1 /*********************************************************************** 2 * * 3 * This software is part of the ast package * 4 * Copyright (c) 1985-2010 AT&T Intellectual Property * 5 * and is licensed under the * 6 * Common Public License, Version 1.0 * 7 * by AT&T Intellectual Property * 8 * * 9 * A copy of the License is available at * 10 * http://www.opensource.org/licenses/cpl1.0.txt * 11 * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * 12 * * 13 * Information and Software Systems Research * 14 * AT&T Research * 15 * Florham Park NJ * 16 * * 17 * Glenn Fowler <gsf@research.att.com> * 18 * David Korn <dgk@research.att.com> * 19 * Phong Vo <kpv@research.att.com> * 20 * * 21 ***********************************************************************/ 22 #include "sfhdr.h" 23 24 /* The engine for formatting data. 25 ** 1. Argument positioning is done in sftable.c so any changes 26 ** made here should be reflected in sftable.c as well. 27 ** 2. For internationalization, Sfio only supports I/O of multibyte strings. 28 ** However, this code does provide minimal support so that Stdio functions 29 ** such as fwprintf/swprintf can be emulated (see stdvwprintf()). 30 ** 31 ** Written by Kiem-Phong Vo. 32 */ 33 #define HIGHBITI (~((~((uint)0)) >> 1)) 34 #define HIGHBITL (~((~((Sfulong_t)0)) >> 1)) 35 36 #define SFFMT_PREFIX (SFFMT_MINUS|SFFMT_SIGN|SFFMT_BLANK) 37 38 #define FPRECIS 6 /* default precision for floats */ 39 40 #if _PACKAGE_ast 41 #include <ccode.h> 42 #else 43 /* characters when using ebcdic or ascii */ 44 #if _chr_ebcdic 45 #define CC_vt 013 /* vertical tab */ 46 #define CC_esc 047 /* escape */ 47 #define CC_bel 057 /* bell */ 48 #else 49 #define CC_vt 013 /* vertical tab */ 50 #define CC_esc 033 /* escape */ 51 #define CC_bel 007 /* bell */ 52 #endif /* _chr_ebcdic */ 53 #endif /* _PACKAGE_ast */ 54 55 #if __STD_C 56 static int chr2str(char* buf, int v) 57 #else 58 static int chr2str(buf, v) 59 char* buf; 60 int v; 61 #endif 62 { 63 if(isprint(v) && v != '\\') 64 { *buf++ = v; 65 return 1; 66 } 67 else 68 { *buf++ = '\\'; 69 switch(v) 70 { case CC_bel: *buf++ = 'a'; return 2; 71 case CC_vt: *buf++ = 'v'; return 2; 72 case CC_esc: *buf++ = 'E'; return 2; 73 case '\b': *buf++ = 'b'; return 2; 74 case '\f': *buf++ = 'f'; return 2; 75 case '\n': *buf++ = 'n'; return 2; 76 case '\r': *buf++ = 'r'; return 2; 77 case '\t': *buf++ = 't'; return 2; 78 case '\\': *buf++ = '\\'; return 2; 79 default: *buf++ = '0' + ((v >> 6) & 03); 80 *buf++ = '0' + ((v >> 3) & 07); 81 *buf++ = '0' + ((v >> 0) & 07); 82 return 4; 83 } 84 } 85 } 86 87 /* On some platform(s), large functions are not compilable. 88 ** In such a case, the below macro should be defined non-zero so that 89 ** some in-lined macros will be made smaller, trading time for space. 90 */ 91 #if !defined(_sffmt_small) && defined(_UTS) 92 #define _sffmt_small 1 93 #endif 94 95 #if __STD_C 96 int sfvprintf(Sfio_t* f, const char* form, va_list args) 97 #else 98 int sfvprintf(f,form,args) 99 Sfio_t* f; /* file to print to */ 100 char* form; /* format to use */ 101 va_list args; /* arg list if !argf */ 102 #endif 103 { 104 int n, v, w, k, n_s, base, fmt, flags; 105 Sflong_t lv; 106 char *sp, *ssp, *endsp, *ep, *endep; 107 int dot, width, precis, sign, decpt; 108 #if _PACKAGE_ast 109 int scale; 110 #endif 111 ssize_t size; 112 Sfdouble_t dval; 113 Void_t* valp; 114 char *tls[2], **ls; /* for %..[separ]s */ 115 char* t_str; /* stuff between () */ 116 ssize_t n_str; /* its length */ 117 118 Argv_t argv; /* for extf to return value */ 119 Sffmt_t *ft; /* format environment */ 120 Fmt_t *fm, *fmstk; /* stack contexts */ 121 122 char* oform; /* original format string */ 123 va_list oargs; /* original arg list */ 124 Fmtpos_t* fp; /* arg position list */ 125 int argp, argn; /* arg position and number */ 126 127 #define SLACK 1024 128 char buf[SF_MAXDIGITS+SLACK], tmp[SF_MAXDIGITS+1], data[SF_GRAIN]; 129 int decimal = 0, thousand = 0; 130 131 #if _has_multibyte 132 wchar_t* wsp; 133 SFMBDCL(fmbs) /* state of format string */ 134 SFMBDCL(mbs) /* state of some string */ 135 #ifdef mbwidth 136 char* osp; 137 int n_w, wc; 138 #endif 139 #endif 140 141 /* local io system */ 142 int o, n_output; 143 #define