1 /* Generate code from machine description to compute values of attributes.
2 Copyright (C) 1991, 1993, 1994, 1995 Free Software Foundation, Inc.
3 Contributed by Richard Kenner (kenner@vlsi1.ultra.nyu.edu)
5 This file is part of GNU CC.
7 GNU CC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2, or (at your option)
12 GNU CC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GNU CC; see the file COPYING. If not, write to
19 the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
21 /* This program handles insn attributes and the DEFINE_DELAY and
22 DEFINE_FUNCTION_UNIT definitions.
24 It produces a series of functions named `get_attr_...', one for each insn
25 attribute. Each of these is given the rtx for an insn and returns a member
26 of the enum for the attribute.
28 These subroutines have the form of a `switch' on the INSN_CODE (via
29 `recog_memoized'). Each case either returns a constant attribute value
30 or a value that depends on tests on other attributes, the form of
31 operands, or some random C expression (encoded with a SYMBOL_REF
34 If the attribute `alternative', or a random C expression is present,
35 `constrain_operands' is called. If either of these cases of a reference to
36 an operand is found, `insn_extract' is called.
38 The special attribute `length' is also recognized. For this operand,
39 expressions involving the address of an operand or the current insn,
40 (address (pc)), are valid. In this case, an initial pass is made to
41 set all lengths that do not depend on address. Those that do are set to
42 the maximum length. Then each insn that depends on an address is checked
43 and possibly has its length changed. The process repeats until no further
44 changed are made. The resulting lengths are saved for use by
47 A special form of DEFINE_ATTR, where the expression for default value is a
48 CONST expression, indicates an attribute that is constant for a given run
49 of the compiler. The subroutine generated for these attributes has no
50 parameters as it does not depend on any particular insn. Constant
51 attributes are typically used to specify which variety of processor is
54 Internal attributes are defined to handle DEFINE_DELAY and
55 DEFINE_FUNCTION_UNIT. Special routines are output for these cases.
57 This program works by keeping a list of possible values for each attribute.
58 These include the basic attribute choices, default values for attribute, and
59 all derived quantities.
61 As the description file is read, the definition for each insn is saved in a
62 `struct insn_def'. When the file reading is complete, a `struct insn_ent'
63 is created for each insn and chained to the corresponding attribute value,
64 either that specified, or the default.
66 An optimization phase is then run. This simplifies expressions for each
67 insn. EQ_ATTR tests are resolved, whenever possible, to a test that
68 indicates when the attribute has the specified value for the insn. This
69 avoids recursive calls during compilation.
71 The strategy used when processing DEFINE_DELAY and DEFINE_FUNCTION_UNIT
72 definitions is to create arbitrarily complex expressions and have the
73 optimization simplify them.
75 Once optimization is complete, any required routines and definitions
78 An optimization that is not yet implemented is to hoist the constant
79 expressions entirely out of the routines and definitions that are written.
80 A way to do this is to iterate over all possible combinations of values
81 for constant attributes and generate a set of functions for that given
82 combination. An initialization function would be written that evaluates
83 the attributes and installs the corresponding set of routines and
84 definitions (each would be accessed through a pointer).
86 We use the flags in an RTX as follows:
87 `unchanging' (RTX_UNCHANGING_P): This rtx is fully simplified
88 independent of the insn code.
89 `in_struct' (MEM_IN_STRUCT_P): This rtx is fully simplified
90 for the insn code currently being processed (see optimize_attrs).
91 `integrated' (RTX_INTEGRATED_P): This rtx is permanent and unique
93 `volatil' (MEM_VOLATILE_P): During simplify_by_exploding the value of an
94 EQ_ATTR rtx is true if !volatil and false if volatil. */
98 /* varargs must always be included after *config.h. */
105 #include "insn-config.h" /* For REGISTER_CONSTRAINTS */
110 #include <sys/time.h>
111 #include <sys/resource.h>
115 /* We must include obstack.h after <sys/time.h>, to avoid lossage with
116 /usr/include/sys/stdtypes.h on Sun OS 4.x. */
119 static struct obstack obstack
, obstack1
, obstack2
;
120 struct obstack
*rtl_obstack
= &obstack
;
121 struct obstack
*hash_obstack
= &obstack1
;
122 struct obstack
*temp_obstack
= &obstack2
;
124 #define obstack_chunk_alloc xmalloc
125 #define obstack_chunk_free free
127 /* Define this so we can link with print-rtl.o to get debug_rtx function. */
128 char **insn_name_ptr
= 0;
131 extern rtx
read_rtx ();
133 static void fatal ();
136 /* enough space to reserve for printing out ints */
137 #define MAX_DIGITS (HOST_BITS_PER_INT * 3 / 10 + 3)
139 /* Define structures used to record attributes and values. */
141 /* As each DEFINE_INSN, DEFINE_PEEPHOLE, or DEFINE_ASM_ATTRIBUTES is
142 encountered, we store all the relevant information into a
143 `struct insn_def'. This is done to allow attribute definitions to occur
144 anywhere in the file. */
148 int insn_code
; /* Instruction number. */
149 int insn_index
; /* Expression numer in file, for errors. */
150 struct insn_def
*next
; /* Next insn in chain. */
151 rtx def
; /* The DEFINE_... */
152 int num_alternatives
; /* Number of alternatives. */
153 int vec_idx
; /* Index of attribute vector in `def'. */
156 /* Once everything has been read in, we store in each attribute value a list
157 of insn codes that have that value. Here is the structure used for the
162 int insn_code
; /* Instruction number. */
163 int insn_index
; /* Index of definition in file */
164 struct insn_ent
*next
; /* Next in chain. */
167 /* Each value of an attribute (either constant or computed) is assigned a
168 structure which is used as the listhead of the insns that have that
173 rtx value
; /* Value of attribute. */
174 struct attr_value
*next
; /* Next attribute value in chain. */
175 struct insn_ent
*first_insn
; /* First insn with this value. */
176 int num_insns
; /* Number of insns with this value. */
177 int has_asm_insn
; /* True if this value used for `asm' insns */
180 /* Structure for each attribute. */
184 char *name
; /* Name of attribute. */
185 struct attr_desc
*next
; /* Next attribute. */
186 int is_numeric
; /* Values of this attribute are numeric. */
187 int negative_ok
; /* Allow negative numeric values. */
188 int unsigned_p
; /* Make the output function unsigned int. */
189 int is_const
; /* Attribute value constant for each run. */
190 int is_special
; /* Don't call `write_attr_set'. */
191 struct attr_value
*first_value
; /* First value of this attribute. */
192 struct attr_value
*default_val
; /* Default value for this attribute. */
195 #define NULL_ATTR (struct attr_desc *) NULL
197 /* A range of values. */
205 /* Structure for each DEFINE_DELAY. */
209 rtx def
; /* DEFINE_DELAY expression. */
210 struct delay_desc
*next
; /* Next DEFINE_DELAY. */
211 int num
; /* Number of DEFINE_DELAY, starting at 1. */
214 /* Record information about each DEFINE_FUNCTION_UNIT. */
216 struct function_unit_op
218 rtx condexp
; /* Expression TRUE for applicable insn. */
219 struct function_unit_op
*next
; /* Next operation for this function unit. */
220 int num
; /* Ordinal for this operation type in unit. */
221 int ready
; /* Cost until data is ready. */
222 int issue_delay
; /* Cost until unit can accept another insn. */
223 rtx conflict_exp
; /* Expression TRUE for insns incurring issue delay. */
224 rtx issue_exp
; /* Expression computing issue delay. */
227 /* Record information about each function unit mentioned in a
228 DEFINE_FUNCTION_UNIT. */
232 char *name
; /* Function unit name. */
233 struct function_unit
*next
; /* Next function unit. */
234 int num
; /* Ordinal of this unit type. */
235 int multiplicity
; /* Number of units of this type. */
236 int simultaneity
; /* Maximum number of simultaneous insns
237 on this function unit or 0 if unlimited. */
238 rtx condexp
; /* Expression TRUE for insn needing unit. */
239 int num_opclasses
; /* Number of different operation types. */
240 struct function_unit_op
*ops
; /* Pointer to first operation type. */
241 int needs_conflict_function
; /* Nonzero if a conflict function required. */
242 int needs_blockage_function
; /* Nonzero if a blockage function required. */
243 int needs_range_function
; /* Nonzero if blockage range function needed.*/
244 rtx default_cost
; /* Conflict cost, if constant. */
245 struct range issue_delay
; /* Range of issue delay values. */
246 int max_blockage
; /* Maximum time an insn blocks the unit. */
249 /* Listheads of above structures. */
251 /* This one is indexed by the first character of the attribute name. */
252 #define MAX_ATTRS_INDEX 256
253 static struct attr_desc
*attrs
[MAX_ATTRS_INDEX
];
254 static struct insn_def
*defs
;
255 static struct delay_desc
*delays
;
256 static struct function_unit
*units
;
258 /* An expression where all the unknown terms are EQ_ATTR tests can be
259 rearranged into a COND provided we can enumerate all possible
260 combinations of the unknown values. The set of combinations become the
261 tests of the COND; the value of the expression given that combination is
262 computed and becomes the corresponding value. To do this, we must be
263 able to enumerate all values for each attribute used in the expression
264 (currently, we give up if we find a numeric attribute).
266 If the set of EQ_ATTR tests used in an expression tests the value of N
267 different attributes, the list of all possible combinations can be made
268 by walking the N-dimensional attribute space defined by those
269 attributes. We record each of these as a struct dimension.
271 The algorithm relies on sharing EQ_ATTR nodes: if two nodes in an
272 expression are the same, the will also have the same address. We find
273 all the EQ_ATTR nodes by marking them MEM_VOLATILE_P. This bit later
274 represents the value of an EQ_ATTR node, so once all nodes are marked,
275 they are also given an initial value of FALSE.
277 We then separate the set of EQ_ATTR nodes into dimensions for each
278 attribute and put them on the VALUES list. Terms are added as needed by
279 `add_values_to_cover' so that all possible values of the attribute are
282 Each dimension also has a current value. This is the node that is
283 currently considered to be TRUE. If this is one of the nodes added by
284 `add_values_to_cover', all the EQ_ATTR tests in the original expression
285 will be FALSE. Otherwise, only the CURRENT_VALUE will be true.
287 NUM_VALUES is simply the length of the VALUES list and is there for
290 Once the dimensions are created, the algorithm enumerates all possible
291 values and computes the current value of the given expression. */
295 struct attr_desc
*attr
; /* Attribute for this dimension. */
296 rtx values
; /* List of attribute values used. */
297 rtx current_value
; /* Position in the list for the TRUE value. */
298 int num_values
; /* Length of the values list. */
301 /* Other variables. */
303 static int insn_code_number
;
304 static int insn_index_number
;
305 static int got_define_asm_attributes
;
306 static int must_extract
;
307 static int must_constrain
;
308 static int address_used
;
309 static int length_used
;
310 static int num_delays
;
311 static int have_annul_true
, have_annul_false
;
312 static int num_units
;
313 static int num_insn_ents
;
315 /* Used as operand to `operate_exp': */
317 enum operator {PLUS_OP
, MINUS_OP
, POS_MINUS_OP
, EQ_OP
, OR_OP
, MAX_OP
, MIN_OP
, RANGE_OP
};
319 /* Stores, for each insn code, the number of constraint alternatives. */
321 static int *insn_n_alternatives
;
323 /* Stores, for each insn code, a bitmap that has bits on for each possible
326 static int *insn_alternatives
;
328 /* If nonzero, assume that the `alternative' attr has this value.
329 This is the hashed, unique string for the numeral
330 whose value is chosen alternative. */
332 static char *current_alternative_string
;
334 /* Used to simplify expressions. */
336 static rtx true_rtx
, false_rtx
;
338 /* Used to reduce calls to `strcmp' */
340 static char *alternative_name
;
342 /* Simplify an expression. Only call the routine if there is something to
344 #define SIMPLIFY_TEST_EXP(EXP,INSN_CODE,INSN_INDEX) \
345 (RTX_UNCHANGING_P (EXP) || MEM_IN_STRUCT_P (EXP) ? (EXP) \
346 : simplify_test_exp (EXP, INSN_CODE, INSN_INDEX))
348 /* Simplify (eq_attr ("alternative") ...)
349 when we are working with a particular alternative. */
350 #define SIMPLIFY_ALTERNATIVE(EXP) \
351 if (current_alternative_string \
352 && GET_CODE ((EXP)) == EQ_ATTR \
353 && XSTR ((EXP), 0) == alternative_name) \
354 (EXP) = (XSTR ((EXP), 1) == current_alternative_string \
355 ? true_rtx : false_rtx);
357 /* These are referenced by rtlanal.c and hence need to be defined somewhere.
358 They won't actually be used. */
360 rtx frame_pointer_rtx
, hard_frame_pointer_rtx
, stack_pointer_rtx
;
363 static rtx attr_rtx
PVPROTO((enum rtx_code
, ...));
365 static char *attr_printf
PVPROTO((int, char *, ...));
367 static char *attr_printf ();
370 static char *attr_string
PROTO((char *, int));
371 static rtx check_attr_test
PROTO((rtx
, int));
372 static rtx check_attr_value
PROTO((rtx
, struct attr_desc
*));
373 static rtx convert_set_attr_alternative
PROTO((rtx
, int, int, int));
374 static rtx convert_set_attr
PROTO((rtx
, int, int, int));
375 static void check_defs
PROTO((void));
376 static rtx convert_const_symbol_ref
PROTO((rtx
, struct attr_desc
*));
377 static rtx make_canonical
PROTO((struct attr_desc
*, rtx
));
378 static struct attr_value
*get_attr_value
PROTO((rtx
, struct attr_desc
*, int));
379 static rtx copy_rtx_unchanging
PROTO((rtx
));
380 static rtx copy_boolean
PROTO((rtx
));
381 static void expand_delays
PROTO((void));
382 static rtx operate_exp
PROTO((enum operator, rtx
, rtx
));
383 static void expand_units
PROTO((void));
384 static rtx simplify_knowing
PROTO((rtx
, rtx
));
385 static rtx encode_units_mask
PROTO((rtx
));
386 static void fill_attr
PROTO((struct attr_desc
*));
387 /* dpx2 compiler chokes if we specify the arg types of the args. */
388 static rtx substitute_address
PROTO((rtx
, rtx (*) (), rtx (*) ()));
389 static void make_length_attrs
PROTO((void));
390 static rtx identity_fn
PROTO((rtx
));
391 static rtx zero_fn
PROTO((rtx
));
392 static rtx one_fn
PROTO((rtx
));
393 static rtx max_fn
PROTO((rtx
));
394 static rtx simplify_cond
PROTO((rtx
, int, int));
395 static rtx simplify_by_alternatives
PROTO((rtx
, int, int));
396 static rtx simplify_by_exploding
PROTO((rtx
));
397 static int find_and_mark_used_attributes
PROTO((rtx
, rtx
*, int *));
398 static void unmark_used_attributes
PROTO((rtx
, struct dimension
*, int));
399 static int add_values_to_cover
PROTO((struct dimension
*));
400 static int increment_current_value
PROTO((struct dimension
*, int));
401 static rtx test_for_current_value
PROTO((struct dimension
*, int));
402 static rtx simplify_with_current_value
PROTO((rtx
, struct dimension
*, int));
403 static rtx simplify_with_current_value_aux
PROTO((rtx
));
404 static void clear_struct_flag
PROTO((rtx
));
405 static int count_sub_rtxs
PROTO((rtx
, int));
406 static void remove_insn_ent
PROTO((struct attr_value
*, struct insn_ent
*));
407 static void insert_insn_ent
PROTO((struct attr_value
*, struct insn_ent
*));
408 static rtx insert_right_side
PROTO((enum rtx_code
, rtx
, rtx
, int, int));
409 static rtx make_alternative_compare
PROTO((int));
410 static int compute_alternative_mask
PROTO((rtx
, enum rtx_code
));
411 static rtx evaluate_eq_attr
PROTO((rtx
, rtx
, int, int));
412 static rtx simplify_and_tree
PROTO((rtx
, rtx
*, int, int));
413 static rtx simplify_or_tree
PROTO((rtx
, rtx
*, int, int));
414 static rtx simplify_test_exp
PROTO((rtx
, int, int));
415 static void optimize_attrs
PROTO((void));
416 static void gen_attr
PROTO((rtx
));
417 static int count_alternatives
PROTO((rtx
));
418 static int compares_alternatives_p
PROTO((rtx
));
419 static int contained_in_p
PROTO((rtx
, rtx
));
420 static void gen_insn
PROTO((rtx
));
421 static void gen_delay
PROTO((rtx
));
422 static void gen_unit
PROTO((rtx
));
423 static void write_test_expr
PROTO((rtx
, int));
424 static int max_attr_value
PROTO((rtx
));
425 static void walk_attr_value
PROTO((rtx
));
426 static void write_attr_get
PROTO((struct attr_desc
*));
427 static rtx eliminate_known_true
PROTO((rtx
, rtx
, int, int));
428 static void write_attr_set
PROTO((struct attr_desc
*, int, rtx
, char *,
429 char *, rtx
, int, int));
430 static void write_attr_case
PROTO((struct attr_desc
*, struct attr_value
*,
431 int, char *, char *, int, rtx
));
432 static void write_attr_valueq
PROTO((struct attr_desc
*, char *));
433 static void write_attr_value
PROTO((struct attr_desc
*, rtx
));
434 static void write_upcase
PROTO((char *));
435 static void write_indent
PROTO((int));
436 static void write_eligible_delay
PROTO((char *));
437 static void write_function_unit_info
PROTO((void));
438 static void write_complex_function
PROTO((struct function_unit
*, char *,
440 static int n_comma_elts
PROTO((char *));
441 static char *next_comma_elt
PROTO((char **));
442 static struct attr_desc
*find_attr
PROTO((char *, int));
443 static void make_internal_attr
PROTO((char *, rtx
, int));
444 static struct attr_value
*find_most_used
PROTO((struct attr_desc
*));
445 static rtx find_single_value
PROTO((struct attr_desc
*));
446 static rtx make_numeric_value
PROTO((int));
447 static void extend_range
PROTO((struct range
*, int, int));
448 char *xrealloc
PROTO((char *, unsigned));
449 char *xmalloc
PROTO((unsigned));
451 #define oballoc(size) obstack_alloc (hash_obstack, size)
454 /* Hash table for sharing RTL and strings. */
456 /* Each hash table slot is a bucket containing a chain of these structures.
457 Strings are given negative hash codes; RTL expressions are given positive
462 struct attr_hash
*next
; /* Next structure in the bucket. */
463 int hashcode
; /* Hash code of this rtx or string. */
466 char *str
; /* The string (negative hash codes) */
467 rtx rtl
; /* or the RTL recorded here. */
471 /* Now here is the hash table. When recording an RTL, it is added to
472 the slot whose index is the hash code mod the table size. Note
473 that the hash table is used for several kinds of RTL (see attr_rtx)
474 and for strings. While all these live in the same table, they are
475 completely independent, and the hash code is computed differently
478 #define RTL_HASH_SIZE 4093
479 struct attr_hash
*attr_hash_table
[RTL_HASH_SIZE
];
481 /* Here is how primitive or already-shared RTL's hash
483 #define RTL_HASH(RTL) ((HOST_WIDE_INT) (RTL) & 0777777)
485 /* Add an entry to the hash table for RTL with hash code HASHCODE. */
488 attr_hash_add_rtx (hashcode
, rtl
)
492 register struct attr_hash
*h
;
494 h
= (struct attr_hash
*) obstack_alloc (hash_obstack
,
495 sizeof (struct attr_hash
));
496 h
->hashcode
= hashcode
;
498 h
->next
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
];
499 attr_hash_table
[hashcode
% RTL_HASH_SIZE
] = h
;
502 /* Add an entry to the hash table for STRING with hash code HASHCODE. */
505 attr_hash_add_string (hashcode
, str
)
509 register struct attr_hash
*h
;
511 h
= (struct attr_hash
*) obstack_alloc (hash_obstack
,
512 sizeof (struct attr_hash
));
513 h
->hashcode
= -hashcode
;
515 h
->next
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
];
516 attr_hash_table
[hashcode
% RTL_HASH_SIZE
] = h
;
519 /* Generate an RTL expression, but avoid duplicates.
520 Set the RTX_INTEGRATED_P flag for these permanent objects.
522 In some cases we cannot uniquify; then we return an ordinary
523 impermanent rtx with RTX_INTEGRATED_P clear.
525 Args are like gen_rtx, but without the mode:
527 rtx attr_rtx (code, [element1, ..., elementn]) */
531 attr_rtx
VPROTO((enum rtx_code code
, ...))
537 register int i
; /* Array indices... */
538 register char *fmt
; /* Current rtx's format... */
539 register rtx rt_val
; /* RTX to return to caller... */
541 register struct attr_hash
*h
;
542 struct obstack
*old_obstack
= rtl_obstack
;
547 code
= va_arg (p
, enum rtx_code
);
550 /* For each of several cases, search the hash table for an existing entry.
