Ibm1130/ibm1130_sys.c - emulators/simh - Rivoreo Source Code Repositories

 /* ibm1130_sys.c: IBM 1130 simulator interface

    Based on PDP-11 simulator written by Robert M Supnik

    Revision History
    0.27 2005Mar08 - Added sca device
    0.26 2002Apr24 - Added !BREAK in card deck file to stop simulator
    0.25	2002Apr18 - Fixed some card reader problems. It starts the reader
    					properly if you attach a deck while it's waiting to a read.
    0.24 2002Mar27 - Fixed BOSC bug; BOSC works in short instructions too
    0.23 2002Feb26 - Added @decklist feature for ATTACH CR.
    0.22 2002Feb26 - Replaced "strupr" with "upcase" for compatibility.
    0.21	2002Feb25 - Some compiler compatibiity changes, couple of compiler-detected
                     bugs
    0.01 2001Jul31 - Derived from pdp11_sys.c, which carries this disclaimer:

  * (C) Copyright 2002, Brian Knittel.
  * You may freely use this program, but: it offered strictly on an AS-IS, AT YOUR OWN
  * RISK basis, there is no warranty of fitness for any purpose, and the rest of the
  * usual yada-yada. Please keep this notice and the copyright in any distributions
  * or modifications.
  *
  * This is not a supported product, but I welcome bug reports and fixes.
  * Mail to simh@ibm1130.org
  */

 #include "ibm1130_defs.h"
 #include <ctype.h>
 #include <stdarg.h>

 extern DEVICE cpu_dev, console_dev, dsk_dev, cr_dev,  cp_dev, ptr_dev, ptp_dev, t2741_dev;
 extern DEVICE tti_dev, tto_dev,     prt_dev, log_dev, sca_dev;
 extern DEVICE gdu_dev, console_dev, plot_dev;

 extern UNIT  cpu_unit;
 extern REG   cpu_reg[];
 extern int32 saved_PC;

 /* SCP data structures and interface routines

    sim_name		simulator name string
    sim_PC		pointer to saved PC register descriptor
    sim_emax		number of words for examine
    sim_devices		array of pointers to simulated devices
    sim_stop_messages	array of pointers to stop messages
    sim_load		binary loader
 */

 char sim_name[]    = "IBM 1130";

 REG *sim_PC = &cpu_reg[0];

 int32 sim_emax = 4;

 DEVICE *sim_devices[] = {
 	&cpu_dev,			/* the cpu */
 	&dsk_dev,			/* disk drive(s) */
 	&cr_dev,			/* card reader/punch */
 	&cp_dev,
 	&tti_dev,			/* console keyboard, selectric printer */
 	&tto_dev,
 	&prt_dev,			/* 1132 printer */
 	&ptr_dev,			/* 1134 paper tape reader */
 	&ptp_dev,			/* 1055 paper tape punch */
 	&sca_dev,			/* Synchronous communications adapter option */
 	&console_dev,		/* console display (windows GUI) */
 	&gdu_dev,			/* 2250 display */
 	&t2741_dev,			/* nonstandard serial interface used by APL\1130 */
 	&plot_dev,			/* plotter device, in ibm1130_plot.c */
 	NULL
 };

 const char *sim_stop_messages[] = {
 	"Unknown error",
 	"Wait",
 	"Invalid command",
 	"Simulator breakpoint",
 	"Use of incomplete simulator function",
 	"Power off",
 	"!BREAK in card deck file",
 	"Phase load break",
 	"Program has run amok",
 	"Run time limit exceeded",
 	"Immediate Stop key requested",
 	"Simulator break key pressed",
 	"Simulator step count expired",
 	"Simulator IO error",
 };

 /* Loader. IPL is normally performed by card reader (boot command). This function
  * loads hex data from a file for testing purposes. The format is:
  *
  *   blank lines or lines starting with ; / or # are ignored as comments
  *
  *   @XXXX			set load addresss to hex value XXXX
  *   XXXX			store hex word value XXXX at current load address and increment address
  *   ...
  *   =XXXX			set IAR to hex value XXXX
  *   ZXXXX			zero XXXX words and increment load address
  *   SXXXX			set console entry switches to XXXX. This lets a program specify the
  *					default value for the toggle switches.
  *
  * Multiple @ and data sections may be entered. If more than one = or S value is specified
  * the last one wins.
  *
  * Note: the load address @XXXX and data values XXXX can be followed by the letter
  * R to indicate that the values are relocatable addresses. This is ignored in this loader,
  * but the asm1130 cross assembler may put them there.
  */

