expand.h revision 1.3.6.1
1 1.3.6.1 he /* $NetBSD: expand.h,v 1.3.6.1 2002/02/26 19:50:53 he Exp $ */ 2 1.2 tls 3 1.1 jtc /* 4 1.1 jtc * Expanding strings 5 1.1 jtc */ 6 1.3.6.1 he /* $Id: expand.h,v 1.3.6.1 2002/02/26 19:50:53 he Exp $ */ 7 1.1 jtc 8 1.3 hubertf #define X_EXTRA 8 /* this many extra bytes in X string */ 9 1.1 jtc 10 1.1 jtc #if 0 /* Usage */ 11 1.1 jtc XString xs; 12 1.1 jtc char *xp; 13 1.1 jtc 14 1.1 jtc Xinit(xs, xp, 128, ATEMP); /* allocate initial string */ 15 1.1 jtc while ((c = generate()) { 16 1.3.6.1 he Xcheck(xs, xp); /* expand string if necessary */ 17 1.1 jtc Xput(xs, xp, c); /* add character */ 18 1.1 jtc } 19 1.1 jtc return Xclose(xs, xp); /* resize string */ 20 1.1 jtc /* 21 1.1 jtc * NOTE: 22 1.3 hubertf * The Xcheck and Xinit macros have a magic + X_EXTRA in the lengths. 23 1.3 hubertf * This is so that you can put up to X_EXTRA characters in a XString 24 1.3 hubertf * before calling Xcheck. (See yylex in lex.c) 25 1.1 jtc */ 26 1.1 jtc #endif /* 0 */ 27 1.1 jtc 28 1.1 jtc typedef struct XString { 29 1.1 jtc char *end, *beg; /* end, begin of string */ 30 1.1 jtc size_t len; /* length */ 31 1.1 jtc Area *areap; /* area to allocate/free from */ 32 1.1 jtc } XString; 33 1.1 jtc 34 1.1 jtc typedef char * XStringP; 35 1.1 jtc 36 1.1 jtc /* initialize expandable string */ 37 1.1 jtc #define Xinit(xs, xp, length, area) do { \ 38 1.1 jtc (xs).len = length; \ 39 1.1 jtc (xs).areap = (area); \ 40 1.3 hubertf (xs).beg = alloc((xs).len + X_EXTRA, (xs).areap); \ 41 1.1 jtc (xs).end = (xs).beg + (xs).len; \ 42 1.1 jtc xp = (xs).beg; \ 43 1.1 jtc } while (0) 44 1.1 jtc 45 1.1 jtc /* stuff char into string */ 46 1.1 jtc #define Xput(xs, xp, c) (*xp++ = (c)) 47 1.1 jtc 48 1.1 jtc /* check if there are at least n bytes left */ 49 1.1 jtc #define XcheckN(xs, xp, n) do { \ 50 1.1 jtc int more = ((xp) + (n)) - (xs).end; \ 51 1.1 jtc if (more > 0) \ 52 1.1 jtc xp = Xcheck_grow_(&xs, xp, more); \ 53 1.1 jtc } while (0) 54 1.1 jtc 55 1.1 jtc /* check for overflow, expand string */ 56 1.1 jtc #define Xcheck(xs, xp) XcheckN(xs, xp, 1) 57 1.1 jtc 58 1.1 jtc /* free string */ 59 1.1 jtc #define Xfree(xs, xp) afree((void*) (xs).beg, (xs).areap) 60 1.1 jtc 61 1.1 jtc /* close, return string */ 62 1.1 jtc #define Xclose(xs, xp) (char*) aresize((void*)(xs).beg, \ 63 1.1 jtc (size_t)((xp) - (xs).beg), (xs).areap) 64 1.1 jtc /* begin of string */ 65 1.1 jtc #define Xstring(xs, xp) ((xs).beg) 66 1.1 jtc 67 1.1 jtc #define Xnleft(xs, xp) ((xs).end - (xp)) /* may be less than 0 */ 68 1.1 jtc #define Xlength(xs, xp) ((xp) - (xs).beg) 69 1.1 jtc #define Xsize(xs, xp) ((xs).end - (xs).beg) 70 1.1 jtc #define Xsavepos(xs, xp) ((xp) - (xs).beg) 71 1.1 jtc #define Xrestpos(xs, xp, n) ((xs).beg + (n)) 72 1.1 jtc 73 1.1 jtc char * Xcheck_grow_ ARGS((XString *xsp, char *xp, int more)); 74 1.1 jtc 75 1.1 jtc /* 76 1.1 jtc * expandable vector of generic pointers 77 1.1 jtc */ 78 1.1 jtc 79 1.1 jtc typedef struct XPtrV { 80 1.1 jtc void **cur; /* next avail pointer */ 81 1.1 jtc void **beg, **end; /* begin, end of vector */ 82 1.1 jtc } XPtrV; 83 1.1 jtc 84 1.1 jtc #define XPinit(x, n) do { \ 85 1.1 jtc register void **vp__; \ 86 1.1 jtc vp__ = (void**) alloc(sizeofN(void*, n), ATEMP); \ 87 1.1 jtc (x).cur = (x).beg = vp__; \ 88 1.1 jtc (x).end = vp__ + n; \ 89 1.1 jtc } while (0) 90 1.1 jtc 91 1.1 jtc #define XPput(x, p) do { \ 92 1.1 jtc if ((x).cur >= (x).end) { \ 93 1.1 jtc int n = XPsize(x); \ 94 1.1 jtc (x).beg = (void**) aresize((void*) (x).beg, \ 95 1.1 jtc sizeofN(void*, n*2), ATEMP); \ 96 1.1 jtc (x).cur = (x).beg + n; \ 97 1.1 jtc (x).end = (x).cur + n; \ 98 1.1 jtc } \ 99 1.1 jtc *(x).cur++ = (p); \ 100 1.1 jtc } while (0) 101 1.1 jtc 102 1.1 jtc #define XPptrv(x) ((x).beg) 103 1.1 jtc #define XPsize(x) ((x).cur - (x).beg) 104 1.1 jtc 105 1.1 jtc #define XPclose(x) (void**) aresize((void*)(x).beg, \ 106 1.1 jtc sizeofN(void*, XPsize(x)), ATEMP) 107 1.1 jtc 108 1.1 jtc #define XPfree(x) afree((void*) (x).beg, ATEMP) 109
Indexes created Fri Oct 17 23:09:53 GMT 2025