src/lib9/fmt/dofmt.c - plan9 - Git at Google

 /* Copyright (c) 2002-2006 Lucent Technologies; see LICENSE */
 /* Copyright (c) 2004 Google Inc.; see LICENSE */

 #include <stdarg.h>
 #include <string.h>
 #include "plan9.h"
 #include "fmt.h"
 #include "fmtdef.h"

 /* format the output into f->to and return the number of characters fmted  */
 int
 dofmt(Fmt *f, char *fmt)
 {
 	Rune rune, *rt, *rs;
 	int r;
 	char *t, *s;
 	int n, nfmt;

 	nfmt = f->nfmt;
 	for(;;){
 		if(f->runes){
 			rt = (Rune*)f->to;
 			rs = (Rune*)f->stop;
 			while((r = *(uchar*)fmt) && r != '%'){
 				if(r < Runeself)
 					fmt++;
 				else{
 					fmt += chartorune(&rune, fmt);
 					r = rune;
 				}
 				FMTRCHAR(f, rt, rs, r);
 			}
 			fmt++;
 			f->nfmt += rt - (Rune *)f->to;
 			f->to = rt;
 			if(!r)
 				return f->nfmt - nfmt;
 			f->stop = rs;
 		}else{
 			t = (char*)f->to;
 			s = (char*)f->stop;
 			while((r = *(uchar*)fmt) && r != '%'){
 				if(r < Runeself){
 					FMTCHAR(f, t, s, r);
 					fmt++;
 				}else{
 					n = chartorune(&rune, fmt);
 					if(t + n > s){
 						t = (char*)__fmtflush(f, t, n);
 						if(t != nil)
 							s = (char*)f->stop;
 						else
 							return -1;
 					}
 					while(n--)
 						*t++ = *fmt++;
 				}
 			}
 			fmt++;
 			f->nfmt += t - (char *)f->to;
 			f->to = t;
 			if(!r)
 				return f->nfmt - nfmt;
 			f->stop = s;
 		}

 		fmt = (char*)__fmtdispatch(f, fmt, 0);
 		if(fmt == nil)
 			return -1;
 	}
 }

 void *
 __fmtflush(Fmt *f, void *t, int len)
 {
 	if(f->runes)
 		f->nfmt += (Rune*)t - (Rune*)f->to;
 	else
 		f->nfmt += (char*)t - (char *)f->to;
 	f->to = t;
 	if(f->flush == 0 || (*f->flush)(f) == 0 || (char*)f->to + len > (char*)f->stop){
 		f->stop = f->to;
 		return nil;
 	}
 	return f->to;
 }

 /*
  * put a formatted block of memory sz bytes long of n runes into the output buffer,
  * left/right justified in a field of at least f->width characters (if FmtWidth is set)
  */
 int
 __fmtpad(Fmt *f, int n)
 {
 	char *t, *s;
 	int i;

 	t = (char*)f->to;
 	s = (char*)f->stop;
 	for(i = 0; i < n; i++)
 		FMTCHAR(f, t, s, ' ');
 	f->nfmt += t - (char *)f->to;
 	f->to = t;
 	return 0;
 }

 int
 __rfmtpad(Fmt *f, int n)
 {
 	Rune *t, *s;
 	int i;

 	t = (Rune*)f->to;
 	s = (Rune*)f->stop;
 	for(i = 0; i < n; i++)
 		FMTRCHAR(f, t, s, ' ');
 	f->nfmt += t - (Rune *)f->to;
 	f->to = t;
 	return 0;
 }

 int
 __fmtcpy(Fmt *f, const void *vm, int n, int sz)
 {
 	Rune *rt, *rs, r;
 	char *t, *s, *m, *me;
 	ulong fl;
 	int nc, w;