SMputc(f,c) { if((o = SFFLSBUF(f,c)) >= 0 ) n_output += 1; \ 144 else { SFBUF(f); goto done; } \ 145 } 146 #define SMnputc(f,c,n) { if((o = SFNPUTC(f,c,n)) > 0 ) n_output += 1; \ 147 if(o != n) { SFBUF(f); goto done; } \ 148 } 149 #define SMwrite(f,s,n) { if((o = SFWRITE(f,(Void_t*)s,n)) > 0 ) n_output += o; \ 150 if(o != n) { SFBUF(f); goto done; } \ 151 } 152 #if _sffmt_small /* these macros are made smaller at some performance cost */ 153 #define SFBUF(f) 154 #define SFINIT(f) (n_output = 0) 155 #define SFEND(f) 156 #define SFputc(f,c) SMputc(f,c) 157 #define SFnputc(f,c,n) SMnputc(f,c,n) 158 #define SFwrite(f,s,n) SMwrite(f,s,n) 159 #else 160 uchar *d, *endd; 161 #define SFBUF(f) (d = f->next, endd = f->endb) 162 #define SFINIT(f) (SFBUF(f), n_output = 0) 163 #define SFEND(f) ((n_output += d - f->next), (f->next = d)) 164 #define SFputc(f,c) { if(d < endd) { *d++ = (uchar)c; } \ 165 else { SFEND(f); SMputc(f,c); SFBUF(f); } \ 166 } 167 #define SFnputc(f,c,n) { if(d+n <= endd) { while(n--) *d++ = (uchar)(c); } \ 168 else { SFEND(f); SMnputc(f,c,n); SFBUF(f); } \ 169 } 170 #define SFwrite(f,s,n) { if(d+n <= endd) { while(n--) *d++ = (uchar)(*s++); } \ 171 else { SFEND(f); SMwrite(f,s,n); SFBUF(f); } \ 172 } 173 #endif /* _sffmt_small */ 174 175 SFMTXDECL(f); 176 177 SFCVINIT(); /* initialize conversion tables */ 178 179 SFMTXENTER(f,-1); 180 181 if(!form) 182 SFMTXRETURN(f, -1); 183 184 /* make sure stream is in write mode and buffer is not NULL */ 185 if(f->mode != SF_WRITE && _sfmode(f,SF_WRITE,0) < 0) 186 SFMTXRETURN(f, -1); 187 188 SFLOCK(f,0); 189 190 if(!f->data && !(f->flags&SF_STRING)) 191 { f->data = f->next = (uchar*)data; 192 f->endb = f->data+sizeof(data); 193 } 194 SFINIT(f); 195 196 tls[1] = NIL(char*); 197 198 fmstk = NIL(Fmt_t*); 199 ft = NIL(Sffmt_t*); 200 201 oform = (char*)form; 202 va_copy(oargs,args); 203 argn = -1; 204 fp = NIL(Fmtpos_t*); 205 206 loop_fmt : 207 SFMBCLR(&fmbs); /* clear multibyte states to parse the format string */ 208 while((n = *form) ) 209 { if(n != '%') /* collect the non-pattern chars */ 210 { sp = (char*)form; 211 do 212 { if((n = SFMBLEN(form, &fmbs)) <= 0) 213 { n = 1; 214 SFMBCLR(&fmbs); 215 } 216 } while(*(form += n) && *form != '%'); 217 218 n = form-sp; 219 SFwrite(f,sp,n); 220 continue; 221 } 222 else form += 1; 223 224 flags = 0; 225 #if _PACKAGE_ast 226 scale = 0; 227 #endif 228 size = width = precis = base = n_s = argp = -1; 229 ssp = _Sfdigits; 230 endep = ep = NIL(char*); 231 endsp = sp = buf+(sizeof(buf)-1); 232 t_str = NIL(char*); 233 n_str = dot = 0; 234 235 loop_flags: /* LOOP FOR \0, %, FLAGS, WIDTH, PRECISION, BASE, TYPE */ 236 switch((fmt = *form++) ) 237 { 238 case '\0': 239 SFputc(f,'%'); 240 goto pop_fmt; 241 case '%' : 242 SFputc(f,'%'); 243 continue; 244 245 case LEFTP : /* get the type enclosed in balanced parens */ 246 t_str = (char*)form; 247 for(v = 1;;) 248 { switch(*form++) 249 { 250 case 0 : /* not balancable, retract */ 251 form = t_str; 252 t_str = NIL(char*); 253 n_str = 0; 254 goto loop_flags; 255 case LEFTP : /* increasing nested level */ 256 v += 1; 257 continue; 258 case RIGHTP : /* decreasing nested level */ 259 if((v -= 1) != 0) 260 continue; 261 if(*t_str != '*' ) 262 n_str = (form-1)-t_str; 263 else 264 { t_str = (*_Sffmtintf)(t_str+1,&n); 265 if(*t_str == '$') 266 { if(!fp && 267 !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0)) ) 268 goto pop_fmt; 269 n = FP_SET(n,argn); 270 } 271 else n = FP_SET(-1,argn); 272 273 if(fp) 274 { t_str = fp[n].argv.s; 275 n_str = fp[n].ft.size; 276 } 277 else if(ft && ft->extf ) 278 { FMTSET(ft, form,args, 279 LEFTP, 0, 0, 0,0,0, 280 NIL(char*),0); 281 n = (*ft->extf) 282 (f,(Void_t*)&argv,ft); 283 if(n < 0) 284 goto pop_fmt; 285 if(!(ft->flags&SFFMT_VALUE) ) 286 goto t_arg; 287 if((t_str = argv.s) && 288 (n_str = (int)ft->size) < 0) 289 n_str = strlen(t_str); 290 } 291 else 292 { t_arg: 293 if((t_str = va_arg(args,char*)) ) 294 n_str = strlen(t_str); 295 } 296 } 297 goto loop_flags; 298 } 299 } 300 301 case '-' : 302 flags = (flags & ~(SFFMT_CENTER|SFFMT_ZERO)) | SFFMT_LEFT; 303 goto loop_flags; 304 case '0' : 305 if(!(flags&(SFFMT_LEFT|SFFMT_CENTER)) ) 306 flags |= SFFMT_ZERO; 307 goto loop_flags; 308 case ' ' : 309 if(!