Add BMI2 support.
[official-gcc.git] / gcc / gimple.def
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1 /* This file contains the definitions of the GIMPLE IR tuples used in GCC.
3 Copyright (C) 2007, 2008, 2009, 2010 Free Software Foundation, Inc.
4 Contributed by Aldy Hernandez <aldyh@redhat.com>
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
11 version.
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
22 /* The format of this file is
23 DEFGSCODE(GIMPLE_symbol, printable name, GSS_symbol). */
26 /* Error marker. This is used in similar ways as ERROR_MARK in tree.def. */
27 DEFGSCODE(GIMPLE_ERROR_MARK, "gimple_error_mark", GSS_BASE)
29 /* IMPORTANT. Do not rearrange the codes between GIMPLE_COND and
30 GIMPLE_RETURN. The ordering is exposed by gimple_has_ops calls.
31 These are all the GIMPLE statements with register operands. */
33 /* GIMPLE_COND <COND_CODE, OP1, OP2, TRUE_LABEL, FALSE_LABEL>
34 represents the conditional jump:
36 if (OP1 COND_CODE OP2) goto TRUE_LABEL else goto FALSE_LABEL
38 COND_CODE is the tree code used as the comparison predicate. It
39 must be of class tcc_comparison.
41 OP1 and OP2 are the operands used in the comparison. They must be
42 accepted by is_gimple_operand.
44 TRUE_LABEL and FALSE_LABEL are the LABEL_DECL nodes used as the
45 jump target for the comparison. */
46 DEFGSCODE(GIMPLE_COND, "gimple_cond", GSS_WITH_OPS)
48 /* GIMPLE_DEBUG represents a debug statement. */
49 DEFGSCODE(GIMPLE_DEBUG, "gimple_debug", GSS_WITH_OPS)
51 /* GIMPLE_GOTO <TARGET> represents unconditional jumps.
52 TARGET is a LABEL_DECL or an expression node for computed GOTOs. */
53 DEFGSCODE(GIMPLE_GOTO, "gimple_goto", GSS_WITH_OPS)
55 /* GIMPLE_LABEL <LABEL> represents label statements. LABEL is a
56 LABEL_DECL representing a jump target. */
57 DEFGSCODE(GIMPLE_LABEL, "gimple_label", GSS_WITH_OPS)
59 /* GIMPLE_SWITCH <INDEX, DEFAULT_LAB, LAB1, ..., LABN> represents the
60 multiway branch:
62 switch (INDEX)
64 case LAB1: ...; break;
65 ...
66 case LABN: ...; break;
67 default: ...
70 INDEX is the variable evaluated to decide which label to jump to.
72 DEFAULT_LAB, LAB1 ... LABN are the tree nodes representing case labels.
73 They must be CASE_LABEL_EXPR nodes. */
74 DEFGSCODE(GIMPLE_SWITCH, "gimple_switch", GSS_WITH_OPS)
76 /* IMPORTANT.
78 Do not rearrange the codes between GIMPLE_ASSIGN and GIMPLE_RETURN.
79 It's exposed by GIMPLE_RANGE_CHECK calls. These are all the GIMPLE
80 statements with memory and register operands. */
82 /* GIMPLE_ASSIGN <SUBCODE, LHS, RHS1[, RHS2]> represents the assignment
83 statement
85 LHS = RHS1 SUBCODE RHS2.
87 SUBCODE is the tree code for the expression computed by the RHS of the
88 assignment. It must be one of the tree codes accepted by
89 get_gimple_rhs_class. If LHS is not a gimple register according to
90 is_gimple_reg, SUBCODE must be of class GIMPLE_SINGLE_RHS.
92 LHS is the operand on the LHS of the assignment. It must be a tree node
93 accepted by is_gimple_lvalue.
95 RHS1 is the first operand on the RHS of the assignment. It must always be
96 present. It must be a tree node accepted by is_gimple_val.
98 RHS2 is the second operand on the RHS of the assignment. It must be a tree
99 node accepted by is_gimple_val. This argument exists only if SUBCODE is
100 of class GIMPLE_BINARY_RHS. */
101 DEFGSCODE(GIMPLE_ASSIGN, "gimple_assign", GSS_WITH_MEM_OPS)
103 /* GIMPLE_ASM <STRING, I1, ..., IN, O1, ... OM, C1, ..., CP>
104 represents inline assembly statements.