 	m = (char*)vm;
 	me = m + sz;
 	fl = f->flags;
 	w = 0;
 	if(fl & FmtWidth)
 		w = f->width;
 	if((fl & FmtPrec) && n > f->prec)
 		n = f->prec;
 	if(f->runes){
 		if(!(fl & FmtLeft) && __rfmtpad(f, w - n) < 0)
 			return -1;
 		rt = (Rune*)f->to;
 		rs = (Rune*)f->stop;
 		for(nc = n; nc > 0; nc--){
 			r = *(uchar*)m;
 			if(r < Runeself)
 				m++;
 			else if((me - m) >= UTFmax || fullrune(m, me-m))
 				m += chartorune(&r, m);
 			else
 				break;
 			FMTRCHAR(f, rt, rs, r);
 		}
 		f->nfmt += rt - (Rune *)f->to;
 		f->to = rt;
 		if(fl & FmtLeft && __rfmtpad(f, w - n) < 0)
 			return -1;
 	}else{
 		if(!(fl & FmtLeft) && __fmtpad(f, w - n) < 0)
 			return -1;
 		t = (char*)f->to;
 		s = (char*)f->stop;
 		for(nc = n; nc > 0; nc--){
 			r = *(uchar*)m;
 			if(r < Runeself)
 				m++;
 			else if((me - m) >= UTFmax || fullrune(m, me-m))
 				m += chartorune(&r, m);
 			else
 				break;
 			FMTRUNE(f, t, s, r);
 		}
 		f->nfmt += t - (char *)f->to;
 		f->to = t;
 		if(fl & FmtLeft && __fmtpad(f, w - n) < 0)
 			return -1;
 	}
 	return 0;
 }

 int
 __fmtrcpy(Fmt *f, const void *vm, int n)
 {
 	Rune r, *m, *me, *rt, *rs;
 	char *t, *s;
 	ulong fl;
 	int w;

 	m = (Rune*)vm;
 	fl = f->flags;
 	w = 0;
 	if(fl & FmtWidth)
 		w = f->width;
 	if((fl & FmtPrec) && n > f->prec)
 		n = f->prec;
 	if(f->runes){
 		if(!(fl & FmtLeft) && __rfmtpad(f, w - n) < 0)
 			return -1;
 		rt = (Rune*)f->to;
 		rs = (Rune*)f->stop;
 		for(me = m + n; m < me; m++)
 			FMTRCHAR(f, rt, rs, *m);
 		f->nfmt += rt - (Rune *)f->to;
 		f->to = rt;
 		if(fl & FmtLeft && __rfmtpad(f, w - n) < 0)
 			return -1;
 	}else{
 		if(!(fl & FmtLeft) && __fmtpad(f, w - n) < 0)
 			return -1;
 		t = (char*)f->to;
 		s = (char*)f->stop;
 		for(me = m + n; m < me; m++){
 			r = *m;
 			FMTRUNE(f, t, s, r);
 		}
 		f->nfmt += t - (char *)f->to;
 		f->to = t;
 		if(fl & FmtLeft && __fmtpad(f, w - n) < 0)
 			return -1;
 	}
 	return 0;
 }

 /* fmt out one character */
 int
 __charfmt(Fmt *f)
 {
 	char x[1];

 	x[0] = va_arg(f->args, int);
 	f->prec = 1;
 	return __fmtcpy(f, (const char*)x, 1, 1);
 }

 /* fmt out one rune */
 int
 __runefmt(Fmt *f)
 {
 	Rune x[1];

 	x[0] = va_arg(f->args, int);
 	return __fmtrcpy(f, (const void*)x, 1);
 }

 /* public helper routine: fmt out a null terminated string already in hand */
 int
 fmtstrcpy(Fmt *f, char *s)
 {
 	int i, j;

 	if(!s)
 		return __fmtcpy(f, "<nil>", 5, 5);
 	/* if precision is specified, make sure we don't wander off the end */
 	if(f->flags & FmtPrec){
 #ifdef PLAN9PORT
 		Rune r;
 		i = 0;
 		for(j=0; j<f->prec && s[i]; j++)
 			i += chartorune(&r, s+i);
 #else
 		/* ANSI requires precision in bytes, not Runes */
 		for(i=0; i<f->prec; i++)
 			if(s[i] == 0)
 				break;
 		j = utfnlen(s, i);	/* won't print partial at end */
 #endif
 		return __fmtcpy(f, s, j, i);
 	}
 	return __fmtcpy(f, s, utflen(s), strlen(s));
 }

