
+Enum(arm_fpu) String(fp-armv8) Value(TARGET_FPU_fp_armv8)
EnumValue
-Enum(arm_fpu) String(neon-fp-armv8) Value(18)
+Enum(arm_fpu) String(neon-fp-armv8) Value(TARGET_FPU_neon_fp_armv8)
EnumValue
-Enum(arm_fpu) String(crypto-neon-fp-armv8) Value(19)
+Enum(arm_fpu) String(crypto-neon-fp-armv8) Value(TARGET_FPU_crypto_neon_fp_armv8)
EnumValue
-Enum(arm_fpu) String(vfp3) Value(20)
+Enum(arm_fpu) String(vfp3) Value(TARGET_FPU_vfp3)
+EnumValue
+Enum(arm_fpu) String(auto) Value(TARGET_FPU_auto)
const struct arm_fpu_desc all_fpus[] =
{
-#define ARM_FPU(NAME, ISA) \
+#undef ARM_FPU
+#define ARM_FPU(NAME, CNAME, ISA) \
{ NAME, {ISA isa_nobit} },
#include "arm-fpus.def"
#undef ARM_FPU
gcc_assert (arm_selected_cpu);
- arm_selected_fpu = &all_fpus[opts->x_arm_fpu_index];
- auto_sbitmap fpu_bits (isa_num_bits);
+ if (opts->x_arm_fpu_index != TARGET_FPU_auto)
+ {
+ arm_selected_fpu = &all_fpus[opts->x_arm_fpu_index];
+ auto_sbitmap fpu_bits (isa_num_bits);
- arm_initialize_isa (fpu_bits, arm_selected_fpu->isa_bits);
- bitmap_and_compl (target->isa, target->isa, isa_all_fpubits);
- bitmap_ior (target->isa, target->isa, fpu_bits);
+ arm_initialize_isa (fpu_bits, arm_selected_fpu->isa_bits);
+ bitmap_and_compl (target->isa, target->isa, isa_all_fpubits);
+ bitmap_ior (target->isa, target->isa, fpu_bits);
+ }
+ else if (target->core_name == NULL)
+ /* To support this we need to be able to parse FPU feature options
+ from the architecture string. */
+ sorry ("-mfpu=auto not currently supported without an explicit CPU.");
/* The selected cpu may be an architecture, so lookup tuning by core ID. */
if (!arm_selected_tune)
{
const char *target_fpu_name;
bool ok;
+ int fpu_index;
#ifdef FPUTYPE_DEFAULT
target_fpu_name = FPUTYPE_DEFAULT;
target_fpu_name = "vfp";
#endif
- ok = opt_enum_arg_to_value (OPT_mfpu_, target_fpu_name, &arm_fpu_index,
+ ok = opt_enum_arg_to_value (OPT_mfpu_, target_fpu_name, &fpu_index,
CL_TARGET);
gcc_assert (ok);
+ arm_fpu_index = (enum fpu_type) fpu_index;
}
/* Create the default target_options structure. We need this early
arm_pcs_default = ARM_PCS_AAPCS_IWMMXT;
else if (arm_float_abi == ARM_FLOAT_ABI_HARD
&& TARGET_HARD_FLOAT)
- arm_pcs_default = ARM_PCS_AAPCS_VFP;
+ {
+ arm_pcs_default = ARM_PCS_AAPCS_VFP;
+ if (!bitmap_bit_p (arm_active_target.isa, isa_bit_VFPv2))
+ error ("-mfloat-abi=hard: selected processor lacks an FPU");
+ }
else
arm_pcs_default = ARM_PCS_AAPCS;
}
arm_option_print (FILE *file, int indent, struct cl_target_option *ptr)
{
int flags = ptr->x_target_flags;
- const struct arm_fpu_desc *fpu_desc = &all_fpus[ptr->x_arm_fpu_index];
+ const char *fpu_name;
+
+ fpu_name = (ptr->x_arm_fpu_index == TARGET_FPU_auto
+ ? "auto" : all_fpus[ptr->x_arm_fpu_index].name);
fprintf (file, "%*sselected arch %s\n", indent, "",
TARGET_THUMB2_P (flags) ? "thumb2" :
TARGET_THUMB_P (flags) ? "thumb1" :
"arm");
- fprintf (file, "%*sselected fpu %s\n", indent, "", fpu_desc->name);
+ fprintf (file, "%*sselected fpu %s\n", indent, "", fpu_name);
}
/* Hook to determine if one function can safely inline another. */
else if (!strncmp (q, "fpu=", 4))
{
+ int fpu_index;
if (! opt_enum_arg_to_value (OPT_mfpu_, q+4,
- &opts->x_arm_fpu_index, CL_TARGET))
+ &fpu_index, CL_TARGET))
{
error ("invalid fpu for attribute(target(\"%s\"))", q);
return false;
}
+ if (fpu_index == TARGET_FPU_auto)
+ {
+ /* This doesn't really make sense until we support
+ general dynamic selection of the architecture and all
+ sub-features. */
+ sorry ("auto fpu selection not currently permitted here");
+ return false;
+ }
+ opts->x_arm_fpu_index = (enum fpu_type) fpu_index;
}
else
{
auto_sbitmap cand_fpubits (isa_num_bits);
bitmap_and (fpubits, isa, isa_all_fpubits);
+
+ /* If there are no ISA feature bits relating to the FPU, we must be
+ doing soft-float. */
+ if (bitmap_empty_p (fpubits))
+ return "softvfp";
+
for (unsigned int i = 0; i < ARRAY_SIZE (all_fpus); i++)
{
arm_initialize_isa (cand_fpubits, all_fpus[i].isa_bits);
Enum(arm_fp16_format_type) String(alternative) Value(ARM_FP16_FORMAT_ALTERNATIVE)
mfpu=
-Target RejectNegative Joined Enum(arm_fpu) Var(arm_fpu_index) Save
+Target RejectNegative Joined Enum(arm_fpu) Var(arm_fpu_index) Init(TARGET_FPU_auto) Save
Specify the name of the target floating point hardware/format.
mhard-float
cat <<EOF
Enum
-Name(arm_fpu) Type(int)
+Name(arm_fpu) Type(enum fpu_type)
Known ARM FPUs (for use with the -mfpu= option):
EOF
-awk -F'[(, ]+' 'BEGIN {
- value = 0
-}
+awk -F'[(, ]+' '
/^ARM_FPU/ {
name = $2
+ enum = $3
gsub("\"", "", name)
print "EnumValue"
- print "Enum(arm_fpu) String(" name ") Value(" value ")"
+ print "Enum(arm_fpu) String(" name ") Value(TARGET_FPU_" enum ")"
print ""
- value++
+}
+END {
+ print "EnumValue"
+ print "Enum(arm_fpu) String(auto) Value(TARGET_FPU_auto)"
}' $1/arm-fpus.def
+