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ragge
1.51
1 /*      $Id: local.c,v 1.51 2007/08/01 04:53:58 ragge Exp $     */
ragge
1.1
2 /*
3  * Copyright (c) 2003 Anders Magnusson (ragge@ludd.luth.se).
4  * All rights reserved.
5  *
6  * Redistribution and use in source and binary forms, with or without
7  * modification, are permitted provided that the following conditions
8  * are met:
9  * 1. Redistributions of source code must retain the above copyright
10  *    notice, this list of conditions and the following disclaimer.
11  * 2. Redistributions in binary form must reproduce the above copyright
12  *    notice, this list of conditions and the following disclaimer in the
13  *    documentation and/or other materials provided with the distribution.
14  * 3. The name of the author may not be used to endorse or promote products
15  *    derived from this software without specific prior written permission
16  *
17  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27  */
28
29
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1.48
30 #include "pass1.h"
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1.1
31
32 /*      this file contains code which is dependent on the target machine */
33
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1.48
34 /* clocal() is called to do local transformations on
35  * an expression tree preparitory to its being
36  * written out in intermediate code.
37  *
38  * the major essential job is rewriting the
39  * automatic variables and arguments in terms of
40  * REG and OREG nodes
41  * conversion ops which are not necessary are also clobbered here
42  * in addition, any special features (such as rewriting
43  * exclusive or) are easily handled here as well
44  */
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1.1
45 NODE *
46 clocal(NODE *p)
47 {
48
49         register struct symtab *q;
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1.2
50         register NODE *r, *l;
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1.1
51         register int o;
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1.40
52         register int m;
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1.19
53         TWORD t;
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1.1
54
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1.24
55 //printf("in:\n");
56 //fwalk(p, eprint, 0);
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1.1
57         switcho = p->n_op ){
58
59         case NAME:
60                 if ((q = p->n_sp) == NULL)
61                         return p/* Nothing to care about */
62
63                 switch (q->sclass) {
64
65                 case PARAM:
66                 case AUTO:
67                         /* fake up a structure reference */
68                         r = block(REGNILNILPTR+STRTY00);
69                         r->n_lval = 0;
70                         r->n_rval = FPREG;
71                         p = stref(block(STREFrp000));
72                         break;
73
74                 case STATIC:
75                         if (q->slevel == 0)
76                                 break;
77                         p->n_lval = 0;
78                         p->n_sp = q;
79                         break;
80
81                 case REGISTER:
82                         p->n_op = REG;
83                         p->n_lval = 0;
84                         p->n_rval = q->soffset;
85                         break;
86
87                         }
88                 break;
89
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1.39
90         case STCALL:
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1.37
91         case CALL:
92                 /* Fix function call arguments. On x86, just add funarg */
93                 for (r = p->n_rightr->n_op == CMr = r->n_left) {
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1.38
94                         if (r->n_right->n_op != STARG &&
95                             r->n_right->n_op != FUNARG)
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1.37
96                                 r->n_right = block(FUNARGr->n_rightNIL
97                                     r->n_right->n_typer->n_right->n_df,
98                                     r->n_right->n_sue);
99                 }
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1.38
100                 if (r->n_op != STARG && r->n_op != FUNARG) {
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1.37
101                         l = talloc();
102                         *l = *r;
103                         r->n_op = FUNARGr->n_left = lr->n_type = l->n_type;
104                 }
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1.10
105                 break;
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1.37
106                 
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107         case CBRANCH:
108                 l = p->n_left;
109
110                 /*
111                  * Remove unneccessary conversion ops.