 /* fmt out a null terminated utf string */
 int
 __strfmt(Fmt *f)
 {
 	char *s;

 	s = va_arg(f->args, char *);
 	return fmtstrcpy(f, s);
 }

 /* public helper routine: fmt out a null terminated rune string already in hand */
 int
 fmtrunestrcpy(Fmt *f, Rune *s)
 {
 	Rune *e;
 	int n, p;

 	if(!s)
 		return __fmtcpy(f, "<nil>", 5, 5);
 	/* if precision is specified, make sure we don't wander off the end */
 	if(f->flags & FmtPrec){
 		p = f->prec;
 		for(n = 0; n < p; n++)
 			if(s[n] == 0)
 				break;
 	}else{
 		for(e = s; *e; e++)
 			;
 		n = e - s;
 	}
 	return __fmtrcpy(f, s, n);
 }

 /* fmt out a null terminated rune string */
 int
 __runesfmt(Fmt *f)
 {
 	Rune *s;

 	s = va_arg(f->args, Rune *);
 	return fmtrunestrcpy(f, s);
 }

 /* fmt a % */
 int
 __percentfmt(Fmt *f)
 {
 	Rune x[1];

 	x[0] = f->r;
 	f->prec = 1;
 	return __fmtrcpy(f, (const void*)x, 1);
 }

 /* fmt an integer */
 int
 __ifmt(Fmt *f)
 {
 	char buf[140], *p, *conv;
 	/* 140: for 64 bits of binary + 3-byte sep every 4 digits */
 	uvlong vu;
 	ulong u;
 	int neg, base, i, n, fl, w, isv;
 	int ndig, len, excess, bytelen;
 	char *grouping;
 	char *thousands;

 	neg = 0;
 	fl = f->flags;
 	isv = 0;
 	vu = 0;
 	u = 0;
 #ifndef PLAN9PORT
 	/*
 	 * Unsigned verbs for ANSI C
 	 */
 	switch(f->r){
 	case 'o':
 	case 'p':
 	case 'u':
 	case 'x':
 	case 'X':
 		fl |= FmtUnsigned;
 		fl &= ~(FmtSign|FmtSpace);
 		break;
 	}
 #endif
 	if(f->r == 'p'){
 		u = (ulong)va_arg(f->args, void*);
 		f->r = 'x';
 		fl |= FmtUnsigned;
 	}else if(fl & FmtVLong){
 		isv = 1;
 		if(fl & FmtUnsigned)
 			vu = va_arg(f->args, uvlong);
 		else
 			vu = va_arg(f->args, vlong);
 	}else if(fl & FmtLong){
 		if(fl & FmtUnsigned)
 			u = va_arg(f->args, ulong);
 		else
 			u = va_arg(f->args, long);
 	}else if(fl & FmtByte){
 		if(fl & FmtUnsigned)
 			u = (uchar)va_arg(f->args, int);
 		else
 			u = (char)va_arg(f->args, int);
 	}else if(fl & FmtShort){
 		if(fl & FmtUnsigned)
 			u = (ushort)va_arg(f->args, int);
 		else
 			u = (short)va_arg(f->args, int);
 	}else{
 		if(fl & FmtUnsigned)
 			u = va_arg(f->args, uint);
 		else
 			u = va_arg(f->args, int);
 	}
 	conv = "0123456789abcdef";
 	grouping = "\4";	/* for hex, octal etc. (undefined by spec but nice) */
 	thousands = f->thousands;
 	switch(f->r){
 	case 'd':
 	case 'i':
 	case 'u':
 		base = 10;
 		grouping = f->grouping;
 		break;
 	case 'X':
 		conv = "0123456789ABCDEF";
 		/* fall through */
 	case 'x':
 		base = 16;
 		thousands = ":";
 		break;
 	case 'b':
 		base = 2;
 		thousands = ":";
 		break;
 	case 'o':
 		base = 8;
 		break;
 	default:
 		return -1;
 	}
 	if(!(fl & FmtUnsigned)){
 		if(isv && (vlong)vu < 0){
 			vu = -(vlong)vu;
 			neg = 1;
 		}else if(!isv && (long)u < 0){
 			u = -(long)u;
 			neg = 1;
 		}
 	}
 	p = buf + sizeof buf - 1;
 	n = 0;	/* in runes */
 	excess = 0;	/* number of bytes > number runes */
 	ndig = 0;
 	len = utflen(thousands);
 	bytelen = strlen(thousands);
 	if(isv){
 		while(vu){
 			i = vu % base;
 			vu /= base;
 			if((fl & FmtComma) && n % 4 == 3){
 				*p-- = ',';
 				n++;
 			}
 			if((fl & FmtApost) && __needsep(&ndig, &grouping)){
 				n += len;
 				excess += bytelen - len;
 				p -= bytelen;
 				memmove(p+1, thousands, bytelen);
 			}
 			*p-- = conv[i];
 			n++;
 		}
 	}else{
 		while(u){
 			i = u % base;
 			u /= base;
 			if((fl & FmtComma) && n % 4 == 3){
 				*p-- = ',';
 				n++;
 			}
 			if((fl & FmtApost) && __needsep(&ndig, &grouping)){
 				n += len;
 				excess += bytelen - len;
 				p -= bytelen;
 				memmove(p+1, thousands, bytelen);
 			}
 			*p-- = conv[i];
 			n++;
 		}
 	}
 	if(n == 0){
 		/*
 		 * "The result of converting a zero value with
 		 * a precision of zero is no characters."  - ANSI
 		 *
 		 * "For o conversion, # increases the precision, if and only if
 		 * necessary, to force the first digit of the result to be a zero
 		 * (if the value and precision are both 0, a single 0 is printed)." - ANSI
 		 */
 		if(!(fl & FmtPrec) || f->prec != 0 || (f->r == 'o' && (fl & FmtSharp))){
 			*p-- = '0';
 			n = 1;
 			if(fl & FmtApost)
 				__needsep(&ndig, &grouping);
 		}