 t_stat my_load (FILE *fileref, char *cptr, char *fnam)
 {
 	char line[150], *c;
 	int iaddr = -1, runaddr = -1, val, nwords;

 	while (fgets(line, sizeof(line), fileref) != NULL) {
 		for (c = line; *c && *c <= ' '; c++)			/* find first nonblank */
 			;

 		if (*c == '\0' || *c == '#' || *c == '/' || *c == ';')
 			continue;									/* empty line or comment */

 		if (*c == '@') {								/* set load address */
 			if (sscanf(c+1, "%x", &iaddr) != 1)
 				return SCPE_FMT;
 		}
 		else if (*c == '=') {
 			if (sscanf(c+1, "%x", &runaddr) != 1)
 				return SCPE_FMT;
 		}
 		else if (*c == 's' || *c == 'S') {
 			if (sscanf(c+1, "%x", &val) != 1)
 				return SCPE_FMT;

 			CES = val & 0xFFFF;							/*preload console entry switches */
 		}
 		else if (*c == 'z' || *c == 'Z') {
 			if (sscanf(c+1, "%x", &nwords) != 1)
 				return SCPE_FMT;

 			if (iaddr == -1)
 				return SCPE_FMT;

 			while (--nwords >= 0) {
 				WriteW(iaddr, 0);
 				iaddr++;
 			}
 		}
 		else if (strchr("0123456789abcdefABCDEF", *c) != NULL) {
 			if (sscanf(c, "%x", &val) != 1)
 				return SCPE_FMT;

 			if (iaddr == -1)
 				return SCPE_FMT;

 			WriteW(iaddr, val);							/*store data */
 			iaddr++;
 		}
 		else
 			return SCPE_FMT;							/*unexpected data */
 	}

 	if (runaddr != -1)
 		IAR = runaddr;

 	return SCPE_OK;
 }

 t_stat my_save (FILE *fileref, char *cptr, char *fnam)
 {
 	int iaddr, nzeroes = 0, nwords = (int) (MEMSIZE/2), val;

 	fprintf(fileref, "=%04x\r\n", IAR);
 	fprintf(fileref, "@0000\r\n");
 	for (iaddr = 0; iaddr < nwords; iaddr++) {
 		val = ReadW(iaddr);
 		if (val == 0)						/*queue up zeroes */
 			nzeroes++;
 		else {
 			if (nzeroes >= 4) {				/*spit out a Z directive */
 				fprintf(fileref, "Z%04x\r\n", nzeroes);
 				nzeroes = 0;
 			}
 			else {							/*write queued zeroes literally */
 				while (nzeroes > 0) {
 					fprintf(fileref, " 0000\r\n");
 					nzeroes--;
 				}
 			}
 			fprintf(fileref, " %04x\r\n", val);
 		}
 	}
 	if (nzeroes >= 4) {						/*emit any queued zeroes */
 		fprintf(fileref, "Z%04x\r\n", nzeroes);
 		nzeroes = 0;
 	}
 	else {
 		while (nzeroes > 0) {
 			fprintf(fileref, " 0000\r\n");
 			nzeroes--;
 		}
 	}

 	return SCPE_OK;
 }

 t_stat sim_load (FILE *fileref, char *cptr, char *fnam, int flag)
 {
 	if (flag)
 		return my_save(fileref, cptr, fnam);
 	else
 		return my_load(fileref, cptr, fnam);
 }

 /* Specifier decode

    Inputs:
 	*of	=	output stream
 	addr	=	current PC
 	spec	=	specifier
 	nval	=	next word
 	flag	=	TRUE if decoding for CPU
 	iflag	=	TRUE if decoding integer instruction
    Outputs:
 	count	=	-number of extra words retired
 */

 /* Symbolic decode

    Inputs:
 	*of	=	output stream
 	addr	=	current PC
 	*val	=	values to decode
 	*uptr	=	pointer to unit
 	sw	=	switches
    Outputs:
 	return	=	if >= 0, error code
 			if < 0, number of extra words retired
 */

 static char *opcode[] = {
 	"?00 ",		"XIO ",		"SLA ",		"SRA ",
 	"LDS ",		"STS ",		"WAIT",		"?07 ",
 	"BSI ",		"BSC ",		"?0A ",		"?0B ",
 	"LDX ",		"STX ",		"MDX ",		"?0F ",
 	"A   ",		"AD  ",		"S   ",		"SD  ",
 	"M   ",		"D   ",		"?16 ",		"?17 ",
 	"LD  ",		"LDD ",		"STO ",		"STD ",
 	"AND ",		"OR  ",		"EOR ",		"?1F ",
 };

