1 /* Machine mode definitions for GCC; included by rtl.h and tree.h.
2 Copyright (C) 1991-2021 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #ifndef HAVE_MACHINE_MODES
21 #define HAVE_MACHINE_MODES
23 typedef opt_mode
<machine_mode
> opt_machine_mode
;
25 extern CONST_MODE_SIZE poly_uint16_pod mode_size
[NUM_MACHINE_MODES
];
26 extern CONST_MODE_PRECISION poly_uint16_pod mode_precision
[NUM_MACHINE_MODES
];
27 extern const unsigned char mode_inner
[NUM_MACHINE_MODES
];
28 extern CONST_MODE_NUNITS poly_uint16_pod mode_nunits
[NUM_MACHINE_MODES
];
29 extern CONST_MODE_UNIT_SIZE
unsigned char mode_unit_size
[NUM_MACHINE_MODES
];
30 extern const unsigned short mode_unit_precision
[NUM_MACHINE_MODES
];
31 extern const unsigned char mode_wider
[NUM_MACHINE_MODES
];
32 extern const unsigned char mode_2xwider
[NUM_MACHINE_MODES
];
37 /* For use by the machmode support code only.
39 There are cases in which the machmode support code needs to forcibly
40 convert a machine_mode to a specific mode class T, and in which the
41 context guarantees that this is valid without the need for an assert.
42 This can be done using:
44 return typename mode_traits<T>::from_int (mode);
46 when returning a T and:
48 res = T (typename mode_traits<T>::from_int (mode));
50 when assigning to a value RES that must be assignment-compatible
51 with (but possibly not the same as) T. */
53 /* Allow direct conversion of enums to specific mode classes only
54 when USE_ENUM_MODES is defined. This is only intended for use
55 by gencondmd, so that it can tell more easily when .md conditions
57 typedef machine_mode from_int
;
59 /* Here we use an enum type distinct from machine_mode but with the
60 same range as machine_mode. T should have a constructor that
61 accepts this enum type; it should not have a constructor that
64 We use this somewhat indirect approach to avoid too many constructor
65 calls when the compiler is built with -O0. For example, even in
66 unoptimized code, the return statement above would construct the
67 returned T directly from the numerical value of MODE. */
68 enum from_int
{ dummy
= MAX_MACHINE_MODE
};
73 struct mode_traits
<machine_mode
>
75 /* machine_mode itself needs no conversion. */
76 typedef machine_mode from_int
;
79 /* Always treat machine modes as fixed-size while compiling code specific
80 to targets that have no variable-size modes. */
81 #if defined (IN_TARGET_CODE) && NUM_POLY_INT_COEFFS == 1
82 #define ONLY_FIXED_SIZE_MODES 1
84 #define ONLY_FIXED_SIZE_MODES 0
87 /* Get the name of mode MODE as a string. */
89 extern const char * const mode_name
[NUM_MACHINE_MODES
];
90 #define GET_MODE_NAME(MODE) mode_name[MODE]
94 #include "mode-classes.def"
95 #define DEF_MODE_CLASS(M) M
96 enum mode_class
{ MODE_CLASSES
, MAX_MODE_CLASS
};
100 /* Get the general kind of object that mode MODE represents
101 (integer, floating, complex, etc.) */
103 extern const unsigned char mode_class
[NUM_MACHINE_MODES
];
104 #define GET_MODE_CLASS(MODE) ((enum mode_class) mode_class[MODE])
106 /* Nonzero if MODE is an integral mode. */
107 #define INTEGRAL_MODE_P(MODE) \
108 (GET_MODE_CLASS (MODE) == MODE_INT \
109 || GET_MODE_CLASS (MODE) == MODE_PARTIAL_INT \
110 || GET_MODE_CLASS (MODE) == MODE_COMPLEX_INT \
111 || GET_MODE_CLASS (MODE) == MODE_VECTOR_BOOL \
112 || GET_MODE_CLASS (MODE) == MODE_VECTOR_INT)
114 /* Nonzero if MODE is a floating-point mode. */
115 #define FLOAT_MODE_P(MODE) \
116 (GET_MODE_CLASS (MODE) == MODE_FLOAT \
117 || GET_MODE_CLASS (MODE) == MODE_DECIMAL_FLOAT \
118 || GET_MODE_CLASS (MODE) == MODE_COMPLEX_FLOAT \
119 || GET_MODE_CLASS (MODE) == MODE_VECTOR_FLOAT)
121 /* Nonzero if MODE is a complex mode. */
122 #define COMPLEX_MODE_P(MODE) \
123 (GET_MODE_CLASS (MODE) == MODE_COMPLEX_INT \
124 || GET_MODE_CLASS (MODE) == MODE_COMPLEX_FLOAT)
126 /* Nonzero if MODE is a vector mode. */
127 #define VECTOR_MODE_P(MODE) \
128 (GET_MODE_CLASS (MODE) == MODE_VECTOR_BOOL \
129 || GET_MODE_CLASS (MODE) == MODE_VECTOR_INT \
130 || GET_MODE_CLASS (MODE) == MODE_VECTOR_FLOAT \
131 || GET_MODE_CLASS (MODE) == MODE_VECTOR_FRACT \