112                  */
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1.10
113                 if (clogop(l->n_op) && l->n_left->n_op == SCONV) {
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114                         if (coptype(l->n_op) != BITYPE)
115                                 break;
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116                         if (l->n_right->n_op == ICON) {
117                                 r = l->n_left->n_left;
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118                                 if (r->n_type >= FLOAT && r->n_type <= LDOUBLE)
119                                         break;
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1.18
120                                 /* Type must be correct */
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121                                 t = r->n_type;
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122                                 nfree(l->n_left);
123                                 l->n_left = r;
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124                                 l->n_type = t;
125                                 l->n_right->n_type = t;
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126                         }
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127                 }
128                 break;
129
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130         case PCONV:
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1.40
131                 /* Remove redundant PCONV's. Be careful */
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132                 l = p->n_left;
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133                 if (l->n_op == ICON) {
134                         l->n_lval = (unsigned)l->n_lval;
135                         goto delp;
136                 }
137                 if (l->n_type < INT || l->n_type == LONGLONG || 
138                     l->n_type == ULONGLONG) {
139                         /* float etc? */
140                         p->n_left = block(SCONVlNIL,
141                             UNSIGNED0MKSUE(UNSIGNED));
142                         break;
143                 }
144                 /* if left is SCONV, cannot remove */
145                 if (l->n_op == SCONV)
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146                         break;
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147                 /* if conversion to another pointer type, just remove */
148                 if (p->n_type > BTMASK && l->n_type > BTMASK)
149                         goto delp;
150                 break;
151
152         delp:   l->n_type = p->n_type;
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1.1
153                 l->n_qual = p->n_qual;
154                 l->n_df = p->n_df;
155                 l->n_sue = p->n_sue;
156                 nfree(p);
157                 p = l;
158                 break;
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1.40
159                 
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160         case SCONV:
161                 l = p->n_left;
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162
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163                 if (p->n_type == l->n_type) {
164                         nfree(p);
165                         return l;
166                 }
167
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168                 if ((p->n_type & TMASK) == 0 && (l->n_type & TMASK) == 0 &&
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1.30
169                     btdims[p->n_type].suesize == btdims[l->n_type].suesize) {
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1.4
170                         if (p->n_type != FLOAT && p->n_type != DOUBLE &&
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171                             l->n_type != FLOAT && l->n_type != DOUBLE &&
172                             l->n_type != LDOUBLE && p->n_type != LDOUBLE) {
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1.41
173                                 if (l->n_op == NAME || l->n_op == UMUL ||
174                                     l->n_op == TEMP) {
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1.15
175                                         l->n_type = p->n_type;
176                                         nfree(p);
177                                         return l;
178                                 }
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1.4
179                         }
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1.6
180                 }
181
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1.42
182                 if (DEUNSIGN(p->n_type) == INT && DEUNSIGN(l->n_type) == INT &&
183                     coptype(l->n_op) == BITYPE) {
184                         l->n_type = p->n_type;
185                         nfree(p);
186                         return l;
187                 }
188
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1.3
189                 o = l->n_op;
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1.4
190                 m = p->n_type;
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1.1
191
192                 if (o == ICON) {
193                         CONSZ val = l->n_lval;
194
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1.29
195                         if (!ISPTR(m)) /* Pointers don't need to be conv'd */
196                             switch (m) {
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1.1
197                         case CHAR:
198                                 l->n_lval = (char)val;
199                                 break;
200                         case UCHAR:
201                                 l->n_lval = val & 0377;
202                                 break;
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1.15
203                         case SHORT:
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1.1
204                                 l->n_lval = (short)val;
205                                 break;
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1.15
206                         case USHORT:
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1.1
207                                 l->n_lval = val & 0177777;
208                                 break;
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1.15
209                         case ULONG:
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1.1
210                         case UNSIGNED:
211                                 l->n_lval = val & 0xffffffff;
212                                 break;
213                         case ENUMTY:
214                         case MOETY:
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1.15
215                         case LONG:
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1.1
