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/* Machine mode definitions for GCC; included by rtl.h and tree.h. Copyright (C) 1991-2017 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/>. */ #ifndef HAVE_MACHINE_MODES #define HAVE_MACHINE_MODES /* Make an enum class that gives all the machine modes. */ #include "insn-modes.h" /* Get the name of mode MODE as a string. */ extern const char * const mode_name[NUM_MACHINE_MODES]; #define GET_MODE_NAME(MODE) mode_name[MODE] /* Mode classes. */ #include "mode-classes.def" #define DEF_MODE_CLASS(M) M enum mode_class { MODE_CLASSES, MAX_MODE_CLASS }; #undef DEF_MODE_CLASS #undef MODE_CLASSES /* Get the general kind of object that mode MODE represents (integer, floating, complex, etc.) */ extern const unsigned char mode_class[NUM_MACHINE_MODES]; #define GET_MODE_CLASS(MODE) ((enum mode_class) mode_class[MODE]) /* Nonzero if MODE is an integral mode. */ #define INTEGRAL_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_INT \ || GET_MODE_CLASS (MODE) == MODE_PARTIAL_INT \ || GET_MODE_CLASS (MODE) == MODE_COMPLEX_INT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_INT) /* Nonzero if MODE is a floating-point mode. */ #define FLOAT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_FLOAT \ || GET_MODE_CLASS (MODE) == MODE_DECIMAL_FLOAT \ || GET_MODE_CLASS (MODE) == MODE_COMPLEX_FLOAT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_FLOAT) /* Nonzero if MODE is a complex mode. */ #define COMPLEX_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_COMPLEX_INT \ || GET_MODE_CLASS (MODE) == MODE_COMPLEX_FLOAT) /* Nonzero if MODE is a vector mode. */ #define VECTOR_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_VECTOR_INT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_FLOAT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_FRACT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_UFRACT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_ACCUM \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_UACCUM) /* Nonzero if MODE is a scalar integral mode. */ #define SCALAR_INT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_INT \ || GET_MODE_CLASS (MODE) == MODE_PARTIAL_INT) /* Nonzero if MODE is a scalar floating point mode. */ #define SCALAR_FLOAT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_FLOAT \ || GET_MODE_CLASS (MODE) == MODE_DECIMAL_FLOAT) /* Nonzero if MODE is a decimal floating point mode. */ #define DECIMAL_FLOAT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_DECIMAL_FLOAT) /* Nonzero if MODE is a scalar fract mode. */ #define SCALAR_FRACT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_FRACT) /* Nonzero if MODE is a scalar ufract mode. */ #define SCALAR_UFRACT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_UFRACT) /* Nonzero if MODE is a scalar fract or ufract mode. */ #define ALL_SCALAR_FRACT_MODE_P(MODE) \ (SCALAR_FRACT_MODE_P (MODE) || SCALAR_UFRACT_MODE_P (MODE)) /* Nonzero if MODE is a scalar accum mode. */ #define SCALAR_ACCUM_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_ACCUM) /* Nonzero if MODE is a scalar uaccum mode. */ #define SCALAR_UACCUM_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_UACCUM) /* Nonzero if MODE is a scalar accum or uaccum mode. */ #define ALL_SCALAR_ACCUM_MODE_P(MODE) \ (SCALAR_ACCUM_MODE_P (MODE) || SCALAR_UACCUM_MODE_P (MODE)) /* Nonzero if MODE is a scalar fract or accum mode. */ #define SIGNED_SCALAR_FIXED_POINT_MODE_P(MODE) \ (SCALAR_FRACT_MODE_P (MODE) || SCALAR_ACCUM_MODE_P (MODE)) /* Nonzero if MODE is a scalar ufract or uaccum mode. */ #define UNSIGNED_SCALAR_FIXED_POINT_MODE_P(MODE) \ (SCALAR_UFRACT_MODE_P (MODE) || SCALAR_UACCUM_MODE_P (MODE)) /* Nonzero if MODE is a scalar fract, ufract, accum or uaccum mode. */ #define ALL_SCALAR_FIXED_POINT_MODE_P(MODE) \ (SIGNED_SCALAR_FIXED_POINT_MODE_P (MODE) \ || UNSIGNED_SCALAR_FIXED_POINT_MODE_P (MODE)) /* Nonzero if MODE is a scalar/vector fract mode. */ #define FRACT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_FRACT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_FRACT) /* Nonzero if MODE is a