132 || GET_MODE_CLASS (MODE) == MODE_VECTOR_UFRACT \
133 || GET_MODE_CLASS (MODE) == MODE_VECTOR_ACCUM \
134 || GET_MODE_CLASS (MODE) == MODE_VECTOR_UACCUM)
136 /* Nonzero if MODE is a scalar integral mode. */
137 #define SCALAR_INT_MODE_P(MODE) \
138 (GET_MODE_CLASS (MODE) == MODE_INT \
139 || GET_MODE_CLASS (MODE) == MODE_PARTIAL_INT)
141 /* Nonzero if MODE is a scalar floating point mode. */
142 #define SCALAR_FLOAT_MODE_P(MODE) \
143 (GET_MODE_CLASS (MODE) == MODE_FLOAT \
144 || GET_MODE_CLASS (MODE) == MODE_DECIMAL_FLOAT)
146 /* Nonzero if MODE is a decimal floating point mode. */
147 #define DECIMAL_FLOAT_MODE_P(MODE) \
148 (GET_MODE_CLASS (MODE) == MODE_DECIMAL_FLOAT)
150 /* Nonzero if MODE is a scalar fract mode. */
151 #define SCALAR_FRACT_MODE_P(MODE) \
152 (GET_MODE_CLASS (MODE) == MODE_FRACT)
154 /* Nonzero if MODE is a scalar ufract mode. */
155 #define SCALAR_UFRACT_MODE_P(MODE) \
156 (GET_MODE_CLASS (MODE) == MODE_UFRACT)
158 /* Nonzero if MODE is a scalar fract or ufract mode. */
159 #define ALL_SCALAR_FRACT_MODE_P(MODE) \
160 (SCALAR_FRACT_MODE_P (MODE) || SCALAR_UFRACT_MODE_P (MODE))
162 /* Nonzero if MODE is a scalar accum mode. */
163 #define SCALAR_ACCUM_MODE_P(MODE) \
164 (GET_MODE_CLASS (MODE) == MODE_ACCUM)
166 /* Nonzero if MODE is a scalar uaccum mode. */
167 #define SCALAR_UACCUM_MODE_P(MODE) \
168 (GET_MODE_CLASS (MODE) == MODE_UACCUM)
170 /* Nonzero if MODE is a scalar accum or uaccum mode. */
171 #define ALL_SCALAR_ACCUM_MODE_P(MODE) \
172 (SCALAR_ACCUM_MODE_P (MODE) || SCALAR_UACCUM_MODE_P (MODE))
174 /* Nonzero if MODE is a scalar fract or accum mode. */
175 #define SIGNED_SCALAR_FIXED_POINT_MODE_P(MODE) \
176 (SCALAR_FRACT_MODE_P (MODE) || SCALAR_ACCUM_MODE_P (MODE))
178 /* Nonzero if MODE is a scalar ufract or uaccum mode. */
179 #define UNSIGNED_SCALAR_FIXED_POINT_MODE_P(MODE) \
180 (SCALAR_UFRACT_MODE_P (MODE) || SCALAR_UACCUM_MODE_P (MODE))
182 /* Nonzero if MODE is a scalar fract, ufract, accum or uaccum mode. */
183 #define ALL_SCALAR_FIXED_POINT_MODE_P(MODE) \
184 (SIGNED_SCALAR_FIXED_POINT_MODE_P (MODE) \
185 || UNSIGNED_SCALAR_FIXED_POINT_MODE_P (MODE))
187 /* Nonzero if MODE is a scalar/vector fract mode. */
188 #define FRACT_MODE_P(MODE) \
189 (GET_MODE_CLASS (MODE) == MODE_FRACT \
190 || GET_MODE_CLASS (MODE) == MODE_VECTOR_FRACT)
192 /* Nonzero if MODE is a scalar/vector ufract mode. */
193 #define UFRACT_MODE_P(MODE) \
194 (GET_MODE_CLASS (MODE) == MODE_UFRACT \
195 || GET_MODE_CLASS (MODE) == MODE_VECTOR_UFRACT)
197 /* Nonzero if MODE is a scalar/vector fract or ufract mode. */
198 #define ALL_FRACT_MODE_P(MODE) \
199 (FRACT_MODE_P (MODE) || UFRACT_MODE_P (MODE))
201 /* Nonzero if MODE is a scalar/vector accum mode. */
202 #define ACCUM_MODE_P(MODE) \
203 (GET_MODE_CLASS (MODE) == MODE_ACCUM \
204 || GET_MODE_CLASS (MODE) == MODE_VECTOR_ACCUM)
206 /* Nonzero if MODE is a scalar/vector uaccum mode. */
207 #define UACCUM_MODE_P(MODE) \
208 (GET_MODE_CLASS (MODE) == MODE_UACCUM \
209 || GET_MODE_CLASS (MODE) == MODE_VECTOR_UACCUM)
211 /* Nonzero if MODE is a scalar/vector accum or uaccum mode. */
212 #define ALL_ACCUM_MODE_P(MODE) \
213 (ACCUM_MODE_P (MODE) || UACCUM_MODE_P (MODE))
215 /* Nonzero if MODE is a scalar/vector fract or accum mode. */
216 #define SIGNED_FIXED_POINT_MODE_P(MODE) \
217 (FRACT_MODE_P (MODE) || ACCUM_MODE_P (MODE))
219 /* Nonzero if MODE is a scalar/vector ufract or uaccum mode. */
220 #define UNSIGNED_FIXED_POINT_MODE_P(MODE) \
221 (UFRACT_MODE_P (MODE) || UACCUM_MODE_P (MODE))
223 /* Nonzero if MODE is a scalar/vector fract, ufract, accum or uaccum mode. */
224 #define ALL_FIXED_POINT_MODE_P(MODE) \
225 (SIGNED_FIXED_POINT_MODE_P (MODE) \
226 || UNSIGNED_FIXED_POINT_MODE_P (MODE))
228 /* Nonzero if MODE is opaque. */
229 #define OPAQUE_MODE_P(MODE) \
230 (GET_MODE_CLASS (MODE) == MODE_OPAQUE)
232 /* Nonzero if CLASS modes can be widened. */
233 #define CLASS_HAS_WIDER_MODES_P(CLASS) \
235 || CLASS == MODE_PARTIAL_INT \
236 || CLASS == MODE_FLOAT \
237 || CLASS == MODE_DECIMAL_FLOAT \
238 || CLASS == MODE_COMPLEX_FLOAT \
239 || CLASS == MODE_FRACT \
