/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1985-2008 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * David Korn * * Phong Vo * * * ***********************************************************************/ #include "sfhdr.h" /* The engine for formatting data. ** 1. Argument positioning is done in sftable.c so any changes ** made here should be reflected in sftable.c as well. ** 2. For internationalization, Sfio only supports I/O of multibyte strings. ** However, this code does provide minimal support so that Stdio functions ** such as fwprintf/swprintf can be emulated (see stdvwprintf()). ** ** Written by Kiem-Phong Vo. */ #define HIGHBITI (~((~((uint)0)) >> 1)) #define HIGHBITL (~((~((Sfulong_t)0)) >> 1)) #define SFFMT_PREFIX (SFFMT_MINUS|SFFMT_SIGN|SFFMT_BLANK) #define FPRECIS 6 /* default precision for floats */ #if _PACKAGE_ast #include #else /* characters when using ebcdic or ascii */ #if _chr_ebcdic #define CC_vt 013 /* vertical tab */ #define CC_esc 047 /* escape */ #define CC_bel 057 /* bell */ #else #define CC_vt 013 /* vertical tab */ #define CC_esc 033 /* escape */ #define CC_bel 007 /* bell */ #endif /* _chr_ebcdic */ #endif /* _PACKAGE_ast */ #if __STD_C static int chr2str(char* buf, int v) #else static int chr2str(buf, v) char* buf; int v; #endif { if(isprint(v) && v != '\\') { *buf++ = v; return 1; } else { *buf++ = '\\'; switch(v) { case CC_bel: *buf++ = 'a'; return 2; case CC_vt: *buf++ = 'v'; return 2; case CC_esc: *buf++ = 'E'; return 2; case '\b': *buf++ = 'b'; return 2; case '\f': *buf++ = 'f'; return 2; case '\n': *buf++ = 'n'; return 2; case '\r': *buf++ = 'r'; return 2; case '\t': *buf++ = 't'; return 2; case '\\': *buf++ = '\\'; return 2; default: *buf++ = '0' + ((v >> 6) & 03); *buf++ = '0' + ((v >> 3) & 07); *buf++ = '0' + ((v >> 0) & 07); return 4; } } } /* On some platform(s), large functions are not compilable. ** In such a case, the below macro should be defined non-zero so that ** some in-lined macros will be made smaller, trading time for space. */ #if !defined(_sffmt_small) && defined(_UTS) #define _sffmt_small 1 #endif #if __STD_C int sfvprintf(Sfio_t* f, const char* form, va_list args) #else int sfvprintf(f,form,args) Sfio_t* f; /* file to print to */ char* form; /* format to use */ va_list args; /* arg list if !argf */ #endif { int n, v, w, k, n_s, base, fmt, flags; Sflong_t lv; char *sp, *ssp, *endsp, *ep, *endep; int dot, width, precis, sign, decpt; #if _PACKAGE_ast int scale; #endif ssize_t size; Sfdouble_t dval; Void_t* valp; char *tls[2], **ls; /* for %..[separ]s */ char* t_str; /* stuff between () */ ssize_t n_str; /* its length */ Argv_t argv; /* for extf to return value */ Sffmt_t *ft; /* format environment */ Fmt_t *fm, *fmstk; /* stack contexts */ char* oform; /* original format string */ va_list oargs; /* original arg list */ Fmtpos_t* fp; /* arg position list */ int argp, argn; /* arg position and number */ #define SLACK 1024 char buf[SF_MAXDIGITS+SLACK], tmp[SF_MAXDIGITS+1], data[SF_GRAIN]; int decimal = 0, thousand = 0; #if _has_multibyte wchar_t* wsp; SFMBDCL(fmbs) /* state of format string */ SFMBDCL(mbs) /* state of some string */ #ifdef mbwidth char* osp; int n_w, wc; #endif #endif /* local io system */ int o, n_output; #define SMputc(f,c) { if((o = SFFLSBUF(f,c)) >= 0 ) n_output += 1; \ else { SFBUF(f); goto done; } \ } #define SMnputc(f,c,n) { if((o = SFNPUTC(f,c,n)) > 0 ) n_output += 1; \ if(o != n) { SFBUF(f); goto done; } \ } #define SMwrite(f,s,n) { if((o = SFWRITE(f,(Void_t*)s,n)) > 0 ) n_output += o; \ if(o != n) { SFBUF(f); goto done; } \ } #if _sffmt_small /* these macros are made smaller at some performance cost */ #define SFBUF(f) #define SFINIT(f) (n_output = 0) #define SFEND(f) #define SFputc(f,c) SMputc(f,c) #define SFnputc(f,c,n) SMnputc(f,c,n) #define SFwrite(f,s,n) SMwrite(f,s,n) #else uchar *d, *endd; #define SFBUF(f) (d = f->next, endd = f->endb) #define SFINIT(f) (SFBUF(f), n_output = 0) #define SFEND(f) ((n_output += d - f->next), (f->next = d)) #define SFputc(f,c) { if(d < endd) { *d++ = (uchar)c; } \ else { SFEND(f); SMputc(f,c); SFBUF(f); } \ } #define SFnputc(f,c,n) { if(d+n <= endd) { while(n--) *d++ = (uchar)(c); } \ else { SFEND(f); SMnputc(f,c,n); SFBUF(f); } \ } #define SFwrite(f,s,n) { if(d+n <= endd) { while(n--) *d++ = (uchar)(*s++); } \ else { SFEND(f); SMwrite(f,s,n); SFBUF(f); } \ } #endif /* _sffmt_small */ SFMTXDECL(f); SFCVINIT(); /* initialize conversion tables */ SFMTXENTER(f,-1); if(!form) SFMTXRETURN(f, -1); /* make sure stream is in write mode and buffer is not NULL */ if(f->mode != SF_WRITE && _sfmode(f,SF_WRITE,0) < 0) SFMTXRETURN(f, -1); SFLOCK(f,0); if(!f->data && !(f->flags&SF_STRING)) { f->data = f->next = (uchar*)data; f->endb = f->data+sizeof(data); } SFINIT(f); tls[1] = NIL(char*); fmstk = NIL(Fmt_t*); ft = NIL(Sffmt_t*); oform = (char*)form; va_copy(oargs,args); argn = -1; fp = NIL(Fmtpos_t*); loop_fmt : SFMBCLR(&fmbs); /* clear multibyte states to parse the format string */ while((n = *form) ) { if(n != '%') /* collect the non-pattern chars */ { sp = (char*)form; do { if((n = SFMBLEN(form, &fmbs)) <= 0) { n = 1; SFMBCLR(&fmbs); } } while(*(form += n) && *form != '%'); n = form-sp; SFwrite(f,sp,n); continue; } else form += 1; flags = 0; #if _PACKAGE_ast scale = 0; #endif size = width = precis = base = n_s = argp = -1; ssp = _Sfdigits; endep = ep = NIL(char*); endsp = sp = buf+(sizeof(buf)-1); t_str = NIL(char*); n_str = dot = 0; loop_flags: /* LOOP FOR \0, %, FLAGS, WIDTH, PRECISION, BASE, TYPE */ switch((fmt = *form++) ) { case '\0': SFputc(f,'%'); goto pop_fmt; case '%' : SFputc(f,'%'); continue; case LEFTP : /* get the type enclosed in balanced parens */ t_str = (char*)form; for(v = 1;;) { switch(*form++) { case 0 : /* not balancable, retract */ form = t_str; t_str = NIL(char*); n_str = 0; goto loop_flags; case LEFTP : /* increasing nested level */ v += 1; continue; case RIGHTP : /* decreasing nested level */ if((v -= 1) != 0) continue; if(*t_str != '*' ) n_str = (form-1)-t_str; else { t_str = (*_Sffmtintf)(t_str+1,&n); if(*t_str == '$') { if(!fp && !(fp = (*_Sffmtposf) (f,oform,oargs,ft,0)) ) goto pop_fmt; n = FP_SET(n,argn); } else n = FP_SET(-1,argn); if(fp) { t_str = fp[n].argv.s; n_str = fp[n].ft.size; } else if(ft && ft->extf ) { FMTSET(ft, form,args, LEFTP, 0, 0, 0,0,0, NIL(char*),0); n = (*ft->extf) (f,(Void_t*)&argv,ft); if(n < 0) goto pop_fmt; if(!(ft->flags&SFFMT_VALUE) ) goto t_arg; if((t_str = argv.s) && (n_str = (int)ft->size) < 0) n_str = strlen(t_str); } else { t_arg: if((t_str = va_arg(args,char*)) ) n_str = strlen(t_str); } } goto loop_flags; } } case '-' : flags = (flags & ~(SFFMT_CENTER|SFFMT_ZERO)) | SFFMT_LEFT; goto loop_flags; case '0' : if(!(flags&(SFFMT_LEFT|SFFMT_CENTER)) ) flags |= SFFMT_ZERO; goto loop_flags; case ' ' : if(!