 static char relative[] = {						/*true if short mode displacements are IAR relative */
 	FALSE,		TRUE,		FALSE,		FALSE,
 	FALSE,		TRUE,		FALSE,		FALSE,
 	TRUE,		FALSE,		FALSE,		FALSE,
 	TRUE,		TRUE,		TRUE,		FALSE,
 	TRUE,		TRUE,		TRUE,		TRUE,
 	TRUE,		TRUE,		FALSE,		FALSE,
 	TRUE,		TRUE,		TRUE,		TRUE,
 	TRUE,		TRUE,		TRUE,		FALSE
 };

 static char *lsopcode[] = {"SLA ", "SLCA ", "SLT ", "SLC "};
 static char *rsopcode[] = {"SRA ", "?188 ", "SRT ", "RTE "};
 static char tagc[]      = " 123";

 static int ascii_to_ebcdic_table[128] =
 {
 	0x00,0x01,0x02,0x03,0x37,0x2d,0x2e,0x2f, 0x16,0x05,0x25,0x0b,0x0c,0x0d,0x0e,0x0f,
 	0x10,0x11,0x12,0x13,0x3c,0x3d,0x32,0x26, 0x18,0x19,0x3f,0x27,0x1c,0x1d,0x1e,0x1f,
 	0x40,0x5a,0x7f,0x7b,0x5b,0x6c,0x50,0x7d, 0x4d,0x5d,0x5c,0x4e,0x6b,0x60,0x4b,0x61,
 	0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7, 0xf8,0xf9,0x7a,0x5e,0x4c,0x7e,0x6e,0x6f,

 	0x7c,0xc1,0xc2,0xc3,0xc4,0xc5,0xc6,0xc7, 0xc8,0xc9,0xd1,0xd2,0xd3,0xd4,0xd5,0xd6,
 	0xd7,0xd8,0xd9,0xe2,0xe3,0xe4,0xe5,0xe6, 0xe7,0xe8,0xe9,0xba,0xe0,0xbb,0xb0,0x6d,
 	0x79,0x81,0x82,0x83,0x84,0x85,0x86,0x87, 0x88,0x89,0x91,0x92,0x93,0x94,0x95,0x96,
 	0x97,0x98,0x99,0xa2,0xa3,0xa4,0xa5,0xa6, 0xa7,0xa8,0xa9,0xc0,0x4f,0xd0,0xa1,0x07,
 };

 static int ebcdic_to_ascii (int ch)
 {
 	int j;

 	for (j = 32; j < 128; j++)
 		if (ascii_to_ebcdic_table[j] == ch)
 			return j;

 	return '?';
 }

 t_stat fprint_sym (FILE *of, t_addr addr, t_value *val, UNIT *uptr, int32 sw)
 {
 	int32 cflag, ch, OP, F, TAG, INDIR, DSPLC, IR, eaddr;
 	char *mnem, tst[12];

 	cflag = (uptr == NULL) || (uptr == &cpu_unit);

 /*  if (sw & SWMASK ('A')) {				// ASCII? not useful
  		fprintf (of, (c1 < 040)? "<%03o>": "%c", c1);
 		return SCPE_OK;
 	}
 */

 	if (sw & SWMASK ('C'))					/* character? not useful -- make it EBCDIC */
 		sw |= SWMASK('E');

 	if (sw & SWMASK ('E')) {				/* EBCDIC! */
 		ch = ebcdic_to_ascii((val[0] >> 8) & 0xFF);	/* take high byte first */
 		fprintf (of, (ch < ' ')? "<%03o>": "%c", ch);
 		ch = ebcdic_to_ascii(val[0] & 0xFF);
 		fprintf (of, (ch < ' ')? "<%03o>": "%c", ch);
 		return SCPE_OK;
 	}

 	if (sw & SWMASK ('H')) {				/* HOLLERITH! now THIS is useful! */
 		ch = hollerith_to_ascii((int16) val[0]);
 		fprintf (of, (ch < ' ')? "<%03o>": "%c", ch);
 		return SCPE_OK;
 	}

 	if (! (sw & SWMASK ('M')))
 		return SCPE_ARG;

