altivec.md (altivec_mov<mode>, [...]): Change the RTL attribute "length" from "4...
[official-gcc.git] / gcc / internal-fn.h
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1 /* Internal functions.
2 Copyright (C) 2011-2019 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
9 version.
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
14 for more details.
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 GCC_INTERNAL_FN_H
21 #define GCC_INTERNAL_FN_H
23 /* INTEGER_CST values for IFN_UNIQUE function arg-0.
25 UNSPEC: Undifferentiated UNIQUE.
27 FORK and JOIN mark the points at which OpenACC partitioned
28 execution is entered or exited.
29 DEP_VAR = UNIQUE ({FORK,JOIN}, DEP_VAR, AXIS)
31 HEAD_MARK and TAIL_MARK are used to demark the sequence entering
32 or leaving partitioned execution.
33 DEP_VAR = UNIQUE ({HEAD,TAIL}_MARK, REMAINING_MARKS, ...PRIMARY_FLAGS)
35 The PRIMARY_FLAGS only occur on the first HEAD_MARK of a sequence. */
36 #define IFN_UNIQUE_CODES \
37 DEF(UNSPEC), \
38 DEF(OACC_FORK), DEF(OACC_JOIN), \
39 DEF(OACC_HEAD_MARK), DEF(OACC_TAIL_MARK)
41 enum ifn_unique_kind {
42 #define DEF(X) IFN_UNIQUE_##X
43 IFN_UNIQUE_CODES
44 #undef DEF
47 /* INTEGER_CST values for IFN_GOACC_LOOP arg-0. Allows the precise
48 stepping of the compute geometry over the loop iterations to be
49 deferred until it is known which compiler is generating the code.
50 The action is encoded in a constant first argument.
52 CHUNK_MAX = LOOP (CODE_CHUNKS, DIR, RANGE, STEP, CHUNK_SIZE, MASK)
53 STEP = LOOP (CODE_STEP, DIR, RANGE, STEP, CHUNK_SIZE, MASK)
54 OFFSET = LOOP (CODE_OFFSET, DIR, RANGE, STEP, CHUNK_SIZE, MASK, CHUNK_NO)
55 BOUND = LOOP (CODE_BOUND, DIR, RANGE, STEP, CHUNK_SIZE, MASK, OFFSET)
57 DIR - +1 for up loop, -1 for down loop
58 RANGE - Range of loop (END - BASE)
59 STEP - iteration step size
60 CHUNKING - size of chunking, (constant zero for no chunking)
61 CHUNK_NO - chunk number
62 MASK - partitioning mask. */
64 #define IFN_GOACC_LOOP_CODES \
65 DEF(CHUNKS), DEF(STEP), DEF(OFFSET), DEF(BOUND)
66 enum ifn_goacc_loop_kind {
67 #define DEF(X) IFN_GOACC_LOOP_##X
68 IFN_GOACC_LOOP_CODES
69 #undef DEF
72 /* The GOACC_REDUCTION function defines a generic interface to support
73 gang, worker and vector reductions. All calls are of the following
74 form:
76 V = REDUCTION (CODE, REF_TO_RES, LOCAL_VAR, LEVEL, OP, OFFSET)
78 REF_TO_RES - is a reference to the original reduction varl, may be NULL
79 LOCAL_VAR is the intermediate reduction variable
80 LEVEL corresponds to the GOMP_DIM of the reduction
81 OP is the tree code of the reduction operation
82 OFFSET may be used as an offset into a reduction array for the
83 reductions occuring at this level.