216                         case INT:
217                                 l->n_lval = (int)val;
218                                 break;
219                         case LONGLONG:
220                                 l->n_lval = (long long)val;
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1.15
221                                 break;
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1.1
222                         case ULONGLONG:
223                                 l->n_lval = val;
224                                 break;
225                         case VOID:
226                                 break;
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1.14
227                         case LDOUBLE:
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1.1
228                         case DOUBLE:
229                         case FLOAT:
230                                 l->n_op = FCON;
231                                 l->n_dcon = val;
232                                 break;
233                         default:
234                                 cerror("unknown type %d"m);
235                         }
236                         l->n_type = m;
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1.44
237                         l->n_sue = MKSUE(m);
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1.1
238                         nfree(p);
239                         return l;
240                 }
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1.17
241                 if (DEUNSIGN(p->n_type) == SHORT &&
242                     DEUNSIGN(l->n_type) == SHORT) {
243                         nfree(p);
244                         p = l;
245                 }
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1.36
246                 if ((p->n_type == CHAR || p->n_type == UCHAR ||
247                     p->n_type == SHORT || p->n_type == USHORT) &&
248                     (l->n_type == FLOAT || l->n_type == DOUBLE ||
249                     l->n_type == LDOUBLE)) {
250                         p = block(SCONVpNILp->n_typep->n_dfp->n_sue);
251                         p->n_left->n_type = INT;
252                         return p;
253                 }
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1.1
254                 break;
255
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1.15
256         case MOD:
257         case DIV:
258                 if (o == DIV && p->n_type != CHAR && p->n_type != SHORT)
259                         break;
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1.16
260                 if (o == MOD && p->n_type != CHAR && p->n_type != SHORT)
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1.15
261                         break;
262                 /* make it an int division by inserting conversions */
263                 p->n_left = block(SCONVp->n_leftNILINT0MKSUE(INT));
264                 p->n_right = block(SCONVp->n_rightNILINT0MKSUE(INT));
265                 p = block(SCONVpNILp->n_type0MKSUE(p->n_type));
266                 p->n_left->n_type = INT;
267                 break;
268
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1.1
269         case PMCONV:
270         case PVCONV:
271                 ifp->n_right->n_op != ICON ) cerror"bad conversion"0);
272                 nfree(p);
273                 return(buildtree(o==PMCONV?MUL:DIVp->n_leftp->n_right));
274
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1.31
275         case FORCE:
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1.32
276                 /* put return value in return reg */
277                 p->n_op = ASSIGN;
278                 p->n_right = p->n_left;
279                 p->n_left = block(REGNILNILp->n_type0MKSUE(INT));
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1.35
280                 p->n_left->n_rval = RETREG(p->n_type);
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1.31
281                 break;
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1.39
282
283         case LS:
284         case RS:
285                 /* shift count must be in a char
286                  * unless longlong, where it must be int */
287                 if (p->n_right->n_op == ICON)
288                         break/* do not do anything */
289                 if (p->n_type == LONGLONG || p->n_type == ULONGLONG) {
290                         if (p->n_right->n_type != INT)
291                                 p->n_right = block(SCONVp->n_rightNIL,
292                                     INT0MKSUE(INT));
293                         break;
294                 }
295                 if (p->n_right->n_type == CHAR || p->n_right->n_type == UCHAR)
296                         break;
297                 p->n_right = block(SCONVp->n_rightNIL,
298                     CHAR0MKSUE(CHAR));
299                 break;
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1.1
300         }
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1.24
301 //printf("ut:\n");
302 //fwalk(p, eprint, 0);
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1.1
303
304         return(p);
305 }
306
307 void
308 myp2tree(NODE *p)
309 {
310 }
311
312 /*ARGSUSED*/
313 int
314 andable(NODE *p)
315 {
316         return(1);  /* all names can have & taken on them */
317 }
318
319 /*
320  * at the end of the arguments of a ftn, set the automatic offset
321  */
322 void
323 cendarg()
324 {
325         autooff = AUTOINIT;
326 }
327
328 /*
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1.36
329  * Return 1 if a variable of type type is OK to put in register.
330  */
331 int
332 cisreg(TWORD t)
333 {
334         if (t == FLOAT || t == DOUBLE || t == LDOUBLE)
335                 return 0/* not yet */
336         return 1;
337 }
338
339 /*
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1.1
340  * return a node, for structure references, which is suitable for
341  * being added to a pointer of type t, in order to be off bits offset
342  * into a structure
343  * t, d, and s are the type, dimension offset, and sizeoffset
344  * For pdp10, return the type-specific index number which calculation
345  * is based on its size. For example, short a[3] would return 3.
346  * Be careful about only handling first-level pointers, the following
347  * indirections must be fullword.
348  */
349 NODE *
350 offcon(OFFSZ offTWORD tunion dimfun *dstruct suedef *sue)
351 {
352         register NODE *p;
353
354         if (xdebug)
355                 printf("offcon: OFFSZ %lld type %x dim %p siz %d\n",
356                     offtdsue->suesize);
357
358         p = bcon(0);
359         p->n_lval = off/SZCHAR/* Default */
360         return(p);
361 }
362
363 /*
364  * Allocate off bits on the stack.  p is a tree that when evaluated
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1.45
365  * is the multiply count for off, t is a storeable node where to write
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1.1
366  * the allocated address.