551 Use that entry if one is found; otherwise create a new RTL and add it
554 if (GET_RTX_CLASS (code
) == '1')
556 rtx arg0
= va_arg (p
, rtx
);
558 /* A permanent object cannot point to impermanent ones. */
559 if (! RTX_INTEGRATED_P (arg0
))
561 rt_val
= rtx_alloc (code
);
562 XEXP (rt_val
, 0) = arg0
;
567 hashcode
= ((HOST_WIDE_INT
) code
+ RTL_HASH (arg0
));
568 for (h
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
]; h
; h
= h
->next
)
569 if (h
->hashcode
== hashcode
570 && GET_CODE (h
->u
.rtl
) == code
571 && XEXP (h
->u
.rtl
, 0) == arg0
)
576 rtl_obstack
= hash_obstack
;
577 rt_val
= rtx_alloc (code
);
578 XEXP (rt_val
, 0) = arg0
;
581 else if (GET_RTX_CLASS (code
) == 'c'
582 || GET_RTX_CLASS (code
) == '2'
583 || GET_RTX_CLASS (code
) == '<')
585 rtx arg0
= va_arg (p
, rtx
);
586 rtx arg1
= va_arg (p
, rtx
);
588 /* A permanent object cannot point to impermanent ones. */
589 if (! RTX_INTEGRATED_P (arg0
) || ! RTX_INTEGRATED_P (arg1
))
591 rt_val
= rtx_alloc (code
);
592 XEXP (rt_val
, 0) = arg0
;
593 XEXP (rt_val
, 1) = arg1
;
598 hashcode
= ((HOST_WIDE_INT
) code
+ RTL_HASH (arg0
) + RTL_HASH (arg1
));
599 for (h
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
]; h
; h
= h
->next
)
600 if (h
->hashcode
== hashcode
601 && GET_CODE (h
->u
.rtl
) == code
602 && XEXP (h
->u
.rtl
, 0) == arg0
603 && XEXP (h
->u
.rtl
, 1) == arg1
)
608 rtl_obstack
= hash_obstack
;
609 rt_val
= rtx_alloc (code
);
610 XEXP (rt_val
, 0) = arg0
;
611 XEXP (rt_val
, 1) = arg1
;
614 else if (GET_RTX_LENGTH (code
) == 1
615 && GET_RTX_FORMAT (code
)[0] == 's')
617 char * arg0
= va_arg (p
, char *);
619 if (code
== SYMBOL_REF
)
620 arg0
= attr_string (arg0
, strlen (arg0
));
622 hashcode
= ((HOST_WIDE_INT
) code
+ RTL_HASH (arg0
));
623 for (h
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
]; h
; h
= h
->next
)
624 if (h
->hashcode
== hashcode
625 && GET_CODE (h
->u
.rtl
) == code
626 && XSTR (h
->u
.rtl
, 0) == arg0
)
631 rtl_obstack
= hash_obstack
;
632 rt_val
= rtx_alloc (code
);
633 XSTR (rt_val
, 0) = arg0
;
636 else if (GET_RTX_LENGTH (code
) == 2
637 && GET_RTX_FORMAT (code
)[0] == 's'
638 && GET_RTX_FORMAT (code
)[1] == 's')
640 char *arg0
= va_arg (p
, char *);
641 char *arg1
= va_arg (p
, char *);
643 hashcode
= ((HOST_WIDE_INT
) code
+ RTL_HASH (arg0
) + RTL_HASH (arg1
));
644 for (h
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
]; h
; h
= h
->next
)
645 if (h
->hashcode
== hashcode
646 && GET_CODE (h
->u
.rtl
) == code
647 && XSTR (h
->u
.rtl
, 0) == arg0
648 && XSTR (h
->u
.rtl
, 1) == arg1
)
653 rtl_obstack
= hash_obstack
;
654 rt_val
= rtx_alloc (code
);
655 XSTR (rt_val
, 0) = arg0
;
656 XSTR (rt_val
, 1) = arg1
;
659 else if (code
== CONST_INT
)
661 HOST_WIDE_INT arg0
= va_arg (p
, HOST_WIDE_INT
);
671 rt_val
= rtx_alloc (code
); /* Allocate the storage space. */
673 fmt
= GET_RTX_FORMAT (code
); /* Find the right format... */
674 for (i
= 0; i
< GET_RTX_LENGTH (code
); i
++)
678 case '0': /* Unused field. */
681 case 'i': /* An integer? */
682 XINT (rt_val
, i
) = va_arg (p
, int);
685 case 'w': /* A wide integer? */
686 XWINT (rt_val
, i
) = va_arg (p
, HOST_WIDE_INT
);
689 case 's': /* A string? */
690 XSTR (rt_val
, i
) = va_arg (p
, char *);
693 case 'e': /* An expression? */
694 case 'u': /* An insn? Same except when printing. */
695 XEXP (rt_val
, i
) = va_arg (p
, rtx
);
698 case 'E': /* An RTX vector? */
699 XVEC (rt_val
, i
) = va_arg (p
, rtvec
);
710 rtl_obstack
= old_obstack
;
712 attr_hash_add_rtx (hashcode
, rt_val
);
713 RTX_INTEGRATED_P (rt_val
) = 1;
721 /* Create a new string printed with the printf line arguments into a space
722 of at most LEN bytes:
724 rtx attr_printf (len, format, [arg1, ..., argn]) */
730 attr_printf
VPROTO((register int len
, char *fmt
, ...))
742 len
= va_arg (p
, int);
743 fmt
= va_arg (p
, char*);
746 /* Print the string into a temporary location. */
747 str
= (char *) alloca (len
);
748 vsprintf (str
, fmt
, p
);
751 return attr_string (str
, strlen (str
));
754 #else /* not HAVE_VPRINTF */
757 attr_printf (len
, fmt
, arg1
, arg2
, arg3
)
760 char *arg1
, *arg2
, *arg3
; /* also int */
764 /* Print the string into a temporary location. */
765 str
= (char *) alloca (len
);
766 sprintf (str
, fmt
, arg1
, arg2
, arg3
);
768 return attr_string (str
, strlen (str
));
770 #endif /* not HAVE_VPRINTF */
773 attr_eq (name
, value
)
776 return attr_rtx (EQ_ATTR
, attr_string (name
, strlen (name
)),
777 attr_string (value
, strlen (value
)));
784 return XSTR (make_numeric_value (n
), 0);
787 /* Return a permanent (possibly shared) copy of a string STR (not assumed
788 to be null terminated) with LEN bytes. */
791 attr_string (str
, len
)
795 register struct attr_hash
*h
;
798 register char *new_str
;
800 /* Compute the hash code. */
801 hashcode
= (len
+ 1) * 613 + (unsigned)str
[0];
802 for (i
= 1; i
<= len
; i
+= 2)
803 hashcode
= ((hashcode
* 613) + (unsigned)str
[i
]);
805 hashcode
= -hashcode
;
807 /* Search the table for the string. */
808 for (h
= attr_hash_table
[hashcode
% RTL_HASH_SIZE
]; h
; h
= h
->next
)
809 if (h
->hashcode
== -hashcode
&& h
->u
.str
[0] == str
[0]
810 && !strncmp (h
->u
.str
, str
, len
))
811 return h
->u
.str
; /* <-- return if found. */
813 /* Not found; create a permanent copy and add it to the hash table. */
814 new_str
= (char *) obstack_alloc (hash_obstack
, len
+ 1);
815 bcopy (str
, new_str
, len
);
817 attr_hash_add_string (hashcode
, new_str
);
819 return new_str
; /* Return the new string. */
822 /* Check two rtx's for equality of contents,
823 taking advantage of the fact that if both are hashed
824 then they can't be equal unless they are the same object. */
830 return (x
== y
|| (! (RTX_INTEGRATED_P (x
) && RTX_INTEGRATED_P (y
))
831 && rtx_equal_p (x
, y
)));
834 /* Copy an attribute value expression,
835 descending to all depths, but not copying any
836 permanent hashed subexpressions. */
844 register RTX_CODE code
;
845 register char *format_ptr
;
847 /* No need to copy a permanent object. */
848 if (RTX_INTEGRATED_P (orig
))
851 code
= GET_CODE (orig
);
866 copy
= rtx_alloc (code
);
867 PUT_MODE (copy
, GET_MODE (orig
));
868 copy
->in_struct
= orig
->in_struct
;
869 copy
->volatil
= orig
->volatil
;
870 copy
->unchanging
= orig
->unchanging
;
871 copy
->integrated
= orig
->integrated
;
873 format_ptr
= GET_RTX_FORMAT (GET_CODE (copy
));
875 for (i
= 0; i
< GET_RTX_LENGTH (GET_CODE (copy
)); i
++)
877 switch (*format_ptr
++)
880 XEXP (copy
, i
) = XEXP (orig
, i
);
881 if (XEXP (orig
, i
) != NULL
)
882 XEXP (copy
, i
) = attr_copy_rtx (XEXP (orig
, i
));
887 XVEC (copy
, i
) = XVEC (orig
, i
);
888 if (XVEC (orig
, i
) != NULL
)
890 XVEC (copy
, i
) = rtvec_alloc (XVECLEN (orig
, i
));
891 for (j
= 0; j
< XVECLEN (copy
, i
); j
++)
892 XVECEXP (copy
, i
, j
) = attr_copy_rtx (XVECEXP (orig
, i
, j
));
898 XINT (copy
, i
) = XINT (orig
, i
);
902 XWINT (copy
, i
) = XWINT (orig
, i
);
907 XSTR (copy
, i
) = XSTR (orig
, i
);
917 /* Given a test expression for an attribute, ensure it is validly formed.
918 IS_CONST indicates whether the expression is constant for each compiler
919 run (a constant expression may not test any particular insn).
921 Convert (eq_attr "att" "a1,a2") to (ior (eq_attr ... ) (eq_attrq ..))
922 and (eq_attr "att" "!a1") to (not (eq_attr "att" "a1")). Do the latter
923 test first so that (eq_attr "att" "!a1,a2,a3") works as expected.
925 Update the string address in EQ_ATTR expression to be the same used
926 in the attribute (or `alternative_name') to speed up subsequent
927 `find_attr' calls and eliminate most `strcmp' calls.
929 Return the new expression, if any. */
932 check_attr_test (exp
, is_const
)
936 struct attr_desc
*attr
;
937 struct attr_value
*av
;
941 switch (GET_CODE (exp
))
944 /* Handle negation test. */
945 if (XSTR (exp
, 1)[0] == '!')
946 return check_attr_test (attr_rtx (NOT
,
947 attr_eq (XSTR (exp
, 0),
951 else if (n_comma_elts (XSTR (exp
, 1)) == 1)
953 attr
= find_attr (XSTR (exp
, 0), 0);
956 if (! strcmp (XSTR (exp
, 0), "alternative"))
958 XSTR (exp
, 0) = alternative_name
;
959 /* This can't be simplified any further. */
960 RTX_UNCHANGING_P (exp
) = 1;
964 fatal ("Unknown attribute `%s' in EQ_ATTR", XEXP (exp
, 0));
967 if (is_const
&& ! attr
->is_const
)
968 fatal ("Constant expression uses insn attribute `%s' in EQ_ATTR",
971 /* Copy this just to make it permanent,
972 so expressions using it can be permanent too. */
973 exp
= attr_eq (XSTR (exp
, 0), XSTR (exp
, 1));
975 /* It shouldn't be possible to simplify the value given to a
976 constant attribute, so don't expand this until it's time to
977 write the test expression. */
979 RTX_UNCHANGING_P (exp
) = 1;
981 if (attr
->is_numeric
)
983 for (p
= XSTR (exp
, 1); *p
; p
++)
984 if (*p
< '0' || *p
> '9')
985 fatal ("Attribute `%s' takes only numeric values",
990 for (av
= attr
->first_value
; av
; av
= av
->next
)
991 if (GET_CODE (av
->value
) == CONST_STRING
992 && ! strcmp (XSTR (exp
, 1), XSTR (av
->value
, 0)))
996 fatal ("Unknown value `%s' for `%s' attribute",
997 XEXP (exp
, 1), XEXP (exp
, 0));
1002 /* Make an IOR tree of the possible values. */
1004 name_ptr
= XSTR (exp
, 1);
1005 while ((p
= next_comma_elt (&name_ptr
)) != NULL
)
1007 newexp
= attr_eq (XSTR (exp
, 0), p
);
1008 orexp
= insert_right_side (IOR
, orexp
, newexp
, -2, -2);
1011 return check_attr_test (orexp
, is_const
);
1019 /* Either TRUE or FALSE. */
1027 XEXP (exp
, 0) = check_attr_test (XEXP (exp
, 0), is_const
);
1028 XEXP (exp
, 1) = check_attr_test (XEXP (exp
, 1), is_const
);
1032 XEXP (exp
, 0) = check_attr_test (XEXP (exp
, 0), is_const
);
1037 fatal ("RTL operator \"%s\" not valid in constant attribute test",
1038 GET_RTX_NAME (MATCH_OPERAND
));
1039 /* These cases can't be simplified. */
1040 RTX_UNCHANGING_P (exp
) = 1;
1043 case LE
: case LT
: case GT
: case GE
:
1044 case LEU
: case LTU
: case GTU
: case GEU
:
1046 if (GET_CODE (XEXP (exp
, 0)) == SYMBOL_REF
1047 && GET_CODE (XEXP (exp
, 1)) == SYMBOL_REF
)
1048 exp
= attr_rtx (GET_CODE (exp
),
1049 attr_rtx (SYMBOL_REF
, XSTR (XEXP (exp
, 0), 0)),
1050 attr_rtx (SYMBOL_REF
, XSTR (XEXP (exp
, 1), 0)));
1051 /* These cases can't be simplified. */
1052 RTX_UNCHANGING_P (exp
) = 1;
1058 /* These cases are valid for constant attributes, but can't be
1060 exp
= attr_rtx (SYMBOL_REF
, XSTR (exp
, 0));
1061 RTX_UNCHANGING_P (exp
) = 1;
1065 fatal ("RTL operator \"%s\" not valid in attribute test",
1066 GET_RTX_NAME (GET_CODE (exp
)));
1072 /* Given an expression, ensure that it is validly formed and that all named
1073 attribute values are valid for the given attribute. Issue a fatal error
1074 if not. If no attribute is specified, assume a numeric attribute.
1076 Return a perhaps modified replacement expression for the value. */
1079 check_attr_value (exp
, attr
)
1081 struct attr_desc
*attr
;
1083 struct attr_value
*av
;
1087 switch (GET_CODE (exp
))
1090 if (attr
&& ! attr
->is_numeric
)
1091 fatal ("CONST_INT not valid for non-numeric `%s' attribute",
1094 if (INTVAL (exp
) < 0)
1095 fatal ("Negative numeric value specified for `%s' attribute",
1101 if (! strcmp (XSTR (exp
, 0), "*"))
1104 if (attr
== 0 || attr
->is_numeric
)
1107 if (attr
&& attr
->negative_ok
&& *p
== '-')
1110 if (*p
> '9' || *p
< '0')
1111 fatal ("Non-numeric value for numeric `%s' attribute",
1112 attr
? attr
->name
: "internal");
1116 for (av
= attr
->first_value
; av
; av
= av
->next
)
1117 if (GET_CODE (av
->value
) == CONST_STRING
1118 && ! strcmp (XSTR (av
->value
, 0), XSTR (exp
, 0)))
1122 fatal ("Unknown value `%s' for `%s' attribute",
1123 XSTR (exp
, 0), attr
? attr
->name
: "internal");
1128 XEXP (exp
, 0) = check_attr_test (XEXP (exp
, 0),
1129 attr
? attr
->is_const
: 0);
1130 XEXP (exp
, 1) = check_attr_value (XEXP (exp
, 1), attr
);
1131 XEXP (exp
, 2) = check_attr_value (XEXP (exp
, 2), attr
);
1135 if (XVECLEN (exp
, 0) % 2 != 0)
1136 fatal ("First operand of COND must have even length");
1138 for (i
= 0; i
< XVECLEN (exp
, 0); i
+= 2)
1140 XVECEXP (exp
, 0, i
) = check_attr_test (XVECEXP (exp
, 0, i
),
1141 attr
? attr
->is_const
: 0);
1142 XVECEXP (exp
, 0, i
+ 1)
1143 = check_attr_value (XVECEXP (exp
, 0, i
+ 1), attr
);
1146 XEXP (exp
, 1) = check_attr_value (XEXP (exp
, 1), attr
);
1150 if (attr
&& attr
->is_const
)
1151 /* A constant SYMBOL_REF is valid as a constant attribute test and
1152 is expanded later by make_canonical into a COND. */
1153 return attr_rtx (SYMBOL_REF
, XSTR (exp
, 0));
1154 /* Otherwise, fall through... */
1157 fatal ("Invalid operation `%s' for attribute value",
1158 GET_RTX_NAME (GET_CODE (exp
)));
1164 /* Given an SET_ATTR_ALTERNATIVE expression, convert to the canonical SET.
1165 It becomes a COND with each test being (eq_attr "alternative "n") */
1168 convert_set_attr_alternative (exp
, num_alt
, insn_code
, insn_index
)
1171 int insn_code
, insn_index
;
1176 if (XVECLEN (exp
, 1) != num_alt
)
1177 fatal ("Bad number of entries in SET_ATTR_ALTERNATIVE for insn %d",
1180 /* Make a COND with all tests but the last. Select the last value via the
1182 condexp
= rtx_alloc (COND
);
1183 XVEC (condexp
, 0) = rtvec_alloc ((num_alt
- 1) * 2);
1185 for (i
= 0; i
< num_alt
- 1; i
++)
1188 p
= attr_numeral (i
);
1190 XVECEXP (condexp
, 0, 2 * i
) = attr_eq (alternative_name
, p
);
1192 /* Sharing this EQ_ATTR rtl causes trouble. */
1193 XVECEXP (condexp
, 0, 2 * i
) = rtx_alloc (EQ_ATTR
);
1194 XSTR (XVECEXP (condexp
, 0, 2 * i
), 0) = alternative_name
;
1195 XSTR (XVECEXP (condexp
, 0, 2 * i
), 1) = p
;
1197 XVECEXP (condexp
, 0, 2 * i
+ 1) = XVECEXP (exp
, 1, i
);
1200 XEXP (condexp
, 1) = XVECEXP (exp
, 1, i
);
1202 return attr_rtx (SET
, attr_rtx (ATTR
, XSTR (exp
, 0)), condexp
);
1205 /* Given a SET_ATTR, convert to the appropriate SET. If a comma-separated
1206 list of values is given, convert to SET_ATTR_ALTERNATIVE first. */
1209 convert_set_attr (exp
, num_alt
, insn_code
, insn_index
)
1212 int insn_code
, insn_index
;
1219 /* See how many alternative specified. */
1220 n
= n_comma_elts (XSTR (exp
, 1));
1222 return attr_rtx (SET
,
1223 attr_rtx (ATTR
, XSTR (exp
, 0)),
1224 attr_rtx (CONST_STRING
, XSTR (exp
, 1)));
1226 newexp
= rtx_alloc (SET_ATTR_ALTERNATIVE
);
1227 XSTR (newexp
, 0) = XSTR (exp
, 0);
1228 XVEC (newexp
, 1) = rtvec_alloc (n
);
1230 /* Process each comma-separated name. */
1231 name_ptr
= XSTR (exp
, 1);
1233 while ((p
= next_comma_elt (&name_ptr
)) != NULL
)
1234 XVECEXP (newexp
, 1, n
++) = attr_rtx (CONST_STRING
, p
);
1236 return convert_set_attr_alternative (newexp
, num_alt
, insn_code
, insn_index
);
1239 /* Scan all definitions, checking for validity. Also, convert any SET_ATTR
1240 and SET_ATTR_ALTERNATIVE expressions to the corresponding SET
1246 struct insn_def
*id
;
1247 struct attr_desc
*attr
;
1251 for (id
= defs
; id
; id
= id
->next
)
1253 if (XVEC (id
->def
, id
->vec_idx
) == NULL
)
1256 for (i
= 0; i
< XVECLEN (id
->def
, id
->vec_idx
); i
++)
1258 value
= XVECEXP (id
->def
, id
->vec_idx
, i
);
1259 switch (GET_CODE (value
))
1262 if (GET_CODE (XEXP (value
, 0)) != ATTR
)
1263 fatal ("Bad attribute set in pattern %d", id
->insn_index
);
1266 case SET_ATTR_ALTERNATIVE
:
1267 value
= convert_set_attr_alternative (value
,
1268 id
->num_alternatives
,
1274 value
= convert_set_attr (value
, id
->num_alternatives
,
1275 id
->insn_code
, id
->insn_index
);
1279 fatal ("Invalid attribute code `%s' for pattern %d",
1280 GET_RTX_NAME (GET_CODE (value
)), id
->insn_index
);
1283 if ((attr
= find_attr (XSTR (XEXP (value
, 0), 0), 0)) == NULL
)
1284 fatal ("Unknown attribute `%s' for pattern number %d",
1285 XSTR (XEXP (value
, 0), 0), id
->insn_index
);
1287 XVECEXP (id
->def
, id
->vec_idx
, i
) = value
;
1288 XEXP (value
, 1) = check_attr_value (XEXP (value
, 1), attr
);
1293 /* Given a constant SYMBOL_REF expression, convert to a COND that
1294 explicitly tests each enumerated value. */
1297 convert_const_symbol_ref (exp
, attr
)
1299 struct attr_desc
*attr
;
1302 struct attr_value
*av
;
1306 for (av
= attr
->first_value
; av
; av
= av
->next
)
1309 /* Make a COND with all tests but the last, and in the original order.