(flags&SFFMT_SIGN) ) 310 flags |= SFFMT_BLANK; 311 goto loop_flags; 312 case '+' : 313 flags = (flags & ~SFFMT_BLANK) | SFFMT_SIGN; 314 goto loop_flags; 315 case '=' : 316 flags = (flags & ~(SFFMT_LEFT|SFFMT_ZERO)) | SFFMT_CENTER; 317 goto loop_flags; 318 case '#' : 319 flags |= SFFMT_ALTER; 320 goto loop_flags; 321 case QUOTE: 322 SFSETLOCALE(&decimal,&thousand); 323 if(thousand > 0) 324 flags |= SFFMT_THOUSAND; 325 goto loop_flags; 326 case ',': 327 SFSETLOCALE(&decimal,&thousand); 328 if(thousand < 0) 329 thousand = fmt; 330 flags |= SFFMT_THOUSAND; 331 goto loop_flags; 332 333 case '.' : 334 dot += 1; 335 if(dot == 1) 336 { /* so base can be defined without setting precis */ 337 if(*form != '.') 338 precis = 0; 339 } 340 else if(dot == 2) 341 { base = 0; /* for %s,%c */ 342 v = form[0] == 'l' ? form[1] : form[0]; 343 if(v == 'c' || v == 'C' || v == 's' || v == 'S') 344 goto loop_flags; 345 if(*form && !isalnum(*form)) 346 { v = form[1] == 'l' ? form[2] : form[1]; 347 if(v == 'c' || v == 'C' || v == 's' || v == 'S') 348 { if(*form == '*') 349 goto do_star; 350 else 351 { base = *form++; 352 goto loop_flags; 353 } 354 } 355 } 356 } 357 358 if(isdigit(*form) ) 359 { fmt = *form++; 360 goto dot_size; 361 } 362 else if(*form != '*') 363 goto loop_flags; 364 do_star: 365 form += 1; /* fall thru for '*' */ 366 case '*' : 367 form = (*_Sffmtintf)(form,&n); 368 if(*form == '$') 369 { form += 1; 370 if(!fp && !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0)) ) 371 goto pop_fmt; 372 n = FP_SET(n,argn); 373 } 374 else n = FP_SET(-1,argn); 375 376 if(fp) 377 v = fp[n].argv.i; 378 else if(ft && ft->extf) 379 { FMTSET(ft, form,args, '.',dot, 0, 0,0,0, NIL(char*), 0); 380 if((*ft->extf)(f, (Void_t*)(&argv), ft) < 0) 381 goto pop_fmt; 382 fmt = ft->fmt; 383 flags = (flags&~SFFMT_TYPES) | (ft->flags&SFFMT_TYPES); 384 if(ft->flags&SFFMT_VALUE) 385 v = argv.i; 386 else v = (dot <= 2) ? va_arg(args,int) : 0; 387 } 388 else v = dot <= 2 ? va_arg(args,int) : 0; 389 goto dot_set; 390 391 case '1' : case '2' : case '3' : 392 case '4' : case '5' : case '6' : 393 case '7' : case '8' : case '9' : 394 dot_size : 395 for(v = fmt - '0'; isdigit(*form); ++form) 396 v = v*10 + (*form - '0'); 397 if(*form == '$') 398 { form += 1; 399 if(!fp && !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0)) ) 400 goto pop_fmt; 401 argp = v-1; 402 goto loop_flags; 403 } 404 dot_set : 405 if(dot == 0) 406 { if((width = v) < 0) 407 { width = -width; 408 flags = (flags & ~(SFFMT_CENTER|SFFMT_ZERO)) | SFFMT_LEFT; 409 } 410 } 411 else if(dot == 1) 412 precis = v; 413 else if(dot == 2) 414 base = v; 415 goto loop_flags; 416 417 case 'I' : /* object length */ 418 size = -1; flags = (flags & ~SFFMT_TYPES) | SFFMT_IFLAG; 419 if(isdigit(*form) ) 420 { for(size = 0, n = *form; isdigit(n); n = *++form) 421 size = size*10 + (n - '0'); 422 } 423 else if(*form == '*') 424 { form = (*_Sffmtintf)(form+1,&n); 425 if(*form == '$') 426 { form += 1; 427 if(!fp && 428 !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0))) 429 goto pop_fmt; 430 n = FP_SET(n,argn); 431 } 432 else n = FP_SET(-1,argn); 433 434 if(fp) /* use position list */ 435 size = fp[n].argv.i; 436 else if(ft && ft->extf) 437 { FMTSET(ft, form,args, 'I',sizeof(int), 0, 0,0,0, 438 NIL(char*), 0); 439 if((*ft->extf)(f, (Void_t*)(&argv), ft) < 0) 440 goto pop_fmt; 441 if(ft->flags&SFFMT_VALUE) 442 size = argv.i; 443 else size = va_arg(args,int); 444 } 445 else size = va_arg(args,int); 446 } 447 goto loop_flags; 448 449 case 'l' : 450 size = -1; flags &= ~SFFMT_TYPES; 451 if(*form == 'l') 452 { form += 1; 453 flags |= SFFMT_LLONG; 454 } 455 else flags |= SFFMT_LONG; 456 goto loop_flags; 457 case 'h' : 458 size = -1; flags &= ~SFFMT_TYPES; 459 if(*form == 'h') 460 { form += 1; 461 flags |= SFFMT_SSHORT; 462 } 463 else flags |= SFFMT_SHORT; 464 goto loop_flags; 465 case 'L' : 466 size = -1; flags = (flags & ~SFFMT_TYPES) | SFFMT_LDOUBLE; 467 goto loop_flags; 468 469 case 'j' : 470 size = -1; flags = (flags&~SFFMT_TYPES) | SFFMT_JFLAG; 471 goto loop_flags; 472 case 'z' : 473 size = -1; flags = (flags&~SFFMT_TYPES) | SFFMT_ZFLAG; 474 goto loop_flags; 475 case 't' : 476 size = -1; flags = (flags&~SFFMT_TYPES) | SFFMT_TFLAG; 477 goto loop_flags; 478 