367  */
368 void
369 spalloc(NODE *tNODE *pOFFSZ off)
370 {
371         NODE *sp;
372
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1.45
373         p = buildtree(MULpbcon(off/SZCHAR)); /* XXX word alignment? */
374
375         /* sub the size from sp */
376         sp = block(REGNILNILp->n_type00);
377         sp->n_lval = 0;
378         sp->n_rval = STKREG;
379         ecomp(buildtree(MINUSEQspp));
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1.1
380
381         /* save the address of sp */
382         sp = block(REGNILNILPTR+INTt->n_dft->n_sue);
383         sp->n_lval = 0;
384         sp->n_rval = STKREG;
385         t->n_type = sp->n_type;
386         ecomp(buildtree(ASSIGNtsp)); /* Emit! */
387
388 }
389
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1.49
390 #if 0
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1.48
391 /*
392  * Print out an integer constant of size size.
393  * can only be sizes <= SZINT.
394  */
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1.47
395 void
396 indata(CONSZ valint size)
397 {
398         switch (size) {
399         case SZCHAR:
400                 printf("\t.byte %d\n", (int)val & 0xff);
401                 break;
402         case SZSHORT:
403                 printf("\t.word %d\n", (int)val & 0xffff);
404                 break;
405         case SZINT:
406                 printf("\t.long %d\n", (int)val & 0xffffffff);
407                 break;
408         default:
409                 cerror("indata");
410         }
411 }
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1.49
412 #endif
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1.47
413
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1.1
414 /*
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1.48
415  * Print out a string of characters.
416  * Assume that the assembler understands C-style escape
417  * sequences.  Location is already set.
418  */
419 void
420 instring(char *str)
421 {
422         char *s;
423
424         /* be kind to assemblers and avoid long strings */
425         printf("\t.ascii \"");
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1.51
426         for (s = str; *s != 0; ) {
427                 if (*s++ == '\\') {
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1.48
428                         (void)esccon(&s);
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1.51
429                 }
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1.48
430                 if (s - str > 64) {
431                         fwrite(str1s - strstdout);
432                         printf("\"\n\t.ascii \"");
433                         str = s;
434                 }
435         }
436         fwrite(str1s - strstdout);
437         printf("\\0\"\n");
438 }
439
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1.49
440 static int inbitsinval;
441
442 /*
443  * set fsz bits in sequence to zero.
444  */
445 void
446 zbits(OFFSZ offint fsz)
447 {
448         int m;
449
450         if (idebug)
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1.51
451                 printf("zbits off %lld, fsz %d inbits %d\n"offfszinbits);
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1.49
452         if ((m = (inbits % SZCHAR))) {
453                 m = SZCHAR - m;
454                 if (fsz < m) {
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1.51
455                         inbits += fsz;
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1.49
456                         return;
457                 } else {
458                         fsz -= m;
459                         printf("\t.byte %d\n"inval);
460                         inval = inbits = 0;
461                 }
462         }
463         if (fsz >= SZCHAR) {
464                 printf("\t.zero %d\n"fsz/SZCHAR);
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1.51
465                 fsz -= (fsz/SZCHAR) * SZCHAR;
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1.49
466         }
467         if (fsz) {
468                 inval = 0;
469                 inbits = fsz;
470         }
471 }
472
473 /*
474  * Initialize a bitfield.
475  */
476 void
477 infld(CONSZ offint fszCONSZ val)
478 {
479         if (idebug)
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1.51
480                 printf("infld off %lld, fsz %d, val %lld inbits %d\n",
481                     offfszvalinbits);
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1.49
482         val &= (1 << fsz)-1;
483         while (fsz + inbits >= SZCHAR) {
484                 inval |= (val << inbits);
485                 printf("\t.byte %d\n"inval & 255);
486                 fsz -= (SZCHAR - inbits);
487                 val >>= (SZCHAR - inbits);
488                 inval = inbits = 0;
489         }
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1.51
490         if (fsz) {
491                 inval |= (val << inbits);
492                 inbits += fsz;
493         }
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1.49
494 }
495
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1.48
496 /*
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1.46
497  * print out a constant node, may be associated with a label.