1310 Select the last value via the default. Note that the attr values
1311 are constructed in reverse order. */
1313 condexp
= rtx_alloc (COND
);
1314 XVEC (condexp
, 0) = rtvec_alloc ((num_alt
- 1) * 2);
1315 av
= attr
->first_value
;
1316 XEXP (condexp
, 1) = av
->value
;
1318 for (i
= num_alt
- 2; av
= av
->next
, i
>= 0; i
--)
1323 string
= p
= (char *) oballoc (2
1324 + strlen (attr
->name
)
1325 + strlen (XSTR (av
->value
, 0)));
1326 strcpy (p
, attr
->name
);
1328 strcat (p
, XSTR (av
->value
, 0));
1329 for (; *p
!= '\0'; p
++)
1330 if (*p
>= 'a' && *p
<= 'z')
1333 value
= attr_rtx (SYMBOL_REF
, string
);
1334 RTX_UNCHANGING_P (value
) = 1;
1336 XVECEXP (condexp
, 0, 2 * i
) = attr_rtx (EQ
, exp
, value
);
1338 XVECEXP (condexp
, 0, 2 * i
+ 1) = av
->value
;
1344 /* Given a valid expression for an attribute value, remove any IF_THEN_ELSE
1345 expressions by converting them into a COND. This removes cases from this
1346 program. Also, replace an attribute value of "*" with the default attribute
1350 make_canonical (attr
, exp
)
1351 struct attr_desc
*attr
;
1357 switch (GET_CODE (exp
))
1360 exp
= make_numeric_value (INTVAL (exp
));
1364 if (! strcmp (XSTR (exp
, 0), "*"))
1366 if (attr
== 0 || attr
->default_val
== 0)
1367 fatal ("(attr_value \"*\") used in invalid context.");
1368 exp
= attr
->default_val
->value
;
1374 if (!attr
->is_const
|| RTX_UNCHANGING_P (exp
))
1376 /* The SYMBOL_REF is constant for a given run, so mark it as unchanging.
1377 This makes the COND something that won't be considered an arbitrary
1378 expression by walk_attr_value. */
1379 RTX_UNCHANGING_P (exp
) = 1;
1380 exp
= convert_const_symbol_ref (exp
, attr
);
1381 RTX_UNCHANGING_P (exp
) = 1;
1382 exp
= check_attr_value (exp
, attr
);
1383 /* Goto COND case since this is now a COND. Note that while the
1384 new expression is rescanned, all symbol_ref notes are mared as
1389 newexp
= rtx_alloc (COND
);
1390 XVEC (newexp
, 0) = rtvec_alloc (2);
1391 XVECEXP (newexp
, 0, 0) = XEXP (exp
, 0);
1392 XVECEXP (newexp
, 0, 1) = XEXP (exp
, 1);
1394 XEXP (newexp
, 1) = XEXP (exp
, 2);
1397 /* Fall through to COND case since this is now a COND. */
1405 /* First, check for degenerate COND. */
1406 if (XVECLEN (exp
, 0) == 0)
1407 return make_canonical (attr
, XEXP (exp
, 1));
1408 defval
= XEXP (exp
, 1) = make_canonical (attr
, XEXP (exp
, 1));
1410 for (i
= 0; i
< XVECLEN (exp
, 0); i
+= 2)
1412 XVECEXP (exp
, 0, i
) = copy_boolean (XVECEXP (exp
, 0, i
));
1413 XVECEXP (exp
, 0, i
+ 1)
1414 = make_canonical (attr
, XVECEXP (exp
, 0, i
+ 1));
1415 if (! rtx_equal_p (XVECEXP (exp
, 0, i
+ 1), defval
))
1431 if (GET_CODE (exp
) == AND
|| GET_CODE (exp
) == IOR
)
1432 return attr_rtx (GET_CODE (exp
), copy_boolean (XEXP (exp
, 0)),
1433 copy_boolean (XEXP (exp
, 1)));
1437 /* Given a value and an attribute description, return a `struct attr_value *'
1438 that represents that value. This is either an existing structure, if the
1439 value has been previously encountered, or a newly-created structure.
1441 `insn_code' is the code of an insn whose attribute has the specified
1442 value (-2 if not processing an insn). We ensure that all insns for
1443 a given value have the same number of alternatives if the value checks
1446 static struct attr_value
*
1447 get_attr_value (value
, attr
, insn_code
)
1449 struct attr_desc
*attr
;
1452 struct attr_value
*av
;
1455 value
= make_canonical (attr
, value
);
1456 if (compares_alternatives_p (value
))
1458 if (insn_code
< 0 || insn_alternatives
== NULL
)
1459 fatal ("(eq_attr \"alternatives\" ...) used in non-insn context");
1461 num_alt
= insn_alternatives
[insn_code
];
1464 for (av
= attr
->first_value
; av
; av
= av
->next
)
1465 if (rtx_equal_p (value
, av
->value
)
1466 && (num_alt
== 0 || av
->first_insn
== NULL
1467 || insn_alternatives
[av
->first_insn
->insn_code
]))
1470 av
= (struct attr_value
*) oballoc (sizeof (struct attr_value
));
1472 av
->next
= attr
->first_value
;
1473 attr
->first_value
= av
;
1474 av
->first_insn
= NULL
;
1476 av
->has_asm_insn
= 0;
1481 /* After all DEFINE_DELAYs have been read in, create internal attributes
1482 to generate the required routines.
1484 First, we compute the number of delay slots for each insn (as a COND of
1485 each of the test expressions in DEFINE_DELAYs). Then, if more than one
1486 delay type is specified, we compute a similar function giving the
1487 DEFINE_DELAY ordinal for each insn.
1489 Finally, for each [DEFINE_DELAY, slot #] pair, we compute an attribute that
1490 tells whether a given insn can be in that delay slot.
1492 Normal attribute filling and optimization expands these to contain the
1493 information needed to handle delay slots. */
1498 struct delay_desc
*delay
;
1504 /* First, generate data for `num_delay_slots' function. */
1506 condexp
= rtx_alloc (COND
);
1507 XVEC (condexp
, 0) = rtvec_alloc (num_delays
* 2);
1508 XEXP (condexp
, 1) = make_numeric_value (0);
1510 for (i
= 0, delay
= delays
; delay
; i
+= 2, delay
= delay
->next
)
1512 XVECEXP (condexp
, 0, i
) = XEXP (delay
->def
, 0);
1513 XVECEXP (condexp
, 0, i
+ 1)
1514 = make_numeric_value (XVECLEN (delay
->def
, 1) / 3);
1517 make_internal_attr ("*num_delay_slots", condexp
, 0);
1519 /* If more than one delay type, do the same for computing the delay type. */
1522 condexp
= rtx_alloc (COND
);
1523 XVEC (condexp
, 0) = rtvec_alloc (num_delays
* 2);
1524 XEXP (condexp
, 1) = make_numeric_value (0);
1526 for (i
= 0, delay
= delays
; delay
; i
+= 2, delay
= delay
->next
)
1528 XVECEXP (condexp
, 0, i
) = XEXP (delay
->def
, 0);
1529 XVECEXP (condexp
, 0, i
+ 1) = make_numeric_value (delay
->num
);
1532 make_internal_attr ("*delay_type", condexp
, 1);
1535 /* For each delay possibility and delay slot, compute an eligibility
1536 attribute for non-annulled insns and for each type of annulled (annul
1537 if true and annul if false). */
1538 for (delay
= delays
; delay
; delay
= delay
->next
)
1540 for (i
= 0; i
< XVECLEN (delay
->def
, 1); i
+= 3)
1542 condexp
= XVECEXP (delay
->def
, 1, i
);
1543 if (condexp
== 0) condexp
= false_rtx
;
1544 newexp
= attr_rtx (IF_THEN_ELSE
, condexp
,
1545 make_numeric_value (1), make_numeric_value (0));
1547 p
= attr_printf (sizeof ("*delay__") + MAX_DIGITS
*2, "*delay_%d_%d",
1549 make_internal_attr (p
, newexp
, 1);
1551 if (have_annul_true
)
1553 condexp
= XVECEXP (delay
->def
, 1, i
+ 1);
1554 if (condexp
== 0) condexp
= false_rtx
;
1555 newexp
= attr_rtx (IF_THEN_ELSE
, condexp
,
1556 make_numeric_value (1),
1557 make_numeric_value (0));
1558 p
= attr_printf (sizeof ("*annul_true__") + MAX_DIGITS
*2,
1559 "*annul_true_%d_%d", delay
->num
, i
/ 3);
1560 make_internal_attr (p
, newexp
, 1);
1563 if (have_annul_false
)
1565 condexp
= XVECEXP (delay
->def
, 1, i
+ 2);
1566 if (condexp
== 0) condexp
= false_rtx
;
1567 newexp
= attr_rtx (IF_THEN_ELSE
, condexp
,
1568 make_numeric_value (1),
1569 make_numeric_value (0));
1570 p
= attr_printf (sizeof ("*annul_false__") + MAX_DIGITS
*2,
1571 "*annul_false_%d_%d", delay
->num
, i
/ 3);
1572 make_internal_attr (p
, newexp
, 1);
1578 /* This function is given a left and right side expression and an operator.
1579 Each side is a conditional expression, each alternative of which has a
1580 numerical value. The function returns another conditional expression
1581 which, for every possible set of condition values, returns a value that is
1582 the operator applied to the values of the two sides.
1584 Since this is called early, it must also support IF_THEN_ELSE. */
1587 operate_exp (op
, left
, right
)
1591 int left_value
, right_value
;
1595 /* If left is a string, apply operator to it and the right side. */
1596 if (GET_CODE (left
) == CONST_STRING
)
1598 /* If right is also a string, just perform the operation. */
1599 if (GET_CODE (right
) == CONST_STRING
)
1601 left_value
= atoi (XSTR (left
, 0));
1602 right_value
= atoi (XSTR (right
, 0));
1606 i
= left_value
+ right_value
;
1610 i
= left_value
- right_value
;
1613 case POS_MINUS_OP
: /* The positive part of LEFT - RIGHT. */
1614 if (left_value
> right_value
)
1615 i
= left_value
- right_value
;
1621 i
= left_value
| right_value
;
1625 i
= left_value
== right_value
;
1629 i
= (left_value
<< (HOST_BITS_PER_INT
/ 2)) | right_value
;
1633 if (left_value
> right_value
)
1640 if (left_value
< right_value
)
1650 return make_numeric_value (i
);
1652 else if (GET_CODE (right
) == IF_THEN_ELSE
)
1654 /* Apply recursively to all values within. */
1655 rtx newleft
= operate_exp (op
, left
, XEXP (right
, 1));
1656 rtx newright
= operate_exp (op
, left
, XEXP (right
, 2));
1657 if (rtx_equal_p (newleft
, newright
))
1659 return attr_rtx (IF_THEN_ELSE
, XEXP (right
, 0), newleft
, newright
);
1661 else if (GET_CODE (right
) == COND
)
1666 newexp
= rtx_alloc (COND
);
1667 XVEC (newexp
, 0) = rtvec_alloc (XVECLEN (right
, 0));
1668 defval
= XEXP (newexp
, 1) = operate_exp (op
, left
, XEXP (right
, 1));
1670 for (i
= 0; i
< XVECLEN (right
, 0); i
+= 2)
1672 XVECEXP (newexp
, 0, i
) = XVECEXP (right
, 0, i
);
1673 XVECEXP (newexp
, 0, i
+ 1)
1674 = operate_exp (op
, left
, XVECEXP (right
, 0, i
+ 1));
1675 if (! rtx_equal_p (XVECEXP (newexp
, 0, i
+ 1),
1680 /* If the resulting cond is trivial (all alternatives
1681 give the same value), optimize it away. */
1684 obstack_free (rtl_obstack
, newexp
);
1685 return operate_exp (op
, left
, XEXP (right
, 1));
1688 /* If the result is the same as the RIGHT operand,
1690 if (rtx_equal_p (newexp
, right
))
1692 obstack_free (rtl_obstack
, newexp
);
1699 fatal ("Badly formed attribute value");
1702 /* Otherwise, do recursion the other way. */
1703 else if (GET_CODE (left
) == IF_THEN_ELSE
)
1705 rtx newleft
= operate_exp (op
, XEXP (left
, 1), right
);
1706 rtx newright
= operate_exp (op
, XEXP (left
, 2), right
);
1707 if (rtx_equal_p (newleft
, newright
))
1709 return attr_rtx (IF_THEN_ELSE
, XEXP (left
, 0), newleft
, newright
);
1711 else if (GET_CODE (left
) == COND
)
1716 newexp
= rtx_alloc (COND
);
1717 XVEC (newexp
, 0) = rtvec_alloc (XVECLEN (left
, 0));
1718 defval
= XEXP (newexp
, 1) = operate_exp (op
, XEXP (left
, 1), right
);
1720 for (i
= 0; i
< XVECLEN (left
, 0); i
+= 2)
1722 XVECEXP (newexp
, 0, i
) = XVECEXP (left
, 0, i
);
1723 XVECEXP (newexp
, 0, i
+ 1)
1724 = operate_exp (op
, XVECEXP (left
, 0, i
+ 1), right
);
1725 if (! rtx_equal_p (XVECEXP (newexp
, 0, i
+ 1),
1730 /* If the cond is trivial (all alternatives give the same value),
1731 optimize it away. */
1734 obstack_free (rtl_obstack
, newexp
);
1735 return operate_exp (op
, XEXP (left
, 1), right
);
1738 /* If the result is the same as the LEFT operand,
1740 if (rtx_equal_p (newexp
, left
))
1742 obstack_free (rtl_obstack
, newexp
);
1750 fatal ("Badly formed attribute value.");
1755 /* Once all attributes and DEFINE_FUNCTION_UNITs have been read, we
1756 construct a number of attributes.
1758 The first produces a function `function_units_used' which is given an
1759 insn and produces an encoding showing which function units are required
1760 for the execution of that insn. If the value is non-negative, the insn
1761 uses that unit; otherwise, the value is a one's compliment mask of units
1764 The second produces a function `result_ready_cost' which is used to
1765 determine the time that the result of an insn will be ready and hence
1766 a worst-case schedule.
1768 Both of these produce quite complex expressions which are then set as the
1769 default value of internal attributes. Normal attribute simplification
1770 should produce reasonable expressions.
1772 For each unit, a `<name>_unit_ready_cost' function will take an
1773 insn and give the delay until that unit will be ready with the result
1774 and a `<name>_unit_conflict_cost' function is given an insn already
1775 executing on the unit and a candidate to execute and will give the
1776 cost from the time the executing insn started until the candidate
1777 can start (ignore limitations on the number of simultaneous insns).
1779 For each unit, a `<name>_unit_blockage' function is given an insn
1780 already executing on the unit and a candidate to execute and will
1781 give the delay incurred due to function unit conflicts. The range of
1782 blockage cost values for a given executing insn is given by the
1783 `<name>_unit_blockage_range' function. These values are encoded in
1784 an int where the upper half gives the minimum value and the lower
1785 half gives the maximum value. */
1790 struct function_unit
*unit
, **unit_num
;
1791 struct function_unit_op
*op
, **op_array
, ***unit_ops
;
1796 int i
, j
, u
, num
, nvalues
;
1798 /* Rebuild the condition for the unit to share the RTL expressions.
1799 Sharing is required by simplify_by_exploding. Build the issue delay
1800 expressions. Validate the expressions we were given for the conditions
1801 and conflict vector. Then make attributes for use in the conflict
1804 for (unit
= units
; unit
; unit
= unit
->next
)
1806 unit
->condexp
= check_attr_test (unit
->condexp
, 0);
1808 for (op
= unit
->ops
; op
; op
= op
->next
)
1810 rtx issue_delay
= make_numeric_value (op
->issue_delay
);
1811 rtx issue_exp
= issue_delay
;
1813 /* Build, validate, and simplify the issue delay expression. */
1814 if (op
->conflict_exp
!= true_rtx
)
1815 issue_exp
= attr_rtx (IF_THEN_ELSE
, op
->conflict_exp
,
1816 issue_exp
, make_numeric_value (0));
1817 issue_exp
= check_attr_value (make_canonical (NULL_ATTR
,
1820 issue_exp
= simplify_knowing (issue_exp
, unit
->condexp
);
1821 op
->issue_exp
= issue_exp
;
1823 /* Make an attribute for use in the conflict function if needed. */
1824 unit
->needs_conflict_function
= (unit
->issue_delay
.min
1825 != unit
->issue_delay
.max
);
1826 if (unit
->needs_conflict_function
)
1828 str
= attr_printf (strlen (unit
->name
) + sizeof ("*_cost_") + MAX_DIGITS
,
1829 "*%s_cost_%d", unit
->name
, op
->num
);
1830 make_internal_attr (str
, issue_exp
, 1);
1833 /* Validate the condition. */
1834 op
->condexp
= check_attr_test (op
->condexp
, 0);
1838 /* Compute the mask of function units used. Initially, the unitsmask is
1839 zero. Set up a conditional to compute each unit's contribution. */
1840 unitsmask
= make_numeric_value (0);
1841 newexp
= rtx_alloc (IF_THEN_ELSE
);
1842 XEXP (newexp
, 2) = make_numeric_value (0);
1844 /* Merge each function unit into the unit mask attributes. */
1845 for (unit
= units
; unit
; unit
= unit
->next
)
1847 XEXP (newexp
, 0) = unit
->condexp
;
1848 XEXP (newexp
, 1) = make_numeric_value (1 << unit
->num
);
1849 unitsmask
= operate_exp (OR_OP
, unitsmask
, newexp
);
1852 /* Simplify the unit mask expression, encode it, and make an attribute
1853 for the function_units_used function. */
1854 unitsmask
= simplify_by_exploding (unitsmask
);
1855 unitsmask
= encode_units_mask (unitsmask
);
1856 make_internal_attr ("*function_units_used", unitsmask
, 2);
1858 /* Create an array of ops for each unit. Add an extra unit for the
1859 result_ready_cost function that has the ops of all other units. */
1860 unit_ops
= (struct function_unit_op
***)
1861 alloca ((num_units
+ 1) * sizeof (struct function_unit_op
**));
1862 unit_num
= (struct function_unit
**)
1863 alloca ((num_units
+ 1) * sizeof (struct function_unit
*));
1865 unit_num
[num_units
] = unit
= (struct function_unit
*)
1866 alloca (sizeof (struct function_unit
));
1867 unit
->num
= num_units
;
1868 unit
->num_opclasses
= 0;
1870 for (unit
= units
; unit
; unit
= unit
->next
)
1872 unit_num
[num_units
]->num_opclasses
+= unit
->num_opclasses
;
1873 unit_num
[unit
->num
] = unit
;
1874 unit_ops
[unit
->num
] = op_array
= (struct function_unit_op
**)
1875 alloca (unit
->num_opclasses
* sizeof (struct function_unit_op
*));
1877 for (op
= unit
->ops
; op
; op
= op
->next
)
1878 op_array
[op
->num
] = op
;
1881 /* Compose the array of ops for the extra unit. */
1882 unit_ops
[num_units
] = op_array
= (struct function_unit_op
**)
1883 alloca (unit_num
[num_units
]->num_opclasses
1884 * sizeof (struct function_unit_op
*));
1886 for (unit
= units
, i
= 0; unit
; i
+= unit
->num_opclasses
, unit
= unit
->next
)
1887 bcopy ((char *) unit_ops
[unit
->num
], (char *) &op_array
[i
],
1888 unit
->num_opclasses
* sizeof (struct function_unit_op
*));
1890 /* Compute the ready cost function for each unit by computing the
1891 condition for each non-default value. */
1892 for (u
= 0; u
<= num_units
; u
++)
1898 op_array
= unit_ops
[unit
->num
];
1899 num
= unit
->num_opclasses
;
1901 /* Sort the array of ops into increasing ready cost order. */
1902 for (i
= 0; i
< num
; i
++)
1903 for (j
= num
- 1; j
> i
; j
--)
1904 if (op_array
[j
-1]->ready
< op_array
[j
]->ready
)
1907 op_array
[j
] = op_array
[j
-1];
1911 /* Determine how many distinct non-default ready cost values there
1912 are. We use a default ready cost value of 1. */
1913 nvalues
= 0; value
= 1;
1914 for (i
= num
- 1; i
>= 0; i
--)
1915 if (op_array
[i
]->ready
> value
)
1917 value
= op_array
[i
]->ready
;
1922 readycost
= make_numeric_value (1);
1925 /* Construct the ready cost expression as a COND of each value from
1926 the largest to the smallest. */
1927 readycost
= rtx_alloc (COND
);
1928 XVEC (readycost
, 0) = rtvec_alloc (nvalues
* 2);
1929 XEXP (readycost
, 1) = make_numeric_value (1);
1931 nvalues
= 0; orexp
= false_rtx
; value
= op_array
[0]->ready
;
1932 for (i
= 0; i
< num
; i
++)
1937 else if (op
->ready
== value
)
1938 orexp
= insert_right_side (IOR
, orexp
, op
->condexp
, -2, -2);
1941 XVECEXP (readycost
, 0, nvalues
* 2) = orexp
;
1942 XVECEXP (readycost
, 0, nvalues
* 2 + 1)
1943 = make_numeric_value (value
);
1946 orexp
= op
->condexp
;
1949 XVECEXP (readycost
, 0, nvalues
* 2) = orexp
;
1950 XVECEXP (readycost
, 0, nvalues
* 2 + 1) = make_numeric_value (value
);
1955 rtx max_blockage
= 0, min_blockage
= 0;
1957 /* Simplify the readycost expression by only considering insns
1958 that use the unit. */
1959 readycost
= simplify_knowing (readycost
, unit
->condexp
);
1961 /* Determine the blockage cost the executing insn (E) given
1962 the candidate insn (C). This is the maximum of the issue
1963 delay, the pipeline delay, and the simultaneity constraint.
