2 Copyright (C) 2003-2022 Free Software Foundation, Inc.
3 Contributed by Jan Hubicka
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 3, or (at your option) any later
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
21 /* Representation of inline parameters that do depend on context function is
22 inlined into (i.e. known constant values of function parameters.
24 Conditions that are interesting for function body are collected into CONDS
25 vector. They are of simple as kind of a mathematical transformation on
26 function parameter, T(function_param), in which the parameter occurs only
27 once, and other operands are IPA invariant. The conditions are then
28 referred by predicates. */
31 /* A simplified representation of tree node, for unary, binary and ternary
32 operation. Computations on parameter are decomposed to a series of this
34 struct GTY(()) expr_eval_op
36 /* Result type of expression. */
38 /* Constant operands in expression, there are at most two. */
40 /* Index of parameter operand in expression. */
42 /* Operation code of expression. */
43 ENUM_BITFIELD(tree_code
) code
: 16;
46 typedef vec
<expr_eval_op
, va_gc
> *expr_eval_ops
;
48 struct GTY(()) condition
50 /* If agg_contents is set, this is the offset from which the used data was
53 /* Type of the access reading the data (or the PARM_DECL SSA_NAME). */
57 ENUM_BITFIELD(tree_code
) code
: 16;
58 /* Set if the used data were loaded from an aggregate parameter or from
59 data received by reference. */
60 unsigned agg_contents
: 1;
61 /* If agg_contents is set, this differentiates between loads from data
62 passed by reference and by value. */
64 /* A set of sequential operations on the parameter, which can be seen as
65 a mathematical function on the parameter. */
66 expr_eval_ops param_ops
;
69 /* Information kept about parameter of call site. */
70 struct inline_param_summary
72 /* REG_BR_PROB_BASE based probability that parameter will change in between
73 two invocation of the calls.
74 I.e. loop invariant parameters
75 REG_BR_PROB_BASE/estimated_iterations and regular
76 parameters REG_BR_PROB_BASE.
78 Value 0 is reserved for compile time invariants. */
80 unsigned points_to_local_or_readonly_memory
: 1;
81 bool equal_to (const inline_param_summary
&other
) const
83 return change_prob
== other
.change_prob
84 && points_to_local_or_readonly_memory
85 == other
.points_to_local_or_readonly_memory
;
87 bool useless_p (void) const
89 return change_prob
== REG_BR_PROB_BASE
90 && !points_to_local_or_readonly_memory
;
94 typedef vec
<condition
, va_gc
> *conditions
;
96 /* Predicates are used to represent function parameters (such as runtime)
97 which depend on a context function is called in.
99 Predicates are logical formulas in conjunctive-disjunctive form consisting
100 of clauses which are bitmaps specifying a set of condition that must
101 be true for a clause to be satisfied. Physically they are represented as
102 array of clauses terminated by 0.
104 In order to make predicate (possibly) true, all of its clauses must
105 be (possibly) true. To make clause (possibly) true, one of conditions
106 it mentions must be (possibly) true.
108 There are fixed bounds on number of clauses and conditions and all the
109 manipulation functions are conservative in positive direction. I.e. we
110 may lose precision by thinking that predicate may be true even when it
113 typedef uint32_t clause_t
;
117 enum predicate_conditions
120 not_inlined_condition
= 1,
121 first_dynamic_condition
= 2
124 /* Maximal number of conditions predicate can refer to. This is limited
125 by using clause_t to be 32bit. */
126 static const int num_conditions
= 32;
128 /* Special condition code we use to represent test that operand is compile
130 static const tree_code is_not_constant
= ERROR_MARK
;
132 /* Special condition code we use to represent test that operand is not changed
133 across invocation of the function. When operand IS_NOT_CONSTANT it is
134 always CHANGED, however i.e. loop invariants can be NOT_CHANGED given
135 percentage of executions even when they are not compile time constants. */
136 static const tree_code changed
= IDENTIFIER_NODE
;
140 /* Initialize predicate either to true of false depending on P. */
141 inline ipa_predicate (bool p
= true)
144 /* True predicate. */
147 /* False predicate. */
148 set_to_cond (false_condition
);
151 /* Sanity check that we do not mix pointers to predicates with predicates. */
152 inline ipa_predicate (ipa_predicate
*)
157 /* Return predicate testing condition I. */
158 static inline ipa_predicate
predicate_testing_cond (int i
)
161 p
.set_to_cond (i
+ first_dynamic_condition
);
165 /* Return predicate testing that function was not inlined. */
166 static ipa_predicate
not_inlined (void)
169 p
.set_to_cond (not_inlined_condition
);
173 /* Compute logical and of ipa_predicates. */
174 ipa_predicate
& operator &= (const ipa_predicate
&);
175 inline ipa_predicate
operator &(const ipa_predicate
&p
) const
177 ipa_predicate ret
= *this;
182 /* Compute logical or of ipa_predicates. This is not operator because
183 extra parameter CONDITIONS is needed */
184 ipa_predicate
or_with (conditions
, const ipa_predicate
&) const;
186 /* Return true if ipa_predicates are known to be equal. */
187 inline bool operator==(const ipa_predicate
&p2
) const
190 for (i
= 0; m_clause
[i
]; i
++)
192 gcc_checking_assert (i
< max_clauses
);
193 gcc_checking_assert (m_clause
[i
] > m_clause
[i
+ 1]);
194 gcc_checking_assert (!p2
.m_clause
[i
]
195 || p2
.m_clause
[i
] > p2
.m_clause
[i
+ 1]);
196 if (m_clause
[i
] != p2
.m_clause
[i
])
199 return !p2
.m_clause
[i
];
202 /* Return true if predicates are known to be true or false depending
204 inline bool operator==(const bool cond
) const
208 if (m_clause
[0] == (1 << false_condition
))
210 gcc_checking_assert (!m_clause
[1]
218 inline bool operator!=(const ipa_predicate
&p2
) const
220 return !(*this == p2
);
223 inline bool operator!=(const bool cond
) const
225 return !(*this == cond
);
228 /* Evaluate if predicate is known to be false given the clause of possible
230 bool evaluate (clause_t
) const;
232 /* Estimate probability that predicate will be true in a given context. */
233 int probability (conditions
, clause_t
, vec
<inline_param_summary
>) const;
235 /* Dump predicate to F. Output newline if nl. */
236 void dump (FILE *f
, conditions
, bool nl
=true) const;
237 void DEBUG_FUNCTION
debug (conditions
) const;
239 /* Return ipa_predicate equal to THIS after duplication. */
240 ipa_predicate
remap_after_duplication (clause_t
);
242 /* Return ipa_predicate equal to THIS after inlining. */
243 ipa_predicate
remap_after_inlining (class ipa_fn_summary
*,
244 ipa_node_params
*params_summary
,
247 const vec
<HOST_WIDE_INT
> &,
248 clause_t
, const ipa_predicate
&);
250 void stream_in (lto_input_block
*);
251 void stream_out (output_block
*);
254 static const int max_clauses
= 8;
255 clause_t m_clause
[max_clauses
+ 1];
257 /* Initialize predicate to one testing single condition number COND. */
258 inline void set_to_cond (int cond
)
260 m_clause
[0] = 1 << cond
;
264 void add_clause (conditions conditions
, clause_t
);
267 void dump_condition (FILE *f
, conditions conditions
, int cond
);
268 ipa_predicate
add_condition (ipa_fn_summary
*summary
,
269 ipa_node_params
*params_summary
,
271 tree type
, struct agg_position_info
*aggpos
,
272 enum tree_code code
, tree val
,
273 expr_eval_ops param_ops
= NULL
);