498  * Do not free the node after use.
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1.49
499  * off is bit offset from the beginning of the aggregate
500  * fsz is the number of bits this is referring to
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1.21
501  */
502 void
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1.49
503 ninval(CONSZ offint fszNODE *p)
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1.21
504 {
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1.46
505         union { float fdouble dlong double lint i[3]; } u;
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1.24
506         struct symtab *q;
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1.23
507         TWORD t;
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1.46
508         int i;
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1.23
509
510         t = p->n_type;
511         if (t > BTMASK)
512                 t = INT/* pointer */
513
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1.46
514         if (p->n_op != ICON && p->n_op != FCON)
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1.40
515                 cerror("ninval: init node not constant");
516
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1.49
517         if (p->n_op == ICON && p->n_sp != NULL && DEUNSIGN(t) != INT)
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1.46
518                 uerror("element not constant");
519
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1.23
520         switch (t) {
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1.21
521         case LONGLONG:
522         case ULONGLONG:
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1.46
523                 i = (p->n_lval >> 32);
524                 p->n_lval &= 0xffffffff;
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1.51
525                 p->n_type = INT;
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1.49
526                 ninval(off32p);
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1.46
527                 p->n_lval = i;
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1.49
528                 ninval(off+3232p);
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1.21
529                 break;
530         case INT:
531         case UNSIGNED:
532                 printf("\t.long 0x%x", (int)p->n_lval);
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1.24
533                 if ((q = p->n_sp) != NULL) {
534                         if ((q->sclass == STATIC && q->slevel > 0) ||
535                             q->sclass == ILABEL) {
536                                 printf("+" LABFMTq->soffset);
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1.21
537                         } else
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1.24
538                                 printf("+%s"exname(q->sname));
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1.21
539                 }
540                 printf("\n");
541                 break;
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1.46
542         case SHORT:
543         case USHORT:
544                 printf("\t.short 0x%x\n", (int)p->n_lval & 0xffff);
545                 break;
546         case CHAR:
547         case UCHAR:
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1.50
548                 printf("\t.byte %d\n", (int)p->n_lval & 0xff);
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1.46
549                 break;
550         case LDOUBLE:
551                 u.i[2] = 0;
552                 u.l = (long double)p->n_dcon;
553                 printf("\t.long\t0x%x,0x%x,0x%x\n"u.i[0], u.i[1], u.i[2]);
554                 break;
555         case DOUBLE:
556                 u.d = (double)p->n_dcon;
557                 printf("\t.long\t0x%x,0x%x\n"u.i[0], u.i[1]);
558                 break;
559         case FLOAT:
560                 u.f = (float)p->n_dcon;
561                 printf("\t.long\t0x%x\n"u.i[0]);
562                 break;
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1.21
563         default:
564                 cerror("ninval");
565         }
566 }
567
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1.46
568 #if 0
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1.21
569 /*
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1.17
570  * print out an integer.