default: 479 break; 480 } 481 482 /* set object size for scalars */ 483 if(flags & SFFMT_TYPES) 484 { if((_Sftype[fmt]&(SFFMT_INT|SFFMT_UINT)) || fmt == 'n') 485 { if(flags&SFFMT_LONG) 486 size = sizeof(long); 487 else if(flags&SFFMT_SHORT) 488 size = sizeof(short); 489 else if(flags&SFFMT_SSHORT) 490 size = sizeof(char); 491 else if(flags&SFFMT_TFLAG) 492 size = sizeof(ptrdiff_t); 493 else if(flags&SFFMT_ZFLAG) 494 size = sizeof(size_t); 495 else if(flags&(SFFMT_LLONG|SFFMT_JFLAG) ) 496 size = sizeof(Sflong_t); 497 else if(flags&SFFMT_IFLAG) 498 { if(size <= 0 || 499 size == sizeof(Sflong_t)*CHAR_BIT ) 500 size = sizeof(Sflong_t); 501 } 502 else if(size < 0) 503 size = sizeof(int); 504 } 505 else if(_Sftype[fmt]&SFFMT_FLOAT) 506 { if(flags&SFFMT_LDOUBLE) 507 size = sizeof(Sfdouble_t); 508 else if(flags&(SFFMT_LONG|SFFMT_LLONG)) 509 size = sizeof(double); 510 else if(flags&SFFMT_IFLAG) 511 { if(size <= 0) 512 size = sizeof(Sfdouble_t); 513 } 514 else if(size < 0) 515 size = sizeof(float); 516 } 517 else if(_Sftype[fmt]&SFFMT_CHAR) 518 { 519 #if _has_multibyte 520 if((flags&SFFMT_LONG) || fmt == 'C') 521 { size = sizeof(wchar_t) > sizeof(int) ? 522 sizeof(wchar_t) : sizeof(int); 523 } else 524 #endif 525 if(size < 0) 526 size = sizeof(int); 527 } 528 } 529 530 argp = FP_SET(argp,argn); 531 if(fp) 532 { if(ft && ft->extf && fp[argp].ft.fmt != fp[argp].fmt) 533 fmt = fp[argp].ft.fmt; 534 argv = fp[argp].argv; 535 size = fp[argp].ft.size; 536 } 537 else if(ft && ft->extf ) /* extended processing */ 538 { FMTSET(ft, form,args, fmt, size,flags, width,precis,base, 539 t_str,n_str); 540 SFEND(f); SFOPEN(f,0); 541 v = (*ft->extf)(f, (Void_t*)(&argv), ft); 542 SFLOCK(f,0); SFBUF(f); 543 544 if(v < 0) /* no further processing */ 545 goto pop_fmt; 546 else if(v > 0) /* extf output v bytes */ 547 { n_output += v; 548 continue; 549 } 550 else /* extf did not output */ 551 { FMTGET(ft, form,args, fmt, size,flags, width,precis,base); 552 553 if(!(ft->flags&SFFMT_VALUE)) 554 goto arg_list; 555 else if(_Sftype[fmt]&(SFFMT_INT|SFFMT_UINT) ) 556 { if(size == sizeof(short)) 557 { if(_Sftype[fmt]&SFFMT_INT) 558 argv.i = argv.h; 559 else argv.i = argv.uh; 560 } 561 else if(size == sizeof(char)) 562 { if(_Sftype[fmt]&SFFMT_INT) 563 argv.i = argv.c; 564 else argv.i = argv.uc; 565 } 566 } 567 else if(_Sftype[fmt]&SFFMT_FLOAT ) 568 { if(size == sizeof(float) ) 569 argv.d = argv.f; 570 } 571 else if(_Sftype[fmt]&SFFMT_CHAR) 572 { if(base < 0) 573 argv.i = (int)argv.c; 574 } 575 } 576 } 577 else 578 { arg_list: 579 switch(_Sftype[fmt]) 580 { case SFFMT_INT: 581 case SFFMT_UINT: 582 #if !_ast_intmax_long 583 if(size == sizeof(Sflong_t)) 584 argv.ll = va_arg(args, Sflong_t); 585 else 586 #endif 587 if(size == sizeof(long) ) 588 argv.l = va_arg(args, long); 589 else argv.i = va_arg(args, int); 590 break; 591 case SFFMT_FLOAT: 592 #if !_ast_fltmax_double 593 if(size == sizeof(Sfdouble_t)) 594 argv.ld = va_arg(args,Sfdouble_t); 595 else 596 #endif 597 argv.d = va_arg(args,double); 598 break; 599 case SFFMT_POINTER: 600 argv.vp = va_arg(args,Void_t*); 601 break; 602 case SFFMT_CHAR: 603 if(base >= 0) 604 argv.s = va_arg(args,char*); 605 #if _has_multibyte 606 else if((flags & SFFMT_LONG) || fmt == 'C') 607 { if(sizeof(wchar_t) <= sizeof(uint) ) 608 argv.wc = (wchar_t)va_arg(args,uint); 609 else argv.wc = va_arg(args,wchar_t); 610 } 611 #endif 612 else argv.i = va_arg(args,int); 613 break; 614 default: /* unknown pattern */ 615 break; 616 } 617 } 618 619 switch(fmt) /* PRINTF DIRECTIVES */ 620 { 621 default : /* unknown directive */ 622 form -= 1; 623 argn -= 1; 624 continue; 625 626 case '!' : /* stacking a new environment */ 627 if(!fp) 628 fp = (*_Sffmtposf)(f,oform,oargs,ft,0); 629 else goto pop_fmt; 630 631 if(!argv.ft) 632 goto pop_fmt; 633 if(!argv.ft->form && ft ) /* change extension functions */ 634 { if(ft->eventf && 635 (*ft->eventf)(f,SF_DPOP,(Void_t*)form,ft) < 0) 636 continue; 637 fmstk->ft = ft = argv.ft; 638 } 639 else /* stack a new environment */ 640 { if(!