240 || CLASS == MODE_UFRACT \
241 || CLASS == MODE_ACCUM \
242 || CLASS == MODE_UACCUM)
244 /* An optional T (i.e. a T or nothing), where T is some form of mode class. */
249 enum from_int
{ dummy
= MAX_MACHINE_MODE
};
251 ALWAYS_INLINE CONSTEXPR
opt_mode () : m_mode (E_VOIDmode
) {}
252 ALWAYS_INLINE CONSTEXPR
opt_mode (const T
&m
) : m_mode (m
) {}
254 ALWAYS_INLINE CONSTEXPR
opt_mode (const U
&m
) : m_mode (T (m
)) {}
255 ALWAYS_INLINE CONSTEXPR
opt_mode (from_int m
) : m_mode (machine_mode (m
)) {}
257 machine_mode
else_void () const;
258 machine_mode
else_blk () const { return else_mode (BLKmode
); }
259 machine_mode
else_mode (machine_mode
) const;
262 bool exists () const;
263 template<typename U
> bool exists (U
*) const;
265 bool operator== (const T
&m
) const { return m_mode
== m
; }
266 bool operator!= (const T
&m
) const { return m_mode
!= m
; }
272 /* If the object contains a T, return its enum value, otherwise return
276 ALWAYS_INLINE machine_mode
277 opt_mode
<T
>::else_void () const
282 /* If the T exists, return its enum value, otherwise return FALLBACK. */
286 opt_mode
<T
>::else_mode (machine_mode fallback
) const
288 return m_mode
== E_VOIDmode
? fallback
: m_mode
;
291 /* Assert that the object contains a T and return it. */
295 opt_mode
<T
>::require () const
297 gcc_checking_assert (m_mode
!= E_VOIDmode
);
298 return typename mode_traits
<T
>::from_int (m_mode
);
301 /* Return true if the object contains a T rather than nothing. */
305 opt_mode
<T
>::exists () const
307 return m_mode
!= E_VOIDmode
;
310 /* Return true if the object contains a T, storing it in *MODE if so. */
315 opt_mode
<T
>::exists (U
*mode
) const
317 if (m_mode
!= E_VOIDmode
)
319 *mode
= T (typename mode_traits
<T
>::from_int (m_mode
));
325 /* A POD version of mode class T. */
330 typedef typename mode_traits
<T
>::from_int from_int
;
331 typedef typename
T::measurement_type measurement_type
;
334 ALWAYS_INLINE CONSTEXPR
335 operator machine_mode () const { return m_mode
; }
337 ALWAYS_INLINE CONSTEXPR
338 operator T () const { return from_int (m_mode
); }
340 ALWAYS_INLINE pod_mode
&operator = (const T
&m
) { m_mode
= m
; return *this; }
343 /* Return true if mode M has type T. */
347 is_a (machine_mode m
)
349 return T::includes_p (m
);
352 template<typename T
, typename U
>
354 is_a (const opt_mode
<U
> &m
)
356 return T::includes_p (m
.else_void ());
359 /* Assert that mode M has type T, and return it in that form. */
363 as_a (machine_mode m
)
365 gcc_checking_assert (T::includes_p (m
));
366 return typename mode_traits
<T
>::from_int (m
);
369 template<typename T
, typename U
>
371 as_a (const opt_mode
<U
> &m
)
373 return as_a
<T
> (m
.else_void ());
376 /* Convert M to an opt_mode<T>. */
380 dyn_cast (machine_mode m
)
382 if (T::includes_p (m
))
383 return T (typename mode_traits
<T
>::from_int (m
));
384 return opt_mode
<T
> ();
387 template<typename T
, typename U
>
389 dyn_cast (const opt_mode
<U
> &m
)
391 return dyn_cast
<T
> (m
.else_void ());
394 /* Return true if mode M has type T, storing it as a T in *RESULT
397 template<typename T
, typename U
>
399 is_a (machine_mode m
, U
*result
)
401 if (T::includes_p (m
))
403 *result
= T (typename mode_traits
<T
>::from_int (m
));
409 /* Represents a machine mode that is known to be a SCALAR_INT_MODE_P. */
410 class scalar_int_mode
413 typedef mode_traits
<scalar_int_mode
>::from_int from_int
;
414 typedef unsigned short measurement_type
;
416 ALWAYS_INLINE
scalar_int_mode () {}
418 ALWAYS_INLINE CONSTEXPR
419 scalar_int_mode (from_int m
) : m_mode (machine_mode (m
)) {}
421 ALWAYS_INLINE CONSTEXPR
operator machine_mode () const { return m_mode
; }
423 static bool includes_p (machine_mode
);
429 /* Return true if M is a scalar_int_mode. */
432 scalar_int_mode::includes_p (machine_mode m
)
434 return SCALAR_INT_MODE_P (m
);
437 /* Represents a machine mode that is known to be a SCALAR_FLOAT_MODE_P. */
438 class scalar_float_mode
441 typedef mode_traits
<scalar_float_mode
>::from_int from_int
;
442 typedef unsigned short measurement_type
;
444 ALWAYS_INLINE
scalar_float_mode () {}