scalar/vector ufract mode. */ #define UFRACT_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_UFRACT \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_UFRACT) /* Nonzero if MODE is a scalar/vector fract or ufract mode. */ #define ALL_FRACT_MODE_P(MODE) \ (FRACT_MODE_P (MODE) || UFRACT_MODE_P (MODE)) /* Nonzero if MODE is a scalar/vector accum mode. */ #define ACCUM_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_ACCUM \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_ACCUM) /* Nonzero if MODE is a scalar/vector uaccum mode. */ #define UACCUM_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_UACCUM \ || GET_MODE_CLASS (MODE) == MODE_VECTOR_UACCUM) /* Nonzero if MODE is a scalar/vector accum or uaccum mode. */ #define ALL_ACCUM_MODE_P(MODE) \ (ACCUM_MODE_P (MODE) || UACCUM_MODE_P (MODE)) /* Nonzero if MODE is a scalar/vector fract or accum mode. */ #define SIGNED_FIXED_POINT_MODE_P(MODE) \ (FRACT_MODE_P (MODE) || ACCUM_MODE_P (MODE)) /* Nonzero if MODE is a scalar/vector ufract or uaccum mode. */ #define UNSIGNED_FIXED_POINT_MODE_P(MODE) \ (UFRACT_MODE_P (MODE) || UACCUM_MODE_P (MODE)) /* Nonzero if MODE is a scalar/vector fract, ufract, accum or uaccum mode. */ #define ALL_FIXED_POINT_MODE_P(MODE) \ (SIGNED_FIXED_POINT_MODE_P (MODE) \ || UNSIGNED_FIXED_POINT_MODE_P (MODE)) /* Nonzero if CLASS modes can be widened. */ #define CLASS_HAS_WIDER_MODES_P(CLASS) \ (CLASS == MODE_INT \ || CLASS == MODE_PARTIAL_INT \ || CLASS == MODE_FLOAT \ || CLASS == MODE_DECIMAL_FLOAT \ || CLASS == MODE_COMPLEX_FLOAT \ || CLASS == MODE_FRACT \ || CLASS == MODE_UFRACT \ || CLASS == MODE_ACCUM \ || CLASS == MODE_UACCUM) #define POINTER_BOUNDS_MODE_P(MODE) \ (GET_MODE_CLASS (MODE) == MODE_POINTER_BOUNDS) /* Get the size in bytes and bits of an object of mode MODE. */ extern CONST_MODE_SIZE unsigned short mode_size[NUM_MACHINE_MODES]; #if GCC_VERSION >= 4001 #define GET_MODE_SIZE(MODE) \ ((unsigned short) (__builtin_constant_p (MODE) \ ? mode_size_inline (MODE) : mode_size[MODE])) #else #define GET_MODE_SIZE(MODE) ((unsigned short) mode_size[MODE]) #endif #define GET_MODE_BITSIZE(MODE) \ ((unsigned short) (GET_MODE_SIZE (MODE) * BITS_PER_UNIT)) /* Get the number of value bits of an object of mode MODE. */ extern const unsigned short mode_precision[NUM_MACHINE_MODES]; #define GET_MODE_PRECISION(MODE) mode_precision[MODE] /* Get the number of integral bits of an object of mode MODE. */ extern CONST_MODE_IBIT unsigned char mode_ibit[NUM_MACHINE_MODES]; #define GET_MODE_IBIT(MODE) mode_ibit[MODE] /* Get the number of fractional bits of an object of mode MODE. */ extern CONST_MODE_FBIT unsigned char mode_fbit[NUM_MACHINE_MODES]; #define GET_MODE_FBIT(MODE) mode_fbit[MODE] /* Get a bitmask containing 1 for all bits in a word that fit within mode MODE. */ extern const unsigned HOST_WIDE_INT mode_mask_array[NUM_MACHINE_MODES]; #define GET_MODE_MASK(MODE) mode_mask_array[MODE] /* Return the mode of the basic parts of MODE. For vector modes this is the mode of the vector elements. For complex modes it is the mode of the real and imaginary parts. For other modes it is MODE itself. */ extern const unsigned char mode_inner[NUM_MACHINE_MODES]; #if GCC_VERSION >= 4001 #define GET_MODE_INNER(MODE) \ ((machine_mode) (__builtin_constant_p (MODE) \ ? mode_inner_inline (MODE) : mode_inner[MODE])) #else #define GET_MODE_INNER(MODE) ((machine_mode) mode_inner[MODE]) #endif /* Get the size in bytes or bits of the basic parts of an object of mode MODE. */ extern CONST_MODE_UNIT_SIZE unsigned char mode_unit_size[NUM_MACHINE_MODES]; #if GCC_VERSION >= 4001 #define GET_MODE_UNIT_SIZE(MODE) \ ((unsigned char) (__builtin_constant_p (MODE) \ ? mode_unit_size_inline (MODE) : mode_unit_size[MODE])) #else #define GET_MODE_UNIT_SIZE(MODE) mode_unit_size[MODE] #endif #define GET_MODE_UNIT_BITSIZE(MODE) \ ((unsigned short) (GET_MODE_UNIT_SIZE (MODE) * BITS_PER_UNIT)) extern const unsigned short mode_unit_precision[NUM_MACHINE_MODES]; #if GCC_VERSION >= 4001 #define GET_MODE_UNIT_PRECISION(MODE) \ ((unsigned short) (__builtin_constant_p (MODE) \ ? mode_unit_precision_inline (MODE)\ : mode_unit_precision[MODE])) #else #define GET_MODE_UNIT_PRECISION(MODE) mode_unit_precision[MODE] #endif /* Get the number of units in the object. */ extern const unsigned char mode_nunits[NUM_MACHINE_MODES]; #if GCC_VERSION >= 4001 #define GET_MODE_NUNITS(MODE) \ ((unsigned char) (__builtin_constant_p (MODE) \ ? mode_nunits_inline (MODE) : mode_nunits[MODE])) #else #define GET_MODE_NUNITS(MODE) mode_nunits[MODE] #endif /* Get the next wider natural mode (eg, QI -> HI -> SI -> DI -> TI). */ extern const unsigned char mode_wider[NUM_MACHINE_MODES]; #define GET_MODE_WIDER_MODE(MODE) ((machine_mode) mode_wider[MODE]) /* For scalars, this is a mode with twice the precision. For vectors, this is a mode with the same inner mode but with twice the elements. */ extern const unsigned char mode_2xwider[NUM_MACHINE_MODES]; #define GET_MODE_2XWIDER_MODE(MODE) ((machine_mode) mode_2xwider[MODE]) /* Get the complex mode from the component mode. */ extern const unsigned char mode_complex[NUM_MACHINE_MODES]; #define GET_MODE_COMPLEX_MODE(MODE) ((machine_mode) mode_complex[MODE]) /* Return the mode for data of a given size SIZE and mode class CLASS. If LIMIT is nonzero, then don't use modes bigger than MAX_FIXED_MODE_SIZE. The value is BLKmode if no other mode is found. */ extern machine_mode mode_for_size (unsigned int, enum mode_class, int); /* Similar, but find the smallest mode for a given width. */ extern machine_mode smallest_mode_for_size (unsigned int, enum mode_class); /* Return an integer mode of the exact same size as the input mode, or BLKmode on failure. */ extern machine_mode int_mode_for_mode (machine_mode); extern machine_mode bitwise_mode_for_mode (machine_mode); /* Return a mode that is suitable for representing a vector, or BLKmode on failure. */ extern machine_mode mode_for_vector (machine_mode, unsigned); /* A class for iterating through possible bitfield modes. */ class bit_field_mode_iterator { public: bit_field_mode_iterator (HOST_WIDE_INT, HOST_WIDE_INT, HOST_WIDE_INT, HOST_WIDE_INT, unsigned int, bool); bool next_mode (machine_mode *); bool prefer_smaller_modes (); private: machine_mode m_mode; /* We use signed values here because the bit position can be negative for invalid input such as gcc.dg/pr48335-8.c. */ HOST_WIDE_INT m_bitsize; HOST_WIDE_INT m_bitpos; HOST_WIDE_INT m_bitregion_start; HOST_WIDE_INT m_bitregion_end; unsigned int m_align; bool m_volatilep; int m_count; }; /* Find the best mode to use to access a bit field. */ extern machine_mode get_best_mode (int, int, unsigned HOST_WIDE_INT, unsigned HOST_WIDE_INT, unsigned int, machine_mode, bool); /* Determine alignment, 1<=result<=BIGGEST_ALIGNMENT. */ extern CONST_MODE_BASE_ALIGN unsigned short mode_base_align[NUM_MACHINE_MODES]; extern unsigned get_mode_alignment (machine_mode); #define GET_MODE_ALIGNMENT(MODE) get_mode_alignment (MODE) /* For each class, get the narrowest mode in that class. */ extern const unsigned char class_narrowest_mode[MAX_MODE_CLASS]; #define GET_CLASS_NARROWEST_MODE(CLASS) \ ((machine_mode) class_narrowest_mode[CLASS]) /* Define the integer modes whose sizes are BITS_PER_UNIT and BITS_PER_WORD and the mode whose class is Pmode and whose size is POINTER_SIZE. */ extern machine_mode byte_mode; extern machine_mode word_mode; extern machine_mode ptr_mode; /* Target-dependent machine mode initialization - in insn-modes.c. */ extern void init_adjust_machine_modes (void); #define TRULY_NOOP_TRUNCATION_MODES_P(MODE1, MODE2) \ TRULY_NOOP_TRUNCATION (GET_MODE_PRECISION (MODE1), \ GET_MODE_PRECISION (MODE2)) #define HWI_COMPUTABLE_MODE_P(MODE) \ (SCALAR_INT_MODE_P (MODE) \ && GET_MODE_PRECISION (MODE) <= HOST_BITS_PER_WIDE_INT) struct int_n_data_t { /* These parts are initailized by genmodes output */ unsigned int bitsize; machine_mode m; /* RID_* is RID_INTN_BASE + index into this array */ }; /* This is also in tree.h. genmodes.c guarantees the're sorted from smallest bitsize to largest bitsize. */ extern bool int_n_enabled_p[NUM_INT_N_ENTS]; extern const int_n_data_t int_n_data[NUM_INT_N_ENTS]; #endif /* not HAVE_MACHINE_MODES */