(fm = (Fmt_t*)malloc(sizeof(Fmt_t))) ) 641 goto done; 642 643 ft = fm->ft = argv.ft; 644 SFMBSET(ft->mbs, &fmbs); 645 if(ft->form) 646 { fm->form = (char*)form; SFMBCPY(&fm->mbs,&fmbs); 647 va_copy(fm->args,args); 648 649 fm->oform = oform; 650 va_copy(fm->oargs,oargs); 651 fm->argn = argn; 652 fm->fp = fp; 653 654 form = ft->form; SFMBCLR(ft->mbs); 655 va_copy(args,ft->args); 656 argn = -1; 657 fp = NIL(Fmtpos_t*); 658 oform = (char*)form; 659 va_copy(oargs,args); 660 } 661 else fm->form = NIL(char*); 662 663 fm->eventf = ft->eventf; 664 fm->next = fmstk; 665 fmstk = fm; 666 } 667 continue; 668 669 case 'S': 670 flags = (flags & ~(SFFMT_TYPES|SFFMT_LDOUBLE)) | SFFMT_LONG; 671 case 's': 672 #if _has_multibyte && defined(mbwidth) 673 wc = (flags & SFFMT_LDOUBLE) && mbwide(); 674 #endif 675 if(base >= 0) /* list of strings */ 676 { if(!(ls = argv.sp) || !ls[0]) 677 continue; 678 } 679 else 680 { if(!(sp = argv.s)) 681 { sp = "(null)"; 682 flags &= ~SFFMT_LONG; 683 } 684 #if _PACKAGE_ast 685 str_cvt: 686 if(scale) 687 { size = base = -1; 688 flags &= ~SFFMT_LONG; 689 } 690 #endif 691 ls = tls; tls[0] = sp; 692 } 693 for(sp = *ls;;) 694 { /* v: number of bytes w: print width of those v bytes */ 695 #if _has_multibyte 696 if(flags & SFFMT_LONG) 697 { v = 0; 698 #ifdef mbwidth 699 w = 0; 700 #endif 701 SFMBCLR(&mbs); 702 for(n = 0, wsp = (wchar_t*)sp;; ++wsp, ++n) 703 { if((size >= 0 && n >= size) || 704 (size < 0 && *wsp == 0) ) 705 break; 706 if((n_s = wcrtomb(buf, *wsp, &mbs)) <= 0) 707 break; 708 #ifdef mbwidth 709 if(wc) 710 { n_w = mbwidth(*wsp); 711 if(precis >= 0 && (w+n_w) > precis ) 712 break; 713 w += n_w; 714 } 715 else 716 #endif 717 if(precis >= 0 && (v+n_s) > precis ) 718 break; 719 v += n_s; 720 } 721 #ifdef mbwidth 722 if(!wc) 723 w = v; 724 #endif 725 } 726 #if _has_multibyte && defined(mbwidth) 727 else if (wc) 728 { w = 0; 729 SFMBCLR(&mbs); 730 ssp = sp; 731 for(;;) 732 { if((size >= 0 && w >= size) || 733 (size < 0 && *ssp == 0) ) 734 break; 735 osp = ssp; 736 n = mbchar(osp); 737 n_w = mbwidth(n); 738 if(precis >= 0 && (w+n_w) > precis ) 739 break; 740 w += n_w; 741 ssp = osp; 742 } 743 v = ssp - sp; 744 } 745 #endif 746 else 747 #endif 748 { if((v = size) < 0) 749 for(v = 0; sp[v]; ++v) 750 if(v == precis) 751 break; 752 if(precis >= 0 && v > precis) 753 v = precis; 754 w = v; 755 } 756 757 if((n = width - w) > 0 && !(flags&SFFMT_LEFT) ) 758 { if(flags&SFFMT_CENTER) 759 { n -= (k = n/2); 760 SFnputc(f, ' ', k); 761 } 762 else 763 { 764 SFnputc(f, ' ', n); 765 n = 0; 766 } 767 } 768 #if _has_multibyte 769 if(flags & SFFMT_LONG) 770 { SFMBCLR(&mbs); 771 for(wsp = (wchar_t*)sp; w > 0; ++wsp, --w) 772 { if((n_s = wcrtomb(buf, *wsp, &mbs)) <= 0) 773 break; 774 sp = buf; SFwrite(f, sp, n_s); 775 } 776 } 777 else 778 #endif 779 { SFwrite(f,sp,v); } 780 if(n > 0) 781 { SFnputc(f,' ',n); } 782 if(!(sp = *++ls)) 783 break; 784 else if(base > 0) 785 { SFputc(f,base); } 786 } 787 continue; 788 789 case 'C': 790 flags = (flags & ~(SFFMT_TYPES|SFFMT_LDOUBLE)) | SFFMT_LONG; 791 case 'c': 792 #if _has_multibyte && defined(mbwidth) 793 wc = (flags & SFFMT_LDOUBLE) && mbwide(); 794 #endif 795 if(precis <= 0) /* # of times to repeat a character */ 796 precis = 1; 797 #if _has_multibyte 798 if(flags & SFFMT_LONG) 799 { if(base >= 0) 800 { if(!(wsp = (wchar_t*)argv.s) ) 801 continue; 802 for(size = 0; wsp[size]; ++size) 803 ; 804 } 805 else 806 { wsp = &argv.wc; 807 size = 1; 808 } 809 } 810 else 811 #endif 812 { if(base >= 0) 813 { if(!(sp = argv.s) ) 814 continue; 815 size = strlen(sp); 816 } 817 else 818 { argv.c = (char)(argv.i); 819 sp = &argv.c; 820 size = 1; 821 } 822 } 823 824 while(size > 0) 825 { 826 #if _has_multibyte 827 if(flags&SFFMT_LONG) 828 { SFMBCLR(&mbs); 829 if((n_s = wcrtomb(buf, *wsp++, &mbs)) <= 0) 830 break; 831 #ifdef mbwidth 832 if(wc) 833 n_s = mbwidth(*(wsp - 1)); 834 #endif 835 n = width - precis*n_s; /* padding amount */ 836 } 837 else 838 #endif 839 if(flags&SFFMT_ALTER) 840 { n_s = chr2str(buf, *sp++); 841 n = width - precis*n_s; 842 } 843 else 844 { fmt = *sp++; 845 n = width - precis; 846 } 847 848 if(n > 0 && !