1964 Each function_unit_op represents the characteristics of the
1965 candidate insn, so in the expressions below, C is a known
1966 term and E is an unknown term.
1968 We compute the blockage cost for each E for every possible C.
1969 Thus OP represents E, and READYCOST is a list of values for
1972 The issue delay function for C is op->issue_exp and is used to
1973 write the `<name>_unit_conflict_cost' function. Symbolicly
1974 this is "ISSUE-DELAY (E,C)".
1976 The pipeline delay results form the FIFO constraint on the
1977 function unit and is "READY-COST (E) + 1 - READY-COST (C)".
1979 The simultaneity constraint is based on how long it takes to
1980 fill the unit given the minimum issue delay. FILL-TIME is the
1981 constant "MIN (ISSUE-DELAY (*,*)) * (SIMULTANEITY - 1)", and
1982 the simultaneity constraint is "READY-COST (E) - FILL-TIME"
1983 if SIMULTANEITY is non-zero and zero otherwise.
1985 Thus, BLOCKAGE (E,C) when SIMULTANEITY is zero is
1987 MAX (ISSUE-DELAY (E,C),
1988 READY-COST (E) - (READY-COST (C) - 1))
1992 MAX (ISSUE-DELAY (E,C),
1993 READY-COST (E) - (READY-COST (C) - 1),
1994 READY-COST (E) - FILL-TIME)
1996 The `<name>_unit_blockage' function is computed by determining
1997 this value for each candidate insn. As these values are
1998 computed, we also compute the upper and lower bounds for
1999 BLOCKAGE (E,*). These are combined to form the function
2000 `<name>_unit_blockage_range'. Finally, the maximum blockage
2001 cost, MAX (BLOCKAGE (*,*)), is computed. */
2003 for (op
= unit
->ops
; op
; op
= op
->next
)
2005 rtx blockage
= operate_exp (POS_MINUS_OP
, readycost
,
2006 make_numeric_value (1));
2008 if (unit
->simultaneity
!= 0)
2010 rtx filltime
= make_numeric_value ((unit
->simultaneity
- 1)
2011 * unit
->issue_delay
.min
);
2012 blockage
= operate_exp (MIN_OP
, blockage
, filltime
);
2015 blockage
= operate_exp (POS_MINUS_OP
,
2016 make_numeric_value (op
->ready
),
2019 blockage
= operate_exp (MAX_OP
, blockage
, op
->issue_exp
);
2020 blockage
= simplify_knowing (blockage
, unit
->condexp
);
2022 /* Add this op's contribution to MAX (BLOCKAGE (E,*)) and
2023 MIN (BLOCKAGE (E,*)). */
2024 if (max_blockage
== 0)
2025 max_blockage
= min_blockage
= blockage
;
2029 = simplify_knowing (operate_exp (MAX_OP
, max_blockage
,
2033 = simplify_knowing (operate_exp (MIN_OP
, min_blockage
,
2038 /* Make an attribute for use in the blockage function. */
2039 str
= attr_printf (strlen (unit
->name
) + sizeof ("*_block_") + MAX_DIGITS
,
2040 "*%s_block_%d", unit
->name
, op
->num
);
2041 make_internal_attr (str
, blockage
, 1);
2044 /* Record MAX (BLOCKAGE (*,*)). */
2045 unit
->max_blockage
= max_attr_value (max_blockage
);
2047 /* See if the upper and lower bounds of BLOCKAGE (E,*) are the
2048 same. If so, the blockage function carries no additional
2049 information and is not written. */
2050 newexp
= operate_exp (EQ_OP
, max_blockage
, min_blockage
);
2051 newexp
= simplify_knowing (newexp
, unit
->condexp
);
2052 unit
->needs_blockage_function
2053 = (GET_CODE (newexp
) != CONST_STRING
2054 || atoi (XSTR (newexp
, 0)) != 1);
2056 /* If the all values of BLOCKAGE (E,C) have the same value,
2057 neither blockage function is written. */
2058 unit
->needs_range_function
2059 = (unit
->needs_blockage_function
2060 || GET_CODE (max_blockage
) != CONST_STRING
);
2062 if (unit
->needs_range_function
)
2064 /* Compute the blockage range function and make an attribute
2065 for writing it's value. */
2066 newexp
= operate_exp (RANGE_OP
, min_blockage
, max_blockage
);
2067 newexp
= simplify_knowing (newexp
, unit
->condexp
);
2069 str
= attr_printf (strlen (unit
->name
) + sizeof ("*_unit_blockage_range"),
2070 "*%s_unit_blockage_range", unit
->name
);
2071 make_internal_attr (str
, newexp
, 4);
2074 str
= attr_printf (strlen (unit
->name
) + sizeof ("*_unit_ready_cost"),
2075 "*%s_unit_ready_cost", unit
->name
);
2078 str
= "*result_ready_cost";
2080 /* Make an attribute for the ready_cost function. Simplifying
2081 further with simplify_by_exploding doesn't win. */
2082 make_internal_attr (str
, readycost
, 0);
2085 /* For each unit that requires a conflict cost function, make an attribute
2086 that maps insns to the operation number. */
2087 for (unit
= units
; unit
; unit
= unit
->next
)
2091 if (! unit
->needs_conflict_function
2092 && ! unit
->needs_blockage_function
)
2095 caseexp
= rtx_alloc (COND
);
2096 XVEC (caseexp
, 0) = rtvec_alloc ((unit
->num_opclasses
- 1) * 2);
2098 for (op
= unit
->ops
; op
; op
= op
->next
)
2100 /* Make our adjustment to the COND being computed. If we are the
2101 last operation class, place our values into the default of the
2103 if (op
->num
== unit
->num_opclasses
- 1)
2105 XEXP (caseexp
, 1) = make_numeric_value (op
->num
);
2109 XVECEXP (caseexp
, 0, op
->num
* 2) = op
->condexp
;
2110 XVECEXP (caseexp
, 0, op
->num
* 2 + 1)
2111 = make_numeric_value (op
->num
);
2115 /* Simplifying caseexp with simplify_by_exploding doesn't win. */
2116 str
= attr_printf (strlen (unit
->name
) + sizeof ("*_cases"),
2117 "*%s_cases", unit
->name
);
2118 make_internal_attr (str
, caseexp
, 1);
2122 /* Simplify EXP given KNOWN_TRUE. */
2125 simplify_knowing (exp
, known_true
)
2126 rtx exp
, known_true
;
2128 if (GET_CODE (exp
) != CONST_STRING
)
2130 exp
= attr_rtx (IF_THEN_ELSE
, known_true
, exp
,
2131 make_numeric_value (max_attr_value (exp
)));
2132 exp
= simplify_by_exploding (exp
);
2137 /* Translate the CONST_STRING expressions in X to change the encoding of
2138 value. On input, the value is a bitmask with a one bit for each unit
2139 used; on output, the value is the unit number (zero based) if one
2140 and only one unit is used or the one's compliment of the bitmask. */
2143 encode_units_mask (x
)
2148 register enum rtx_code code
;
2151 code
= GET_CODE (x
);
2156 i
= atoi (XSTR (x
, 0));
2158 abort (); /* The sign bit encodes a one's compliment mask. */
2159 else if (i
!= 0 && i
== (i
& -i
))
2160 /* Only one bit is set, so yield that unit number. */
2161 for (j
= 0; (i
>>= 1) != 0; j
++)
2165 return attr_rtx (CONST_STRING
, attr_printf (MAX_DIGITS
, "%d", j
));
2179 /* Compare the elements. If any pair of corresponding elements
2180 fail to match, return 0 for the whole things. */
2182 fmt
= GET_RTX_FORMAT (code
);
2183 for (i
= GET_RTX_LENGTH (code
) - 1; i
>= 0; i
--)
2189 for (j
= 0; j
< XVECLEN (x
, i
); j
++)
2190 XVECEXP (x
, i
, j
) = encode_units_mask (XVECEXP (x
, i
, j
));
2194 XEXP (x
, i
) = encode_units_mask (XEXP (x
, i
));
2201 /* Once all attributes and insns have been read and checked, we construct for
2202 each attribute value a list of all the insns that have that value for
2207 struct attr_desc
*attr
;
2209 struct attr_value
*av
;
2210 struct insn_ent
*ie
;
2211 struct insn_def
*id
;
2215 /* Don't fill constant attributes. The value is independent of
2216 any particular insn. */
2220 for (id
= defs
; id
; id
= id
->next
)
2222 /* If no value is specified for this insn for this attribute, use the
2225 if (XVEC (id
->def
, id
->vec_idx
))
2226 for (i
= 0; i
< XVECLEN (id
->def
, id
->vec_idx
); i
++)
2227 if (! strcmp (XSTR (XEXP (XVECEXP (id
->def
, id
->vec_idx
, i
), 0), 0),
2229 value
= XEXP (XVECEXP (id
->def
, id
->vec_idx
, i
), 1);
2232 av
= attr
->default_val
;
2234 av
= get_attr_value (value
, attr
, id
->insn_code
);
2236 ie
= (struct insn_ent
*) oballoc (sizeof (struct insn_ent
));
2237 ie
->insn_code
= id
->insn_code
;
2238 ie
->insn_index
= id
->insn_code
;
2239 insert_insn_ent (av
, ie
);
2243 /* Given an expression EXP, see if it is a COND or IF_THEN_ELSE that has a
2244 test that checks relative positions of insns (uses MATCH_DUP or PC).
2245 If so, replace it with what is obtained by passing the expression to
2246 ADDRESS_FN. If not but it is a COND or IF_THEN_ELSE, call this routine
2247 recursively on each value (including the default value). Otherwise,
2248 return the value returned by NO_ADDRESS_FN applied to EXP. */
2251 substitute_address (exp
, no_address_fn
, address_fn
)
2253 rtx (*no_address_fn
) ();
2254 rtx (*address_fn
) ();
2259 if (GET_CODE (exp
) == COND
)
2261 /* See if any tests use addresses. */
2263 for (i
= 0; i
< XVECLEN (exp
, 0); i
+= 2)
2264 walk_attr_value (XVECEXP (exp
, 0, i
));
2267 return (*address_fn
) (exp
);
2269 /* Make a new copy of this COND, replacing each element. */
2270 newexp
= rtx_alloc (COND
);
2271 XVEC (newexp
, 0) = rtvec_alloc (XVECLEN (exp
, 0));
2272 for (i
= 0; i
< XVECLEN (exp
, 0); i
+= 2)
2274 XVECEXP (newexp
, 0, i
) = XVECEXP (exp
, 0, i
);
2275 XVECEXP (newexp
, 0, i
+ 1)
2276 = substitute_address (XVECEXP (exp
, 0, i
+ 1),
2277 no_address_fn
, address_fn
);
2280 XEXP (newexp
, 1) = substitute_address (XEXP (exp
, 1),
2281 no_address_fn
, address_fn
);
2286 else if (GET_CODE (exp
) == IF_THEN_ELSE
)
2289 walk_attr_value (XEXP (exp
, 0));
2291 return (*address_fn
) (exp
);
2293 return attr_rtx (IF_THEN_ELSE
,
2294 substitute_address (XEXP (exp
, 0),
2295 no_address_fn
, address_fn
),
2296 substitute_address (XEXP (exp
, 1),
2297 no_address_fn
, address_fn
),
2298 substitute_address (XEXP (exp
, 2),
2299 no_address_fn
, address_fn
));
2302 return (*no_address_fn
) (exp
);
2305 /* Make new attributes from the `length' attribute. The following are made,
2306 each corresponding to a function called from `shorten_branches' or
2309 *insn_default_length This is the length of the insn to be returned
2310 by `get_attr_length' before `shorten_branches'
2311 has been called. In each case where the length
2312 depends on relative addresses, the largest
2313 possible is used. This routine is also used
2314 to compute the initial size of the insn.
2316 *insn_variable_length_p This returns 1 if the insn's length depends
2317 on relative addresses, zero otherwise.
2319 *insn_current_length This is only called when it is known that the
2320 insn has a variable length and returns the
2321 current length, based on relative addresses.
2325 make_length_attrs ()
2327 static char *new_names
[] = {"*insn_default_length",
2328 "*insn_variable_length_p",
2329 "*insn_current_length"};
2330 static rtx (*no_address_fn
[]) PROTO((rtx
)) = {identity_fn
, zero_fn
, zero_fn
};
2331 static rtx (*address_fn
[]) PROTO((rtx
)) = {max_fn
, one_fn
, identity_fn
};
2333 struct attr_desc
*length_attr
, *new_attr
;
2334 struct attr_value
*av
, *new_av
;
2335 struct insn_ent
*ie
, *new_ie
;
2337 /* See if length attribute is defined. If so, it must be numeric. Make
2338 it special so we don't output anything for it. */
2339 length_attr
= find_attr ("length", 0);
2340 if (length_attr
== 0)
2343 if (! length_attr
->is_numeric
)
2344 fatal ("length attribute must be numeric.");
2346 length_attr
->is_const
= 0;
2347 length_attr
->is_special
= 1;
2349 /* Make each new attribute, in turn. */
2350 for (i
= 0; i
< sizeof new_names
/ sizeof new_names
[0]; i
++)
2352 make_internal_attr (new_names
[i
],
2353 substitute_address (length_attr
->default_val
->value
,
2354 no_address_fn
[i
], address_fn
[i
]),
2356 new_attr
= find_attr (new_names
[i
], 0);
2357 for (av
= length_attr
->first_value
; av
; av
= av
->next
)
2358 for (ie
= av
->first_insn
; ie
; ie
= ie
->next
)
2360 new_av
= get_attr_value (substitute_address (av
->value
,
2363 new_attr
, ie
->insn_code
);
2364 new_ie
= (struct insn_ent
*) oballoc (sizeof (struct insn_ent
));
2365 new_ie
->insn_code
= ie
->insn_code
;
2366 new_ie
->insn_index
= ie
->insn_index
;
2367 insert_insn_ent (new_av
, new_ie
);
2372 /* Utility functions called from above routine. */
2385 return make_numeric_value (0);
2392 return make_numeric_value (1);
2399 return make_numeric_value (max_attr_value (exp
));
2402 /* Take a COND expression and see if any of the conditions in it can be
2403 simplified. If any are known true or known false for the particular insn
2404 code, the COND can be further simplified.
2406 Also call ourselves on any COND operations that are values of this COND.
2408 We do not modify EXP; rather, we make and return a new rtx. */
2411 simplify_cond (exp
, insn_code
, insn_index
)
2413 int insn_code
, insn_index
;
2416 /* We store the desired contents here,
2417 then build a new expression if they don't match EXP. */
2418 rtx defval
= XEXP (exp
, 1);
2419 rtx new_defval
= XEXP (exp
, 1);
2421 int len
= XVECLEN (exp
, 0);
2422 rtx
*tests
= (rtx
*) alloca (len
* sizeof (rtx
));
2426 /* This lets us free all storage allocated below, if appropriate. */
2427 first_spacer
= (char *) obstack_finish (rtl_obstack
);
2429 bcopy ((char *) &XVECEXP (exp
, 0, 0), (char *) tests
, len
* sizeof (rtx
));
2431 /* See if default value needs simplification. */
2432 if (GET_CODE (defval
) == COND
)
2433 new_defval
= simplify_cond (defval
, insn_code
, insn_index
);
2435 /* Simplify the subexpressions, and see what tests we can get rid of. */
2437 for (i
= 0; i
< len
; i
+= 2)
2439 rtx newtest
, newval
;
2441 /* Simplify this test. */
2442 newtest
= SIMPLIFY_TEST_EXP (tests
[i
], insn_code
, insn_index
);
2445 newval
= tests
[i
+ 1];
2446 /* See if this value may need simplification. */
2447 if (GET_CODE (newval
) == COND
)
2448 newval
= simplify_cond (newval
, insn_code
, insn_index
);
2450 /* Look for ways to delete or combine this test. */
2451 if (newtest
== true_rtx
)
2453 /* If test is true, make this value the default
2454 and discard this + any following tests. */
2456 defval
= tests
[i
+ 1];
2457 new_defval
= newval
;
2460 else if (newtest
== false_rtx
)
2462 /* If test is false, discard it and its value. */
2463 for (j
= i
; j
< len
- 2; j
++)
2464 tests
[j
] = tests
[j
+ 2];
2468 else if (i
> 0 && attr_equal_p (newval
, tests
[i
- 1]))
2470 /* If this value and the value for the prev test are the same,
2474 = insert_right_side (IOR
, tests
[i
- 2], newtest
,
2475 insn_code
, insn_index
);
2477 /* Delete this test/value. */
2478 for (j
= i
; j
< len
- 2; j
++)
2479 tests
[j
] = tests
[j
+ 2];
2484 tests
[i
+ 1] = newval
;
2487 /* If the last test in a COND has the same value
2488 as the default value, that test isn't needed. */
2490 while (len
> 0 && attr_equal_p (tests
[len
- 1], new_defval
))
2493 /* See if we changed anything. */
2494 if (len
!= XVECLEN (exp
, 0) || new_defval
!= XEXP (exp
, 1))
2497 for (i
= 0; i
< len
; i
++)
2498 if (! attr_equal_p (tests
[i
], XVECEXP (exp
, 0, i
)))
2506 obstack_free (rtl_obstack
, first_spacer
);
2507 if (GET_CODE (defval
) == COND
)
2508 return simplify_cond (defval
, insn_code
, insn_index
);
2513 obstack_free (rtl_obstack
, first_spacer
);
2518 rtx newexp
= rtx_alloc (COND
);
2520 XVEC (newexp
, 0) = rtvec_alloc (len
);
2521 bcopy ((char *) tests
, (char *) &XVECEXP (newexp
, 0, 0),
2522 len
* sizeof (rtx
));
2523 XEXP (newexp
, 1) = new_defval
;
2528 /* Remove an insn entry from an attribute value. */
2531 remove_insn_ent (av
, ie
)
2532 struct attr_value
*av
;
2533 struct insn_ent
*ie
;
2535 struct insn_ent
*previe
;
2537 if (av
->first_insn
== ie
)
2538 av
->first_insn
= ie
->next
;
2541 for (previe
= av
->first_insn
; previe
->next
!= ie
; previe
= previe
->next
)
2543 previe
->next
= ie
->next
;
2547 if (ie
->insn_code
== -1)
2548 av
->has_asm_insn
= 0;
2553 /* Insert an insn entry in an attribute value list. */
2556 insert_insn_ent (av
, ie
)
2557 struct attr_value
*av
;
2558 struct insn_ent
*ie
;
2560 ie
->next
= av
->first_insn
;
2561 av
->first_insn
= ie
;
2563 if (ie
->insn_code
== -1)
2564 av
->has_asm_insn
= 1;
2569 /* This is a utility routine to take an expression that is a tree of either
2570 AND or IOR expressions and insert a new term. The new term will be
2571 inserted at the right side of the first node whose code does not match
2572 the root. A new node will be created with the root's code. Its left
2573 side will be the old right side and its right side will be the new
2576 If the `term' is itself a tree, all its leaves will be inserted. */
2579 insert_right_side (code
, exp
, term
, insn_code
, insn_index
)
2583 int insn_code
, insn_index
;
2587 /* Avoid consing in some special cases. */
2588 if (code
== AND
&& term
== true_rtx
)
2590 if (code
== AND
&& term
== false_rtx
)
2592 if (code
== AND
&& exp
== true_rtx
)
2594 if (code
== AND
&& exp
== false_rtx
)
2596 if (code
== IOR
&& term
== true_rtx
)
2598 if (code
== IOR
&& term
== false_rtx
)
2600 if (code
== IOR
&& exp
== true_rtx
)
2602 if (code
== IOR
&& exp
== false_rtx
)
2604 if (attr_equal_p (exp
, term
))
2607 if (GET_CODE (term
) == code
)
2609 exp
= insert_right_side (code
, exp
, XEXP (term
, 0),
2610 insn_code
, insn_index
);
2611 exp
= insert_right_side (code
, exp
, XEXP (term
, 1),
2612 insn_code
, insn_index
);
2617 if (GET_CODE (exp
) == code
)
2619 rtx
new = insert_right_side (code
, XEXP (exp
, 1),
2620 term
, insn_code
, insn_index
);
2621 if (new != XEXP (exp
, 1))
2622 /* Make a copy of this expression and call recursively. */
2623 newexp
= attr_rtx (code
, XEXP (exp
, 0), new);
2629 /* Insert the new term. */
2630 newexp
= attr_rtx (code
, exp
, term
);
2633 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
2636 /* If we have an expression which AND's a bunch of
2637 (not (eq_attrq "alternative" "n"))
2638 terms, we may have covered all or all but one of the possible alternatives.