 		/*
 		 * Zero values don't get 0x.
 		 */
 		if(f->r == 'x' || f->r == 'X')
 			fl &= ~FmtSharp;
 	}
 	for(w = f->prec; n < w && p > buf+3; n++){
 		if((fl & FmtApost) && __needsep(&ndig, &grouping)){
 			n += len;
 			excess += bytelen - len;
 			p -= bytelen;
 			memmove(p+1, thousands, bytelen);
 		}
 		*p-- = '0';
 	}
 	if(neg || (fl & (FmtSign|FmtSpace)))
 		n++;
 	if(fl & FmtSharp){
 		if(base == 16)
 			n += 2;
 		else if(base == 8){
 			if(p[1] == '0')
 				fl &= ~FmtSharp;
 			else
 				n++;
 		}
 	}
 	if((fl & FmtZero) && !(fl & (FmtLeft|FmtPrec))){
 		w = 0;
 		if(fl & FmtWidth)
 			w = f->width;
 		for(; n < w && p > buf+3; n++){
 			if((fl & FmtApost) && __needsep(&ndig, &grouping)){
 				n += len;
 				excess += bytelen - len;
 				p -= bytelen;
 				memmove(p+1, thousands, bytelen);
 			}
 			*p-- = '0';
 		}
 		f->flags &= ~FmtWidth;
 	}
 	if(fl & FmtSharp){
 		if(base == 16)
 			*p-- = f->r;
 		if(base == 16 || base == 8)
 			*p-- = '0';
 	}
 	if(neg)
 		*p-- = '-';
 	else if(fl & FmtSign)
 		*p-- = '+';
 	else if(fl & FmtSpace)
 		*p-- = ' ';
 	f->flags &= ~FmtPrec;
 	return __fmtcpy(f, p + 1, n, n + excess);
 }

 int
 __countfmt(Fmt *f)
 {
 	void *p;
 	ulong fl;

 	fl = f->flags;
 	p = va_arg(f->args, void*);
 	if(fl & FmtVLong){
 		*(vlong*)p = f->nfmt;
 	}else if(fl & FmtLong){
 		*(long*)p = f->nfmt;
 	}else if(fl & FmtByte){
 		*(char*)p = f->nfmt;
 	}else if(fl & FmtShort){
 		*(short*)p = f->nfmt;
 	}else{
 		*(int*)p = f->nfmt;
 	}
 	return 0;
 }

 int
 __flagfmt(Fmt *f)
 {
 	switch(f->r){
 	case ',':
 		f->flags |= FmtComma;
 		break;
 	case '-':
 		f->flags |= FmtLeft;
 		break;
 	case '+':
 		f->flags |= FmtSign;
 		break;
 	case '#':
 		f->flags |= FmtSharp;
 		break;
 	case '\'':
 		f->flags |= FmtApost;
 		break;
 	case ' ':
 		f->flags |= FmtSpace;
 		break;
 	case 'u':
 		f->flags |= FmtUnsigned;
 		break;
 	case 'h':
 		if(f->flags & FmtShort)
 			f->flags |= FmtByte;
 		f->flags |= FmtShort;
 		break;
 	case 'L':
 		f->flags |= FmtLDouble;
 		break;
 	case 'l':
 		if(f->flags & FmtLong)
 			f->flags |= FmtVLong;
 		f->flags |= FmtLong;
 		break;
 	}
 	return 1;
 }