446 ALWAYS_INLINE CONSTEXPR
447 scalar_float_mode (from_int m
) : m_mode (machine_mode (m
)) {}
449 ALWAYS_INLINE CONSTEXPR
operator machine_mode () const { return m_mode
; }
451 static bool includes_p (machine_mode
);
457 /* Return true if M is a scalar_float_mode. */
460 scalar_float_mode::includes_p (machine_mode m
)
462 return SCALAR_FLOAT_MODE_P (m
);
465 /* Represents a machine mode that is known to be scalar. */
469 typedef mode_traits
<scalar_mode
>::from_int from_int
;
470 typedef unsigned short measurement_type
;
472 ALWAYS_INLINE
scalar_mode () {}
474 ALWAYS_INLINE CONSTEXPR
475 scalar_mode (from_int m
) : m_mode (machine_mode (m
)) {}
477 ALWAYS_INLINE CONSTEXPR
478 scalar_mode (const scalar_int_mode
&m
) : m_mode (m
) {}
480 ALWAYS_INLINE CONSTEXPR
481 scalar_mode (const scalar_float_mode
&m
) : m_mode (m
) {}
483 ALWAYS_INLINE CONSTEXPR
484 scalar_mode (const scalar_int_mode_pod
&m
) : m_mode (m
) {}
486 ALWAYS_INLINE CONSTEXPR
operator machine_mode () const { return m_mode
; }
488 static bool includes_p (machine_mode
);
494 /* Return true if M represents some kind of scalar value. */
497 scalar_mode::includes_p (machine_mode m
)
499 switch (GET_MODE_CLASS (m
))
502 case MODE_PARTIAL_INT
:
508 case MODE_DECIMAL_FLOAT
:
515 /* Represents a machine mode that is known to be a COMPLEX_MODE_P. */
519 typedef mode_traits
<complex_mode
>::from_int from_int
;
520 typedef unsigned short measurement_type
;
522 ALWAYS_INLINE
complex_mode () {}
524 ALWAYS_INLINE CONSTEXPR
525 complex_mode (from_int m
) : m_mode (machine_mode (m
)) {}
527 ALWAYS_INLINE CONSTEXPR
operator machine_mode () const { return m_mode
; }
529 static bool includes_p (machine_mode
);
535 /* Return true if M is a complex_mode. */
538 complex_mode::includes_p (machine_mode m
)
540 return COMPLEX_MODE_P (m
);
543 /* Return the base GET_MODE_SIZE value for MODE. */
545 ALWAYS_INLINE poly_uint16
546 mode_to_bytes (machine_mode mode
)
548 #if GCC_VERSION >= 4001
549 return (__builtin_constant_p (mode
)
550 ? mode_size_inline (mode
) : mode_size
[mode
]);
552 return mode_size
[mode
];
556 /* Return the base GET_MODE_BITSIZE value for MODE. */
558 ALWAYS_INLINE poly_uint16
559 mode_to_bits (machine_mode mode
)
561 return mode_to_bytes (mode
) * BITS_PER_UNIT
;
564 /* Return the base GET_MODE_PRECISION value for MODE. */
566 ALWAYS_INLINE poly_uint16
567 mode_to_precision (machine_mode mode
)
569 return mode_precision
[mode
];
572 /* Return the base GET_MODE_INNER value for MODE. */
574 ALWAYS_INLINE scalar_mode
575 mode_to_inner (machine_mode mode
)
577 #if GCC_VERSION >= 4001
578 return scalar_mode::from_int (__builtin_constant_p (mode
)
579 ? mode_inner_inline (mode
)
582 return scalar_mode::from_int (mode_inner
[mode
]);
586 /* Return the base GET_MODE_UNIT_SIZE value for MODE. */
588 ALWAYS_INLINE
unsigned char
589 mode_to_unit_size (machine_mode mode
)
591 #if GCC_VERSION >= 4001
592 return (__builtin_constant_p (mode
)
593 ? mode_unit_size_inline (mode
) : mode_unit_size
[mode
]);
595 return mode_unit_size
[mode
];
599 /* Return the base GET_MODE_UNIT_PRECISION value for MODE. */
601 ALWAYS_INLINE
unsigned short
602 mode_to_unit_precision (machine_mode mode
)
604 #if GCC_VERSION >= 4001
605 return (__builtin_constant_p (mode
)
606 ? mode_unit_precision_inline (mode
) : mode_unit_precision
[mode
]);
608 return mode_unit_precision
[mode
];
612 /* Return the base GET_MODE_NUNITS value for MODE. */
614 ALWAYS_INLINE poly_uint16
615 mode_to_nunits (machine_mode mode
)
617 #if GCC_VERSION >= 4001
618 return (__builtin_constant_p (mode
)
619 ? mode_nunits_inline (mode
) : mode_nunits
[mode
]);
621 return mode_nunits
[mode
];
625 /* Get the size in bytes of an object of mode MODE. */
627 #if ONLY_FIXED_SIZE_MODES
628 #define GET_MODE_SIZE(MODE) ((unsigned short) mode_to_bytes (MODE).coeffs[0])
630 ALWAYS_INLINE poly_uint16
631 GET_MODE_SIZE (machine_mode mode
)
633 return mode_to_bytes (mode
);
637 ALWAYS_INLINE typename if_poly
<typename
T::measurement_type
>::type
638 GET_MODE_SIZE (const T
&mode
)
640 return mode_to_bytes (mode
);
644 ALWAYS_INLINE typename if_nonpoly