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1.1
571  */
572 void
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1.17
573 inval(CONSZ word)
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1.1
574 {
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1.17
575         word &= 0xffffffff;
576         printf("        .long 0x%llx\n"word);
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1.1
577 }
578
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1.17
579 /* output code to initialize a floating point value */
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1.1
580 /* the proper alignment has been obtained */
581 void
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1.17
582 finval(NODE *p)
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1.1
583 {
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1.43
584         union { float fdouble dlong double lint i[3]; } u;
585
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1.17
586         switch (p->n_type) {
587         case LDOUBLE:
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1.43
588                 u.i[2] = 0;
589                 u.l = (long double)p->n_dcon;
590                 printf("\t.long\t0x%x,0x%x,0x%x\n"u.i[0], u.i[1], u.i[2]);
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1.14
591                 break;
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1.17
592         case DOUBLE:
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1.43
593                 u.d = (double)p->n_dcon;
594                 printf("\t.long\t0x%x,0x%x\n"u.i[0], u.i[1]);
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1.14
595                 break;
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1.17
596         case FLOAT:
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1.43
597                 u.f = (float)p->n_dcon;
598                 printf("\t.long\t0x%x\n"u.i[0]);
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1.14
599                 break;
600         }
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1.1
601 }
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1.46
602 #endif
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1.1
603
604 /* make a name look like an external name in the local machine */
605 char *
606 exname(char *p)
607 {
608         if (p == NULL)
609                 return "";
610         return p;
611 }
612
613 /*
614  * map types which are not defined on the local machine
615  */
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1.15
616 TWORD
ragge
1.1
617 ctype(TWORD type)
618 {
619         switch (BTYPE(type)) {
620         case LONG:
621                 MODTYPE(type,INT);
622                 break;
623
624         case ULONG:
625                 MODTYPE(type,UNSIGNED);
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1.13
626
ragge
1.1
627         }
628         return (type);
629 }
630
631 /* curid is a variable which is defined but
632  * is not initialized (and not a function );
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1.17
633  * This routine returns the storage class for an uninitialized declaration
ragge
1.1
634  */
635 int
636 noinit()
637 {
638         return(EXTERN);
639 }
640
pj
1.30
641 void
642 calldec(NODE *pNODE *q
643 {
644 }
645
646 void
647 extdec(struct symtab *q)
648 {
649 }
650
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1.1
651 /* make a common declaration for id, if reasonable */
652 void
653 commdec(struct symtab *q)
654 {
655         int off;
656
657         off = tsize(q->stypeq->sdfq->ssue);
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1.8
658         off = (off+(SZCHAR-1))/SZCHAR;
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1.7
659 #ifdef GCC_COMPAT
660         printf("        .comm %s,0%o\n"gcc_findname(q), off);
661 #else
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1.1
662         printf("        .comm %s,0%o\n"exname(q->sname), off);
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1.7
663 #endif
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1.1
664 }
665
666 /* make a local common declaration for id, if reasonable */
667 void
668 lcommdec(struct symtab *q)
669 {
670         int off;
671
672         off = tsize(q->stypeq->sdfq->ssue);
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1.8
673         off = (off+(SZCHAR-1))/SZCHAR;
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1.1
674         if (q->slevel == 0)
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1.7
675 #ifdef GCC_COMPAT
676                 printf("        .lcomm %s,0%o\n"gcc_findname(q), off);
677 #else
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1.1
678                 printf("        .lcomm %s,0%o\n"exname(q->sname), off);
ragge
1.7
679 #endif
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1.1
680         else
681                 printf("        .lcomm " LABFMT ",0%o\n"q->soffsetoff);
682 }
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1.22
683
684 /*
685  * print a (non-prog) label.
686  */
687 void
688 deflab1(int label)
689 {
690         printf(LABFMT ":\n"label);
691 }
692
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1.28
693 static char *loctbl[] = { "text""data""section .rodata""section .rodata" };
ragge
1.27
694
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1.23
695 void
696 setloc1(int locc)
697 {
698         if (locc == lastloc)
699                 return;
700         lastloc = locc;
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1.27
701         printf("        .%s\n"loctbl[locc]);
ragge
1.23
702 }
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1.48
703
ragge
1.49
704 #if 0
ragge
1.48
705 int
706 ftoint(NODE *pCONSZ **c)
707 {
708         static CONSZ cc[3];
709         union { float fdouble dlong double lint i[3]; } u;
710         int n;
711
712         switch (p->n_type) {
713         case LDOUBLE:
714                 u.i[2] = 0;
715                 u.l = (long double)p->n_dcon;
716                 n = SZLDOUBLE;
717                 break;
718         case DOUBLE:
719                 u.d = (double)p->n_dcon;
720                 n = SZDOUBLE;
721                 break;
722         case FLOAT:
723                 u.f = (float)p->n_dcon;
724                 n = SZFLOAT;
725                 break;
726         }
727         cc[0] = u.i[0];
728         cc[1] = u.i[1];
729         cc[2] = u.i[2];
730         *c = cc;
731         return n;
732 }
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1.49
733 #endif
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Atlassian FishEye, CVS analysis. (Version:1.6.3 Build:build-336 2008-11-04) - Administration - Page generated 2014-10-02 04:29 +0200