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1 709 jeremybenn
;; Predicate definitions for code generation on the EPIPHANY cpu.
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;; Copyright (C) 1994, 1995, 1997, 1998, 1999, 2000, 2001, 2002, 2003,
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;; 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
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;; Free Software Foundation, Inc.
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;; Contributed by Embecosm on behalf of Adapteva, Inc.
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;;
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;; This file is part of GCC.
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;; GCC is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 3, or (at your option)
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;; any later version.
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;; GCC is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GCC; see the file COPYING3.  If not see
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;; .
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;; Returns true iff OP is a symbol reference that is a valid operand
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;; in a jump or call instruction.
25
 
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(define_predicate "symbolic_operand"
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  (match_code "symbol_ref,label_ref,const")
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{
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  if (GET_CODE (op) == SYMBOL_REF)
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    return (!epiphany_is_long_call_p (op)
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            && (!flag_pic || SYMBOL_REF_LOCAL_P (op)));
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  if (GET_CODE (op) == LABEL_REF)
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    return true;
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  if (GET_CODE (op) == CONST)
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    {
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      op = XEXP (op, 0);
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      if (GET_CODE (op) != PLUS || !symbolic_operand (XEXP (op, 0), mode))
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        return false;
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      /* The idea here is that a 'small' constant offset should be OK.
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         What exactly is considered 'small' is a bit arbitrary.  */
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      return satisfies_constraint_L (XEXP (op, 1));
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    }
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  gcc_unreachable ();
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})
45
 
46
;; Acceptable arguments to the call insn.
47
 
48
(define_predicate "call_address_operand"
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  (ior (match_code "reg")
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       (match_operand 0 "symbolic_operand")))
51
 
52
(define_predicate "call_operand"
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  (match_code "mem")
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{
55
  op = XEXP (op, 0);
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  return call_address_operand (op, mode);
57
})
58
 
59
;; general purpose register.
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(define_predicate "gpr_operand"
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  (match_code "reg,subreg")
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{
63
  int regno;
64
 
65
  if (!register_operand (op, mode))
66
    return 0;
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  if (GET_CODE (op) == SUBREG)
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    op = XEXP (op, 0);
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  regno = REGNO (op);
70
  return regno >= FIRST_PSEUDO_REGISTER || regno <= 63;
71
})
72
 
73
(define_special_predicate "any_gpr_operand"
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  (match_code "subreg,reg")
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{
76
  return gpr_operand (op, mode);
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})
78
 
79
;; register suitable for integer add / sub operations; besides general purpose
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;; registers we allow fake hard registers that are eliminated to a real
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;; hard register via an offset.
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(define_predicate "add_reg_operand"
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  (match_code "reg,subreg")
84
{
85
  int regno;
86
 
87
  if (!register_operand (op, mode))
88
    return 0;
89
  if (GET_CODE (op) == SUBREG)
90
    op = XEXP (op, 0);
91
  regno = REGNO (op);
92
  return (regno >= FIRST_PSEUDO_REGISTER || regno <= 63
93
          || regno == FRAME_POINTER_REGNUM
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          || regno == ARG_POINTER_REGNUM);
95
})
96
 
97
;; Also allows suitable constants
98
(define_predicate "add_operand"
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  (match_code "reg,subreg,const_int,symbol_ref,label_ref,const")
100
{
101
  if (GET_CODE (op) == REG || GET_CODE (op) == SUBREG)
102
    return add_reg_operand (op, mode);
103
  return satisfies_constraint_L (op);
104
})
105
 
106
;; Ordinary 3rd operand for arithmetic operations
107
(define_predicate "arith_operand"
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  (match_code "reg,subreg,const_int,symbol_ref,label_ref,const")
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{
110
  if (GET_CODE (op) == REG || GET_CODE (op) == SUBREG)
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    return register_operand (op, mode);
112
  return satisfies_constraint_L (op);
113
})
114
 
115
;; Constant integer 3rd operand for arithmetic operations
116
(define_predicate "arith_int_operand"
117
  (match_code "const_int,symbol_ref,label_ref,const")
118
{
119
  return satisfies_constraint_L (op);
120
})
121
 
122
;; Return true if OP is an acceptable argument for a single word move source.
123
 