<typename
T::measurement_type
>::type
645 GET_MODE_SIZE (const T
&mode
)
647 return mode_to_bytes (mode
).coeffs
[0];
651 /* Get the size in bits of an object of mode MODE. */
653 #if ONLY_FIXED_SIZE_MODES
654 #define GET_MODE_BITSIZE(MODE) ((unsigned short) mode_to_bits (MODE).coeffs[0])
656 ALWAYS_INLINE poly_uint16
657 GET_MODE_BITSIZE (machine_mode mode
)
659 return mode_to_bits (mode
);
663 ALWAYS_INLINE typename if_poly
<typename
T::measurement_type
>::type
664 GET_MODE_BITSIZE (const T
&mode
)
666 return mode_to_bits (mode
);
670 ALWAYS_INLINE typename if_nonpoly
<typename
T::measurement_type
>::type
671 GET_MODE_BITSIZE (const T
&mode
)
673 return mode_to_bits (mode
).coeffs
[0];
677 /* Get the number of value bits of an object of mode MODE. */
679 #if ONLY_FIXED_SIZE_MODES
680 #define GET_MODE_PRECISION(MODE) \
681 ((unsigned short) mode_to_precision (MODE).coeffs[0])
683 ALWAYS_INLINE poly_uint16
684 GET_MODE_PRECISION (machine_mode mode
)
686 return mode_to_precision (mode
);
690 ALWAYS_INLINE typename if_poly
<typename
T::measurement_type
>::type
691 GET_MODE_PRECISION (const T
&mode
)
693 return mode_to_precision (mode
);
697 ALWAYS_INLINE typename if_nonpoly
<typename
T::measurement_type
>::type
698 GET_MODE_PRECISION (const T
&mode
)
700 return mode_to_precision (mode
).coeffs
[0];
704 /* Get the number of integral bits of an object of mode MODE. */
705 extern CONST_MODE_IBIT
unsigned char mode_ibit
[NUM_MACHINE_MODES
];
706 #define GET_MODE_IBIT(MODE) mode_ibit[MODE]
708 /* Get the number of fractional bits of an object of mode MODE. */
709 extern CONST_MODE_FBIT
unsigned char mode_fbit
[NUM_MACHINE_MODES
];
710 #define GET_MODE_FBIT(MODE) mode_fbit[MODE]
712 /* Get a bitmask containing 1 for all bits in a word
713 that fit within mode MODE. */
715 extern CONST_MODE_MASK
unsigned HOST_WIDE_INT
716 mode_mask_array
[NUM_MACHINE_MODES
];
718 #define GET_MODE_MASK(MODE) mode_mask_array[MODE]
720 /* Return the mode of the basic parts of MODE. For vector modes this is the
721 mode of the vector elements. For complex modes it is the mode of the real
722 and imaginary parts. For other modes it is MODE itself. */
724 #define GET_MODE_INNER(MODE) (mode_to_inner (MODE))
726 /* Get the size in bytes or bits of the basic parts of an
727 object of mode MODE. */
729 #define GET_MODE_UNIT_SIZE(MODE) mode_to_unit_size (MODE)
731 #define GET_MODE_UNIT_BITSIZE(MODE) \
732 ((unsigned short) (GET_MODE_UNIT_SIZE (MODE) * BITS_PER_UNIT))
734 #define GET_MODE_UNIT_PRECISION(MODE) (mode_to_unit_precision (MODE))
736 /* Get the number of units in an object of mode MODE. This is 2 for
737 complex modes and the number of elements for vector modes. */
739 #if ONLY_FIXED_SIZE_MODES
740 #define GET_MODE_NUNITS(MODE) (mode_to_nunits (MODE).coeffs[0])
742 ALWAYS_INLINE poly_uint16
743 GET_MODE_NUNITS (machine_mode mode
)
745 return mode_to_nunits (mode
);
749 ALWAYS_INLINE typename if_poly
<typename
T::measurement_type
>::type
750 GET_MODE_NUNITS (const T
&mode
)
752 return mode_to_nunits (mode
);
756 ALWAYS_INLINE typename if_nonpoly
<typename
T::measurement_type
>::type
757 GET_MODE_NUNITS (const T
&mode
)
759 return mode_to_nunits (mode
).coeffs
[0];
763 /* Get the next wider natural mode (eg, QI -> HI -> SI -> DI -> TI). */
766 ALWAYS_INLINE opt_mode
<T
>
767 GET_MODE_WIDER_MODE (const T
&m
)
769 return typename opt_mode
<T
>::from_int (mode_wider
[m
]);
772 /* For scalars, this is a mode with twice the precision. For vectors,
773 this is a mode with the same inner mode but with twice the elements. */
776 ALWAYS_INLINE opt_mode
<T
>
777 GET_MODE_2XWIDER_MODE (const T
&m
)
779 return typename opt_mode
<T
>::from_int (mode_2xwider
[m
]);
782 /* Get the complex mode from the component mode. */
783 extern const unsigned char mode_complex
[NUM_MACHINE_MODES
];
784 #define GET_MODE_COMPLEX_MODE(MODE) ((machine_mode) mode_complex[MODE])
786 /* Represents a machine mode that must have a fixed size. The main
787 use of this class is to represent the modes of objects that always
788 have static storage duration, such as constant pool entries.