2639 If so, we can optimize. Similarly for IOR's of EQ_ATTR.
2641 This routine is passed an expression and either AND or IOR. It returns a
2642 bitmask indicating which alternatives are mentioned within EXP. */
2645 compute_alternative_mask (exp
, code
)
2650 if (GET_CODE (exp
) == code
)
2651 return compute_alternative_mask (XEXP (exp
, 0), code
)
2652 | compute_alternative_mask (XEXP (exp
, 1), code
);
2654 else if (code
== AND
&& GET_CODE (exp
) == NOT
2655 && GET_CODE (XEXP (exp
, 0)) == EQ_ATTR
2656 && XSTR (XEXP (exp
, 0), 0) == alternative_name
)
2657 string
= XSTR (XEXP (exp
, 0), 1);
2659 else if (code
== IOR
&& GET_CODE (exp
) == EQ_ATTR
2660 && XSTR (exp
, 0) == alternative_name
)
2661 string
= XSTR (exp
, 1);
2667 return 1 << (string
[0] - '0');
2668 return 1 << atoi (string
);
2671 /* Given I, a single-bit mask, return RTX to compare the `alternative'
2672 attribute with the value represented by that bit. */
2675 make_alternative_compare (mask
)
2682 for (i
= 0; (mask
& (1 << i
)) == 0; i
++)
2685 newexp
= attr_rtx (EQ_ATTR
, alternative_name
, attr_numeral (i
));
2686 RTX_UNCHANGING_P (newexp
) = 1;
2691 /* If we are processing an (eq_attr "attr" "value") test, we find the value
2692 of "attr" for this insn code. From that value, we can compute a test
2693 showing when the EQ_ATTR will be true. This routine performs that
2694 computation. If a test condition involves an address, we leave the EQ_ATTR
2695 intact because addresses are only valid for the `length' attribute.
2697 EXP is the EQ_ATTR expression and VALUE is the value of that attribute
2698 for the insn corresponding to INSN_CODE and INSN_INDEX. */
2701 evaluate_eq_attr (exp
, value
, insn_code
, insn_index
)
2704 int insn_code
, insn_index
;
2711 if (GET_CODE (value
) == CONST_STRING
)
2713 if (! strcmp (XSTR (value
, 0), XSTR (exp
, 1)))
2718 else if (GET_CODE (value
) == COND
)
2720 /* We construct an IOR of all the cases for which the requested attribute
2721 value is present. Since we start with FALSE, if it is not present,
2722 FALSE will be returned.
2724 Each case is the AND of the NOT's of the previous conditions with the
2725 current condition; in the default case the current condition is TRUE.
2727 For each possible COND value, call ourselves recursively.
2729 The extra TRUE and FALSE expressions will be eliminated by another
2730 call to the simplification routine. */
2735 if (current_alternative_string
)
2736 clear_struct_flag (value
);
2738 for (i
= 0; i
< XVECLEN (value
, 0); i
+= 2)
2740 rtx
this = SIMPLIFY_TEST_EXP (XVECEXP (value
, 0, i
),
2741 insn_code
, insn_index
);
2743 SIMPLIFY_ALTERNATIVE (this);
2745 right
= insert_right_side (AND
, andexp
, this,
2746 insn_code
, insn_index
);
2747 right
= insert_right_side (AND
, right
,
2748 evaluate_eq_attr (exp
,
2751 insn_code
, insn_index
),
2752 insn_code
, insn_index
);
2753 orexp
= insert_right_side (IOR
, orexp
, right
,
2754 insn_code
, insn_index
);
2756 /* Add this condition into the AND expression. */
2757 newexp
= attr_rtx (NOT
, this);
2758 andexp
= insert_right_side (AND
, andexp
, newexp
,
2759 insn_code
, insn_index
);
2762 /* Handle the default case. */
2763 right
= insert_right_side (AND
, andexp
,
2764 evaluate_eq_attr (exp
, XEXP (value
, 1),
2765 insn_code
, insn_index
),
2766 insn_code
, insn_index
);
2767 newexp
= insert_right_side (IOR
, orexp
, right
, insn_code
, insn_index
);
2772 /* If uses an address, must return original expression. But set the
2773 RTX_UNCHANGING_P bit so we don't try to simplify it again. */
2776 walk_attr_value (newexp
);
2780 /* This had `&& current_alternative_string', which seems to be wrong. */
2781 if (! RTX_UNCHANGING_P (exp
))
2782 return copy_rtx_unchanging (exp
);
2789 /* This routine is called when an AND of a term with a tree of AND's is
2790 encountered. If the term or its complement is present in the tree, it
2791 can be replaced with TRUE or FALSE, respectively.
2793 Note that (eq_attr "att" "v1") and (eq_attr "att" "v2") cannot both
2794 be true and hence are complementary.
2796 There is one special case: If we see
2797 (and (not (eq_attr "att" "v1"))
2798 (eq_attr "att" "v2"))
2799 this can be replaced by (eq_attr "att" "v2"). To do this we need to
2800 replace the term, not anything in the AND tree. So we pass a pointer to
2804 simplify_and_tree (exp
, pterm
, insn_code
, insn_index
)
2807 int insn_code
, insn_index
;
2812 int left_eliminates_term
, right_eliminates_term
;
2814 if (GET_CODE (exp
) == AND
)
2816 left
= simplify_and_tree (XEXP (exp
, 0), pterm
, insn_code
, insn_index
);
2817 right
= simplify_and_tree (XEXP (exp
, 1), pterm
, insn_code
, insn_index
);
2818 if (left
!= XEXP (exp
, 0) || right
!= XEXP (exp
, 1))
2820 newexp
= attr_rtx (GET_CODE (exp
), left
, right
);
2822 exp
= SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
2826 else if (GET_CODE (exp
) == IOR
)
2828 /* For the IOR case, we do the same as above, except that we can
2829 only eliminate `term' if both sides of the IOR would do so. */
2831 left
= simplify_and_tree (XEXP (exp
, 0), &temp
, insn_code
, insn_index
);
2832 left_eliminates_term
= (temp
== true_rtx
);
2835 right
= simplify_and_tree (XEXP (exp
, 1), &temp
, insn_code
, insn_index
);
2836 right_eliminates_term
= (temp
== true_rtx
);
2838 if (left_eliminates_term
&& right_eliminates_term
)
2841 if (left
!= XEXP (exp
, 0) || right
!= XEXP (exp
, 1))
2843 newexp
= attr_rtx (GET_CODE (exp
), left
, right
);
2845 exp
= SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
2849 /* Check for simplifications. Do some extra checking here since this
2850 routine is called so many times. */
2855 else if (GET_CODE (exp
) == NOT
&& XEXP (exp
, 0) == *pterm
)
2858 else if (GET_CODE (*pterm
) == NOT
&& exp
== XEXP (*pterm
, 0))
2861 else if (GET_CODE (exp
) == EQ_ATTR
&& GET_CODE (*pterm
) == EQ_ATTR
)
2863 if (XSTR (exp
, 0) != XSTR (*pterm
, 0))
2866 if (! strcmp (XSTR (exp
, 1), XSTR (*pterm
, 1)))
2872 else if (GET_CODE (*pterm
) == EQ_ATTR
&& GET_CODE (exp
) == NOT
2873 && GET_CODE (XEXP (exp
, 0)) == EQ_ATTR
)
2875 if (XSTR (*pterm
, 0) != XSTR (XEXP (exp
, 0), 0))
2878 if (! strcmp (XSTR (*pterm
, 1), XSTR (XEXP (exp
, 0), 1)))
2884 else if (GET_CODE (exp
) == EQ_ATTR
&& GET_CODE (*pterm
) == NOT
2885 && GET_CODE (XEXP (*pterm
, 0)) == EQ_ATTR
)
2887 if (XSTR (exp
, 0) != XSTR (XEXP (*pterm
, 0), 0))
2890 if (! strcmp (XSTR (exp
, 1), XSTR (XEXP (*pterm
, 0), 1)))
2896 else if (GET_CODE (exp
) == NOT
&& GET_CODE (*pterm
) == NOT
)
2898 if (attr_equal_p (XEXP (exp
, 0), XEXP (*pterm
, 0)))
2902 else if (GET_CODE (exp
) == NOT
)
2904 if (attr_equal_p (XEXP (exp
, 0), *pterm
))
2908 else if (GET_CODE (*pterm
) == NOT
)
2910 if (attr_equal_p (XEXP (*pterm
, 0), exp
))
2914 else if (attr_equal_p (exp
, *pterm
))
2920 /* Similar to `simplify_and_tree', but for IOR trees. */
2923 simplify_or_tree (exp
, pterm
, insn_code
, insn_index
)
2926 int insn_code
, insn_index
;
2931 int left_eliminates_term
, right_eliminates_term
;
2933 if (GET_CODE (exp
) == IOR
)
2935 left
= simplify_or_tree (XEXP (exp
, 0), pterm
, insn_code
, insn_index
);
2936 right
= simplify_or_tree (XEXP (exp
, 1), pterm
, insn_code
, insn_index
);
2937 if (left
!= XEXP (exp
, 0) || right
!= XEXP (exp
, 1))
2939 newexp
= attr_rtx (GET_CODE (exp
), left
, right
);
2941 exp
= SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
2945 else if (GET_CODE (exp
) == AND
)
2947 /* For the AND case, we do the same as above, except that we can
2948 only eliminate `term' if both sides of the AND would do so. */
2950 left
= simplify_or_tree (XEXP (exp
, 0), &temp
, insn_code
, insn_index
);
2951 left_eliminates_term
= (temp
== false_rtx
);
2954 right
= simplify_or_tree (XEXP (exp
, 1), &temp
, insn_code
, insn_index
);
2955 right_eliminates_term
= (temp
== false_rtx
);
2957 if (left_eliminates_term
&& right_eliminates_term
)
2960 if (left
!= XEXP (exp
, 0) || right
!= XEXP (exp
, 1))
2962 newexp
= attr_rtx (GET_CODE (exp
), left
, right
);
2964 exp
= SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
2968 if (attr_equal_p (exp
, *pterm
))
2971 else if (GET_CODE (exp
) == NOT
&& attr_equal_p (XEXP (exp
, 0), *pterm
))
2974 else if (GET_CODE (*pterm
) == NOT
&& attr_equal_p (XEXP (*pterm
, 0), exp
))
2977 else if (GET_CODE (*pterm
) == EQ_ATTR
&& GET_CODE (exp
) == NOT
2978 && GET_CODE (XEXP (exp
, 0)) == EQ_ATTR
2979 && XSTR (*pterm
, 0) == XSTR (XEXP (exp
, 0), 0))
2982 else if (GET_CODE (exp
) == EQ_ATTR
&& GET_CODE (*pterm
) == NOT
2983 && GET_CODE (XEXP (*pterm
, 0)) == EQ_ATTR
2984 && XSTR (exp
, 0) == XSTR (XEXP (*pterm
, 0), 0))
2990 /* Given an expression, see if it can be simplified for a particular insn
2991 code based on the values of other attributes being tested. This can
2992 eliminate nested get_attr_... calls.
2994 Note that if an endless recursion is specified in the patterns, the
2995 optimization will loop. However, it will do so in precisely the cases where
2996 an infinite recursion loop could occur during compilation. It's better that
3000 simplify_test_exp (exp
, insn_code
, insn_index
)
3002 int insn_code
, insn_index
;
3005 struct attr_desc
*attr
;
3006 struct attr_value
*av
;
3007 struct insn_ent
*ie
;
3010 char *spacer
= (char *) obstack_finish (rtl_obstack
);
3012 /* Don't re-simplify something we already simplified. */
3013 if (RTX_UNCHANGING_P (exp
) || MEM_IN_STRUCT_P (exp
))
3016 switch (GET_CODE (exp
))
3019 left
= SIMPLIFY_TEST_EXP (XEXP (exp
, 0), insn_code
, insn_index
);
3020 SIMPLIFY_ALTERNATIVE (left
);
3021 if (left
== false_rtx
)
3023 obstack_free (rtl_obstack
, spacer
);
3026 right
= SIMPLIFY_TEST_EXP (XEXP (exp
, 1), insn_code
, insn_index
);
3027 SIMPLIFY_ALTERNATIVE (right
);
3028 if (left
== false_rtx
)
3030 obstack_free (rtl_obstack
, spacer
);
3034 /* If either side is an IOR and we have (eq_attr "alternative" ..")
3035 present on both sides, apply the distributive law since this will
3036 yield simplifications. */
3037 if ((GET_CODE (left
) == IOR
|| GET_CODE (right
) == IOR
)
3038 && compute_alternative_mask (left
, IOR
)
3039 && compute_alternative_mask (right
, IOR
))
3041 if (GET_CODE (left
) == IOR
)
3048 newexp
= attr_rtx (IOR
,
3049 attr_rtx (AND
, left
, XEXP (right
, 0)),
3050 attr_rtx (AND
, left
, XEXP (right
, 1)));
3052 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3055 /* Try with the term on both sides. */
3056 right
= simplify_and_tree (right
, &left
, insn_code
, insn_index
);
3057 if (left
== XEXP (exp
, 0) && right
== XEXP (exp
, 1))
3058 left
= simplify_and_tree (left
, &right
, insn_code
, insn_index
);
3060 if (left
== false_rtx
|| right
== false_rtx
)
3062 obstack_free (rtl_obstack
, spacer
);
3065 else if (left
== true_rtx
)
3069 else if (right
== true_rtx
)
3073 /* See if all or all but one of the insn's alternatives are specified
3074 in this tree. Optimize if so. */
3076 else if (insn_code
>= 0
3077 && (GET_CODE (left
) == AND
3078 || (GET_CODE (left
) == NOT
3079 && GET_CODE (XEXP (left
, 0)) == EQ_ATTR
3080 && XSTR (XEXP (left
, 0), 0) == alternative_name
)
3081 || GET_CODE (right
) == AND
3082 || (GET_CODE (right
) == NOT
3083 && GET_CODE (XEXP (right
, 0)) == EQ_ATTR
3084 && XSTR (XEXP (right
, 0), 0) == alternative_name
)))
3086 i
= compute_alternative_mask (exp
, AND
);
3087 if (i
& ~insn_alternatives
[insn_code
])
3088 fatal ("Invalid alternative specified for pattern number %d",
3091 /* If all alternatives are excluded, this is false. */
3092 i
^= insn_alternatives
[insn_code
];
3095 else if ((i
& (i
- 1)) == 0 && insn_alternatives
[insn_code
] > 1)
3097 /* If just one excluded, AND a comparison with that one to the
3098 front of the tree. The others will be eliminated by
3099 optimization. We do not want to do this if the insn has one
3100 alternative and we have tested none of them! */
3101 left
= make_alternative_compare (i
);
3102 right
= simplify_and_tree (exp
, &left
, insn_code
, insn_index
);
3103 newexp
= attr_rtx (AND
, left
, right
);
3105 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3109 if (left
!= XEXP (exp
, 0) || right
!= XEXP (exp
, 1))
3111 newexp
= attr_rtx (AND
, left
, right
);
3112 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3117 left
= SIMPLIFY_TEST_EXP (XEXP (exp
, 0), insn_code
, insn_index
);
3118 SIMPLIFY_ALTERNATIVE (left
);
3119 if (left
== true_rtx
)
3121 obstack_free (rtl_obstack
, spacer
);
3124 right
= SIMPLIFY_TEST_EXP (XEXP (exp
, 1), insn_code
, insn_index
);
3125 SIMPLIFY_ALTERNATIVE (right
);
3126 if (right
== true_rtx
)
3128 obstack_free (rtl_obstack
, spacer
);
3132 right
= simplify_or_tree (right
, &left
, insn_code
, insn_index
);
3133 if (left
== XEXP (exp
, 0) && right
== XEXP (exp
, 1))
3134 left
= simplify_or_tree (left
, &right
, insn_code
, insn_index
);
3136 if (right
== true_rtx
|| left
== true_rtx
)
3138 obstack_free (rtl_obstack
, spacer
);
3141 else if (left
== false_rtx
)
3145 else if (right
== false_rtx
)
3150 /* Test for simple cases where the distributive law is useful. I.e.,
3151 convert (ior (and (x) (y))
3157 else if (GET_CODE (left
) == AND
&& GET_CODE (right
) == AND
3158 && attr_equal_p (XEXP (left
, 0), XEXP (right
, 0)))
3160 newexp
= attr_rtx (IOR
, XEXP (left
, 1), XEXP (right
, 1));
3162 left
= XEXP (left
, 0);
3164 newexp
= attr_rtx (AND
, left
, right
);
3165 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3168 /* See if all or all but one of the insn's alternatives are specified
3169 in this tree. Optimize if so. */
3171 else if (insn_code
>= 0
3172 && (GET_CODE (left
) == IOR
3173 || (GET_CODE (left
) == EQ_ATTR
3174 && XSTR (left
, 0) == alternative_name
)
3175 || GET_CODE (right
) == IOR
3176 || (GET_CODE (right
) == EQ_ATTR
3177 && XSTR (right
, 0) == alternative_name
)))
3179 i
= compute_alternative_mask (exp
, IOR
);
3180 if (i
& ~insn_alternatives
[insn_code
])
3181 fatal ("Invalid alternative specified for pattern number %d",
3184 /* If all alternatives are included, this is true. */
3185 i
^= insn_alternatives
[insn_code
];
3188 else if ((i
& (i
- 1)) == 0 && insn_alternatives
[insn_code
] > 1)
3190 /* If just one excluded, IOR a comparison with that one to the
3191 front of the tree. The others will be eliminated by
3192 optimization. We do not want to do this if the insn has one
3193 alternative and we have tested none of them! */
3194 left
= make_alternative_compare (i
);
3195 right
= simplify_and_tree (exp
, &left
, insn_code
, insn_index
);
3196 newexp
= attr_rtx (IOR
, attr_rtx (NOT
, left
), right
);
3198 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3202 if (left
!= XEXP (exp
, 0) || right
!= XEXP (exp
, 1))
3204 newexp
= attr_rtx (IOR
, left
, right
);
3205 return SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3210 if (GET_CODE (XEXP (exp
, 0)) == NOT
)
3212 left
= SIMPLIFY_TEST_EXP (XEXP (XEXP (exp
, 0), 0),
3213 insn_code
, insn_index
);
3214 SIMPLIFY_ALTERNATIVE (left
);
3218 left
= SIMPLIFY_TEST_EXP (XEXP (exp
, 0), insn_code
, insn_index
);
3219 SIMPLIFY_ALTERNATIVE (left
);
3220 if (GET_CODE (left
) == NOT
)
3221 return XEXP (left
, 0);
3223 if (left
== false_rtx
)
3225 obstack_free (rtl_obstack
, spacer
);
3228 else if (left
== true_rtx
)
3230 obstack_free (rtl_obstack
, spacer
);
3234 /* Try to apply De`Morgan's laws. */
3235 else if (GET_CODE (left
) == IOR
)
3237 newexp
= attr_rtx (AND
,
3238 attr_rtx (NOT
, XEXP (left
, 0)),
3239 attr_rtx (NOT
, XEXP (left
, 1)));
3241 newexp
= SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3243 else if (GET_CODE (left
) == AND
)
3245 newexp
= attr_rtx (IOR
,
3246 attr_rtx (NOT
, XEXP (left
, 0)),
3247 attr_rtx (NOT
, XEXP (left
, 1)));
3249 newexp
= SIMPLIFY_TEST_EXP (newexp
, insn_code
, insn_index
);
3251 else if (left
!= XEXP (exp
, 0))
3253 newexp
= attr_rtx (NOT
, left
);
3258 if (current_alternative_string
&& XSTR (exp
, 0) == alternative_name
)
3259 return (XSTR (exp
, 1) == current_alternative_string
3260 ? true_rtx
: false_rtx
);
3262 /* Look at the value for this insn code in the specified attribute.