106 STRING is the string containing the assembly statements.
107 I1 ... IN are the N input operands.
108 O1 ... OM are the M output operands.
109 C1 ... CP are the P clobber operands.
110 L1 ... LQ are the Q label operands. */
111 DEFGSCODE(GIMPLE_ASM, "gimple_asm", GSS_ASM)
113 /* GIMPLE_CALL <FN, LHS, ARG1, ..., ARGN[, CHAIN]> represents function
114 calls.
116 FN is the callee. It must be accepted by is_gimple_call_addr.
118 LHS is the operand where the return value from FN is stored. It may
119 be NULL.
121 ARG1 ... ARGN are the arguments. They must all be accepted by
122 is_gimple_operand.
124 CHAIN is the optional static chain link for nested functions. */
125 DEFGSCODE(GIMPLE_CALL, "gimple_call", GSS_CALL)
127 /* GIMPLE_RETURN <RETVAL> represents return statements.
129 RETVAL is the value to return or NULL. If a value is returned it
130 must be accepted by is_gimple_operand. */
131 DEFGSCODE(GIMPLE_RETURN, "gimple_return", GSS_WITH_MEM_OPS)
133 /* GIMPLE_BIND <VARS, BLOCK, BODY> represents a lexical scope.
134 VARS is the set of variables declared in that scope.
135 BLOCK is the symbol binding block used for debug information.
136 BODY is the sequence of statements in the scope. */
137 DEFGSCODE(GIMPLE_BIND, "gimple_bind", GSS_BIND)
139 /* GIMPLE_CATCH <TYPES, HANDLER> represents a typed exception handler.
140 TYPES is the type (or list of types) handled. HANDLER is the
141 sequence of statements that handle these types. */
142 DEFGSCODE(GIMPLE_CATCH, "gimple_catch", GSS_CATCH)
144 /* GIMPLE_EH_FILTER <TYPES, FAILURE> represents an exception
145 specification. TYPES is a list of allowed types and FAILURE is the
146 sequence of statements to execute on failure. */
147 DEFGSCODE(GIMPLE_EH_FILTER, "gimple_eh_filter", GSS_EH_FILTER)
149 /* GIMPLE_EH_MUST_NOT_THROW <DECL> represents an exception barrier.
150 DECL is a noreturn function decl taking no arguments that will
151 be invoked if an exception propagates to this point. */
152 DEFGSCODE(GIMPLE_EH_MUST_NOT_THROW, "gimple_eh_must_not_throw", GSS_EH_MNT)
154 /* GIMPLE_RESX resumes execution after an exception. */
155 DEFGSCODE(GIMPLE_RESX, "gimple_resx", GSS_EH_CTRL)
157 /* GIMPLE_EH_DISPATCH demultiplexes an exception edge based on
158 the FILTER argument. */
159 DEFGSCODE(GIMPLE_EH_DISPATCH, "gimple_eh_dispatch", GSS_EH_CTRL)
161 /* GIMPLE_PHI <RESULT, ARG1, ..., ARGN> represents the PHI node
163 RESULT = PHI <ARG1, ..., ARGN>
165 RESULT is the SSA name created by this PHI node.
167 ARG1 ... ARGN are the arguments to the PHI node. N must be
168 exactly the same as the number of incoming edges to the basic block
169 holding the PHI node. Every argument is either an SSA name or a
170 tree node of class tcc_constant. */
171 DEFGSCODE(GIMPLE_PHI, "gimple_phi", GSS_PHI)
173 /* GIMPLE_TRY <TRY_KIND, EVAL, CLEANUP>
174 represents a try/catch or a try/finally statement.