789 (No current target supports the concept of variable-size static data.) */
790 class fixed_size_mode
793 typedef mode_traits
<fixed_size_mode
>::from_int from_int
;
794 typedef unsigned short measurement_type
;
796 ALWAYS_INLINE
fixed_size_mode () {}
798 ALWAYS_INLINE CONSTEXPR
799 fixed_size_mode (from_int m
) : m_mode (machine_mode (m
)) {}
801 ALWAYS_INLINE CONSTEXPR
802 fixed_size_mode (const scalar_mode
&m
) : m_mode (m
) {}
804 ALWAYS_INLINE CONSTEXPR
805 fixed_size_mode (const scalar_int_mode
&m
) : m_mode (m
) {}
807 ALWAYS_INLINE CONSTEXPR
808 fixed_size_mode (const scalar_float_mode
&m
) : m_mode (m
) {}
810 ALWAYS_INLINE CONSTEXPR
811 fixed_size_mode (const scalar_mode_pod
&m
) : m_mode (m
) {}
813 ALWAYS_INLINE CONSTEXPR
814 fixed_size_mode (const scalar_int_mode_pod
&m
) : m_mode (m
) {}
816 ALWAYS_INLINE CONSTEXPR
817 fixed_size_mode (const complex_mode
&m
) : m_mode (m
) {}
819 ALWAYS_INLINE CONSTEXPR
operator machine_mode () const { return m_mode
; }
821 static bool includes_p (machine_mode
);
827 /* Return true if MODE has a fixed size. */
830 fixed_size_mode::includes_p (machine_mode mode
)
832 return mode_to_bytes (mode
).is_constant ();
835 /* Wrapper for mode arguments to target macros, so that if a target
836 doesn't need polynomial-sized modes, its header file can continue
837 to treat everything as fixed_size_mode. This should go away once
838 macros are moved to target hooks. It shouldn't be used in other
840 #if NUM_POLY_INT_COEFFS == 1
841 #define MACRO_MODE(MODE) (as_a <fixed_size_mode> (MODE))
843 #define MACRO_MODE(MODE) (MODE)
846 extern opt_machine_mode
mode_for_size (poly_uint64
, enum mode_class
, int);
848 /* Return the machine mode to use for a MODE_INT of SIZE bits, if one
849 exists. If LIMIT is nonzero, modes wider than MAX_FIXED_MODE_SIZE
852 inline opt_scalar_int_mode
853 int_mode_for_size (poly_uint64 size
, int limit
)
855 return dyn_cast
<scalar_int_mode
> (mode_for_size (size
, MODE_INT
, limit
));
858 /* Return the machine mode to use for a MODE_FLOAT of SIZE bits, if one
861 inline opt_scalar_float_mode
862 float_mode_for_size (poly_uint64 size
)
864 return dyn_cast
<scalar_float_mode
> (mode_for_size (size
, MODE_FLOAT
, 0));
867 /* Likewise for MODE_DECIMAL_FLOAT. */
869 inline opt_scalar_float_mode
870 decimal_float_mode_for_size (unsigned int size
)
872 return dyn_cast
<scalar_float_mode
>
873 (mode_for_size (size
, MODE_DECIMAL_FLOAT
, 0));
876 extern machine_mode
smallest_mode_for_size (poly_uint64
, enum mode_class
);
878 /* Find the narrowest integer mode that contains at least SIZE bits.