3263 We normally can replace this comparison with the condition that
3264 would give this insn the values being tested for. */
3265 if (XSTR (exp
, 0) != alternative_name
3266 && (attr
= find_attr (XSTR (exp
, 0), 0)) != NULL
)
3267 for (av
= attr
->first_value
; av
; av
= av
->next
)
3268 for (ie
= av
->first_insn
; ie
; ie
= ie
->next
)
3269 if (ie
->insn_code
== insn_code
)
3270 return evaluate_eq_attr (exp
, av
->value
, insn_code
, insn_index
);
3273 /* We have already simplified this expression. Simplifying it again
3274 won't buy anything unless we weren't given a valid insn code
3275 to process (i.e., we are canonicalizing something.). */
3276 if (insn_code
!= -2 /* Seems wrong: && current_alternative_string. */
3277 && ! RTX_UNCHANGING_P (newexp
))
3278 return copy_rtx_unchanging (newexp
);
3283 /* Optimize the attribute lists by seeing if we can determine conditional
3284 values from the known values of other attributes. This will save subroutine
3285 calls during the compilation. */
3290 struct attr_desc
*attr
;
3291 struct attr_value
*av
;
3292 struct insn_ent
*ie
;
3294 int something_changed
= 1;
3296 struct attr_value_list
{ struct attr_value
*av
;
3297 struct insn_ent
*ie
;
3298 struct attr_desc
* attr
;
3299 struct attr_value_list
*next
; };
3300 struct attr_value_list
**insn_code_values
;
3301 struct attr_value_list
*ivbuf
;
3302 struct attr_value_list
*iv
;
3304 /* For each insn code, make a list of all the insn_ent's for it,
3305 for all values for all attributes. */
3307 if (num_insn_ents
== 0)
3310 /* Make 2 extra elements, for "code" values -2 and -1. */
3312 = (struct attr_value_list
**) alloca ((insn_code_number
+ 2)
3313 * sizeof (struct attr_value_list
*));
3314 bzero ((char *) insn_code_values
,
3315 (insn_code_number
+ 2) * sizeof (struct attr_value_list
*));
3317 /* Offset the table address so we can index by -2 or -1. */
3318 insn_code_values
+= 2;
3320 /* Allocate the attr_value_list structures using xmalloc rather than
3321 alloca, because using alloca can overflow the maximum permitted
3322 stack limit on SPARC Lynx. */
3323 iv
= ivbuf
= ((struct attr_value_list
*)
3324 xmalloc (num_insn_ents
* sizeof (struct attr_value_list
)));
3326 for (i
= 0; i
< MAX_ATTRS_INDEX
; i
++)
3327 for (attr
= attrs
[i
]; attr
; attr
= attr
->next
)
3328 for (av
= attr
->first_value
; av
; av
= av
->next
)
3329 for (ie
= av
->first_insn
; ie
; ie
= ie
->next
)
3334 iv
->next
= insn_code_values
[ie
->insn_code
];
3335 insn_code_values
[ie
->insn_code
] = iv
;
3339 /* Sanity check on num_insn_ents. */
3340 if (iv
!= ivbuf
+ num_insn_ents
)
3343 /* Process one insn code at a time. */
3344 for (i
= -2; i
< insn_code_number
; i
++)
3346 /* Clear the MEM_IN_STRUCT_P flag everywhere relevant.
3347 We use it to mean "already simplified for this insn". */
3348 for (iv
= insn_code_values
[i
]; iv
; iv
= iv
->next
)
3349 clear_struct_flag (iv
->av
->value
);
3351 /* Loop until nothing changes for one iteration. */
3352 something_changed
= 1;
3353 while (something_changed
)
3355 something_changed
= 0;
3356 for (iv
= insn_code_values
[i
]; iv
; iv
= iv
->next
)
3358 struct obstack
*old
= rtl_obstack
;
3359 char *spacer
= (char *) obstack_finish (temp_obstack
);
3364 if (GET_CODE (av
->value
) != COND
)
3367 rtl_obstack
= temp_obstack
;
3368 #if 0 /* This was intended as a speed up, but it was slower. */
3369 if (insn_n_alternatives
[ie
->insn_code
] > 6
3370 && count_sub_rtxs (av
->value
, 200) >= 200)
3371 newexp
= simplify_by_alternatives (av
->value
, ie
->insn_code
,
3375 newexp
= simplify_cond (av
->value
, ie
->insn_code
,
3379 if (newexp
!= av
->value
)
3381 newexp
= attr_copy_rtx (newexp
);
3382 remove_insn_ent (av
, ie
);
3383 av
= get_attr_value (newexp
, attr
, ie
->insn_code
);
3385 insert_insn_ent (av
, ie
);
3386 something_changed
= 1;
3388 obstack_free (temp_obstack
, spacer
);
3398 simplify_by_alternatives (exp
, insn_code
, insn_index
)
3400 int insn_code
, insn_index
;
3403 int len
= insn_n_alternatives
[insn_code
];
3404 rtx newexp
= rtx_alloc (COND
);
3408 XVEC (newexp
, 0) = rtvec_alloc (len
* 2);
3410 /* It will not matter what value we use as the default value
3411 of the new COND, since that default will never be used.
3412 Choose something of the right type. */
3413 for (ultimate
= exp
; GET_CODE (ultimate
) == COND
;)
3414 ultimate
= XEXP (ultimate
, 1);
3415 XEXP (newexp
, 1) = ultimate
;
3417 for (i
= 0; i
< insn_n_alternatives
[insn_code
]; i
++)
3419 current_alternative_string
= attr_numeral (i
);
3420 XVECEXP (newexp
, 0, i
* 2) = make_alternative_compare (1 << i
);
3421 XVECEXP (newexp
, 0, i
* 2 + 1)
3422 = simplify_cond (exp
, insn_code
, insn_index
);
3425 current_alternative_string
= 0;
3426 return simplify_cond (newexp
, insn_code
, insn_index
);
3430 /* If EXP is a suitable expression, reorganize it by constructing an
3431 equivalent expression that is a COND with the tests being all combinations
3432 of attribute values and the values being simple constants. */
3435 simplify_by_exploding (exp
)
3438 rtx list
= 0, link
, condexp
, defval
;
3439 struct dimension
*space
;
3440 rtx
*condtest
, *condval
;
3441 int i
, j
, total
, ndim
= 0;
3442 int most_tests
, num_marks
, new_marks
;
3444 /* Locate all the EQ_ATTR expressions. */
3445 if (! find_and_mark_used_attributes (exp
, &list
, &ndim
) || ndim
== 0)
3447 unmark_used_attributes (list
, 0, 0);
3451 /* Create an attribute space from the list of used attributes. For each
3452 dimension in the attribute space, record the attribute, list of values
3453 used, and number of values used. Add members to the list of values to
3454 cover the domain of the attribute. This makes the expanded COND form
3455 order independent. */
3457 space
= (struct dimension
*) alloca (ndim
* sizeof (struct dimension
));
3460 for (ndim
= 0; list
; ndim
++)
3462 /* Pull the first attribute value from the list and record that
3463 attribute as another dimension in the attribute space. */
3464 char *name
= XSTR (XEXP (list
, 0), 0);
3467 if ((space
[ndim
].attr
= find_attr (name
, 0)) == 0
3468 || space
[ndim
].attr
->is_numeric
)
3470 unmark_used_attributes (list
, space
, ndim
);
3474 /* Add all remaining attribute values that refer to this attribute. */
3475 space
[ndim
].num_values
= 0;
3476 space
[ndim
].values
= 0;
3478 for (link
= list
; link
; link
= *prev
)
3479 if (! strcmp (XSTR (XEXP (link
, 0), 0), name
))
3481 space
[ndim
].num_values
++;
3482 *prev
= XEXP (link
, 1);
3483 XEXP (link
, 1) = space
[ndim
].values
;
3484 space
[ndim
].values
= link
;
3487 prev
= &XEXP (link
, 1);
3489 /* Add sufficient members to the list of values to make the list
3490 mutually exclusive and record the total size of the attribute
3492 total
*= add_values_to_cover (&space
[ndim
]);
3495 /* Sort the attribute space so that the attributes go from non-constant
3496 to constant and from most values to least values. */
3497 for (i
= 0; i
< ndim
; i
++)
3498 for (j
= ndim
- 1; j
> i
; j
--)
3499 if ((space
[j
-1].attr
->is_const
&& !space
[j
].attr
->is_const
)
3500 || space
[j
-1].num_values
< space
[j
].num_values
)
3502 struct dimension tmp
;
3504 space
[j
] = space
[j
-1];
3508 /* Establish the initial current value. */
3509 for (i
= 0; i
< ndim
; i
++)
3510 space
[i
].current_value
= space
[i
].values
;
3512 condtest
= (rtx
*) alloca (total
* sizeof (rtx
));
3513 condval
= (rtx
*) alloca (total
* sizeof (rtx
));
3515 /* Expand the tests and values by iterating over all values in the
3519 condtest
[i
] = test_for_current_value (space
, ndim
);
3520 condval
[i
] = simplify_with_current_value (exp
, space
, ndim
);
3521 if (! increment_current_value (space
, ndim
))
3527 /* We are now finished with the original expression. */
3528 unmark_used_attributes (0, space
, ndim
);
3530 /* Find the most used constant value and make that the default. */
3532 for (i
= num_marks
= 0; i
< total
; i
++)
3533 if (GET_CODE (condval
[i
]) == CONST_STRING
3534 && ! MEM_VOLATILE_P (condval
[i
]))
3536 /* Mark the unmarked constant value and count how many are marked. */
3537 MEM_VOLATILE_P (condval
[i
]) = 1;
3538 for (j
= new_marks
= 0; j
< total
; j
++)
3539 if (GET_CODE (condval
[j
]) == CONST_STRING
3540 && MEM_VOLATILE_P (condval
[j
]))
3542 if (new_marks
- num_marks
> most_tests
)
3544 most_tests
= new_marks
- num_marks
;
3545 defval
= condval
[i
];
3547 num_marks
= new_marks
;
3549 /* Clear all the marks. */
3550 for (i
= 0; i
< total
; i
++)
3551 MEM_VOLATILE_P (condval
[i
]) = 0;
3553 /* Give up if nothing is constant. */
3557 /* If all values are the default, use that. */
3558 if (total
== most_tests
)
3561 /* Make a COND with the most common constant value the default. (A more
3562 complex method where tests with the same value were combined didn't
3563 seem to improve things.) */
3564 condexp
= rtx_alloc (COND
);
3565 XVEC (condexp
, 0) = rtvec_alloc ((total
- most_tests
) * 2);
3566 XEXP (condexp
, 1) = defval
;
3567 for (i
= j
= 0; i
< total
; i
++)
3568 if (condval
[i
] != defval
)
3570 XVECEXP (condexp
, 0, 2 * j
) = condtest
[i
];
3571 XVECEXP (condexp
, 0, 2 * j
+ 1) = condval
[i
];
3578 /* Set the MEM_VOLATILE_P flag for all EQ_ATTR expressions in EXP and
3579 verify that EXP can be simplified to a constant term if all the EQ_ATTR
3580 tests have known value. */
3583 find_and_mark_used_attributes (exp
, terms
, nterms
)
3589 switch (GET_CODE (exp
))
3592 if (! MEM_VOLATILE_P (exp
))
3594 rtx link
= rtx_alloc (EXPR_LIST
);
3595 XEXP (link
, 0) = exp
;
3596 XEXP (link
, 1) = *terms
;
3599 MEM_VOLATILE_P (exp
) = 1;
3605 if (! find_and_mark_used_attributes (XEXP (exp
, 2), terms
, nterms
))
3609 if (! find_and_mark_used_attributes (XEXP (exp
, 1), terms
, nterms
))
3612 if (! find_and_mark_used_attributes (XEXP (exp
, 0), terms
, nterms
))
3617 for (i
= 0; i
< XVECLEN (exp
, 0); i
++)
3618 if (! find_and_mark_used_attributes (XVECEXP (exp
, 0, i
), terms
, nterms
))
3620 if (! find_and_mark_used_attributes (XEXP (exp
, 1), terms
, nterms
))
3628 /* Clear the MEM_VOLATILE_P flag in all EQ_ATTR expressions on LIST and
3629 in the values of the NDIM-dimensional attribute space SPACE. */
3632 unmark_used_attributes (list
, space
, ndim
)
3634 struct dimension
*space
;
3640 for (i
= 0; i
< ndim
; i
++)
3641 unmark_used_attributes (space
[i
].values
, 0, 0);
3643 for (link
= list
; link
; link
= XEXP (link
, 1))
3645 exp
= XEXP (link
, 0);
3646 if (GET_CODE (exp
) == EQ_ATTR
)
3647 MEM_VOLATILE_P (exp
) = 0;
3651 /* Update the attribute dimension DIM so that all values of the attribute
3652 are tested. Return the updated number of values. */
3655 add_values_to_cover (dim
)
3656 struct dimension
*dim
;
3658 struct attr_value
*av
;
3659 rtx exp
, link
, *prev
;
3662 for (av
= dim
->attr
->first_value
; av
; av
= av
->next
)
3663 if (GET_CODE (av
->value
) == CONST_STRING
)
3666 if (nalt
< dim
->num_values
)
3668 else if (nalt
== dim
->num_values
)
3670 else if (nalt
* 2 < dim
->num_values
* 3)
3672 /* Most all the values of the attribute are used, so add all the unused
3674 prev
= &dim
->values
;
3675 for (link
= dim
->values
; link
; link
= *prev
)
3676 prev
= &XEXP (link
, 1);
3678 for (av
= dim
->attr
->first_value
; av
; av
= av
->next
)
3679 if (GET_CODE (av
->value
) == CONST_STRING
)
3681 exp
= attr_eq (dim
->attr
->name
, XSTR (av
->value
, 0));
3682 if (MEM_VOLATILE_P (exp
))
3685 link
= rtx_alloc (EXPR_LIST
);
3686 XEXP (link
, 0) = exp
;
3689 prev
= &XEXP (link
, 1);
3691 dim
->num_values
= nalt
;
3695 rtx orexp
= false_rtx
;
3697 /* Very few values are used, so compute a mutually exclusive
3698 expression. (We could do this for numeric values if that becomes
3700 prev
= &dim
->values
;
3701 for (link
= dim
->values
; link
; link
= *prev
)
3703 orexp
= insert_right_side (IOR
, orexp
, XEXP (link
, 0), -2, -2);
3704 prev
= &XEXP (link
, 1);
3706 link
= rtx_alloc (EXPR_LIST
);
3707 XEXP (link
, 0) = attr_rtx (NOT
, orexp
);
3712 return dim
->num_values
;
3715 /* Increment the current value for the NDIM-dimensional attribute space SPACE
3716 and return FALSE if the increment overflowed. */
3719 increment_current_value (space
, ndim
)
3720 struct dimension
*space
;
3725 for (i
= ndim
- 1; i
>= 0; i
--)
3727 if ((space
[i
].current_value
= XEXP (space
[i
].current_value
, 1)) == 0)
3728 space
[i
].current_value
= space
[i
].values
;
3735 /* Construct an expression corresponding to the current value for the
3736 NDIM-dimensional attribute space SPACE. */
3739 test_for_current_value (space
, ndim
)
3740 struct dimension
*space
;
3746 for (i
= 0; i
< ndim
; i
++)
3747 exp
= insert_right_side (AND
, exp
, XEXP (space
[i
].current_value
, 0),
3753 /* Given the current value of the NDIM-dimensional attribute space SPACE,
3754 set the corresponding EQ_ATTR expressions to that value and reduce
3755 the expression EXP as much as possible. On input [and output], all
3756 known EQ_ATTR expressions are set to FALSE. */
3759 simplify_with_current_value (exp
, space
, ndim
)
3761 struct dimension
*space
;
3767 /* Mark each current value as TRUE. */
3768 for (i
= 0; i
< ndim
; i
++)
3770 x
= XEXP (space
[i
].current_value
, 0);
3771 if (GET_CODE (x
) == EQ_ATTR
)
3772 MEM_VOLATILE_P (x
) = 0;
3775 exp
= simplify_with_current_value_aux (exp
);
3777 /* Change each current value back to FALSE. */
3778 for (i
= 0; i
< ndim
; i
++)
3780 x
= XEXP (space
[i
].current_value
, 0);
3781 if (GET_CODE (x
) == EQ_ATTR
)
3782 MEM_VOLATILE_P (x
) = 1;
3788 /* Reduce the expression EXP based on the MEM_VOLATILE_P settings of
3789 all EQ_ATTR expressions. */
3792 simplify_with_current_value_aux (exp
)
3798 switch (GET_CODE (exp
))
3801 if (MEM_VOLATILE_P (exp
))
3809 cond
= simplify_with_current_value_aux (XEXP (exp
, 0));
3810 if (cond
== true_rtx
)
3811 return simplify_with_current_value_aux (XEXP (exp
, 1));
3812 else if (cond
== false_rtx
)
3813 return simplify_with_current_value_aux (XEXP (exp
, 2));
3815 return attr_rtx (IF_THEN_ELSE
, cond
,
3816 simplify_with_current_value_aux (XEXP (exp
, 1)),
3817 simplify_with_current_value_aux (XEXP (exp
, 2)));
3820 cond
= simplify_with_current_value_aux (XEXP (exp
, 1));
3821 if (cond
== true_rtx
)
3823 else if (cond
== false_rtx
)
3824 return simplify_with_current_value_aux (XEXP (exp
, 0));
3826 return attr_rtx (IOR
, cond
,
3827 simplify_with_current_value_aux (XEXP (exp
, 0)));
3830 cond
= simplify_with_current_value_aux (XEXP (exp
, 1));
3831 if (cond
== true_rtx
)
3832 return simplify_with_current_value_aux (XEXP (exp
, 0));
3833 else if (cond
== false_rtx
)
3836 return attr_rtx (AND
, cond
,
3837 simplify_with_current_value_aux (XEXP (exp
, 0)));
3840 cond
= simplify_with_current_value_aux (XEXP (exp
, 0));
3841 if (cond
== true_rtx
)
3843 else if (cond
== false_rtx
)
3846 return attr_rtx (NOT
, cond
);
3849 for (i
= 0; i
< XVECLEN (exp
, 0); i
+= 2)
3851 cond
= simplify_with_current_value_aux (XVECEXP (exp
, 0, i
));
3852 if (cond
== true_rtx
)
3853 return simplify_with_current_value_aux (XVECEXP (exp
, 0, i
+ 1));
3854 else if (cond
== false_rtx
)
3857 abort (); /* With all EQ_ATTR's of known value, a case should
3858 have been selected. */
3860 return simplify_with_current_value_aux (XEXP (exp
, 1));
3865 /* Clear the MEM_IN_STRUCT_P flag in EXP and its subexpressions. */
3868 clear_struct_flag (x
)
3873 register enum rtx_code code
;
3876 MEM_IN_STRUCT_P (x
) = 0;
3877 if (RTX_UNCHANGING_P (x
))
3880 code
= GET_CODE (x
);
3897 /* Compare the elements. If any pair of corresponding elements
3898 fail to match, return 0 for the whole things. */
3900 fmt
= GET_RTX_FORMAT (code
);
3901 for (i
= GET_RTX_LENGTH (code
) - 1; i
>= 0; i
--)
3907 for (j
= 0; j
< XVECLEN (x
, i
); j
++)
3908 clear_struct_flag (XVECEXP (x
, i
, j
));
3912 clear_struct_flag (XEXP (x
, i
));
3918 /* Return the number of RTX objects making up the expression X.