176 TRY_KIND is either GIMPLE_TRY_CATCH or GIMPLE_TRY_FINALLY.
178 EVAL is the sequence of statements to execute on entry to GIMPLE_TRY.
180 CLEANUP is the sequence of statements to execute according to
181 TRY_KIND. If TRY_KIND is GIMPLE_TRY_CATCH, CLEANUP is only exected
182 if an exception is thrown during execution of EVAL. If TRY_KIND is
183 GIMPLE_TRY_FINALLY, CLEANUP is always executed after executing EVAL
184 (regardless of whether EVAL finished normally, or jumped out or an
185 exception was thrown). */
186 DEFGSCODE(GIMPLE_TRY, "gimple_try", GSS_TRY)
188 /* GIMPLE_NOP represents the "do nothing" statement. */
189 DEFGSCODE(GIMPLE_NOP, "gimple_nop", GSS_BASE)
192 /* IMPORTANT.
194 Do not rearrange any of the GIMPLE_OMP_* codes. This ordering is
195 exposed by the range check in gimple_omp_subcode(). */
198 /* Tuples used for lowering of OMP_ATOMIC. Although the form of the OMP_ATOMIC
199 expression is very simple (just in form mem op= expr), various implicit
200 conversions may cause the expression to become more complex, so that it does
201 not fit the gimple grammar very well. To overcome this problem, OMP_ATOMIC
202 is rewritten as a sequence of two codes in gimplification:
204 GIMPLE_OMP_LOAD (tmp, mem)
205 val = some computations involving tmp;
206 GIMPLE_OMP_STORE (val). */
207 DEFGSCODE(GIMPLE_OMP_ATOMIC_LOAD, "gimple_omp_atomic_load",
208 GSS_OMP_ATOMIC_LOAD)
209 DEFGSCODE(GIMPLE_OMP_ATOMIC_STORE, "gimple_omp_atomic_store",
210 GSS_OMP_ATOMIC_STORE)
212 /* GIMPLE_OMP_CONTINUE marks the location of the loop or sections
213 iteration in partially lowered OpenMP code. */
214 DEFGSCODE(GIMPLE_OMP_CONTINUE, "gimple_omp_continue", GSS_OMP_CONTINUE)
216 /* GIMPLE_OMP_CRITICAL <NAME, BODY> represents
218 #pragma omp critical [name]
220 NAME is the name given to the critical section.
221 BODY is the sequence of statements that are inside the critical section. */
222 DEFGSCODE(GIMPLE_OMP_CRITICAL, "gimple_omp_critical", GSS_OMP_CRITICAL)
224 /* GIMPLE_OMP_FOR <BODY, CLAUSES, INDEX, INITIAL, FINAL, COND, INCR, PRE_BODY>
225 represents
227 PRE_BODY
228 #pragma omp for [clause1 ... clauseN]
229 for (INDEX = INITIAL; INDEX COND FINAL; INDEX {+=,-=} INCR)
230 BODY
232 BODY is the loop body.
234 CLAUSES is the list of clauses.
236 INDEX must be an integer or pointer variable, which is implicitly thread
237 private. It must be accepted by is_gimple_operand.
239 INITIAL is the initial value given to INDEX. It must be
240 accepted by is_gimple_operand.
242 FINAL is the final value that INDEX should take. It must
243 be accepted by is_gimple_operand.
245 COND is the condition code for the controlling predicate. It must
246 be one of { <, >, <=, >= }
248 INCR is the loop index increment. It must be tree node of type
249 tcc_constant.
251 PRE_BODY is a landing pad filled by the gimplifier with things from
252 INIT, COND, and INCR that are technically part of the OMP_FOR
253 structured block, but are evaluated before the loop body begins.
255 INITIAL, FINAL and INCR are required to be loop invariant integer
256 expressions that are evaluated without any synchronization.
257 The evaluation order, frequency of evaluation and side-effects are
258 unspecified by the standard. */
259 DEFGSCODE(GIMPLE_OMP_FOR, "gimple_omp_for", GSS_OMP_FOR)
261 /* GIMPLE_OMP_MASTER <BODY> represents #pragma omp master.
262 BODY is the sequence of statements to execute in the master section. */
263 DEFGSCODE(GIMPLE_OMP_MASTER, "gimple_omp_master", GSS_OMP)
265 /* GIMPLE_OMP_ORDERED <BODY> represents #pragma omp ordered.
