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vt100-games/Robots/mescc/xprintf.h

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2020-03-10 16:16:14 +01:00
/**
* @file xprintf.h
* @brief Support library for formatted output.
* @author Miguel I. Garcia Lopez / FloppySoftware
*
* Support library for formatted output,
* for MESCC (Mike's Enhanced Small C Compiler for Z80 & CP/M).
*
* All functions with formatted output like printf(), fprintf()
* and sprintf() call some private functions in this order:
* - pf_sf()
* - pf_s()
* - pf_out()
*
* Revisions:
* - 19 Mar 2001 : Last revision.
* - 16 Apr 2007 : GPL'd.
* - 09 Dec 2016 : Documented. Optimized. GPL v3.
* - 02 Aug 2017 : Output '%%' as '%'.
*
* Copyright (c) 1999-2016 Miguel I. Garcia Lopez / FloppySoftware.
*
* Licensed under the GNU General Public License v3.
*
* http://www.floppysoftware.es
* floppysoftware@gmail.com
*/
#ifndef XPRINTF_H
#define XPRINTF_H
// Dependencies
// ------------
#ifndef STRING_H
#include <string.h>
#endif
// Private globals
// ---------------
BYTE xpf_err; // True on error
extern WORD xpf_out; // Output function
extern WORD xpf_end; // End function
int xpf_fw; // Field width
BYTE xpf_fa; // Field alignment: 0=left, 1=right
BYTE xpf_fz; // True on zero filling
int xpf_cnt; // # of characters sent
/**
* @fn int xprintf(WORD funout, WORD funend, WORD adrpars)
* @brief Formatted output.
*
* This function performs formatted output. It is used
* by printf(), fprintf() and sprintf() functions.
*
* The format is indicated in the string as follows:
*
* %[-][0][w]t
*
* | - : Left align (default: right align).
* | 0 : Zero filling on right align.
* | w : Width for alignment. If the specified width
* | is lower than the argument length, output is
* | done without aligment. Care with sprinf()!
* | t : d = Signed decimal integer.
* | u = Unsigned decimal integer.
* | x = Hexadecimal integer.
* | s = String.
* | c = Character.
*
* The pair %% outputs a single %.
*
* @param funout - function to output a character
* @param funend - function to end output
* @param adrpars - arguments addresses
* @return # of characters sent on sucess, -1 on failure
*/
xprintf(funout, funend, adrpars)
WORD funout, funend;
WORD *adrpars;
{
WORD *parg; // Pointer to arguments
char *pfor; // Pointer to formatted string
int ivalue;
char ch;
// Setup
xpf_out = funout;
xpf_end = funend;
pfor = *adrpars;
parg = --adrpars;
xpf_err = xpf_cnt = 0;
// Loop
while((ch = *pfor++))
{
if(ch == '%')
{
// Character %
if(*pfor == '%')
{
pf_out(ch);
++pfor;
continue;
}
// Align
if(*pfor == '-')
{
xpf_fa = 0; // Left align
++pfor;
}
else
xpf_fa = 1; // Right align
// Zero filling
if(*pfor == '0')
{
xpf_fz = 1; // Zero filling
++pfor;
}
else
xpf_fz = 0;
// Width
xpf_fw = 0;
while(*pfor >= '0' && *pfor <= '9')
xpf_fw = xpf_fw * 10 + (*pfor++) - '0';
// Type
switch(ch = *pfor++)
{
case 'd' :
ivalue = *parg--;
pf_dec(ivalue);
break;
case 'u' :
ivalue = *parg--;
pf_udec(ivalue);
break;
case 'x' :
ivalue = *parg--;
pf_hex(ivalue);
break;
case 'c' :
pf_cf(*parg--);
break;
case 's' :
pf_sf(*parg--);
break;
case '\0' :
--pfor;
// P'abajo
default :
pf_out('!');
break;
}
}
else
pf_out(ch);
if(xpf_err)
break;
}
pf_end();
return xpf_err ? -1 : xpf_cnt;
}
// void pf_sf(char *s) : output formatted string.
pf_sf(s)
char *s;
{
int len;
char fill;
if(xpf_fw)
{
if((len = strlen(s)) < xpf_fw)
{
xpf_fw = xpf_fw-len;
if(xpf_fa)
{
// Left align
fill = (xpf_fz ? '0' : ' ');
while(xpf_fw--)
pf_out(fill);
pf_s(s);
}
else
{
// Right align
pf_s(s);
while(xpf_fw--)
pf_out(' ');
}
return;
}
}
pf_s(s);
}
// void pf_cf(char c) : output formatted character.
pf_cf(c)
char c;
{
char tmp[2];
tmp[0] = c; tmp[1] = '\0';
pf_sf(tmp);
}
unsigned char xpf_dst[7]; // Buffer for numbers
unsigned char *xpf_dpt; // Buffer pointer
// void pf_dec(int i) : output signed decimal integer.
pf_dec(i)
int i;
{
xpf_dpt = xpf_dst;
if(i < 0)
{
*xpf_dpt++ = '-'; i = -i;
}
pf_dec2(i);
*xpf_dpt = '\0';
pf_sf(xpf_dst);
}
// void pf_dec2(int i) : helper for pf_dec().
pf_dec2(i)
int i;
{
int n;
if(n = i / 10)
pf_dec2(n);
*xpf_dpt++ = i % 10 + '0';
}
// void pf_udec(unsigned int i) : output unsigned decimal integer.
pf_udec(i)
unsigned i;
{
xpf_dpt = xpf_dst;
pf_udec2(i);
*xpf_dpt = '\0';
pf_sf(xpf_dst);
}
// void pf_udec2(unsigned int i) : helper for pf_udec().
pf_udec2(i)
unsigned i;
{
unsigned n;
if(n = i / 10)
pf_udec2(n);
*xpf_dpt++ = i % 10 + '0';
}
// void pf_hex(unsigned int i) : output hexadecimal integer.
pf_hex(i)
unsigned i;
{
xpf_dpt = xpf_dst;
pf_hex2(i);
*xpf_dpt = '\0';
pf_sf(xpf_dst);
}
// void pf_hex2(unsigned int i) : helper for pf_hex().
pf_hex2(i)
unsigned i;
{
unsigned n;
if(n = i / 16)
pf_hex2(n);
i %= 16;
*xpf_dpt++ = i < 10 ? '0' + i : 'A' + i - 10;
}
// void pf_s(char *s) : output string.
pf_s(s)
char *s;
{
while(*s)
pf_out(*s++);
}
// void pf_out(char c) : output character.
#asm
pf_out:
PUSH HL
DEFB 0CDH
xpf_out:
DEFW 0
POP BC
EX DE,HL
LD HL,(xpf_cnt)
INC HL
LD (xpf_cnt),HL
LD A,D
OR E
RET Z
;; LD A,255
LD (xpf_err),A
RET
#endasm
// void pf_end(void) : end output.
#asm
pf_end:
DEFB 0C3H
xpf_end:
DEFW 0
#endasm
#endif