bin/ksh/expand.h

1.2  tls /*	$NetBSD: expand.h,v 1.2 1997/01/12 19:11:51 tls Exp $	*/
1.2  tls
1.1  jtc /*
1.1  jtc  * Expanding strings
1.1  jtc  */
1.2  tls /* $NetBSD: expand.h,v 1.2 1997/01/12 19:11:51 tls Exp $ */
1.1  jtc
1.1  jtc
1.1  jtc #if 0				/* Usage */
1.1  jtc 	XString xs;
1.1  jtc 	char *xp;
1.1  jtc
1.1  jtc 	Xinit(xs, xp, 128, ATEMP); /* allocate initial string */
1.1  jtc 	while ((c = generate()) {
1.1  jtc 		Xcheck(xs, xp);	/* expand string if neccessary */
1.1  jtc 		Xput(xs, xp, c); /* add character */
1.1  jtc 	}
1.1  jtc 	return Xclose(xs, xp);	/* resize string */
1.1  jtc /*
1.1  jtc  * NOTE:
1.1  jtc  *	The Xcheck and Xinit macros have a magic + 8 in the lengths.  This is
1.1  jtc  *	so that you can put up to 4 characters in a XString before calling
1.1  jtc  *	Xcheck.  (See yylex in lex.c)
1.1  jtc  */
1.1  jtc #endif /* 0 */
1.1  jtc
1.1  jtc typedef struct XString {
1.1  jtc 	char   *end, *beg;	/* end, begin of string */
1.1  jtc 	size_t	len;		/* length */
1.1  jtc 	Area	*areap;		/* area to allocate/free from */
1.1  jtc } XString;
1.1  jtc
1.1  jtc typedef char * XStringP;
1.1  jtc
1.1  jtc /* initialize expandable string */
1.1  jtc #define	Xinit(xs, xp, length, area) do { \
1.1  jtc 			(xs).len = length; \
1.1  jtc 			(xs).areap = (area); \
1.1  jtc 			(xs).beg = alloc((xs).len + 8, (xs).areap); \
1.1  jtc 			(xs).end = (xs).beg + (xs).len; \
1.1  jtc 			xp = (xs).beg; \
1.1  jtc 		} while (0)
1.1  jtc
1.1  jtc /* stuff char into string */
1.1  jtc #define	Xput(xs, xp, c)	(*xp++ = (c))
1.1  jtc
1.1  jtc /* check if there are at least n bytes left */
1.1  jtc #define	XcheckN(xs, xp, n) do { \
1.1  jtc 		    int more = ((xp) + (n)) - (xs).end; \
1.1  jtc 		    if (more > 0) \
1.1  jtc 			xp = Xcheck_grow_(&xs, xp, more); \
1.1  jtc 		} while (0)
1.1  jtc
1.1  jtc /* check for overflow, expand string */
1.1  jtc #define Xcheck(xs, xp)	XcheckN(xs, xp, 1)
1.1  jtc
1.1  jtc /* free string */
1.1  jtc #define	Xfree(xs, xp)	afree((void*) (xs).beg, (xs).areap)
1.1  jtc
1.1  jtc /* close, return string */
1.1  jtc #define	Xclose(xs, xp)	(char*) aresize((void*)(xs).beg, \
1.1  jtc 					(size_t)((xp) - (xs).beg), (xs).areap)
1.1  jtc /* begin of string */
1.1  jtc #define	Xstring(xs, xp)	((xs).beg)
1.1  jtc
1.1  jtc #define Xnleft(xs, xp) ((xs).end - (xp))	/* may be less than 0 */
1.1  jtc #define	Xlength(xs, xp) ((xp) - (xs).beg)
1.1  jtc #define Xsize(xs, xp) ((xs).end - (xs).beg)
1.1  jtc #define	Xsavepos(xs, xp) ((xp) - (xs).beg)
1.1  jtc #define	Xrestpos(xs, xp, n) ((xs).beg + (n))
1.1  jtc
1.1  jtc char *	Xcheck_grow_	ARGS((XString *xsp, char *xp, int more));
1.1  jtc
1.1  jtc /*
1.1  jtc  * expandable vector of generic pointers
1.1  jtc  */
1.1  jtc
1.1  jtc typedef struct XPtrV {
1.1  jtc 	void  **cur;		/* next avail pointer */
1.1  jtc 	void  **beg, **end;	/* begin, end of vector */
1.1  jtc } XPtrV;
1.1  jtc
1.1  jtc #define	XPinit(x, n) do { \
1.1  jtc 			register void **vp__; \
1.1  jtc 			vp__ = (void**) alloc(sizeofN(void*, n), ATEMP); \
1.1  jtc 			(x).cur = (x).beg = vp__; \
1.1  jtc 			(x).end = vp__ + n; \
1.1  jtc 		    } while (0)
1.1  jtc
1.1  jtc #define	XPput(x, p) do { \
1.1  jtc 			if ((x).cur >= (x).end) { \
1.1  jtc 				int n = XPsize(x); \
1.1  jtc 				(x).beg = (void**) aresize((void*) (x).beg, \
1.1  jtc 						   sizeofN(void*, n*2), ATEMP); \
1.1  jtc 				(x).cur = (x).beg + n; \
1.1  jtc 				(x).end = (x).cur + n; \
1.1  jtc 			} \
1.1  jtc 			*(x).cur++ = (p); \
1.1  jtc 		} while (0)
1.1  jtc
1.1  jtc #define	XPptrv(x)	((x).beg)
1.1  jtc #define	XPsize(x)	((x).cur - (x).beg)
1.1  jtc
1.1  jtc #define	XPclose(x)	(void**) aresize((void*)(x).beg, \
1.1  jtc 					 sizeofN(void*, XPsize(x)), ATEMP)
1.1  jtc
1.1  jtc #define	XPfree(x)	afree((void*) (x).beg, ATEMP)