124
(define_predicate "move_src_operand"
125
  (match_code
126
   "symbol_ref,label_ref,const,const_int,const_double,reg,subreg,mem,unspec")
127
{
128
  switch (GET_CODE (op))
129
    {
130
    case SYMBOL_REF :
131
    case LABEL_REF :
132
    case CONST :
133
      return 1;
134
    case CONST_INT :
135
      return immediate_operand (op, mode);
136
    case CONST_DOUBLE :
137
      /* SImode constants should always fit into a CONST_INT.  Large
138
         unsigned 32-bit constants are represented as negative CONST_INTs.  */
139
      gcc_assert (GET_MODE (op) != SImode);
140
      /* We can handle 32-bit floating point constants.  */
141
      if (mode == SFmode)
142
        return GET_MODE (op) == SFmode;
143
      return 0;
144
    case REG :
145
      return op != frame_pointer_rtx && register_operand (op, mode);
146
    case SUBREG :
147
      /* (subreg (mem ...) ...) can occur here if the inner part was once a
148
         pseudo-reg and is now a stack slot.  */
149
      if (GET_CODE (SUBREG_REG (op)) == MEM)
150
        return address_operand (XEXP (SUBREG_REG (op), 0), mode);
151
      else
152
        return register_operand (op, mode);
153
    case MEM :
154
      return address_operand (XEXP (op, 0), mode);
155
    case UNSPEC:
156
      return satisfies_constraint_Sra (op);
157
    default :
158
      return 0;
159
    }
160
})
161
 
162
;; Return true if OP is an acceptable argument for a double word move source.
163
 
164
(define_predicate "move_double_src_operand"
165
  (match_code "reg,subreg,mem,const_int,const_double,const_vector")
166
{
167
  return general_operand (op, mode);
168
})
169
 
170
;; Return true if OP is an acceptable argument for a move destination.
171
 
172
(define_predicate "move_dest_operand"
173
  (match_code "reg,subreg,mem")
174
{
175
  switch (GET_CODE (op))
176
    {
177
    case REG :
178
      return register_operand (op, mode);
179
    case SUBREG :
180
      /* (subreg (mem ...) ...) can occur here if the inner part was once a
181
         pseudo-reg and is now a stack slot.  */
182
      if (GET_CODE (SUBREG_REG (op)) == MEM)
183
        {
184
          return address_operand (XEXP (SUBREG_REG (op), 0), mode);
185
        }
186
      else
187
        {
188
          return register_operand (op, mode);
189
        }
190
    case MEM :
191
      return address_operand (XEXP (op, 0), mode);
192
    default :
193
      return 0;
194
    }
195
})
196
 
197
(define_special_predicate "stacktop_operand"
198
  (match_code "mem")
199
{
200
  if (mode != VOIDmode && GET_MODE (op) != mode)
201
    return false;
202
  return rtx_equal_p (XEXP (op, 0), stack_pointer_rtx);
203
})
204
 
205
;; Return 1 if OP is a comparison operator valid for the mode of CC.
206
;; This allows the use of MATCH_OPERATOR to recognize all the branch insns.
207
;;
208
;; Some insns only set a few bits in the condition code.  So only allow those
209
;; comparisons that use the bits that are valid.
210
 
211
(define_predicate "proper_comparison_operator"
212
  (match_code "eq, ne, le, lt, ge, gt, leu, ltu, geu, gtu, unordered, ordered, uneq, unge, ungt, unle, unlt, ltgt")
213
{
214
  enum rtx_code code = GET_CODE (op);
215
  rtx cc = XEXP (op, 0);
216
 
217
  /* combine can try strange things.  */
218
  if (!REG_P (cc))
219
    return 0;
220
  switch (GET_MODE (cc))
221
    {
222
    case CC_Zmode:
223
    case CC_N_NEmode:
224
    case CC_FP_EQmode:
225
      return REGNO (cc) == CC_REGNUM && (code == EQ || code == NE);
226
    case CC_C_LTUmode:
227
      return REGNO (cc) == CC_REGNUM && (code == LTU || code == GEU);
228
    case CC_C_GTUmode:
229
      return REGNO (cc) == CC_REGNUM && (code == GTU || code == LEU);
230
    case CC_FPmode:
231
      return (REGNO (cc) == CCFP_REGNUM
232
              && (code == EQ || code == NE || code == LT || code == LE));
233
    case CC_FP_GTEmode:
234
      return (REGNO (cc) == CC_REGNUM
235
              && (code == EQ || code == NE || code == GT || code == GE
236
                  || code == UNLE || code == UNLT));
237
    case CC_FP_ORDmode:
238
      return REGNO (cc) == CC_REGNUM && (code == ORDERED || code == UNORDERED);
239
    case CC_FP_UNEQmode:
240
      return REGNO (cc) == CC_REGNUM && (code == UNEQ || code == LTGT);
241
    case CCmode:
242
      return REGNO (cc) == CC_REGNUM;
243
    /* From combiner.  */
244
    case QImode: case SImode: case SFmode: case HImode:
245
    /* From cse.c:dead_libcall_p.  */
246
    case DFmode:
247
      return 0;
248
    default:
249
      gcc_unreachable ();
250
    }
251
})
252
 