3919 But if we count more more than MAX objects, stop counting. */
3922 count_sub_rtxs (x
, max
)
3928 register enum rtx_code code
;
3932 code
= GET_CODE (x
);
3949 /* Compare the elements. If any pair of corresponding elements
3950 fail to match, return 0 for the whole things. */
3952 fmt
= GET_RTX_FORMAT (code
);
3953 for (i
= GET_RTX_LENGTH (code
) - 1; i
>= 0; i
--)
3962 for (j
= 0; j
< XVECLEN (x
, i
); j
++)
3963 total
+= count_sub_rtxs (XVECEXP (x
, i
, j
), max
);
3967 total
+= count_sub_rtxs (XEXP (x
, i
), max
);
3975 /* Create table entries for DEFINE_ATTR. */
3981 struct attr_desc
*attr
;
3982 struct attr_value
*av
;
3986 /* Make a new attribute structure. Check for duplicate by looking at
3987 attr->default_val, since it is initialized by this routine. */
3988 attr
= find_attr (XSTR (exp
, 0), 1);
3989 if (attr
->default_val
)
3990 fatal ("Duplicate definition for `%s' attribute", attr
->name
);
3992 if (*XSTR (exp
, 1) == '\0')
3993 attr
->is_numeric
= 1;
3996 name_ptr
= XSTR (exp
, 1);
3997 while ((p
= next_comma_elt (&name_ptr
)) != NULL
)
3999 av
= (struct attr_value
*) oballoc (sizeof (struct attr_value
));
4000 av
->value
= attr_rtx (CONST_STRING
, p
);
4001 av
->next
= attr
->first_value
;
4002 attr
->first_value
= av
;
4003 av
->first_insn
= NULL
;
4005 av
->has_asm_insn
= 0;
4009 if (GET_CODE (XEXP (exp
, 2)) == CONST
)
4012 if (attr
->is_numeric
)
4013 fatal ("Constant attributes may not take numeric values");
4014 /* Get rid of the CONST node. It is allowed only at top-level. */
4015 XEXP (exp
, 2) = XEXP (XEXP (exp
, 2), 0);
4018 if (! strcmp (attr
->name
, "length") && ! attr
->is_numeric
)
4019 fatal ("`length' attribute must take numeric values");
4021 /* Set up the default value. */
4022 XEXP (exp
, 2) = check_attr_value (XEXP (exp
, 2), attr
);
4023 attr
->default_val
= get_attr_value (XEXP (exp
, 2), attr
, -2);
4026 /* Given a pattern for DEFINE_PEEPHOLE or DEFINE_INSN, return the number of
4027 alternatives in the constraints. Assume all MATCH_OPERANDs have the same
4028 number of alternatives as this should be checked elsewhere. */
4031 count_alternatives (exp
)
4037 if (GET_CODE (exp
) == MATCH_OPERAND
)
4038 return n_comma_elts (XSTR (exp
, 2));
4040 for (i
= 0, fmt
= GET_RTX_FORMAT (GET_CODE (exp
));
4041 i
< GET_RTX_LENGTH (GET_CODE (exp
)); i
++)
4046 n
= count_alternatives (XEXP (exp
, i
));
4053 if (XVEC (exp
, i
) != NULL
)
4054 for (j
= 0; j
< XVECLEN (exp
, i
); j
++)
4056 n
= count_alternatives (XVECEXP (exp
, i
, j
));
4065 /* Returns non-zero if the given expression contains an EQ_ATTR with the
4066 `alternative' attribute. */
4069 compares_alternatives_p (exp
)
4075 if (GET_CODE (exp
) == EQ_ATTR
&& XSTR (exp
, 0) == alternative_name
)
4078 for (i
= 0, fmt
= GET_RTX_FORMAT (GET_CODE (exp
));
4079 i
< GET_RTX_LENGTH (GET_CODE (exp
)); i
++)
4084 if (compares_alternatives_p (XEXP (exp
, i
)))
4089 for (j
= 0; j
< XVECLEN (exp
, i
); j
++)
4090 if (compares_alternatives_p (XVECEXP (exp
, i
, j
)))
4098 /* Returns non-zero is INNER is contained in EXP. */
4101 contained_in_p (inner
, exp
)
4108 if (rtx_equal_p (inner
, exp
))
4111 for (i
= 0, fmt
= GET_RTX_FORMAT (GET_CODE (exp
));
4112 i
< GET_RTX_LENGTH (GET_CODE (exp
)); i
++)
4117 if (contained_in_p (inner
, XEXP (exp
, i
)))
4122 for (j
= 0; j
< XVECLEN (exp
, i
); j
++)
4123 if (contained_in_p (inner
, XVECEXP (exp
, i
, j
)))
4131 /* Process DEFINE_PEEPHOLE, DEFINE_INSN, and DEFINE_ASM_ATTRIBUTES. */
4137 struct insn_def
*id
;
4139 id
= (struct insn_def
*) oballoc (sizeof (struct insn_def
));
4144 switch (GET_CODE (exp
))
4147 id
->insn_code
= insn_code_number
++;
4148 id
->insn_index
= insn_index_number
++;
4149 id
->num_alternatives
= count_alternatives (exp
);
4150 if (id
->num_alternatives
== 0)
4151 id
->num_alternatives
= 1;
4155 case DEFINE_PEEPHOLE
:
4156 id
->insn_code
= insn_code_number
++;
4157 id
->insn_index
= insn_index_number
++;
4158 id
->num_alternatives
= count_alternatives (exp
);
4159 if (id
->num_alternatives
== 0)
4160 id
->num_alternatives
= 1;
4164 case DEFINE_ASM_ATTRIBUTES
:
4166 id
->insn_index
= -1;
4167 id
->num_alternatives
= 1;
4169 got_define_asm_attributes
= 1;
4174 /* Process a DEFINE_DELAY. Validate the vector length, check if annul
4175 true or annul false is specified, and make a `struct delay_desc'. */
4181 struct delay_desc
*delay
;
4184 if (XVECLEN (def
, 1) % 3 != 0)
4185 fatal ("Number of elements in DEFINE_DELAY must be multiple of three.");
4187 for (i
= 0; i
< XVECLEN (def
, 1); i
+= 3)
4189 if (XVECEXP (def
, 1, i
+ 1))
4190 have_annul_true
= 1;
4191 if (XVECEXP (def
, 1, i
+ 2))
4192 have_annul_false
= 1;
4195 delay
= (struct delay_desc
*) oballoc (sizeof (struct delay_desc
));
4197 delay
->num
= ++num_delays
;
4198 delay
->next
= delays
;
4202 /* Process a DEFINE_FUNCTION_UNIT.
4204 This gives information about a function unit contained in the CPU.
4205 We fill in a `struct function_unit_op' and a `struct function_unit'
4206 with information used later by `expand_unit'. */
4212 struct function_unit
*unit
;
4213 struct function_unit_op
*op
;
4214 char *name
= XSTR (def
, 0);
4215 int multiplicity
= XINT (def
, 1);
4216 int simultaneity
= XINT (def
, 2);
4217 rtx condexp
= XEXP (def
, 3);
4218 int ready_cost
= MAX (XINT (def
, 4), 1);
4219 int issue_delay
= MAX (XINT (def
, 5), 1);
4221 /* See if we have already seen this function unit. If so, check that
4222 the multiplicity and simultaneity values are the same. If not, make
4223 a structure for this function unit. */
4224 for (unit
= units
; unit
; unit
= unit
->next
)
4225 if (! strcmp (unit
->name
, name
))
4227 if (unit
->multiplicity
!= multiplicity
4228 || unit
->simultaneity
!= simultaneity
)
4229 fatal ("Differing specifications given for `%s' function unit.",
4236 unit
= (struct function_unit
*) oballoc (sizeof (struct function_unit
));
4238 unit
->multiplicity
= multiplicity
;
4239 unit
->simultaneity
= simultaneity
;
4240 unit
->issue_delay
.min
= unit
->issue_delay
.max
= issue_delay
;
4241 unit
->num
= num_units
++;
4242 unit
->num_opclasses
= 0;
4243 unit
->condexp
= false_rtx
;
4249 /* Make a new operation class structure entry and initialize it. */
4250 op
= (struct function_unit_op
*) oballoc (sizeof (struct function_unit_op
));
4251 op
->condexp
= condexp
;
4252 op
->num
= unit
->num_opclasses
++;
4253 op
->ready
= ready_cost
;
4254 op
->issue_delay
= issue_delay
;
4255 op
->next
= unit
->ops
;
4258 /* Set our issue expression based on whether or not an optional conflict
4259 vector was specified. */
4262 /* Compute the IOR of all the specified expressions. */
4263 rtx orexp
= false_rtx
;
4266 for (i
= 0; i
< XVECLEN (def
, 6); i
++)
4267 orexp
= insert_right_side (IOR
, orexp
, XVECEXP (def
, 6, i
), -2, -2);
4269 op
->conflict_exp
= orexp
;
4270 extend_range (&unit
->issue_delay
, 1, issue_delay
);
4274 op
->conflict_exp
= true_rtx
;
4275 extend_range (&unit
->issue_delay
, issue_delay
, issue_delay
);
4278 /* Merge our conditional into that of the function unit so we can determine
4279 which insns are used by the function unit. */
4280 unit
->condexp
= insert_right_side (IOR
, unit
->condexp
, op
->condexp
, -2, -2);
4283 /* Given a piece of RTX, print a C expression to test it's truth value.
4284 We use AND and IOR both for logical and bit-wise operations, so
4285 interpret them as logical unless they are inside a comparison expression.
4286 The second operand of this function will be non-zero in that case. */
4289 write_test_expr (exp
, in_comparison
)
4293 int comparison_operator
= 0;
4295 struct attr_desc
*attr
;
4297 /* In order not to worry about operator precedence, surround our part of
4298 the expression with parentheses. */
4301 code
= GET_CODE (exp
);
4304 /* Binary operators. */
4306 case GE
: case GT
: case GEU
: case GTU
:
4307 case LE
: case LT
: case LEU
: case LTU
:
4308 comparison_operator
= 1;
4310 case PLUS
: case MINUS
: case MULT
: case DIV
: case MOD
:
4311 case AND
: case IOR
: case XOR
:
4312 case ASHIFT
: case LSHIFTRT
: case ASHIFTRT
:
4313 write_test_expr (XEXP (exp
, 0), in_comparison
|| comparison_operator
);
4329 printf (" >= (unsigned) ");
4332 printf (" > (unsigned) ");
4341 printf (" <= (unsigned) ");
4344 printf (" < (unsigned) ");
4385 write_test_expr (XEXP (exp
, 1), in_comparison
|| comparison_operator
);
4389 /* Special-case (not (eq_attrq "alternative" "x")) */
4390 if (! in_comparison
&& GET_CODE (XEXP (exp
, 0)) == EQ_ATTR
4391 && XSTR (XEXP (exp
, 0), 0) == alternative_name
)
4393 printf ("which_alternative != %s", XSTR (XEXP (exp
, 0), 1));
4397 /* Otherwise, fall through to normal unary operator. */
4399 /* Unary operators. */
4417 write_test_expr (XEXP (exp
, 0), in_comparison
);
4420 /* Comparison test of an attribute with a value. Most of these will
4421 have been removed by optimization. Handle "alternative"
4422 specially and give error if EQ_ATTR present inside a comparison. */
4425 fatal ("EQ_ATTR not valid inside comparison");
4427 if (XSTR (exp
, 0) == alternative_name
)
4429 printf ("which_alternative == %s", XSTR (exp
, 1));
4433 attr
= find_attr (XSTR (exp
, 0), 0);
4434 if (! attr
) abort ();
4436 /* Now is the time to expand the value of a constant attribute. */
4439 write_test_expr (evaluate_eq_attr (exp
, attr
->default_val
->value
,
4445 printf ("get_attr_%s (insn) == ", attr
->name
);
4446 write_attr_valueq (attr
, XSTR (exp
, 1));
4450 /* Comparison test of flags for define_delays. */
4453 fatal ("ATTR_FLAG not valid inside comparison");
4454 printf ("(flags & ATTR_FLAG_%s) != 0", XSTR (exp
, 0));
4457 /* See if an operand matches a predicate. */
4459 /* If only a mode is given, just ensure the mode matches the operand.
4460 If neither a mode nor predicate is given, error. */
4461 if (XSTR (exp
, 1) == NULL
|| *XSTR (exp
, 1) == '\0')
4463 if (GET_MODE (exp
) == VOIDmode
)
4464 fatal ("Null MATCH_OPERAND specified as test");
4466 printf ("GET_MODE (operands[%d]) == %smode",
4467 XINT (exp
, 0), GET_MODE_NAME (GET_MODE (exp
)));
4470 printf ("%s (operands[%d], %smode)",
4471 XSTR (exp
, 1), XINT (exp
, 0), GET_MODE_NAME (GET_MODE (exp
)));
4474 /* Constant integer. */
4476 #if HOST_BITS_PER_WIDE_INT == HOST_BITS_PER_INT
4477 printf ("%d", XWINT (exp
, 0));
4479 printf ("%ld", XWINT (exp
, 0));
4483 /* A random C expression. */
4485 printf ("%s", XSTR (exp
, 0));
4488 /* The address of the branch target. */
4490 printf ("insn_addresses[INSN_UID (JUMP_LABEL (insn))]");
4493 /* The address of the current insn. It would be more consistent with
4494 other usage to make this the address of the NEXT insn, but this gets
4495 too confusing because of the ambiguity regarding the length of the
4498 printf ("insn_current_address");
4502 fatal ("bad RTX code `%s' in attribute calculation\n",
4503 GET_RTX_NAME (code
));
4509 /* Given an attribute value, return the maximum CONST_STRING argument
4510 encountered. It is assumed that they are all numeric. */
4513 max_attr_value (exp
)
4516 int current_max
= 0;
4520 if (GET_CODE (exp
) == CONST_STRING
)
4521 return atoi (XSTR (exp
, 0));
4523 else if (GET_CODE (exp
) == COND
)
4525 for (i
= 0; i
< XVECLEN (exp
, 0); i
+= 2)
4527 n
= max_attr_value (XVECEXP (exp
, 0, i
+ 1));
4528 if (n
> current_max
)
4532 n
= max_attr_value (XEXP (exp
, 1));
4533 if (n
> current_max
)
4537 else if (GET_CODE (exp
) == IF_THEN_ELSE
)
4539 current_max
= max_attr_value (XEXP (exp
, 1));
4540 n
= max_attr_value (XEXP (exp
, 2));
4541 if (n
> current_max
)
4551 /* Scan an attribute value, possibly a conditional, and record what actions
4552 will be required to do any conditional tests in it.
4555 `must_extract' if we need to extract the insn operands
4556 `must_constrain' if we must compute `which_alternative'
4557 `address_used' if an address expression was used
4558 `length_used' if an (eq_attr "length" ...) was used
4562 walk_attr_value (exp
)
4572 code
= GET_CODE (exp
);
4576 if (! RTX_UNCHANGING_P (exp
))
4577 /* Since this is an arbitrary expression, it can look at anything.
4578 However, constant expressions do not depend on any particular
4580 must_extract
= must_constrain
= 1;
4588 if (XSTR (exp
, 0) == alternative_name
)
4589 must_extract
= must_constrain
= 1;
4590 else if (strcmp (XSTR (exp
, 0), "length") == 0)
4603 for (i
= 0, fmt
= GET_RTX_FORMAT (code
); i
< GET_RTX_LENGTH (code
); i
++)
4608 walk_attr_value (XEXP (exp
, i
));
4612 if (XVEC (exp
, i
) != NULL
)
4613 for (j
= 0; j
< XVECLEN (exp
, i
); j
++)
4614 walk_attr_value (XVECEXP (exp
, i
, j
));
4619 /* Write out a function to obtain the attribute for a given INSN. */
4622 write_attr_get (attr
)
4623 struct attr_desc
*attr
;
4625 struct attr_value
*av
, *common_av
;
4627 /* Find the most used attribute value. Handle that as the `default' of the
4628 switch we will generate. */
4629 common_av
= find_most_used (attr
);
4631 /* Write out start of function, then all values with explicit `case' lines,
4632 then a `default', then the value with the most uses. */
4633 if (!attr
->is_numeric
)
4634 printf ("enum attr_%s\n", attr
->name
);
4635 else if (attr
->unsigned_p
)
4636 printf ("unsigned int\n");
4640 /* If the attribute name starts with a star, the remainder is the name of
4641 the subroutine to use, instead of `get_attr_...'. */
4642 if (attr
->name
[0] == '*')
4643 printf ("%s (insn)\n", &attr
->name
[1]);
4644 else if (attr
->is_const
== 0)
4645 printf ("get_attr_%s (insn)\n", attr
->name
);
4648 printf ("get_attr_%s ()\n", attr
->name
);
4651 for (av
= attr
->first_value
; av
; av
= av
->next
)
4652 if (av
->num_insns
!= 0)
4653 write_attr_set (attr
, 2, av
->value
, "return", ";",
4654 true_rtx
, av
->first_insn
->insn_code
,
4655 av
->first_insn
->insn_index
);
4660 printf (" rtx insn;\n");
4662 printf (" switch (recog_memoized (insn))\n");
4665 for (av
= attr
->first_value
; av
; av
= av
->next
)
4666 if (av
!= common_av
)
4667 write_attr_case (attr
, av
, 1, "return", ";", 4, true_rtx
);
4669 write_attr_case (attr
, common_av
, 0, "return", ";", 4, true_rtx
);
4670 printf (" }\n}\n\n");
4673 /* Given an AND tree of known true terms (because we are inside an `if' with
4674 that as the condition or are in an `else' clause) and an expression,
4675 replace any known true terms with TRUE. Use `simplify_and_tree' to do
4676 the bulk of the work. */
4679 eliminate_known_true (known_true
, exp
, insn_code
, insn_index
)
4682 int insn_code
, insn_index
;
4686 known_true
= SIMPLIFY_TEST_EXP (known_true
, insn_code
, insn_index
);
4688 if (GET_CODE (known_true
) == AND
)
4690 exp
= eliminate_known_true (XEXP (known_true
, 0), exp
,
4691 insn_code
, insn_index
);
4692 exp
= eliminate_known_true (XEXP (known_true
, 1), exp
,
4693 insn_code
, insn_index
);
4698 exp
= simplify_and_tree (exp
, &term
, insn_code
, insn_index
);
4704 /* Write out a series of tests and assignment statements to perform tests and
4705 sets of an attribute value. We are passed an indentation amount and prefix
4706 and suffix strings to write around each attribute value (e.g., "return"
4710 write_attr_set (attr
, indent
, value
, prefix
, suffix
, known_true
,
4711 insn_code
, insn_index
)
4712 struct attr_desc
*attr
;
4718 int insn_code
, insn_index
;
4720 if (GET_CODE (value
) == CONST_STRING
)
4722 write_indent (indent
);
4723 printf ("%s ", prefix
);
4724 write_attr_value (attr
, value
);
4725 printf ("%s\n", suffix
);
4727 else if (GET_CODE (value
) == COND
)
4729 /* Assume the default value will be the default of the COND unless we
4730 find an always true expression. */
4731 rtx default_val
= XEXP (value
, 1);
4732 rtx our_known_true
= known_true
;
4737 for (i
= 0; i
< XVECLEN (value
, 0); i
+= 2)
4742 testexp
= eliminate_known_true (our_known_true
,
4743 XVECEXP (value
, 0, i
),
4744 insn_code
, insn_index
);
4745 newexp
= attr_rtx (NOT
, testexp
);
4746 newexp
= insert_right_side (AND
, our_known_true
, newexp
,
4747 insn_code
, insn_index
);
4749 /* If the test expression is always true or if the next `known_true'
4750 expression is always false, this is the last case, so break
4751 out and let this value be the `else' case. */
4752 if (testexp
== true_rtx
|| newexp
== false_rtx
)
4754 default_val
= XVECEXP (value
, 0, i
+ 1);
4758 /* Compute the expression to pass to our recursive call as being
4760 inner_true
= insert_right_side (AND
, our_known_true
,
4761 testexp
, insn_code
, insn_index
);
4763 /* If this is always false, skip it. */
4764 if (inner_true
== false_rtx
)
4767 write_indent (indent
);
4768 printf ("%sif ", first_if
? "" : "else ");
4770 write_test_expr (testexp
, 0);
4772 write_indent (indent
+ 2);
4775 write_attr_set (attr
, indent
+ 4,
4776 XVECEXP (value
, 0, i
+ 1), prefix
, suffix
,
4777 inner_true
, insn_code
, insn_index
);
4778 write_indent (indent
+ 2);
4780 our_known_true
= newexp
;
4785 write_indent (indent
);
4787 write_indent (indent
+ 2);
4791 write_attr_set (attr
, first_if
? indent
: indent
+ 4, default_val
,
4792 prefix
, suffix
, our_known_true
, insn_code
, insn_index
);
4796 write_indent (indent
+ 2);
4804 /* Write out the computation for one attribute value. */
4807 write_attr_case (attr
, av
, write_case_lines
, prefix
, suffix
, indent
,
4809 struct attr_desc
*attr
;
4810 struct attr_value
*av
;
4811 int write_case_lines
;
4812 char *prefix
, *suffix
;
4816 struct insn_ent
*ie
;
4818 if (av
->num_insns
== 0)
4821 if (av
->has_asm_insn
)
4823 write_indent (indent
);
4824 printf ("case -1:\n");
4825 write_indent (indent
+ 2);
4826 printf ("if (GET_CODE (PATTERN (insn)) != ASM_INPUT\n");
4827 write_indent (indent
+ 2);
4828 printf (" && asm_noperands (PATTERN (insn)) < 0)\n");
4829 write_indent (indent
+ 2);
4830 printf (" fatal_insn_not_found (insn);\n");
4833 if (write_case_lines
)
4835 for (ie
= av
->first_insn
; ie
; ie
= ie
->next
)
4836 if (ie
->insn_code
!= -1)
4838 write_indent (indent
);
4839 printf ("case %d:\n", ie
->insn_code
);
4844 write_indent (indent
);
4845 printf ("default:\n");
4848 /* See what we have to do to output this value. */
4849 must_extract
= must_constrain
= address_used
= 0;
4850 walk_attr_value (av
->value
);
4854 write_indent (indent
+ 2);
4855 printf ("insn_extract (insn);\n");
4860 #ifdef REGISTER_CONSTRAINTS
4861 write_indent (indent
+ 2);
4862 printf ("if (! constrain_operands (INSN_CODE (insn), reload_completed))\n");
4863 write_indent (indent
+ 2);
4864 printf (" fatal_insn_not_found (insn);\n");
4868 write_attr_set (attr
, indent
+ 2, av
->value
, prefix
, suffix
,
4869 known_true
, av
->first_insn
->insn_code
,
4870 av
->first_insn
->insn_index
);
4872 if (strncmp (prefix
, "return", 6))
4874 write_indent (indent
+ 2);
4875 printf ("break;\n");
4880 /* Utilities to write names in various forms. */
4883 write_attr_valueq (attr
, s
)
4884 struct attr_desc
*attr
;
4887 if (attr
->is_numeric
)
4890 /* Make the blockage range values easier to read. */
4892 printf (" /* 0x%x */", atoi (s
));
4896 write_upcase (attr
->name
);
4903 write_attr_value (attr
, value
)
4904 struct attr_desc
*attr
;
4907 if (GET_CODE (value
) != CONST_STRING
)
4910 write_attr_valueq (attr
, XSTR (value
, 0));
4918 if (*str
< 'a' || *str
> 'z')
4919 printf ("%c", *str
++);
4921 printf ("%c", *str
++ - 'a' + 'A');
4925 write_indent (indent
)
4928 for (; indent
> 8; indent
-= 8)
4931 for (; indent
; indent
--)
4935 /* Write a subroutine that is given an insn that requires a delay slot, a
4936 delay slot ordinal, and a candidate insn. It returns non-zero if the
4937 candidate can be placed in the specified delay slot of the insn.