 /* default error format */
 int
 __badfmt(Fmt *f)
 {
 	char x[2+UTFmax];
 	int n;

 	x[0] = '%';
 	n = 1 + runetochar(x+1, &f->r);
 	x[n++] = '%';
 	f->prec = n;
 	__fmtcpy(f, (const void*)x, n, n);
 	return 0;
 }
	/* Copyright (c) 2002-2006 Lucent Technologies; see LICENSE */
	/* Copyright (c) 2004 Google Inc.; see LICENSE */

	#include <stdarg.h>
	#include <string.h>
	#include "plan9.h"
	#include "fmt.h"
	#include "fmtdef.h"

	/* format the output into f->to and return the number of characters fmted */
	int
	dofmt(Fmt f, char fmt)
	{
	Rune rune, rt, rs;
	int r;
	char t, s;
	int n, nfmt;

	nfmt = f->nfmt;
	for(;;){
	if(f->runes){
	rt = (Rune*)f->to;
	rs = (Rune*)f->stop;
	while((r = (uchar)fmt) && r != '%'){
	if(r < Runeself)
	fmt++;
	else{
	fmt += chartorune(&rune, fmt);
	r = rune;
	}
	FMTRCHAR(f, rt, rs, r);
	}
	fmt++;
	f->nfmt += rt - (Rune *)f->to;
	f->to = rt;
	if(!r)
	return f->nfmt - nfmt;
	f->stop = rs;
	}else{
	t = (char*)f->to;
	s = (char*)f->stop;
	while((r = (uchar)fmt) && r != '%'){
	if(r < Runeself){
	FMTCHAR(f, t, s, r);
	fmt++;
	}else{
	n = chartorune(&rune, fmt);
	if(t + n > s){
	t = (char*)__fmtflush(f, t, n);
	if(t != nil)
	s = (char*)f->stop;
	else
	return -1;
	}
	while(n--)
	t++ = fmt++;
	}
	}
	fmt++;
	f->nfmt += t - (char *)f->to;
	f->to = t;
	if(!r)
	return f->nfmt - nfmt;
	f->stop = s;
	}

	fmt = (char*)__fmtdispatch(f, fmt, 0);
	if(fmt == nil)
	return -1;
	}
	}

	void *
	__fmtflush(Fmt f, void t, int len)
	{
	if(f->runes)
	f->nfmt += (Rune)t - (Rune)f->to;
	else
	f->nfmt += (char)t - (char )f->to;
	f->to = t;
	if(f->flush == 0 \|\| (f->flush)(f) == 0 \|\| (char)f->to + len > (char*)f->stop){
	f->stop = f->to;
	return nil;
	}
	return f->to;
	}

	/*
	* put a formatted block of memory sz bytes long of n runes into the output buffer,
	* left/right justified in a field of at least f->width characters (if FmtWidth is set)
	*/
	int
	__fmtpad(Fmt *f, int n)
	{
	char t, s;
	int i;

	t = (char*)f->to;
	s = (char*)f->stop;
	for(i = 0; i < n; i++)
	FMTCHAR(f, t, s, ' ');
	f->nfmt += t - (char *)f->to;
	f->to = t;
	return 0;
	}

	int
	__rfmtpad(Fmt *f, int n)
	{
	Rune t, s;
	int i;

	t = (Rune*)f->to;
	s = (Rune*)f->stop;
	for(i = 0; i < n; i++)
	FMTRCHAR(f, t, s, ' ');
	f->nfmt += t - (Rune *)f->to;
	f->to = t;
	return 0;
	}

	int
	__fmtcpy(Fmt f, const void vm, int n, int sz)
	{
	Rune rt, rs, r;
	char t, s, m, me;
	ulong fl;
	int nc, w;