84 In general the return value is LOCAL_VAR, which creates a data
85 dependency between calls operating on the same reduction. */
87 #define IFN_GOACC_REDUCTION_CODES \
88 DEF(SETUP), DEF(INIT), DEF(FINI), DEF(TEARDOWN)
89 enum ifn_goacc_reduction_kind {
90 #define DEF(X) IFN_GOACC_REDUCTION_##X
91 IFN_GOACC_REDUCTION_CODES
92 #undef DEF
95 /* Initialize internal function tables. */
97 extern void init_internal_fns ();
99 /* Return the name of internal function FN. The name is only meaningful
100 for dumps; it has no linkage. */
102 extern const char *const internal_fn_name_array[];
104 static inline const char *
105 internal_fn_name (enum internal_fn fn)
107 return internal_fn_name_array[(int) fn];
110 extern internal_fn lookup_internal_fn (const char *);
112 /* Return the ECF_* flags for function FN. */
114 extern const int internal_fn_flags_array[];
116 static inline int
117 internal_fn_flags (enum internal_fn fn)
119 return internal_fn_flags_array[(int) fn];
122 /* Return fnspec for function FN. */
124 extern GTY(()) const_tree internal_fn_fnspec_array[IFN_LAST + 1];
126 static inline const_tree
127 internal_fn_fnspec (enum internal_fn fn)
129 return internal_fn_fnspec_array[(int) fn];
132 /* Describes an internal function that maps directly to an optab. */
133 struct direct_internal_fn_info
135 /* optabs can be parameterized by one or two modes. These fields describe
136 how to select those modes from the types of the return value and
137 arguments. A value of -1 says that the mode is determined by the
138 return type while a value N >= 0 says that the mode is determined by
139 the type of argument N. A value of -2 says that this internal
140 function isn't directly mapped to an optab. */
141 signed int type0 : 8;
142 signed int type1 : 8;
143 /* True if the function is pointwise, so that it can be vectorized by
144 converting the return type and all argument types to vectors of the
145 same number of elements. E.g. we can vectorize an IFN_SQRT on
146 floats as an IFN_SQRT on vectors of N floats.
148 This only needs 1 bit, but occupies the full 16 to ensure a nice
149 layout. */
150 unsigned int vectorizable : 16;
153 extern const direct_internal_fn_info direct_internal_fn_array[IFN_LAST + 1];
155 /* Return true if FN is mapped directly to an optab. */
157 inline bool
158 direct_internal_fn_p (internal_fn fn)
160 return direct_internal_fn_array[fn].type0 >= -1;
163 /* Return true if FN is a direct internal function that can be vectorized by
164 converting the return type and all argument types to vectors of the same
165 number of elements. E.g. we can vectorize an IFN_SQRT on floats as an
166 IFN_SQRT on vectors of N floats. */
168 inline bool
169 vectorizable_internal_fn_p (internal_fn fn)
171 return direct_internal_fn_array[fn].vectorizable;
174 /* Return optab information about internal function FN. Only meaningful
175 if direct_internal_fn_p (FN). */
177 inline const direct_internal_fn_info &
178 direct_internal_fn (internal_fn fn)
180 gcc_checking_assert (direct_internal_fn_p (fn));
181 return direct_internal_fn_array[fn];
184 extern tree_pair direct_internal_fn_types (internal_fn, tree, tree *);
185 extern tree_pair direct_internal_fn_types (internal_fn, gcall *);
186 extern bool direct_internal_fn_supported_p (internal_fn, tree_pair,
187 optimization_type);
188 extern bool direct_internal_fn_supported_p (internal_fn, tree,
189 optimization_type);
190 extern bool direct_internal_fn_supported_p (gcall *, optimization_type);
192 /* Return true if FN is supported for types TYPE0 and TYPE1 when the
193 optimization type is OPT_TYPE. The types are those associated with
194 the "type0" and "type1" fields of FN's direct_internal_fn_info
195 structure. */
197 inline bool
198 direct_internal_fn_supported_p (internal_fn fn, tree type0, tree type1,
199 optimization_type opt_type)
201 return direct_internal_fn_supported_p (fn, tree_pair (type0, type1),
202 opt_type);
205 extern int first_commutative_argument (internal_fn);
207 extern bool set_edom_supported_p (void);
209 extern internal_fn get_conditional_internal_fn (tree_code);
210 extern internal_fn get_conditional_internal_fn (internal_fn);
211 extern tree_code conditional_internal_fn_code (internal_fn);
212 extern internal_fn get_unconditional_internal_fn (internal_fn);
213 extern bool can_interpret_as_conditional_op_p (gimple *, tree *,
214 tree_code *, tree (&)[3],
215 tree *);
217 extern bool internal_load_fn_p (internal_fn);
218 extern bool internal_store_fn_p (internal_fn);
219 extern bool internal_gather_scatter_fn_p (internal_fn);
220 extern int internal_fn_mask_index (internal_fn);
221 extern int internal_fn_stored_value_index (internal_fn);
222 extern bool internal_gather_scatter_fn_supported_p (internal_fn, tree,
223 tree, signop, int);
225 extern void expand_internal_call (gcall *);
226 extern void expand_internal_call (internal_fn, gcall *);
227 extern void expand_PHI (internal_fn, gcall *);
229 extern bool vectorized_internal_fn_supported_p (internal_fn, tree);
231 #endif