(flags&SFFMT_SIGN) ) flags |= SFFMT_BLANK; goto loop_flags; case '+' : flags = (flags & ~SFFMT_BLANK) | SFFMT_SIGN; goto loop_flags; case '=' : flags = (flags & ~(SFFMT_LEFT|SFFMT_ZERO)) | SFFMT_CENTER; goto loop_flags; case '#' : flags |= SFFMT_ALTER; goto loop_flags; case QUOTE: SFSETLOCALE(&decimal,&thousand); if(thousand > 0) flags |= SFFMT_THOUSAND; goto loop_flags; case '.' : dot += 1; if(dot == 1) { /* so base can be defined without setting precis */ if(*form != '.') precis = 0; } else if(dot == 2) { base = 0; /* for %s,%c */ v = form[0] == 'l' ? form[1] : form[0]; if(v == 'c' || v == 'C' || v == 's' || v == 'S') goto loop_flags; if(*form && !isalnum(*form)) { v = form[1] == 'l' ? form[2] : form[1]; if(v == 'c' || v == 'C' || v == 's' || v == 'S') { if(*form == '*') goto do_star; else { base = *form++; goto loop_flags; } } } } if(isdigit(*form) ) { fmt = *form++; goto dot_size; } else if(*form != '*') goto loop_flags; do_star: form += 1; /* fall thru for '*' */ case '*' : form = (*_Sffmtintf)(form,&n); if(*form == '$') { form += 1; if(!fp && !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0)) ) goto pop_fmt; n = FP_SET(n,argn); } else n = FP_SET(-1,argn); if(fp) v = fp[n].argv.i; else if(ft && ft->extf) { FMTSET(ft, form,args, '.',dot, 0, 0,0,0, NIL(char*), 0); if((*ft->extf)(f, (Void_t*)(&argv), ft) < 0) goto pop_fmt; fmt = ft->fmt; flags = (flags&~SFFMT_TYPES) | (ft->flags&SFFMT_TYPES); if(ft->flags&SFFMT_VALUE) v = argv.i; else v = (dot <= 2) ? va_arg(args,int) : 0; } else v = dot <= 2 ? va_arg(args,int) : 0; goto dot_set; case '1' : case '2' : case '3' : case '4' : case '5' : case '6' : case '7' : case '8' : case '9' : dot_size : for(v = fmt - '0'; isdigit(*form); ++form) v = v*10 + (*form - '0'); if(*form == '$') { form += 1; if(!fp && !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0)) ) goto pop_fmt; argp = v-1; goto loop_flags; } dot_set : if(dot == 0) { if((width = v) < 0) { width = -width; flags = (flags & ~(SFFMT_CENTER|SFFMT_ZERO)) | SFFMT_LEFT; } } else if(dot == 1) precis = v; else if(dot == 2) base = v; goto loop_flags; case 'I' : /* object length */ size = -1; flags = (flags & ~SFFMT_TYPES) | SFFMT_IFLAG; if(isdigit(*form) ) { for(size = 0, n = *form; isdigit(n); n = *++form) size = size*10 + (n - '0'); } else if(*form == '*') { form = (*_Sffmtintf)(form+1,&n); if(*form == '$') { form += 1; if(!fp && !(fp = (*_Sffmtposf)(f,oform,oargs,ft,0))) goto pop_fmt; n = FP_SET(n,argn); } else n = FP_SET(-1,argn); if(fp) /* use position list */ size = fp[n].argv.i; else if(ft && ft->extf) { FMTSET(ft, form,args, 'I',sizeof(int), 0, 0,0,0, NIL(char*), 0); if((*ft->extf)(f, (Void_t*)(&argv), ft) < 0) goto pop_fmt; if(ft->flags&SFFMT_VALUE) size = argv.i; else size = va_arg(args,int); } else size = va_arg(args,int); } goto loop_flags; case 'l' : size = -1; flags &= ~SFFMT_TYPES; if(*form == 'l') { form += 1; flags |= SFFMT_LLONG; } else flags |= SFFMT_LONG; goto loop_flags; case 'h' : size = -1; flags &= ~SFFMT_TYPES; if(*form == 'h') { form += 1; flags |= SFFMT_SSHORT; } else flags |= SFFMT_SHORT; goto loop_flags; case 'L' : size = -1; flags = (flags & ~SFFMT_TYPES) | SFFMT_LDOUBLE; goto loop_flags; case 'j' : size = -1; flags = (flags&~SFFMT_TYPES) | SFFMT_JFLAG; goto loop_flags; case 'z' : size = -1; flags = (flags&~SFFMT_TYPES) | SFFMT_ZFLAG; goto loop_flags; case 't' : size = -1; flags = (flags&~SFFMT_TYPES) | SFFMT_TFLAG; goto loop_flags; default: break; } /* set object size for scalars */ if(flags & SFFMT_TYPES) { if((_Sftype[fmt]&(SFFMT_INT|SFFMT_UINT)) || fmt == 'n') { if(flags&SFFMT_LONG) size = sizeof(long); else if(flags&SFFMT_SHORT) size = sizeof(short); else if(flags&SFFMT_SSHORT) size = sizeof(char); else if(flags&SFFMT_TFLAG) size = sizeof(ptrdiff_t); else if(flags&SFFMT_ZFLAG) size = sizeof(size_t); else if(flags&(SFFMT_LLONG|SFFMT_JFLAG) ) size = sizeof(Sflong_t); else if(flags&SFFMT_IFLAG) { if(size <= 0 || size == sizeof(Sflong_t)*CHAR_BIT ) size = sizeof(Sflong_t); } else if(size < 0) size = sizeof(int); } else if(_Sftype[fmt]&SFFMT_FLOAT) { if(flags&SFFMT_LDOUBLE) size = sizeof(Sfdouble_t); else if(flags&(SFFMT_LONG|SFFMT_LLONG)) size = sizeof(double); else if(flags&SFFMT_IFLAG) { if(size <= 0) size = sizeof(Sfdouble_t); } else if(size < 0) size = sizeof(float); } else if(_Sftype[fmt]&SFFMT_CHAR) { #if _has_multibyte if((flags&SFFMT_LONG) || fmt == 'C') { size = sizeof(wchar_t) > sizeof(int) ? sizeof(wchar_t) : sizeof(int); } else #endif if(size < 0) size = sizeof(int); } } argp = FP_SET(argp,argn); if(fp) { if(ft && ft->extf && fp[argp].ft.fmt != fp[argp].fmt) fmt = fp[argp].ft.fmt; argv = fp[argp].argv; size = fp[argp].ft.size; } else if(ft && ft->extf ) /* extended processing */ { FMTSET(ft, form,args, fmt, size,flags, width,precis,base, t_str,n_str); SFEND(f); SFOPEN(f,0); v = (*ft->extf)(f, (Void_t*)(&argv), ft); SFLOCK(f,0); SFBUF(f); if(v < 0) /* no further processing */ goto pop_fmt; else if(v > 0) /* extf output v bytes */ { n_output += v; continue; } else /* extf did not output */ { FMTGET(ft, form,args, fmt, size,flags, width,precis,base); if(!(ft->flags&SFFMT_VALUE)) goto arg_list; else if(_Sftype[fmt]&(SFFMT_INT|SFFMT_UINT) ) { if(size == sizeof(short)) { if(_Sftype[fmt]&SFFMT_INT) argv.i = argv.h; else argv.i = argv.uh; } else if(size == sizeof(char)) { if(_Sftype[fmt]&SFFMT_INT) argv.i = argv.c; else argv.i = argv.uc; } } else if(_Sftype[fmt]&SFFMT_FLOAT ) { if(size == sizeof(float) ) argv.d = argv.f; } else if(_Sftype[fmt]&SFFMT_CHAR) { if(base < 0) argv.i = (int)argv.c; } } } else { arg_list: switch(_Sftype[fmt]) { case SFFMT_INT: case SFFMT_UINT: #if !_ast_intmax_long if(size == sizeof(Sflong_t)) argv.ll = va_arg(args, Sflong_t); else #endif if(size == sizeof(long) ) argv.l = va_arg(args, long); else argv.i = va_arg(args, int); break; case SFFMT_FLOAT: #if !_ast_fltmax_double if(size == sizeof(Sfdouble_t)) argv.ld = va_arg(args,Sfdouble_t); else #endif argv.d = va_arg(args,double); break; case SFFMT_POINTER: argv.vp = va_arg(args,Void_t*); break; case SFFMT_CHAR: if(base >= 0) argv.s = va_arg(args,char*); #if _has_multibyte else if((flags & SFFMT_LONG) || fmt == 'C') { if(sizeof(wchar_t) <= sizeof(uint) ) argv.wc = (wchar_t)va_arg(args,uint); else argv.wc = va_arg(args,wchar_t); } #endif else argv.i = va_arg(args,int); break; default: /* unknown pattern */ break; } } switch(fmt) /* PRINTF DIRECTIVES */ { default : /* unknown directive */ form -= 1; argn -= 1; continue; case '!' : /* stacking a new environment */ if(!fp) fp = (*_Sffmtposf)(f,oform,oargs,ft,0); else goto pop_fmt; if(!argv.ft) goto pop_fmt; if(!argv.ft->form && ft ) /* change extension functions */ { if(ft->eventf && (*ft->eventf)(f,SF_DPOP,(Void_t*)form,ft) < 0) continue; fmstk->ft = ft = argv.ft; } else /* stack a new environment */ { if(!