	m = (char*)vm;
	me = m + sz;
	fl = f->flags;
	w = 0;
	if(fl & FmtWidth)
	w = f->width;
	if((fl & FmtPrec) && n > f->prec)
	n = f->prec;
	if(f->runes){
	if(!(fl & FmtLeft) && __rfmtpad(f, w - n) < 0)
	return -1;
	rt = (Rune*)f->to;
	rs = (Rune*)f->stop;
	for(nc = n; nc > 0; nc--){
	r = (uchar)m;
	if(r < Runeself)
	m++;
	else if((me - m) >= UTFmax \|\| fullrune(m, me-m))
	m += chartorune(&r, m);
	else
	break;
	FMTRCHAR(f, rt, rs, r);
	}
	f->nfmt += rt - (Rune *)f->to;
	f->to = rt;
	if(fl & FmtLeft && __rfmtpad(f, w - n) < 0)
	return -1;
	}else{
	if(!(fl & FmtLeft) && __fmtpad(f, w - n) < 0)
	return -1;
	t = (char*)f->to;
	s = (char*)f->stop;
	for(nc = n; nc > 0; nc--){
	r = (uchar)m;
	if(r < Runeself)
	m++;
	else if((me - m) >= UTFmax \|\| fullrune(m, me-m))
	m += chartorune(&r, m);
	else
	break;
	FMTRUNE(f, t, s, r);
	}
	f->nfmt += t - (char *)f->to;
	f->to = t;
	if(fl & FmtLeft && __fmtpad(f, w - n) < 0)
	return -1;
	}
	return 0;
	}

	int
	__fmtrcpy(Fmt f, const void vm, int n)
	{
	Rune r, m, me, rt, rs;
	char t, s;
	ulong fl;
	int w;

	m = (Rune*)vm;
	fl = f->flags;
	w = 0;
	if(fl & FmtWidth)
	w = f->width;
	if((fl & FmtPrec) && n > f->prec)
	n = f->prec;
	if(f->runes){
	if(!(fl & FmtLeft) && __rfmtpad(f, w - n) < 0)
	return -1;
	rt = (Rune*)f->to;
	rs = (Rune*)f->stop;
	for(me = m + n; m < me; m++)
	FMTRCHAR(f, rt, rs, *m);
	f->nfmt += rt - (Rune *)f->to;
	f->to = rt;
	if(fl & FmtLeft && __rfmtpad(f, w - n) < 0)
	return -1;
	}else{
	if(!(fl & FmtLeft) && __fmtpad(f, w - n) < 0)
	return -1;
	t = (char*)f->to;
	s = (char*)f->stop;
	for(me = m + n; m < me; m++){
	r = *m;
	FMTRUNE(f, t, s, r);
	}
	f->nfmt += t - (char *)f->to;
	f->to = t;
	if(fl & FmtLeft && __fmtpad(f, w - n) < 0)
	return -1;
	}
	return 0;
	}

	/* fmt out one character */
	int
	__charfmt(Fmt *f)
	{
	char x[1];

	x[0] = va_arg(f->args, int);
	f->prec = 1;
	return __fmtcpy(f, (const char*)x, 1, 1);
	}

	/* fmt out one rune */
	int
	__runefmt(Fmt *f)
	{
	Rune x[1];

	x[0] = va_arg(f->args, int);
	return __fmtrcpy(f, (const void*)x, 1);
	}

	/* public helper routine: fmt out a null terminated string already in hand */
	int
	fmtstrcpy(Fmt f, char s)
	{
	int i, j;

	if(!s)
	return __fmtcpy(f, "<nil>", 5, 5);
	/* if precision is specified, make sure we don't wander off the end */
	if(f->flags & FmtPrec){
	#ifdef PLAN9PORT
	Rune r;
	i = 0;
	for(j=0; j<f->prec && s[i]; j++)
	i += chartorune(&r, s+i);
	#else
	/* ANSI requires precision in bytes, not Runes */
	for(i=0; i<f->prec; i++)
	if(s[i] == 0)
	break;
	j = utfnlen(s, i); /* won't print partial at end */
	#endif
	return __fmtcpy(f, s, j, i);
	}
	return __fmtcpy(f, s, utflen(s), strlen(s));
	}