879 Such a mode must exist. */
881 inline scalar_int_mode
882 smallest_int_mode_for_size (poly_uint64 size
)
884 return as_a
<scalar_int_mode
> (smallest_mode_for_size (size
, MODE_INT
));
887 extern opt_scalar_int_mode
int_mode_for_mode (machine_mode
);
888 extern opt_machine_mode
bitwise_mode_for_mode (machine_mode
);
889 extern opt_machine_mode
mode_for_vector (scalar_mode
, poly_uint64
);
890 extern opt_machine_mode
related_vector_mode (machine_mode
, scalar_mode
,
892 extern opt_machine_mode
related_int_vector_mode (machine_mode
);
894 /* A class for iterating through possible bitfield modes. */
895 class bit_field_mode_iterator
898 bit_field_mode_iterator (HOST_WIDE_INT
, HOST_WIDE_INT
,
899 poly_int64
, poly_int64
,
901 bool next_mode (scalar_int_mode
*);
902 bool prefer_smaller_modes ();
905 opt_scalar_int_mode m_mode
;
906 /* We use signed values here because the bit position can be negative
907 for invalid input such as gcc.dg/pr48335-8.c. */
908 HOST_WIDE_INT m_bitsize
;
909 HOST_WIDE_INT m_bitpos
;
910 poly_int64 m_bitregion_start
;
911 poly_int64 m_bitregion_end
;
912 unsigned int m_align
;
917 /* Find the best mode to use to access a bit field. */
919 extern bool get_best_mode (int, int, poly_uint64
, poly_uint64
, unsigned int,
920 unsigned HOST_WIDE_INT
, bool, scalar_int_mode
*);
922 /* Determine alignment, 1<=result<=BIGGEST_ALIGNMENT. */
924 extern CONST_MODE_BASE_ALIGN
unsigned short mode_base_align
[NUM_MACHINE_MODES
];
926 extern unsigned get_mode_alignment (machine_mode
);
928 #define GET_MODE_ALIGNMENT(MODE) get_mode_alignment (MODE)
930 /* For each class, get the narrowest mode in that class. */
932 extern const unsigned char class_narrowest_mode
[MAX_MODE_CLASS
];
933 #define GET_CLASS_NARROWEST_MODE(CLASS) \
934 ((machine_mode) class_narrowest_mode[CLASS])
936 /* The narrowest full integer mode available on the target. */
938 #define NARROWEST_INT_MODE \
940 (scalar_int_mode::from_int (class_narrowest_mode[MODE_INT])))
942 /* Return the narrowest mode in T's class. */
946 get_narrowest_mode (T mode
)
948 return typename mode_traits
<T
>::from_int
949 (class_narrowest_mode
[GET_MODE_CLASS (mode
)]);
952 /* Define the integer modes whose sizes are BITS_PER_UNIT and BITS_PER_WORD
953 and the mode whose class is Pmode and whose size is POINTER_SIZE. */
955 extern scalar_int_mode byte_mode
;
956 extern scalar_int_mode word_mode
;
957 extern scalar_int_mode ptr_mode
;
959 /* Target-dependent machine mode initialization - in insn-modes.c. */
960 extern void init_adjust_machine_modes (void);
962 #define TRULY_NOOP_TRUNCATION_MODES_P(MODE1, MODE2) \
963 (targetm.truly_noop_truncation (GET_MODE_PRECISION (MODE1), \
964 GET_MODE_PRECISION (MODE2)))
966 /* Return true if MODE is a scalar integer mode that fits in a
970 HWI_COMPUTABLE_MODE_P (machine_mode mode
)
972 machine_mode mme
= mode
;
973 return (SCALAR_INT_MODE_P (mme
)
974 && mode_to_precision (mme
).coeffs
[0] <= HOST_BITS_PER_WIDE_INT
);
978 HWI_COMPUTABLE_MODE_P (scalar_int_mode mode
)
980 return GET_MODE_PRECISION (mode
) <= HOST_BITS_PER_WIDE_INT
;
983 struct int_n_data_t
{
984 /* These parts are initailized by genmodes output */
985 unsigned int bitsize
;
986 scalar_int_mode_pod m
;
987 /* RID_* is RID_INTN_BASE + index into this array */
990 /* This is also in tree.h. genmodes.c guarantees the're sorted from
991 smallest bitsize to largest bitsize. */
992 extern bool int_n_enabled_p
[NUM_INT_N_ENTS
];
993 extern const int_n_data_t int_n_data
[NUM_INT_N_ENTS
];
995 /* Return true if MODE has class MODE_INT, storing it as a scalar_int_mode
996 in *INT_MODE if so. */
1000 is_int_mode (machine_mode mode
, T
*int_mode
)
1002 if (GET_MODE_CLASS (mode
) == MODE_INT
)
1004 *int_mode
= scalar_int_mode (scalar_int_mode::from_int (mode
));
1010 /* Return true if MODE has class MODE_FLOAT, storing it as a
1011 scalar_float_mode in *FLOAT_MODE if so. */
1013 template<typename T
>
1015 is_float_mode (machine_mode mode
, T
*float_mode
)
1017 if (GET_MODE_CLASS (mode
) == MODE_FLOAT
)
1019 *float_mode
= scalar_float_mode (scalar_float_mode::from_int (mode
));
1025 /* Return true if MODE has class MODE_COMPLEX_INT, storing it as
1026 a complex_mode in *CMODE if so. */
1028 template<typename T
>
1030 is_complex_int_mode (machine_mode mode
, T
*cmode
)
1032 if (GET_MODE_CLASS (mode
) == MODE_COMPLEX_INT
)
1034 *cmode
= complex_mode (complex_mode::from_int (mode
));
1040 /* Return true if MODE has class MODE_COMPLEX_FLOAT, storing it as