(fm = (Fmt_t*)malloc(sizeof(Fmt_t))) ) goto done; ft = fm->ft = argv.ft; SFMBSET(ft->mbs, &fmbs); if(ft->form) { fm->form = (char*)form; SFMBCPY(&fm->mbs,&fmbs); va_copy(fm->args,args); fm->oform = oform; va_copy(fm->oargs,oargs); fm->argn = argn; fm->fp = fp; form = ft->form; SFMBCLR(ft->mbs); va_copy(args,ft->args); argn = -1; fp = NIL(Fmtpos_t*); oform = (char*)form; va_copy(oargs,args); } else fm->form = NIL(char*); fm->eventf = ft->eventf; fm->next = fmstk; fmstk = fm; } continue; case 'S': flags = (flags & ~(SFFMT_TYPES|SFFMT_LDOUBLE)) | SFFMT_LONG; case 's': #if _has_multibyte && defined(mbwidth) wc = (flags & SFFMT_LDOUBLE) && mbwide(); #endif if(base >= 0) /* list of strings */ { if(!(ls = argv.sp) || !ls[0]) continue; } else { if(!(sp = argv.s)) { sp = "(null)"; flags &= ~SFFMT_LONG; } #if _PACKAGE_ast str_cvt: if(scale) { size = base = -1; flags &= ~SFFMT_LONG; } #endif ls = tls; tls[0] = sp; } for(sp = *ls;;) { /* v: number of bytes w: print width of those v bytes */ #if _has_multibyte if(flags & SFFMT_LONG) { v = 0; #ifdef mbwidth w = 0; #endif SFMBCLR(&mbs); for(n = 0, wsp = (wchar_t*)sp;; ++wsp, ++n) { if((size >= 0 && n >= size) || (size < 0 && *wsp == 0) ) break; if((n_s = wcrtomb(buf, *wsp, &mbs)) <= 0) break; #ifdef mbwidth if(wc) { n_w = mbwidth(*wsp); if(precis >= 0 && (w+n_w) > precis ) break; w += n_w; } else #endif if(precis >= 0 && (v+n_s) > precis ) break; v += n_s; } #ifdef mbwidth if(!wc) w = v; #endif } #if _has_multibyte && defined(mbwidth) else if (wc) { w = 0; SFMBCLR(&mbs); ssp = sp; for(;;) { if((size >= 0 && w >= size) || (size < 0 && *ssp == 0) ) break; osp = ssp; n = mbchar(osp); n_w = mbwidth(n); if(precis >= 0 && (w+n_w) > precis ) break; w += n_w; ssp = osp; } v = ssp - sp; } #endif else #endif { if((v = size) < 0) for(v = 0; sp[v]; ++v) if(v == precis) break; if(precis >= 0 && v > precis) v = precis; w = v; } if((n = width - w) > 0 && !(flags&SFFMT_LEFT) ) { if(flags&SFFMT_CENTER) { n -= (k = n/2); SFnputc(f, ' ', k); } else { SFnputc(f, ' ', n); n = 0; } } #if _has_multibyte if(flags & SFFMT_LONG) { SFMBCLR(&mbs); for(wsp = (wchar_t*)sp; w > 0; ++wsp, --w) { if((n_s = wcrtomb(buf, *wsp, &mbs)) <= 0) break; sp = buf; SFwrite(f, sp, n_s); } } else #endif { SFwrite(f,sp,v); } if(n > 0) { SFnputc(f,' ',n); } if(!(sp = *++ls)) break; else if(base > 0) { SFputc(f,base); } } continue; case 'C': flags = (flags & ~(SFFMT_TYPES|SFFMT_LDOUBLE)) | SFFMT_LONG; case 'c': #if _has_multibyte && defined(mbwidth) wc = (flags & SFFMT_LDOUBLE) && mbwide(); #endif if(precis <= 0) /* # of times to repeat a character */ precis = 1; #if _has_multibyte if(flags & SFFMT_LONG) { if(base >= 0) { if(!(wsp = (wchar_t*)argv.s) ) continue; for(size = 0; wsp[size]; ++size) ; } else { wsp = &argv.wc; size = 1; } } else #endif { if(base >= 0) { if(!(sp = argv.s) ) continue; size = strlen(sp); } else { argv.c = (char)(argv.i); sp = &argv.c; size = 1; } } while(size > 0) { #if _has_multibyte if(flags&SFFMT_LONG) { SFMBCLR(&mbs); if((n_s = wcrtomb(buf, *wsp++, &mbs)) <= 0) break; #ifdef mbwidth if(wc) n_s = mbwidth(*(wsp - 1)); #endif n = width - precis*n_s; /* padding amount */ } else #endif if(flags&SFFMT_ALTER) { n_s = chr2str(buf, *sp++); n = width - precis*n_s; } else { fmt = *sp++; n = width - precis; } if(n > 0 && !