	/* fmt out a null terminated utf string */
	int
	__strfmt(Fmt *f)
	{
	char *s;

	s = va_arg(f->args, char *);
	return fmtstrcpy(f, s);
	}

	/* public helper routine: fmt out a null terminated rune string already in hand */
	int
	fmtrunestrcpy(Fmt f, Rune s)
	{
	Rune *e;
	int n, p;

	if(!s)
	return __fmtcpy(f, "<nil>", 5, 5);
	/* if precision is specified, make sure we don't wander off the end */
	if(f->flags & FmtPrec){
	p = f->prec;
	for(n = 0; n < p; n++)
	if(s[n] == 0)
	break;
	}else{
	for(e = s; *e; e++)
	;
	n = e - s;
	}
	return __fmtrcpy(f, s, n);
	}

	/* fmt out a null terminated rune string */
	int
	__runesfmt(Fmt *f)
	{
	Rune *s;

	s = va_arg(f->args, Rune *);
	return fmtrunestrcpy(f, s);
	}

	/* fmt a % */
	int
	__percentfmt(Fmt *f)
	{
	Rune x[1];

	x[0] = f->r;
	f->prec = 1;
	return __fmtrcpy(f, (const void*)x, 1);
	}

	/* fmt an integer */
	int
	__ifmt(Fmt *f)
	{
	char buf[140], p, conv;
	/* 140: for 64 bits of binary + 3-byte sep every 4 digits */
	uvlong vu;
	ulong u;
	int neg, base, i, n, fl, w, isv;
	int ndig, len, excess, bytelen;
	char *grouping;
	char *thousands;

	neg = 0;
	fl = f->flags;
	isv = 0;
	vu = 0;
	u = 0;
	#ifndef PLAN9PORT
	/*
	* Unsigned verbs for ANSI C
	*/
	switch(f->r){
	case 'o':
	case 'p':
	case 'u':
	case 'x':
	case 'X':
	fl \|= FmtUnsigned;
	fl &= ~(FmtSign\|FmtSpace);
	break;
	}
	#endif
	if(f->r == 'p'){
	u = (ulong)va_arg(f->args, void*);
	f->r = 'x';
	fl \|= FmtUnsigned;
	}else if(fl & FmtVLong){
	isv = 1;
	if(fl & FmtUnsigned)
	vu = va_arg(f->args, uvlong);
	else
	vu = va_arg(f->args, vlong);
	}else if(fl & FmtLong){
	if(fl & FmtUnsigned)
	u = va_arg(f->args, ulong);
	else
	u = va_arg(f->args, long);
	}else if(fl & FmtByte){
	if(fl & FmtUnsigned)
	u = (uchar)va_arg(f->args, int);
	else
	u = (char)va_arg(f->args, int);
	}else if(fl & FmtShort){
	if(fl & FmtUnsigned)
	u = (ushort)va_arg(f->args, int);
	else
	u = (short)va_arg(f->args, int);
	}else{
	if(fl & FmtUnsigned)
	u = va_arg(f->args, uint);
	else
	u = va_arg(f->args, int);
	}
	conv = "0123456789abcdef";
	grouping = "\4"; /* for hex, octal etc. (undefined by spec but nice) */
	thousands = f->thousands;
	switch(f->r){
	case 'd':
	case 'i':
	case 'u':
	base = 10;
	grouping = f->grouping;
	break;
	case 'X':
	conv = "0123456789ABCDEF";
	/* fall through */
	case 'x':
	base = 16;
	thousands = ":";
	break;
	case 'b':
	base = 2;
	thousands = ":";
	break;
	case 'o':
	base = 8;
	break;
	default:
	return -1;
	}
	if(!(fl & FmtUnsigned)){
	if(isv && (vlong)vu < 0){
	vu = -(vlong)vu;
	neg = 1;
	}else if(!isv && (long)u < 0){
	u = -(long)u;
	neg = 1;
	}
	}
	p = buf + sizeof buf - 1;
	n = 0; /* in runes */
	excess = 0; /* number of bytes > number runes */
	ndig = 0;
	len = utflen(thousands);
	bytelen = strlen(thousands);
	if(isv){
	while(vu){
	i = vu % base;
	vu /= base;
	if((fl & FmtComma) && n % 4 == 3){
	*p-- = ',';
	n++;
	}
	if((fl & FmtApost) && __needsep(&ndig, &grouping)){
	n += len;
	excess += bytelen - len;
	p -= bytelen;
	memmove(p+1, thousands, bytelen);
	}
	*p-- = conv[i];
	n++;
	}
	}else{
	while(u){
	i = u % base;
	u /= base;
	if((fl & FmtComma) && n % 4 == 3){
	*p-- = ',';
	n++;
	}
	if((fl & FmtApost) && __needsep(&ndig, &grouping)){
	n += len;
	excess += bytelen - len;
	p -= bytelen;
	memmove(p+1, thousands, bytelen);
	}
	*p-- = conv[i];
	n++;
	}
	}
	if(n == 0){
	/*
	* "The result of converting a zero value with
	* a precision of zero is no characters." - ANSI
	*
	* "For o conversion, # increases the precision, if and only if
	* necessary, to force the first digit of the result to be a zero
	* (if the value and precision are both 0, a single 0 is printed)." - ANSI
	*/
	if(!(fl & FmtPrec) \|\| f->prec != 0 \|\| (f->r == 'o' && (fl & FmtSharp))){
	*p-- = '0';
	n = 1;
	if(fl & FmtApost)
	__needsep(&ndig, &grouping);
	}