4939 We can write as many as three subroutines. `eligible_for_delay'
4940 handles normal delay slots, `eligible_for_annul_true' indicates that
4941 the specified insn can be annulled if the branch is true, and likewise
4942 for `eligible_for_annul_false'.
4944 KIND is a string distinguishing these three cases ("delay", "annul_true",
4945 or "annul_false"). */
4948 write_eligible_delay (kind
)
4951 struct delay_desc
*delay
;
4954 struct attr_desc
*attr
;
4955 struct attr_value
*av
, *common_av
;
4958 /* Compute the maximum number of delay slots required. We use the delay
4959 ordinal times this number plus one, plus the slot number as an index into
4960 the appropriate predicate to test. */
4962 for (delay
= delays
, max_slots
= 0; delay
; delay
= delay
->next
)
4963 if (XVECLEN (delay
->def
, 1) / 3 > max_slots
)
4964 max_slots
= XVECLEN (delay
->def
, 1) / 3;
4966 /* Write function prelude. */
4969 printf ("eligible_for_%s (delay_insn, slot, candidate_insn, flags)\n",
4971 printf (" rtx delay_insn;\n");
4972 printf (" int slot;\n");
4973 printf (" rtx candidate_insn;\n");
4974 printf (" int flags;\n");
4976 printf (" rtx insn;\n");
4978 printf (" if (slot >= %d)\n", max_slots
);
4979 printf (" abort ();\n");
4982 /* If more than one delay type, find out which type the delay insn is. */
4986 attr
= find_attr ("*delay_type", 0);
4987 if (! attr
) abort ();
4988 common_av
= find_most_used (attr
);
4990 printf (" insn = delay_insn;\n");
4991 printf (" switch (recog_memoized (insn))\n");
4994 sprintf (str
, " * %d;\n break;", max_slots
);
4995 for (av
= attr
->first_value
; av
; av
= av
->next
)
4996 if (av
!= common_av
)
4997 write_attr_case (attr
, av
, 1, "slot +=", str
, 4, true_rtx
);
4999 write_attr_case (attr
, common_av
, 0, "slot +=", str
, 4, true_rtx
);
5002 /* Ensure matched. Otherwise, shouldn't have been called. */
5003 printf (" if (slot < %d)\n", max_slots
);
5004 printf (" abort ();\n\n");
5007 /* If just one type of delay slot, write simple switch. */
5008 if (num_delays
== 1 && max_slots
== 1)
5010 printf (" insn = candidate_insn;\n");
5011 printf (" switch (recog_memoized (insn))\n");
5014 attr
= find_attr ("*delay_1_0", 0);
5015 if (! attr
) abort ();
5016 common_av
= find_most_used (attr
);
5018 for (av
= attr
->first_value
; av
; av
= av
->next
)
5019 if (av
!= common_av
)
5020 write_attr_case (attr
, av
, 1, "return", ";", 4, true_rtx
);
5022 write_attr_case (attr
, common_av
, 0, "return", ";", 4, true_rtx
);
5028 /* Write a nested CASE. The first indicates which condition we need to
5029 test, and the inner CASE tests the condition. */
5030 printf (" insn = candidate_insn;\n");
5031 printf (" switch (slot)\n");
5034 for (delay
= delays
; delay
; delay
= delay
->next
)
5035 for (i
= 0; i
< XVECLEN (delay
->def
, 1); i
+= 3)
5037 printf (" case %d:\n",
5038 (i
/ 3) + (num_delays
== 1 ? 0 : delay
->num
* max_slots
));
5039 printf (" switch (recog_memoized (insn))\n");
5042 sprintf (str
, "*%s_%d_%d", kind
, delay
->num
, i
/ 3);
5043 attr
= find_attr (str
, 0);
5044 if (! attr
) abort ();
5045 common_av
= find_most_used (attr
);
5047 for (av
= attr
->first_value
; av
; av
= av
->next
)
5048 if (av
!= common_av
)
5049 write_attr_case (attr
, av
, 1, "return", ";", 8, true_rtx
);
5051 write_attr_case (attr
, common_av
, 0, "return", ";", 8, true_rtx
);
5055 printf (" default:\n");
5056 printf (" abort ();\n");
5063 /* Write routines to compute conflict cost for function units. Then write a
5064 table describing the available function units. */
5067 write_function_unit_info ()
5069 struct function_unit
*unit
;
5072 /* Write out conflict routines for function units. Don't bother writing
5073 one if there is only one issue delay value. */
5075 for (unit
= units
; unit
; unit
= unit
->next
)
5077 if (unit
->needs_blockage_function
)
5078 write_complex_function (unit
, "blockage", "block");
5080 /* If the minimum and maximum conflict costs are the same, there
5081 is only one value, so we don't need a function. */
5082 if (! unit
->needs_conflict_function
)
5084 unit
->default_cost
= make_numeric_value (unit
->issue_delay
.max
);
5088 /* The function first computes the case from the candidate insn. */
5089 unit
->default_cost
= make_numeric_value (0);
5090 write_complex_function (unit
, "conflict_cost", "cost");
5093 /* Now that all functions have been written, write the table describing
5094 the function units. The name is included for documentation purposes
5097 printf ("struct function_unit_desc function_units[] = {\n");
5099 /* Write out the descriptions in numeric order, but don't force that order
5100 on the list. Doing so increases the runtime of genattrtab.c. */
5101 for (i
= 0; i
< num_units
; i
++)
5103 for (unit
= units
; unit
; unit
= unit
->next
)
5107 printf (" {\"%s\", %d, %d, %d, %s, %d, %s_unit_ready_cost, ",
5108 unit
->name
, 1 << unit
->num
, unit
->multiplicity
,
5109 unit
->simultaneity
, XSTR (unit
->default_cost
, 0),
5110 unit
->issue_delay
.max
, unit
->name
);
5112 if (unit
->needs_conflict_function
)
5113 printf ("%s_unit_conflict_cost, ", unit
->name
);
5117 printf ("%d, ", unit
->max_blockage
);
5119 if (unit
->needs_range_function
)
5120 printf ("%s_unit_blockage_range, ", unit
->name
);
5124 if (unit
->needs_blockage_function
)
5125 printf ("%s_unit_blockage", unit
->name
);
5136 write_complex_function (unit
, name
, connection
)
5137 struct function_unit
*unit
;
5138 char *name
, *connection
;
5140 struct attr_desc
*case_attr
, *attr
;
5141 struct attr_value
*av
, *common_av
;
5147 printf ("static int\n");
5148 printf ("%s_unit_%s (executing_insn, candidate_insn)\n",
5150 printf (" rtx executing_insn;\n");
5151 printf (" rtx candidate_insn;\n");
5153 printf (" rtx insn;\n");
5154 printf (" int casenum;\n\n");
5155 printf (" insn = executing_insn;\n");
5156 printf (" switch (recog_memoized (insn))\n");
5159 /* Write the `switch' statement to get the case value. */
5160 str
= (char *) alloca (strlen (unit
->name
) + strlen (name
) + strlen (connection
) + 10);
5161 sprintf (str
, "*%s_cases", unit
->name
);
5162 case_attr
= find_attr (str
, 0);
5163 if (! case_attr
) abort ();
5164 common_av
= find_most_used (case_attr
);
5166 for (av
= case_attr
->first_value
; av
; av
= av
->next
)
5167 if (av
!= common_av
)
5168 write_attr_case (case_attr
, av
, 1,
5169 "casenum =", ";", 4, unit
->condexp
);
5171 write_attr_case (case_attr
, common_av
, 0,
5172 "casenum =", ";", 4, unit
->condexp
);
5175 /* Now write an outer switch statement on each case. Then write
5176 the tests on the executing function within each. */
5177 printf (" insn = candidate_insn;\n");
5178 printf (" switch (casenum)\n");
5181 for (i
= 0; i
< unit
->num_opclasses
; i
++)
5183 /* Ensure using this case. */
5185 for (av
= case_attr
->first_value
; av
; av
= av
->next
)
5187 && contained_in_p (make_numeric_value (i
), av
->value
))
5193 printf (" case %d:\n", i
);
5194 sprintf (str
, "*%s_%s_%d", unit
->name
, connection
, i
);
5195 attr
= find_attr (str
, 0);
5196 if (! attr
) abort ();
5198 /* If single value, just write it. */
5199 value
= find_single_value (attr
);
5201 write_attr_set (attr
, 6, value
, "return", ";\n", true_rtx
, -2, -2);
5204 common_av
= find_most_used (attr
);
5205 printf (" switch (recog_memoized (insn))\n");
5208 for (av
= attr
->first_value
; av
; av
= av
->next
)
5209 if (av
!= common_av
)
5210 write_attr_case (attr
, av
, 1,
5211 "return", ";", 8, unit
->condexp
);
5213 write_attr_case (attr
, common_av
, 0,
5214 "return", ";", 8, unit
->condexp
);
5219 printf (" }\n}\n\n");
5222 /* This page contains miscellaneous utility routines. */
5224 /* Given a string, return the number of comma-separated elements in it.
5225 Return 0 for the null string. */
5236 for (n
= 1; *s
; s
++)
5243 /* Given a pointer to a (char *), return a malloc'ed string containing the
5244 next comma-separated element. Advance the pointer to after the string
5245 scanned, or the end-of-string. Return NULL if at end of string. */
5248 next_comma_elt (pstr
)
5257 /* Find end of string to compute length. */
5258 for (p
= *pstr
; *p
!= ',' && *p
!= '\0'; p
++)
5261 out_str
= attr_string (*pstr
, p
- *pstr
);
5270 /* Return a `struct attr_desc' pointer for a given named attribute. If CREATE
5271 is non-zero, build a new attribute, if one does not exist. */
5273 static struct attr_desc
*
5274 find_attr (name
, create
)
5278 struct attr_desc
*attr
;
5281 /* Before we resort to using `strcmp', see if the string address matches
5282 anywhere. In most cases, it should have been canonicalized to do so. */
5283 if (name
== alternative_name
)
5286 index
= name
[0] & (MAX_ATTRS_INDEX
- 1);
5287 for (attr
= attrs
[index
]; attr
; attr
= attr
->next
)
5288 if (name
== attr
->name
)
5291 /* Otherwise, do it the slow way. */
5292 for (attr
= attrs
[index
]; attr
; attr
= attr
->next
)
5293 if (name
[0] == attr
->name
[0] && ! strcmp (name
, attr
->name
))
5299 attr
= (struct attr_desc
*) oballoc (sizeof (struct attr_desc
));
5300 attr
->name
= attr_string (name
, strlen (name
));
5301 attr
->first_value
= attr
->default_val
= NULL
;
5302 attr
->is_numeric
= attr
->negative_ok
= attr
->is_const
= attr
->is_special
= 0;
5303 attr
->next
= attrs
[index
];
5304 attrs
[index
] = attr
;
5309 /* Create internal attribute with the given default value. */
5312 make_internal_attr (name
, value
, special
)
5317 struct attr_desc
*attr
;
5319 attr
= find_attr (name
, 1);
5320 if (attr
->default_val
)
5323 attr
->is_numeric
= 1;
5325 attr
->is_special
= (special
& 1) != 0;
5326 attr
->negative_ok
= (special
& 2) != 0;
5327 attr
->unsigned_p
= (special
& 4) != 0;
5328 attr
->default_val
= get_attr_value (value
, attr
, -2);
5331 /* Find the most used value of an attribute. */
5333 static struct attr_value
*
5334 find_most_used (attr
)
5335 struct attr_desc
*attr
;
5337 struct attr_value
*av
;
5338 struct attr_value
*most_used
;
5344 for (av
= attr
->first_value
; av
; av
= av
->next
)
5345 if (av
->num_insns
> nuses
)
5346 nuses
= av
->num_insns
, most_used
= av
;
5351 /* If an attribute only has a single value used, return it. Otherwise
5355 find_single_value (attr
)
5356 struct attr_desc
*attr
;
5358 struct attr_value
*av
;
5361 unique_value
= NULL
;
5362 for (av
= attr
->first_value
; av
; av
= av
->next
)
5368 unique_value
= av
->value
;
5371 return unique_value
;
5374 /* Return (attr_value "n") */
5377 make_numeric_value (n
)
5380 static rtx int_values
[20];
5387 if (n
< 20 && int_values
[n
])
5388 return int_values
[n
];
5390 p
= attr_printf (MAX_DIGITS
, "%d", n
);
5391 exp
= attr_rtx (CONST_STRING
, p
);
5394 int_values
[n
] = exp
;
5400 extend_range (range
, min
, max
)
5401 struct range
*range
;
5405 if (range
->min
> min
) range
->min
= min
;
5406 if (range
->max
< max
) range
->max
= max
;
5410 xrealloc (ptr
, size
)
5414 char *result
= (char *) realloc (ptr
, size
);
5416 fatal ("virtual memory exhausted");
5424 register char *val
= (char *) malloc (size
);
5427 fatal ("virtual memory exhausted");
5432 copy_rtx_unchanging (orig
)
5437 register RTX_CODE code
;
5440 if (RTX_UNCHANGING_P (orig
) || MEM_IN_STRUCT_P (orig
))
5443 MEM_IN_STRUCT_P (orig
) = 1;
5447 code
= GET_CODE (orig
);
5457 copy
= rtx_alloc (code
);
5458 PUT_MODE (copy
, GET_MODE (orig
));
5459 RTX_UNCHANGING_P (copy
) = 1;
5461 bcopy ((char *) &XEXP (orig
, 0), (char *) &XEXP (copy
, 0),
5462 GET_RTX_LENGTH (GET_CODE (copy
)) * sizeof (rtx
));
5471 fprintf (stderr
, "genattrtab: ");
5472 fprintf (stderr
, s
, a1
, a2
);
5473 fprintf (stderr
, "\n");
5474 exit (FATAL_EXIT_CODE
);
5477 /* More 'friendly' abort that prints the line and file.
5478 config.h can #define abort fancy_abort if you like that sort of thing. */
5483 fatal ("Internal gcc abort.");
5486 /* Determine if an insn has a constant number of delay slots, i.e., the
5487 number of delay slots is not a function of the length of the insn. */
5490 write_const_num_delay_slots ()
5492 struct attr_desc
*attr
= find_attr ("*num_delay_slots", 0);
5493 struct attr_value
*av
;
5494 struct insn_ent
*ie
;
5499 printf ("int\nconst_num_delay_slots (insn)\n");
5500 printf (" rtx insn;\n");
5502 printf (" switch (recog_memoized (insn))\n");
5505 for (av
= attr
->first_value
; av
; av
= av
->next
)
5508 walk_attr_value (av
->value
);
5511 for (ie
= av
->first_insn
; ie
; ie
= ie
->next
)
5512 if (ie
->insn_code
!= -1)
5513 printf (" case %d:\n", ie
->insn_code
);
5514 printf (" return 0;\n");
5518 printf (" default:\n");
5519 printf (" return 1;\n");
5533 struct attr_desc
*attr
;
5534 struct insn_def
*id
;
5539 /* Get rid of any avoidable limit on stack size. */
5543 /* Set the stack limit huge so that alloca does not fail. */
5544 getrlimit (RLIMIT_STACK
, &rlim
);
5545 rlim
.rlim_cur
= rlim
.rlim_max
;
5546 setrlimit (RLIMIT_STACK
, &rlim
);
5548 #endif /* RLIMIT_STACK defined */
5550 obstack_init (rtl_obstack
);
5551 obstack_init (hash_obstack
);
5552 obstack_init (temp_obstack
);
5555 fatal ("No input file name.");
5557 infile
= fopen (argv
[1], "r");
5561 exit (FATAL_EXIT_CODE
);
5566 /* Set up true and false rtx's */
5567 true_rtx
= rtx_alloc (CONST_INT
);
5568 XWINT (true_rtx
, 0) = 1;
5569 false_rtx
= rtx_alloc (CONST_INT
);
5570 XWINT (false_rtx
, 0) = 0;
5571 RTX_UNCHANGING_P (true_rtx
) = RTX_UNCHANGING_P (false_rtx
) = 1;
5572 RTX_INTEGRATED_P (true_rtx
) = RTX_INTEGRATED_P (false_rtx
) = 1;
5574 alternative_name
= attr_string ("alternative", strlen ("alternative"));
5576 printf ("/* Generated automatically by the program `genattrtab'\n\
5577 from the machine description file `md'. */\n\n");
5579 /* Read the machine description. */
5583 c
= read_skip_spaces (infile
);
5588 desc
= read_rtx (infile
);
5589 if (GET_CODE (desc
) == DEFINE_INSN
5590 || GET_CODE (desc
) == DEFINE_PEEPHOLE
5591 || GET_CODE (desc
) == DEFINE_ASM_ATTRIBUTES
)
5594 else if (GET_CODE (desc
) == DEFINE_EXPAND
)
5595 insn_code_number
++, insn_index_number
++;
5597 else if (GET_CODE (desc
) == DEFINE_SPLIT
)
5598 insn_code_number
++, insn_index_number
++;
5600 else if (GET_CODE (desc
) == DEFINE_ATTR
)
5603 insn_index_number
++;
5606 else if (GET_CODE (desc
) == DEFINE_DELAY
)
5609 insn_index_number
++;
5612 else if (GET_CODE (desc
) == DEFINE_FUNCTION_UNIT
)
5615 insn_index_number
++;
5619 /* If we didn't have a DEFINE_ASM_ATTRIBUTES, make a null one. */
5620 if (! got_define_asm_attributes
)
5622 tem
= rtx_alloc (DEFINE_ASM_ATTRIBUTES
);
5623 XVEC (tem
, 0) = rtvec_alloc (0);
5627 /* Expand DEFINE_DELAY information into new attribute. */
5631 /* Expand DEFINE_FUNCTION_UNIT information into new attributes. */
5635 printf ("#include \"config.h\"\n");
5636 printf ("#include \"rtl.h\"\n");
5637 printf ("#include \"insn-config.h\"\n");
5638 printf ("#include \"recog.h\"\n");
5639 printf ("#include \"regs.h\"\n");
5640 printf ("#include \"real.h\"\n");
5641 printf ("#include \"output.h\"\n");
5642 printf ("#include \"insn-attr.h\"\n");
5644 printf ("#define operands recog_operand\n\n");
5646 /* Make `insn_alternatives'. */
5647 insn_alternatives
= (int *) oballoc (insn_code_number
* sizeof (int));
5648 for (id
= defs
; id
; id
= id
->next
)
5649 if (id
->insn_code
>= 0)
5650 insn_alternatives
[id
->insn_code
] = (1 << id
->num_alternatives
) - 1;
5652 /* Make `insn_n_alternatives'. */
5653 insn_n_alternatives
= (int *) oballoc (insn_code_number
* sizeof (int));
5654 for (id
= defs
; id
; id
= id
->next
)
5655 if (id
->insn_code
>= 0)
5656 insn_n_alternatives
[id
->insn_code
] = id
->num_alternatives
;
5658 /* Prepare to write out attribute subroutines by checking everything stored
5659 away and building the attribute cases. */
5662 for (i
= 0; i
< MAX_ATTRS_INDEX
; i
++)
5663 for (attr
= attrs
[i
]; attr
; attr
= attr
->next
)
5665 attr
->default_val
->value
5666 = check_attr_value (attr
->default_val
->value
, attr
);
5670 /* Construct extra attributes for `length'. */
5671 make_length_attrs ();
5673 /* Perform any possible optimizations to speed up compilation. */
5676 /* Now write out all the `gen_attr_...' routines. Do these before the
5677 special routines (specifically before write_function_unit_info), so
5678 that they get defined before they are used. */
5680 for (i
= 0; i
< MAX_ATTRS_INDEX
; i
++)
5681 for (attr
= attrs
[i
]; attr
; attr
= attr
->next
)
5683 if (! attr
->is_special
)
5684 write_attr_get (attr
);
5687 /* Write out delay eligibility information, if DEFINE_DELAY present.
5688 (The function to compute the number of delay slots will be written
5692 write_eligible_delay ("delay");
5693 if (have_annul_true
)
5694 write_eligible_delay ("annul_true");
5695 if (have_annul_false
)
5696 write_eligible_delay ("annul_false");
5699 /* Write out information about function units. */
5701 write_function_unit_info ();
5703 /* Write out constant delay slot info */
5704 write_const_num_delay_slots ();
5707 exit (ferror (stdout
) != 0 ? FATAL_EXIT_CODE
: SUCCESS_EXIT_CODE
);