266 BODY is the sequence of statements to execute in the ordered section. */
267 DEFGSCODE(GIMPLE_OMP_ORDERED, "gimple_omp_ordered", GSS_OMP)
269 /* GIMPLE_OMP_PARALLEL <BODY, CLAUSES, CHILD_FN, DATA_ARG> represents
271 #pragma omp parallel [CLAUSES]
272 BODY
274 BODY is a the sequence of statements to be executed by all threads.
276 CLAUSES is a TREE_LIST node with all the clauses.
278 CHILD_FN is set when outlining the body of the parallel region.
279 All the statements in BODY are moved into this newly created
280 function when converting OMP constructs into low-GIMPLE.
282 DATA_ARG is a local variable in the parent function containing data
283 to be shared with CHILD_FN. This is used to implement all the data
284 sharing clauses. */
285 DEFGSCODE(GIMPLE_OMP_PARALLEL, "gimple_omp_parallel", GSS_OMP_PARALLEL)
287 /* GIMPLE_OMP_TASK <BODY, CLAUSES, CHILD_FN, DATA_ARG, COPY_FN,
288 ARG_SIZE, ARG_ALIGN> represents
290 #pragma omp task [CLAUSES]
291 BODY
293 BODY is a the sequence of statements to be executed by all threads.
295 CLAUSES is a TREE_LIST node with all the clauses.
297 CHILD_FN is set when outlining the body of the explicit task region.
298 All the statements in BODY are moved into this newly created
299 function when converting OMP constructs into low-GIMPLE.
301 DATA_ARG is a local variable in the parent function containing data
302 to be shared with CHILD_FN. This is used to implement all the data
303 sharing clauses.
305 COPY_FN is set when outlining the firstprivate var initialization.
306 All the needed statements are emitted into the newly created
307 function, or when only memcpy is needed, it is NULL.
309 ARG_SIZE and ARG_ALIGN are the size and alignment of the incoming
310 data area allocated by GOMP_task and passed to CHILD_FN. */
311 DEFGSCODE(GIMPLE_OMP_TASK, "gimple_omp_task", GSS_OMP_TASK)
313 /* OMP_RETURN marks the end of an OpenMP directive. */
314 DEFGSCODE(GIMPLE_OMP_RETURN, "gimple_omp_return", GSS_BASE)
316 /* OMP_SECTION <BODY> represents #pragma omp section.
317 BODY is the sequence of statements in the section body. */
318 DEFGSCODE(GIMPLE_OMP_SECTION, "gimple_omp_section", GSS_OMP)
320 /* OMP_SECTIONS <BODY, CLAUSES, CONTROL> represents #pragma omp sections.
322 BODY is the sequence of statements in the sections body.
323 CLAUSES is a TREE_LIST node holding the list of associated clauses.
324 CONTROL is a VAR_DECL used for deciding which of the sections
325 to execute. */
326 DEFGSCODE(GIMPLE_OMP_SECTIONS, "gimple_omp_sections", GSS_OMP_SECTIONS)
328 /* GIMPLE_OMP_SECTIONS_SWITCH is a marker placed immediately after
329 OMP_SECTIONS. It represents the GIMPLE_SWITCH used to decide which
330 branch is taken. */
331 DEFGSCODE(GIMPLE_OMP_SECTIONS_SWITCH, "gimple_omp_sections_switch", GSS_BASE)
333 /* GIMPLE_OMP_SINGLE <BODY, CLAUSES> represents #pragma omp single
334 BODY is the sequence of statements inside the single section.
335 CLAUSES is a TREE_LIST node holding the associated clauses. */
336 DEFGSCODE(GIMPLE_OMP_SINGLE, "gimple_omp_single", GSS_OMP_SINGLE)
338 /* GIMPLE_PREDICT <PREDICT, OUTCOME> specifies a hint for branch prediction.
340 PREDICT is one of the predictors from predict.def.
342 OUTCOME is NOT_TAKEN or TAKEN. */
343 DEFGSCODE(GIMPLE_PREDICT, "gimple_predict", GSS_BASE)
345 /* This node represents a cleanup expression. It is ONLY USED INTERNALLY
346 by the gimplifier as a placeholder for cleanups, and its uses will be
347 cleaned up by the time gimplification is done.
349 This tuple should not exist outside of the gimplifier proper. */
350 DEFGSCODE(GIMPLE_WITH_CLEANUP_EXPR, "gimple_with_cleanup_expr", GSS_WCE)