	/*
	* Zero values don't get 0x.
	*/
	if(f->r == 'x' \|\| f->r == 'X')
	fl &= ~FmtSharp;
	}
	for(w = f->prec; n < w && p > buf+3; n++){
	if((fl & FmtApost) && __needsep(&ndig, &grouping)){
	n += len;
	excess += bytelen - len;
	p -= bytelen;
	memmove(p+1, thousands, bytelen);
	}
	*p-- = '0';
	}
	if(neg \|\| (fl & (FmtSign\|FmtSpace)))
	n++;
	if(fl & FmtSharp){
	if(base == 16)
	n += 2;
	else if(base == 8){
	if(p[1] == '0')
	fl &= ~FmtSharp;
	else
	n++;
	}
	}
	if((fl & FmtZero) && !(fl & (FmtLeft\|FmtPrec))){
	w = 0;
	if(fl & FmtWidth)
	w = f->width;
	for(; n < w && p > buf+3; n++){
	if((fl & FmtApost) && __needsep(&ndig, &grouping)){
	n += len;
	excess += bytelen - len;
	p -= bytelen;
	memmove(p+1, thousands, bytelen);
	}
	*p-- = '0';
	}
	f->flags &= ~FmtWidth;
	}
	if(fl & FmtSharp){
	if(base == 16)
	*p-- = f->r;
	if(base == 16 \|\| base == 8)
	*p-- = '0';
	}
	if(neg)
	*p-- = '-';
	else if(fl & FmtSign)
	*p-- = '+';
	else if(fl & FmtSpace)
	*p-- = ' ';
	f->flags &= ~FmtPrec;
	return __fmtcpy(f, p + 1, n, n + excess);
	}

	int
	__countfmt(Fmt *f)
	{
	void *p;
	ulong fl;

	fl = f->flags;
	p = va_arg(f->args, void*);
	if(fl & FmtVLong){
	(vlong)p = f->nfmt;
	}else if(fl & FmtLong){
	(long)p = f->nfmt;
	}else if(fl & FmtByte){
	(char)p = f->nfmt;
	}else if(fl & FmtShort){
	(short)p = f->nfmt;
	}else{
	(int)p = f->nfmt;
	}
	return 0;
	}

	int
	__flagfmt(Fmt *f)
	{
	switch(f->r){
	case ',':
	f->flags \|= FmtComma;
	break;
	case '-':
	f->flags \|= FmtLeft;
	break;
	case '+':
	f->flags \|= FmtSign;
	break;
	case '#':
	f->flags \|= FmtSharp;
	break;
	case '\'':
	f->flags \|= FmtApost;
	break;
	case ' ':
	f->flags \|= FmtSpace;
	break;
	case 'u':
	f->flags \|= FmtUnsigned;
	break;
	case 'h':
	if(f->flags & FmtShort)
	f->flags \|= FmtByte;
	f->flags \|= FmtShort;
	break;
	case 'L':
	f->flags \|= FmtLDouble;
	break;
	case 'l':
	if(f->flags & FmtLong)
	f->flags \|= FmtVLong;
	f->flags \|= FmtLong;
	break;
	}
	return 1;
	}

	/* default error format */
	int
	__badfmt(Fmt *f)
	{
	char x[2+UTFmax];
	int n;

	x[0] = '%';
	n = 1 + runetochar(x+1, &f->r);
	x[n++] = '%';
	f->prec = n;
	__fmtcpy(f, (const void*)x, n, n);
	return 0;
	}