1041 a complex_mode in *CMODE if so. */
1043 template<typename T
>
1045 is_complex_float_mode (machine_mode mode
, T
*cmode
)
1047 if (GET_MODE_CLASS (mode
) == MODE_COMPLEX_FLOAT
)
1049 *cmode
= complex_mode (complex_mode::from_int (mode
));
1055 /* Return true if MODE is a scalar integer mode with a precision
1056 smaller than LIMIT's precision. */
1059 is_narrower_int_mode (machine_mode mode
, scalar_int_mode limit
)
1061 scalar_int_mode int_mode
;
1062 return (is_a
<scalar_int_mode
> (mode
, &int_mode
)
1063 && GET_MODE_PRECISION (int_mode
) < GET_MODE_PRECISION (limit
));
1066 namespace mode_iterator
1068 /* Start mode iterator *ITER at the first mode in class MCLASS, if any. */
1070 template<typename T
>
1072 start (opt_mode
<T
> *iter
, enum mode_class mclass
)
1074 if (GET_CLASS_NARROWEST_MODE (mclass
) == E_VOIDmode
)
1075 *iter
= opt_mode
<T
> ();
1077 *iter
= as_a
<T
> (GET_CLASS_NARROWEST_MODE (mclass
));
1081 start (machine_mode
*iter
, enum mode_class mclass
)
1083 *iter
= GET_CLASS_NARROWEST_MODE (mclass
);
1086 /* Return true if mode iterator *ITER has not reached the end. */
1088 template<typename T
>
1090 iterate_p (opt_mode
<T
> *iter
)
1092 return iter
->exists ();
1096 iterate_p (machine_mode
*iter
)
1098 return *iter
!= E_VOIDmode
;
1101 /* Set mode iterator *ITER to the next widest mode in the same class,
1104 template<typename T
>
1106 get_wider (opt_mode
<T
> *iter
)
1108 *iter
= GET_MODE_WIDER_MODE (iter
->require ());
1112 get_wider (machine_mode
*iter
)
1114 *iter
= GET_MODE_WIDER_MODE (*iter
).else_void ();
1117 /* Set mode iterator *ITER to the next widest mode in the same class.
1118 Such a mode is known to exist. */
1120 template<typename T
>
1122 get_known_wider (T
*iter
)
1124 *iter
= GET_MODE_WIDER_MODE (*iter
).require ();
1127 /* Set mode iterator *ITER to the mode that is two times wider than the
1128 current one, if such a mode exists. */
1130 template<typename T
>
1132 get_2xwider (opt_mode
<T
> *iter
)
1134 *iter
= GET_MODE_2XWIDER_MODE (iter
->require ());
1138 get_2xwider (machine_mode
*iter
)
1140 *iter
= GET_MODE_2XWIDER_MODE (*iter
).else_void ();
1144 /* Make ITERATOR iterate over all the modes in mode class CLASS,
1145 from narrowest to widest. */
1146 #define FOR_EACH_MODE_IN_CLASS(ITERATOR, CLASS) \
1147 for (mode_iterator::start (&(ITERATOR), CLASS); \
1148 mode_iterator::iterate_p (&(ITERATOR)); \
1149 mode_iterator::get_wider (&(ITERATOR)))
1151 /* Make ITERATOR iterate over all the modes in the range [START, END),
1152 in order of increasing width. */
1153 #define FOR_EACH_MODE(ITERATOR, START, END) \
1154 for ((ITERATOR) = (START); \
1155 (ITERATOR) != (END); \
1156 mode_iterator::get_known_wider (&(ITERATOR)))
1158 /* Make ITERATOR iterate over START and all wider modes in the same
1159 class, in order of increasing width. */
1160 #define FOR_EACH_MODE_FROM(ITERATOR, START) \
1161 for ((ITERATOR) = (START); \
1162 mode_iterator::iterate_p (&(ITERATOR)); \
1163 mode_iterator::get_wider (&(ITERATOR)))
1165 /* Make ITERATOR iterate over modes in the range [NARROWEST, END)
1166 in order of increasing width, where NARROWEST is the narrowest mode
1168 #define FOR_EACH_MODE_UNTIL(ITERATOR, END) \
1169 FOR_EACH_MODE (ITERATOR, get_narrowest_mode (END), END)
1171 /* Make ITERATOR iterate over modes in the same class as MODE, in order
1172 of increasing width. Start at the first mode wider than START,
1173 or don't iterate at all if there is no wider mode. */
1174 #define FOR_EACH_WIDER_MODE(ITERATOR, START) \
1175 for ((ITERATOR) = (START), mode_iterator::get_wider (&(ITERATOR)); \
1176 mode_iterator::iterate_p (&(ITERATOR)); \
1177 mode_iterator::get_wider (&(ITERATOR)))
1179 /* Make ITERATOR iterate over modes in the same class as MODE, in order
1180 of increasing width, and with each mode being twice the width of the
1181 previous mode. Start at the mode that is two times wider than START,
1182 or don't iterate at all if there is no such mode. */
1183 #define FOR_EACH_2XWIDER_MODE(ITERATOR, START) \
1184 for ((ITERATOR) = (START), mode_iterator::get_2xwider (&(ITERATOR)); \
1185 mode_iterator::iterate_p (&(ITERATOR)); \
1186 mode_iterator::get_2xwider (&(ITERATOR)))
1188 template<typename T
>
1190 gt_ggc_mx (pod_mode
<T
> *)
1194 template<typename T
>
1196 gt_pch_nx (pod_mode
<T
> *)
1200 template<typename T
>
1202 gt_pch_nx (pod_mode
<T
> *, void (*) (void *, void *), void *)
1206 #endif /* not HAVE_MACHINE_MODES */