253
(define_predicate "cc_operand"
254
  (and (match_code "reg")
255
       (match_test "REGNO (op) == CC_REGNUM || REGNO (op) == CCFP_REGNUM")))
256
 
257
(define_predicate "const0_operand"
258
  (match_code "const_int, const_double")
259
{
260
  if (mode == VOIDmode)
261
    mode = GET_MODE (op);
262
  return op == CONST0_RTX (mode);
263
})
264
 
265
(define_predicate "const_float_1_operand"
266
  (match_code "const_double")
267
{
268
  return op == CONST1_RTX (mode);
269
})
270
 
271
(define_predicate "cc_move_operand"
272
  (and (match_code "reg")
273
       (ior (match_test "REGNO (op) == CC_REGNUM")
274
            (match_test "gpr_operand (op, mode)"))))
275
 
276
(define_predicate "float_operation"
277
  (match_code "parallel")
278
{
279
  /* Most patterns start out with one SET and one CLOBBER, and gain a USE
280
     or two of FP_NEAREST_REGNUM / FP_TRUNCATE_REGNUM / FP_ANYFP_REGNUM
281
     after mode switching.  The longer patterns are
282
     all beyond length 4, and before mode switching, end with a
283
     CLOBBER of CCFP_REGNUM.  */
284
  int count = XVECLEN (op, 0);
285
  bool inserted = MACHINE_FUNCTION (cfun)->control_use_inserted;
286
  int i;
287
 
288
  if (count == 2)
289
    return !inserted;
290
 
291
  /* combine / recog will pass any old garbage here before checking the
292
     rest of the insn.  */
293
  if (count <= 3)
294
    return false;
295
 
296
  i = 1;
297
  if (count > 4)
298
    for (i = 4; i < count; i++)
299
      {
300
        rtx x = XVECEXP (op, 0, i);
301
 
302
        if (GET_CODE (x) == CLOBBER)
303
          {
304
            if (!REG_P (XEXP (x, 0)))
305
              return false;
306
            if (REGNO (XEXP (x, 0)) == CCFP_REGNUM)
307
              {
308
                if (count == i + 1)
309
                  return !inserted;
310
                break;
311
            }
312
          /* Just an ordinary clobber, keep looking.  */
313
        }
314
      else if (GET_CODE (x) == USE
315
               || (GET_CODE (x) == SET && i == 2))
316
        continue;
317
      else
318
        return false;
319
    }
320
  if (count != i + 3 || !inserted)
321
    return false;
322
  for (i = i+1; i < count; i++)
323
    {
324
      rtx x = XVECEXP (op, 0, i);
325
 
326
      if (GET_CODE (x) != USE && GET_CODE (x) != CLOBBER)
327
        return false;
328
      x = XEXP (x, 0);
329
      if (!REG_P (x)
330
          || (REGNO (x) != FP_NEAREST_REGNUM
331
              && REGNO (x) != FP_TRUNCATE_REGNUM
332
              && REGNO (x) != FP_ANYFP_REGNUM))
333
        return false;
334
    }
335
  return true;
336
})
337
 
338
(define_predicate "set_fp_mode_operand"
339
  (ior (match_test "gpr_operand (op, mode)")
340
       (and (match_code "const")
341
            (match_test "satisfies_constraint_Cfm (op)"))))
342
 
343
(define_predicate "post_modify_address"
344
  (match_code "post_modify,post_inc,post_dec"))
345
 
346
(define_predicate "post_modify_operand"
347
  (and (match_code "mem")
348
       (match_test "post_modify_address (XEXP (op, 0), Pmode)")))
349
 
350
(define_predicate "nonsymbolic_immediate_operand"
351
  (ior (match_test "immediate_operand (op, mode)")
352
       (match_code "const_vector"))) /* Is this specific enough?  */

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