(flags&SFFMT_LEFT) ) { if(flags&SFFMT_CENTER) { n -= (k = n/2); SFnputc(f, ' ', k); } else { SFnputc(f, ' ', n); n = 0; } } v = precis; /* need this because SFnputc may clear it */ #if _has_multibyte if(flags&SFFMT_LONG) { for(; v > 0; --v) { ssp = buf; k = n_s; SFwrite(f,ssp,k); } } else #endif if(flags&SFFMT_ALTER) { for(; v > 0; --v) { ssp = buf; k = n_s; SFwrite(f,ssp,k); } } else { SFnputc(f, fmt, v); } if(n > 0) { SFnputc(f,' ',n); }; if((size -= 1) > 0 && base > 0) { SFputc(f,base); } } continue; case 'n': /* return current output length */ SFEND(f); #if !_ast_intmax_long if(size == sizeof(Sflong_t) ) *((Sflong_t*)argv.vp) = (Sflong_t)n_output; else #endif if(size == sizeof(long)) *((long*)argv.vp) = (long)n_output; else if(size == sizeof(short) ) *((short*)argv.vp) = (short)n_output; else if(size == sizeof(uchar) ) *((uchar*)argv.vp) = (uchar)n_output; else *((int*)argv.vp) = (int)n_output; continue; case 'p': /* pointer value */ fmt = 'x'; base = 16; n_s = 15; n = 4; flags = (flags&~(SFFMT_SIGN|SFFMT_BLANK|SFFMT_ZERO))|SFFMT_ALTER; #if _more_void_int lv = (Sflong_t)((Sfulong_t)argv.vp); goto long_cvt; #else v = (int)((uint)argv.vp); goto int_cvt; #endif case 'o': base = 8; n_s = 7; n = 3; flags &= ~(SFFMT_SIGN|SFFMT_BLANK); goto int_arg; case 'X': ssp = "0123456789ABCDEF"; case 'x': base = 16; n_s = 15; n = 4; flags &= ~(SFFMT_SIGN|SFFMT_BLANK); goto int_arg; case 'i': #if _PACKAGE_ast if((flags&SFFMT_ALTER) && base < 0) { flags &= ~SFFMT_ALTER; scale = 1024; } #endif fmt = 'd'; goto d_format; case 'u': flags &= ~(SFFMT_SIGN|SFFMT_BLANK); case 'd': d_format: #if _PACKAGE_ast if((flags&SFFMT_ALTER) && base < 0) { flags &= ~SFFMT_ALTER; scale = 1000; } #endif if(base < 2 || base > SF_RADIX) base = 10; if((base&(n_s = base-1)) == 0) { if(base < 8) n = base < 4 ? 1 : 2; else if(base < 32) n = base < 16 ? 3 : 4; else n = base < 64 ? 5 : 6; } else n_s = base == 10 ? -1 : 0; int_arg: #if !_ast_intmax_long || _more_long_int || _more_void_int if(size == sizeof(Sflong_t)) { lv = argv.ll; goto long_cvt; } else if(sizeof(long) < sizeof(Sflong_t) && size == sizeof(long)) { if(fmt == 'd') lv = (Sflong_t)argv.l; else lv = (Sflong_t)argv.ul; long_cvt: #if _PACKAGE_ast if(scale) { sp = fmtscale(lv, scale); #if _has_multibyte && defined(mbwidth) wc = 0; #endif goto str_cvt; } #endif if(lv == 0 && precis == 0) break; if(lv < 0 && fmt == 'd' ) { flags |= SFFMT_MINUS; if(lv == HIGHBITL) /* avoid overflow */ { lv = (Sflong_t)(HIGHBITL/base); *--sp = _Sfdigits[HIGHBITL - ((Sfulong_t)lv)*base]; } else lv = -lv; } if(n_s < 0) /* base 10 */ { Sflong_t nv; sfucvt(lv,sp,nv,ssp,Sflong_t,Sfulong_t); } else if(n_s > 0) /* base power-of-2 */ { do { *--sp = ssp[lv&n_s]; } while((lv = ((Sfulong_t)lv) >> n) ); } else /* general base */ { do { *--sp = ssp[((Sfulong_t)lv)%base]; } while((lv = ((Sfulong_t)lv)/base) ); } } else #endif if(sizeof(short) < sizeof(int) && size == sizeof(short) ) { if(fmt == 'd') v = (int)((short)argv.i); else v = (int)((ushort)argv.i); goto int_cvt; } else if(size == sizeof(char)) { if(fmt != 'd') v = (int)((uchar)argv.i); else { #if _key_signed v = (int)((signed char)argv.i); #else if(argv.i < 0) v = -((int)((char)(-argv.i))); else v = ((int)((char)( argv.i))); #endif } goto int_cvt; } else { v = argv.i; int_cvt: #if _PACKAGE_ast if(scale) { sp = fmtscale(v, scale); #if _has_multibyte && defined(mbwidth) wc = 0; #endif goto str_cvt; } #endif if(v == 0 && precis == 0) break; if(v < 0 && fmt == 'd' ) { flags |= SFFMT_MINUS; if(v == HIGHBITI) /* avoid overflow */ { v = (int)(HIGHBITI/base); *--sp = _Sfdigits[HIGHBITI - ((uint)v)*base]; } else v = -v; } if(n_s < 0) /* base 10 */ { sfucvt(v,sp,n,ssp,int,uint); } else if(n_s > 0) /* base power-of-2 */ { do { *--sp = ssp[v&n_s]; } while((v = ((uint)v) >> n) ); } else /* n_s == 0, general base */ { do { *--sp = ssp[((uint)v)%base]; } while((v = ((uint)v)/base) ); } } if(n_s < 0 && (flags&SFFMT_THOUSAND) && (n = endsp-sp) > 3) { if((n %= 3) == 0) n = 3; for(ep = buf+SLACK, endep = ep + n; ; ) { while(ep < endep) *ep++ = *sp++; if(sp == endsp) break; if(sp <= endsp-3) *ep++ = thousand; endep = ep+3; } sp = buf+SLACK; endsp = ep; } /* zero padding for precision if have room in buffer */ if(precis > 0 && (precis -= (endsp-sp)) < (sp-buf)-64) while(precis-- > 0) *--sp = '0'; if(flags&SFFMT_ALTER) /* prefix */ { if(fmt == 'o') { if(*sp != '0') *--sp = '0'; } else { if(width > 0 && (flags&SFFMT_ZERO)) { /* do 0 padding first */ if(fmt == 'x' || fmt == 'X') n = 0; else if(dot < 2) n = width; else n = base < 10 ? 2 : 3; n += (flags&(SFFMT_MINUS|SFFMT_SIGN)) ? 1 : 0; n = width - (n + (endsp-sp)); while(n-- > 0) *--sp = '0'; } if(fmt == 'x' || fmt == 'X') { *--sp = (char)fmt; *--sp = '0'; } else if(dot >= 2) { /* base#value notation */ *--sp = '#'; if(base < 10) *--sp = (char)('0'+base); else { *--sp = _Sfdec[(base <<= 1)+1]; *--sp = _Sfdec[base]; } } } } break; case 'g': case 'G': /* these ultimately become %e or %f */ case 'a': case 'A': case 'e': case 'E': case 'f': case 'F': #if !_ast_fltmax_double if(size == sizeof(Sfdouble_t) ) { v = SFFMT_LDOUBLE; valp = &argv.ld; dval = argv.ld; } else #endif { v = 0; valp = &argv.d; dval = argv.d; } if(fmt == 'e' || fmt == 'E' && (v |= SFFMT_UPPER)) { v |= SFFMT_EFORMAT; n = (precis = precis < 0 ? FPRECIS : precis)+1; ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(n,SF_FDIGITS), &decpt, &sign, &n_s, v); goto e_format; } else if(fmt == 'f' || fmt == 'F' && (v |= SFFMT_UPPER)) { precis = precis < 0 ? FPRECIS : precis; ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(precis,SF_FDIGITS), &decpt, &sign, &n_s, v); goto f_format; } else if(fmt == 'a' || fmt == 'A' && (v |= SFFMT_UPPER)) { v |= SFFMT_AFORMAT; if(precis < 0) { if(v & SFFMT_LDOUBLE) precis = 2*(sizeof(Sfdouble_t) - 2); else precis = 2*(sizeof(double) - 2); } n = precis + 1; ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(n,SF_FDIGITS), &decpt, &sign, &n_s, v); sp = endsp = buf+1; /* reserve space for sign */ *endsp++ = '0'; *endsp++ = fmt == 'a' ? 'x' : 'X'; if (!isxdigit(*ep)) goto infinite; goto a_format; } else /* 'g' or 'G' format */ { precis = precis < 0 ? FPRECIS : precis == 0 ? 1 : precis; if(fmt == 'G') v |= SFFMT_UPPER; v |= SFFMT_EFORMAT; ep = _sfcvt(valp,tmp+1,sizeof(tmp)-1, min(precis,SF_FDIGITS), &decpt, &sign, &n_s, v); if(dval == 0.) decpt = 1; else if(*ep == 'I') goto infinite; if(!(flags&SFFMT_ALTER)) { /* zap trailing 0s */ if((n = n_s) > precis) n = precis; while((n -= 1) >= 1 && ep[n] == '0') ; n += 1; } else n = precis; if(decpt < -3 || decpt > precis) { precis = n-1; goto e_format; } else { precis = n - decpt; goto f_format; } } e_format: /* build the x.yyyy string */ if(isalpha(*ep)) goto infinite; sp = endsp = buf+1; /* reserve space for sign */ a_format: *endsp++ = *ep ? *ep++ : '0'; SFSETLOCALE(&decimal,&thousand); if(precis > 0 || (flags&SFFMT_ALTER)) *endsp++ = decimal; ssp = endsp; endep = ep+precis; while((*endsp++ = *ep++) && ep <= endep) ; precis -= (endsp -= 1) - ssp; /* build the exponent */ ep = endep = buf+(sizeof(buf)-1); if(dval != 0.) { if((n = decpt - 1) < 0) n = -n; while(n > 9) { v = n; n /= 10; *--ep = (char)('0' + (v - n*10)); } } else n = 0; *--ep = (char)('0' + n); if(endep-ep <= 1) /* at least 2 digits */ *--ep = '0'; /* the e/Exponent separator and sign */ *--ep = (decpt > 0 || dval == 0.) ? '+' : '-'; *--ep = fmt == 'a' ? 