(flags&SFFMT_LEFT) ) 849 { if(flags&SFFMT_CENTER) 850 { n -= (k = n/2); 851 SFnputc(f, ' ', k); 852 } 853 else 854 { SFnputc(f, ' ', n); 855 n = 0; 856 } 857 } 858 859 v = precis; /* need this because SFnputc may clear it */ 860 #if _has_multibyte 861 if(flags&SFFMT_LONG) 862 { for(; v > 0; --v) 863 { ssp = buf; k = n_s; SFwrite(f,ssp,k); } 864 } 865 else 866 #endif 867 if(flags&SFFMT_ALTER) 868 { for(; v > 0; --v) 869 { ssp = buf; k = n_s; SFwrite(f,ssp,k); } 870 } 871 else 872 { SFnputc(f, fmt, v); 873 } 874 875 if(n > 0) 876 { SFnputc(f,' ',n); }; 877 878 if((size -= 1) > 0 && base > 0) 879 { SFputc(f,base); } 880 } 881 continue; 882 883 case 'n': /* return current output length */ 884 SFEND(f); 885 #if !_ast_intmax_long 886 if(size == sizeof(Sflong_t) ) 887 *((Sflong_t*)argv.vp) = (Sflong_t)n_output; 888 else 889 #endif 890 if(size == sizeof(long)) 891 *((long*)argv.vp) = (long)n_output; 892 else if(size == sizeof(short) ) 893 *((short*)argv.vp) = (short)n_output; 894 else if(size == sizeof(uchar) ) 895 *((uchar*)argv.vp) = (uchar)n_output; 896 else *((int*)argv.vp) = (int)n_output; 897 898 continue; 899 900 case 'p': /* pointer value */ 901 fmt = 'x'; 902 base = 16; n_s = 15; n = 4; 903 flags = (flags&~(SFFMT_SIGN|SFFMT_BLANK|SFFMT_ZERO))|SFFMT_ALTER; 904 #if _more_void_int 905 lv = (Sflong_t)((Sfulong_t)argv.vp); 906 goto long_cvt; 907 #else 908 v = (int)((uint)argv.vp); 909 goto int_cvt; 910 #endif 911 case 'o': 912 base = 8; n_s = 7; n = 3; 913 flags &= ~(SFFMT_SIGN|SFFMT_BLANK); 914 goto int_arg; 915 case 'X': 916 ssp = "0123456789ABCDEF"; 917 case 'x': 918 base = 16; n_s = 15; n = 4; 919 flags &= ~(SFFMT_SIGN|SFFMT_BLANK); 920 goto int_arg; 921 case 'i': 922 #if _PACKAGE_ast 923 if((flags&SFFMT_ALTER) && base < 0) 924 { flags &= ~SFFMT_ALTER; 925 scale = 1024; 926 } 927 #endif 928 fmt = 'd'; 929 goto d_format; 930 case 'u': 931 flags &= ~(SFFMT_SIGN|SFFMT_BLANK); 932 case 'd': 933 d_format: 934 #if _PACKAGE_ast 935 if((flags&SFFMT_ALTER) && base < 0) 936 { flags &= ~SFFMT_ALTER; 937 scale = 1000; 938 } 939 #endif 940 if(base < 2 || base > SF_RADIX) 941 base = 10; 942 if((base&(n_s = base-1)) == 0) 943 { if(base < 8) 944 n = base < 4 ? 1 : 2; 945 else if(base < 32) 946 n = base < 16 ? 3 : 4; 947 else n = base < 64 ? 5 : 6; 948 } 949 else n_s = base == 10 ? -1 : 0; 950 951 int_arg: 952 #if !_ast_intmax_long || _more_long_int || _more_void_int 953 if(size == sizeof(Sflong_t)) 954 { lv = argv.ll; 955 goto long_cvt; 956 } 957 else if(sizeof(long) < sizeof(Sflong_t) && size == sizeof(long)) 958 { if(fmt == 'd') 959 lv = (Sflong_t)argv.l; 960 else lv = (Sflong_t)argv.ul; 961 long_cvt: 962 #if _PACKAGE_ast 963 if(scale) 964 { sp = fmtscale(lv, scale); 965 #if _has_multibyte && defined(mbwidth) 966 wc = 0; 967 #endif 968 goto str_cvt; 969 } 970 #endif 971 if(lv == 0 && precis == 0) 972 break; 973 if(lv < 0 && fmt == 'd' ) 974 { flags |= SFFMT_MINUS; 975 if(lv == HIGHBITL) /* avoid overflow */ 976 { lv = (Sflong_t)(HIGHBITL/base); 977 *--sp = _Sfdigits[HIGHBITL - 978 ((Sfulong_t)lv)*base]; 979 } 980 else lv = -lv; 981 } 982 if(n_s < 0) /* base 10 */ 983 { Sflong_t nv; 984 sfucvt(lv,sp,nv,ssp,Sflong_t,Sfulong_t); 985 } 986 else if(n_s > 0) /* base power-of-2 */ 987 { do 988 { *--sp = ssp[lv&n_s]; 989 } while((lv = ((Sfulong_t)lv) >> n) ); 990 } 991 else /* general base */ 992 { do 993 { *--sp = ssp[((Sfulong_t)lv)%base]; 994 } while((lv = ((Sfulong_t)lv)/base) ); 995 } 996 } else 997 #endif 998 if(sizeof(short) < sizeof(int) && size == sizeof(short) ) 999 { if(fmt == 'd') 1000 v = (int)((short)argv.i); 1001 else v = (int)((ushort)argv.i); 1002 goto int_cvt; 1003 } 1004 else if(size == sizeof(char)) 1005 { if(fmt != 'd') 1006 v = (int)((uchar)argv.i); 1007 else 1008 { 1009 #if _key_signed 1010 v = (int)((signed char)argv.i); 1011 #else 1012 if(argv.i < 0) 1013 v = -((int)((char)(-argv.i))); 1014 else v = ((int)((char)( argv.i))); 1015 #endif 1016 } 1017 goto int_cvt; 1018 } 1019 else 1020 { v = argv.i; 1021 int_cvt: 1022 #if _PACKAGE_ast 1023 if(scale) 1024 { sp = fmtscale(v, scale); 1025 #if _has_multibyte && defined(mbwidth) 1026 wc = 0; 1027 #endif 1028 goto str_cvt; 1029 } 1030 #endif 1031 if(v == 0 && precis == 0) 1032 break; 1033 if(v < 0 && fmt == 'd' ) 1034 { flags |= SFFMT_MINUS; 1035 if(v == HIGHBITI) /* avoid overflow */ 1036 { v = (int)(HIGHBITI/base); 1037 *--sp = _Sfdigits[HIGHBITI - 1038 ((uint)v)*base]; 1039 } 1040 else v = -v; 1041 } 1042 if(n_s < 0) /* base 10 */ 1043 { sfucvt(v,sp,n,ssp,int,uint); 1044 } 1045 else if(n_s > 0) /* base power-of-2 */ 1046 { do 1047 { *--sp = ssp[v&n_s]; 1048 } while((v = ((uint)v) >> n) ); 1049 } 1050 else /* n_s == 0, general base */ 1051 { do 1052 { *--sp = ssp[((uint)v)%base]; 1053 } while((v = ((uint)v)/base) ); 1054 } 1055 } 1056 1057 if(n_s < 0 && (flags&SFFMT_THOUSAND) && (n = endsp-sp) > 3) 1058 { if((n %= 3) == 0) 1059 n = 3; 1060 for(ep = buf+SLACK, endep = ep + n; ; ) 1061 { while(ep < endep) 1062 *ep++ = *sp++; 1063 if(sp == endsp) 1064 break; 1065 if(sp <= endsp-3) 1066 *ep++ = thousand; 1067 endep = ep+3; 1068 } 1069 sp = buf+SLACK; 1070 endsp = ep; 1071 } 1072 1073 /* zero padding for precision if have room in buffer */ 1074 if(precis > 0 && (precis -= (endsp-sp)) < (sp-buf)-64) 1075 while(precis-- > 0) 1076 *--sp = '0'; 1077 1078 if(flags&SFFMT_ALTER) /* prefix */ 1079 { if(fmt == 'o') 1080 { if(*sp != '0') 1081 *--sp = '0'; 1082 } 1083 else 1084 { if(width > 0 && (flags&SFFMT_ZERO)) 1085 { /* do 0 padding first */ 1086 if(fmt == 'x' || fmt == 'X') 1087 n = 0; 1088 else if(dot < 2) 1089 n = width; 1090 else n = base < 10 ? 2 : 3; 1091 n += (flags&(SFFMT_MINUS|SFFMT_SIGN)) ? 1092 1 : 0; 1093 n = width - (n + (endsp-sp)); 1094 while(n-- > 0) 1095 *--sp = '0'; 1096 } 1097 if(fmt == 'x' || fmt == 'X') 1098 { *--sp = (char)fmt; 1099 *--sp = '0'; 1100 } 1101 else if(dot >= 2) 1102 { /* base#value notation */ 1103 *--sp = '#'; 1104 if(base < 10) 1105 *--sp = (char)('0'+base); 1106 else 1107 { *--sp = _Sfdec[(base <<= 1)+1]; 1108 *--sp = _Sfdec[base]; 1109 } 1110 } 1111 } 1112 } 1113 1114 break; 1115 1116 case 'g': case 'G': /* these ultimately become %e or %f */ 1117 case 'a': case 'A': 1118 case 'e': case 'E': 1119 case 'f': case 'F': 1120 #if !_ast_fltmax_double 1121 if(size == sizeof(Sfdouble_t) ) 1122 { v = SFFMT_LDOUBLE; 1123 valp = &argv.ld; 1124 dval = argv.ld; 1125 } 1126 else 1127 #endif 1128 { v = 0; 1129 valp = &argv.d; 1130 dval = argv.d; 1131 } 1132 1133 if(fmt == 'e' || fmt == 'E' && (v |= SFFMT_UPPER)) 1134 { v |= SFFMT_EFORMAT; 1135 n = (precis = precis < 0 ? FPRECIS : precis)+1; 1136 ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(n,SF_FDIGITS), 1137 &decpt, &sign, &n_s, v); 1138 goto e_format; 1139 } 1140 else if(fmt == 'f' || fmt == 'F' && (v |= SFFMT_UPPER)) 1141 { precis = precis < 0 ? FPRECIS : precis; 1142 ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(precis,SF_FDIGITS), 1143 &decpt, &sign, &n_s, v); 1144 goto f_format; 1145 } 1146 else if(fmt == 'a' || fmt == 'A' && (v |= SFFMT_UPPER)) 1147 { v |= SFFMT_AFORMAT; 1148 if(precis < 0) 1149 { if(v & SFFMT_LDOUBLE) 1150 precis = 2*(sizeof(Sfdouble_t) - 2); 1151 else precis = 2*(sizeof(double) - 2); 1152 } 1153 n = precis + 1; 1154 ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(n,SF_FDIGITS), 1155 &decpt, &sign, &n_s, v); 1156 1157 sp = endsp = buf+1; /* reserve space for sign */ 1158 *endsp++ = '0'; 1159 *endsp++ = fmt == 'a' ? 'x' : 'X'; 1160 if (!isxdigit(*ep)) 1161 goto infinite; 1162 goto a_format; 1163 } 1164 else /* 'g' or 'G' format */ 1165 { precis = precis < 0 ? FPRECIS : precis == 0 ? 1 : precis; 1166 if(fmt == 'G') 1167 v |= SFFMT_UPPER; 1168 v |= SFFMT_EFORMAT; 1169 ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(precis,SF_FDIGITS), 1170 &decpt, &sign, &n_s, v); 1171 if(dval == 0.) 1172 decpt = 1; 1173 else if(*ep == 'I') 1174 goto infinite; 1175 1176 if(!(flags&SFFMT_ALTER)) 1177 { /* zap trailing 0s */ 1178 if((n = n_s) > precis) 1179 n = precis; 1180 while((n -= 1) >= 1 && ep[n] == '0') 1181 ; 1182 n += 1; 1183 } 1184 else n = precis; 1185 1186 if(decpt < -3 || decpt > precis) 1187 { precis = n-1; 1188 goto e_format; 1189 } 1190 else 1191 { precis = n - decpt; 1192 goto f_format; 1193 } 1194 } 1195 1196 e_format: /* build the x.yyyy string */ 1197 if(isalpha(*ep)) 1198 goto infinite; 1199 sp = endsp = buf+1; /* reserve space for sign */ 1200 a_format: 1201 *endsp++ = *ep ? *ep++ : '0'; 1202 1203 SFSETLOCALE(&decimal,&thousand); 1204 if(precis > 0 || (flags&SFFMT_ALTER)) 1205 *endsp++ = decimal; 1206 ssp = endsp; 1207 endep = ep+precis; 1208 while((*endsp++ = *ep++) && ep <= endep) 1209 ; 1210 precis -= (endsp -= 1) - ssp; 1211 1212 /* build the exponent */ 1213 ep = endep = buf+(sizeof(buf)-1); 1214 if(dval != 0.) 