@@ -2815,11 +2815,10 @@ static void
arm_option_check_internal (struct gcc_options *opts)
{
int flags = opts->x_target_flags;
- const struct arm_fpu_desc *fpu_desc = &all_fpus[opts->x_arm_fpu_index];
/* iWMMXt and NEON are incompatible. */
if (TARGET_IWMMXT
- && ARM_FPU_FSET_HAS (fpu_desc->features, FPU_FL_NEON))
+ && bitmap_bit_p (arm_active_target.isa, isa_bit_neon))
error ("iWMMXt and NEON are incompatible");
/* Make sure that the processor choice does not conflict with any of the
@@ -161,28 +161,27 @@ extern tree arm_fp16_type_node;
to be more careful with TARGET_NEON as noted below. */
/* FPU is has the full VFPv3/NEON register file of 32 D registers. */
-#define TARGET_VFPD32 (TARGET_FPU_FEATURES & FPU_FL_D32)
+#define TARGET_VFPD32 (bitmap_bit_p (arm_active_target.isa, isa_bit_fp_d32))
/* FPU supports VFPv3 instructions. */
-#define TARGET_VFP3 (TARGET_FPU_FEATURES & FPU_FL_VFPv3)
+#define TARGET_VFP3 (bitmap_bit_p (arm_active_target.isa, isa_bit_VFPv3))
/* FPU supports FPv5 instructions. */
-#define TARGET_VFP5 (TARGET_FPU_FEATURES & FPU_FL_VFPv5)
+#define TARGET_VFP5 (bitmap_bit_p (arm_active_target.isa, isa_bit_FPv5))
/* FPU only supports VFP single-precision instructions. */
-#define TARGET_VFP_SINGLE ((TARGET_FPU_FEATURES & FPU_FL_DBL) == 0)
+#define TARGET_VFP_SINGLE (!TARGET_VFP_DOUBLE)
/* FPU supports VFP double-precision instructions. */
-#define TARGET_VFP_DOUBLE (TARGET_FPU_FEATURES & FPU_FL_DBL)
+#define TARGET_VFP_DOUBLE (bitmap_bit_p (arm_active_target.isa, isa_bit_fp_dbl))
/* FPU supports half-precision floating-point with NEON element load/store. */
#define TARGET_NEON_FP16 \
- (ARM_FPU_FSET_HAS (TARGET_FPU_FEATURES, FPU_FL_NEON) \
- && ARM_FPU_FSET_HAS (TARGET_FPU_FEATURES, FPU_FL_FP16))
+ (bitmap_bit_p (arm_active_target.isa, isa_bit_neon) \
+ && bitmap_bit_p (arm_active_target.isa, isa_bit_fp16conv))
-/* FPU supports VFP half-precision floating-point. */
-#define TARGET_FP16 \
- (ARM_FPU_FSET_HAS (TARGET_FPU_FEATURES, FPU_FL_FP16))
+/* FPU supports VFP half-precision floating-point conversions. */
+#define TARGET_FP16 (bitmap_bit_p (arm_active_target.isa, isa_bit_fp16conv))
/* FPU supports converting between HFmode and DFmode in a single hardware
step. */
@@ -190,14 +189,14 @@ extern tree arm_fp16_type_node;
(TARGET_HARD_FLOAT && (TARGET_FP16 && TARGET_VFP5))
/* FPU supports fused-multiply-add operations. */
-#define TARGET_FMA (TARGET_FPU_FEATURES & FPU_FL_VFPv4)
+#define TARGET_FMA (bitmap_bit_p (arm_active_target.isa, isa_bit_VFPv4))
/* FPU is ARMv8 compatible. */
-#define TARGET_FPU_ARMV8 (TARGET_FPU_FEATURES & FPU_FL_ARMv8)
+#define TARGET_FPU_ARMV8 \
+ (bitmap_bit_p (arm_active_target.isa, isa_bit_FP_ARMv8))
/* FPU supports Crypto extensions. */
-#define TARGET_CRYPTO \
- (ARM_FPU_FSET_HAS (TARGET_FPU_FEATURES, FPU_FL_CRYPTO))
+#define TARGET_CRYPTO (bitmap_bit_p (arm_active_target.isa, isa_bit_crypto))
/* FPU supports Neon instructions. The setting of this macro gets
revealed via __ARM_NEON__ so we add extra guards upon TARGET_32BIT
@@ -205,7 +204,7 @@ extern tree arm_fp16_type_node;
available. */
#define TARGET_NEON \
(TARGET_32BIT && TARGET_HARD_FLOAT \
- && ARM_FPU_FSET_HAS (TARGET_FPU_FEATURES, FPU_FL_NEON))
+ && bitmap_bit_p (arm_active_target.isa, isa_bit_neon))
/* FPU supports ARMv8.1 Adv.SIMD extensions. */
#define TARGET_NEON_RDMA (TARGET_NEON && arm_arch8_1)
@@ -367,10 +366,6 @@ extern const struct arm_fpu_desc
arm_fpu_feature_set features;
} all_fpus[];
-/* Accessors. */
-
-#define TARGET_FPU_FEATURES (all_fpus[arm_fpu_index].features)
-
/* Which floating point hardware to schedule for. */
extern int arm_fpu_attr;