'p' : fmt == 'A' ? 'P' : isupper(fmt) ? 'E' : 'e'; goto end_aefg; f_format: /* data before the decimal point */ if(isalpha(*ep)) { infinite: flags &= ~SFFMT_ZERO; endsp = (sp = ep)+sfslen(); ep = endep; precis = 0; goto end_aefg; } SFSETLOCALE(&decimal,&thousand); endsp = sp = buf+1; /* save a space for sign */ endep = ep+decpt; if(decpt > 3 && (flags&SFFMT_THOUSAND) ) { if((n = decpt%3) == 0) n = 3; while(ep < endep && (*endsp++ = *ep++) ) { if(--n == 0 && (ep <= endep-3) ) { *endsp++ = thousand; n = 3; } } } else { while(ep < endep && (*endsp++ = *ep++)) ; } if(endsp == sp) *endsp++ = '0'; if(precis > 0 || (flags&SFFMT_ALTER)) *endsp++ = decimal; if((n = -decpt) > 0) { /* output zeros for negative exponent */ ssp = endsp + min(n,precis); precis -= n; while(endsp < ssp) *endsp++ = '0'; } ssp = endsp; endep = ep+precis; while((*endsp++ = *ep++) && ep <= endep) ; precis -= (endsp -= 1) - ssp; ep = endep; end_aefg: flags |= SFFMT_FLOAT; if(sign) flags |= SFFMT_MINUS; break; } if(flags == 0 && width <= 0) goto do_output; if(flags&SFFMT_PREFIX) fmt = (flags&SFFMT_MINUS) ? '-' : (flags&SFFMT_SIGN) ? '+' : ' '; n = (endsp-sp) + (endep-ep) + (precis <= 0 ? 0 : precis) + ((flags&SFFMT_PREFIX) ? 1 : 0); if((v = width-n) <= 0) v = 0; else if(!(flags&SFFMT_ZERO)) /* right padding */ { if(flags&SFFMT_LEFT) v = -v; else if(flags&SFFMT_PREFIX) /* blank padding, output prefix now */ { *--sp = fmt; flags &= ~SFFMT_PREFIX; } } if(flags&SFFMT_PREFIX) /* put out the prefix */ { SFputc(f,fmt); if(fmt != ' ') flags |= SFFMT_ZERO; } if((n = v) > 0) /* left padding */ { v = (flags&SFFMT_ZERO) ? '0' : ' '; SFnputc(f,v,n); } if((n = precis) > 0 && !(flags&SFFMT_FLOAT)) { /* padding for integer precision */ SFnputc(f,'0',n); precis = 0; } do_output: if((n = endsp-sp) > 0) SFwrite(f,sp,n); if(flags&(SFFMT_FLOAT|SFFMT_LEFT)) { /* SFFMT_FLOAT: right padding for float precision */ if((n = precis) > 0) SFnputc(f,'0',n); /* SFFMT_FLOAT: the exponent of %eE */ if((n = endep - (sp = ep)) > 0) SFwrite(f,sp,n); /* SFFMT_LEFT: right padding */ if((n = -v) > 0) { SFnputc(f,' ',n); } } } pop_fmt: if(fp) { free(fp); fp = NIL(Fmtpos_t*); } while((fm = fmstk) ) /* pop the format stack and continue */ { if(fm->eventf) { if(!form || !form[0]) (*fm->eventf)(f,SF_FINAL,NIL(Void_t*),ft); else if((*fm->eventf)(f,SF_DPOP,(Void_t*)form,ft) < 0) goto loop_fmt; } fmstk = fm->next; if((form = fm->form) ) { SFMBCPY(&fmbs,&fm->mbs); va_copy(args, fm->args); oform = fm->oform; va_copy(oargs,fm->oargs); argn = fm->argn; fp = fm->fp; } ft = fm->ft; free(fm); if(form && form[0]) goto loop_fmt; } done: if(fp) free(fp); while((fm = fmstk) ) { if(fm->eventf) (*fm->eventf)(f,SF_FINAL,NIL(Void_t*),fm->ft); fmstk = fm->next; free(fm); } SFEND(f); n = f->next - f->data; if((sp = (char*)f->data) == data) f->endw = f->endr = f->endb = f->data = NIL(uchar*); f->next = f->data; if((((flags = f->flags)&SF_SHARE) && !(flags&SF_PUBLIC) ) || (n > 0 && (sp == data || (flags&SF_LINE) ) ) ) (void)SFWRITE(f,(Void_t*)sp,n); else f->next += n; SFOPEN(f,0); SFMTXRETURN(f, n_output); }