1215 { if((n = decpt - 1) < 0) 1216 n = -n; 1217 while(n > 9) 1218 { v = n; n /= 10; 1219 *--ep = (char)('0' + (v - n*10)); 1220 } 1221 } 1222 else n = 0; 1223 *--ep = (char)('0' + n); 1224 if(endep-ep <= 1) /* at least 2 digits */ 1225 *--ep = '0'; 1226 1227 /* the e/Exponent separator and sign */ 1228 *--ep = (decpt > 0 || dval == 0.) ? '+' : '-'; 1229 *--ep = fmt == 'a' ? 'p' : fmt == 'A' ? 'P' : 1230 isupper(fmt) ? 'E' : 'e'; 1231 1232 goto end_aefg; 1233 1234 f_format: /* data before the decimal point */ 1235 if(isalpha(*ep)) 1236 { 1237 infinite: 1238 flags &= ~SFFMT_ZERO; 1239 endsp = (sp = ep)+sfslen(); 1240 ep = endep; 1241 precis = 0; 1242 goto end_aefg; 1243 } 1244 1245 SFSETLOCALE(&decimal,&thousand); 1246 endsp = sp = buf+1; /* save a space for sign */ 1247 endep = ep+decpt; 1248 if(decpt > 3 && (flags&SFFMT_THOUSAND) ) 1249 { if((n = decpt%3) == 0) 1250 n = 3; 1251 while(ep < endep && (*endsp++ = *ep++) ) 1252 { if(--n == 0 && (ep <= endep-3) ) 1253 { *endsp++ = thousand; 1254 n = 3; 1255 } 1256 } 1257 } 1258 else 1259 { while(ep < endep && (*endsp++ = *ep++)) 1260 ; 1261 } 1262 if(endsp == sp) 1263 *endsp++ = '0'; 1264 1265 if(precis > 0 || (flags&SFFMT_ALTER)) 1266 *endsp++ = decimal; 1267 1268 if((n = -decpt) > 0) 1269 { /* output zeros for negative exponent */ 1270 ssp = endsp + min(n,precis); 1271 precis -= n; 1272 while(endsp < ssp) 1273 *endsp++ = '0'; 1274 } 1275 1276 ssp = endsp; 1277 endep = ep+precis; 1278 while((*endsp++ = *ep++) && ep <= endep) 1279 ; 1280 precis -= (endsp -= 1) - ssp; 1281 ep = endep; 1282 end_aefg: 1283 flags |= SFFMT_FLOAT; 1284 if(sign) 1285 flags |= SFFMT_MINUS; 1286 break; 1287 } 1288 1289 if(flags == 0 && width <= 0) 1290 goto do_output; 1291 1292 if(flags&SFFMT_PREFIX) 1293 fmt = (flags&SFFMT_MINUS) ? '-' : (flags&SFFMT_SIGN) ? '+' : ' '; 1294 1295 n = (endsp-sp) + (endep-ep) + (precis <= 0 ? 0 : precis) + 1296 ((flags&SFFMT_PREFIX) ? 1 : 0); 1297 if((v = width-n) <= 0) 1298 v = 0; 1299 else if(!(flags&SFFMT_ZERO)) /* right padding */ 1300 { if(flags&SFFMT_LEFT) 1301 v = -v; 1302 else if(flags&SFFMT_PREFIX) /* blank padding, output prefix now */ 1303 { *--sp = fmt; 1304 flags &= ~SFFMT_PREFIX; 1305 } 1306 } 1307 1308 if(flags&SFFMT_PREFIX) /* put out the prefix */ 1309 { SFputc(f,fmt); 1310 if(fmt != ' ') 1311 flags |= SFFMT_ZERO; 1312 } 1313 1314 if((n = v) > 0) /* left padding */ 1315 { v = (flags&SFFMT_ZERO) ? '0' : ' '; 1316 SFnputc(f,v,n); 1317 } 1318 1319 if((n = precis) > 0 && !(flags&SFFMT_FLOAT)) 1320 { /* padding for integer precision */ 1321 SFnputc(f,'0',n); 1322 precis = 0; 1323 } 1324 1325 do_output: 1326 if((n = endsp-sp) > 0) 1327 SFwrite(f,sp,n); 1328 1329 if(flags&(SFFMT_FLOAT|SFFMT_LEFT)) 1330 { /* SFFMT_FLOAT: right padding for float precision */ 1331 if((n = precis) > 0) 1332 SFnputc(f,'0',n); 1333 1334 /* SFFMT_FLOAT: the exponent of %eE */ 1335 if((n = endep - (sp = ep)) > 0) 1336 SFwrite(f,sp,n); 1337 1338 /* SFFMT_LEFT: right padding */ 1339 if((n = -v) > 0) 1340 { SFnputc(f,' ',n); } 1341 } 1342 } 1343 1344 pop_fmt: 1345 if(fp) 1346 { free(fp); 1347 fp = NIL(Fmtpos_t*); 1348 } 1349 while((fm = fmstk) ) /* pop the format stack and continue */ 1350 { if(fm->eventf) 1351 { if(!form || !form[0]) 1352 (*fm->eventf)(f,SF_FINAL,NIL(Void_t*),ft); 1353 else if((*fm->eventf)(f,SF_DPOP,(Void_t*)form,ft) < 0) 1354 goto loop_fmt; 1355 } 1356 1357 fmstk = fm->next; 1358 if((form = fm->form) ) 1359 { SFMBCPY(&fmbs,&fm->mbs); 1360 va_copy(args, fm->args); 1361 oform = fm->oform; 1362 va_copy(oargs,fm->oargs); 1363 argn = fm->argn; 1364 fp = fm->fp; 1365 } 1366 ft = fm->ft; 1367 free(fm); 1368 if(form && form[0]) 1369 goto loop_fmt; 1370 } 1371 1372 done: 1373 if(fp) 1374 free(fp); 1375 while((fm = fmstk) ) 1376 { if(fm->eventf) 1377 (*fm->eventf)(f,SF_FINAL,NIL(Void_t*),fm->ft); 1378 fmstk = fm->next; 1379 free(fm); 1380 } 1381 1382 SFEND(f); 1383 1384 n = f->next - f->data; 1385 if((sp = (char*)f->data) == data) 1386 f->endw = f->endr = f->endb = f->data = NIL(uchar*); 1387 f->next = f->data; 1388 1389 if((((flags = f->flags)&SF_SHARE) && !(flags&SF_PUBLIC) ) || 1390 (n > 0 && (sp == data || (flags&SF_LINE) ) ) ) 1391 (void)SFWRITE(f,(Void_t*)sp,n); 1392 else f->next += n; 1393 1394 SFOPEN(f,0); 1395 SFMTXRETURN(f, n_output); 1396 } 1397