 	IR  = val[0];
 	OP  = (IR >> 11) & 0x1F;			/* opcode */
 	F   = IR & 0x0400;					/* format bit: 1 = long instr */
 	TAG = IR & 0x0300;					/* tag bits: index reg select */
 	if (TAG)
 		TAG >>= 8;

 	if (F) {							/* long instruction, ASSUME it's valid (have to decrement IAR if not) */
 		INDIR = IR & 0x0080;			/* indirect bit */
 		DSPLC = IR & 0x007F;			/* displacement or modifier */
 		if (DSPLC & 0x0040)
 			DSPLC |= ~ 0x7F;			/* sign extend */

 		eaddr = val[1];					/* get reference address */
 	}
 	else {								/* short instruction, use displacement */
 		INDIR = 0;						/* never indirect */
 		DSPLC = IR & 0x00FF;			/* get displacement */
 		if (DSPLC & 0x0080)
 			DSPLC |= ~ 0xFF;

 		eaddr = DSPLC;
 		if (relative[OP] && ! TAG)
 			eaddr += addr+1;			/* turn displacement into address */
 	}

 	mnem = opcode[OP];					/* get mnemonic */
 	if (OP == 0x02) {					/* left shifts are special */
 		mnem = lsopcode[(DSPLC >> 6) & 0x0003];
 		DSPLC &= 0x003F;
 		eaddr = DSPLC;
 	}
 	else if (OP == 0x03) {				/* right shifts too */
 		mnem = rsopcode[(DSPLC >> 6) & 0x0003];
 		DSPLC &= 0x003F;
 		eaddr = DSPLC;
 	}
 	else if ((OP == 0x08 && F)|| OP == 0x09) {		/* BSI L and BSC any */
 		if (OP == 0x09 && (IR & 0x40))
 			mnem = "BOSC";

 		tst[0] = '\0';
 		if (DSPLC & 0x20)	strcat(tst, "Z");
 		if (DSPLC & 0x10)	strcat(tst, "-");
 		if (DSPLC & 0x08)	strcat(tst, "+");
 		if (DSPLC & 0x04)	strcat(tst, "E");
 		if (DSPLC & 0x02)	strcat(tst, "C");
 		if (DSPLC & 0x01)	strcat(tst, "O");

 		if (F) {
 			fprintf(of, "%04x %s %c%c %s,%04x   ", IR & 0xFFFF, mnem, F ? (INDIR ? 'I' : 'L') : ' ', tagc[TAG], tst, eaddr & 0xFFFF);
 			return -1;
 		}
 		fprintf(of, "%04x %s %c%c %s   ", IR & 0xFFFF, mnem, F ? (INDIR ? 'I' : 'L') : ' ', tagc[TAG], tst);
 		return SCPE_OK;
 	}
 	else if (OP == 0x0e && TAG == 0) {		/* MDX with no tag => MDM or jump */
 		if (F) {
 			fprintf(of, "%04x %s %c%c %04x,%x (%d)   ", IR & 0xFFFF, "MDM ", (INDIR ? 'I' : 'L'), tagc[TAG], eaddr & 0xFFFF, DSPLC & 0xFFFF, DSPLC);
 			return -1;
 		}
 		mnem = "JMP ";
 	}

 	fprintf(of, "%04x %s %c%c %04x   ", IR & 0xFFFF, mnem, F ? (INDIR ? 'I' : 'L') : ' ', tagc[TAG], eaddr & 0xFFFF);
 	return F ? -1 : SCPE_OK;			/* inform how many words we read */
 }

 int32 get_reg (char *cptr, const char *strings[], char mchar)
 {
 return -1;
 }

 /* Number or memory address

    Inputs:
 	*cptr	=	pointer to input string
 	*dptr	=	pointer to output displacement
 	*pflag	=	pointer to accumulating flags
    Outputs:
 	cptr	=	pointer to next character in input string
 			NULL if parsing error

    Flags: 0 (no result), A_NUM (number), A_REL (relative)
 */

 char *get_addr (char *cptr, int32 *dptr, int32 *pflag)
 {
 	return 0;
 }

 /* Specifier decode

    Inputs:
 	*cptr	=	pointer to input string
 	addr	=	current PC
 	n1	=	0 if no extra word used
 			-1 if extra word used in prior decode
 	*sptr	=	pointer to output specifier
 	*dptr	=	pointer to output displacement
 	cflag	=	true if parsing for the CPU
 	iflag	=	true if integer specifier
    Outputs:
 	status	=	= -1 extra word decoded
 			=  0 ok
 			= +1 error
 */

 t_stat get_spec (char *cptr, t_addr addr, int32 n1, int32 *sptr, t_value *dptr,
 	int32 cflag, int32 iflag)
 {
 	return -1;
 }

 /* Symbolic input

    Inputs:
 	*cptr	=	pointer to input string
 	addr	=	current PC
 	*uptr	=	pointer to unit
 	*val	=	pointer to output values
 	sw	=	switches
    Outputs:
 	status	=	> 0   error code
 			<= 0  -number of extra words
 */

 t_stat parse_sym (char *cptr, t_addr addr, UNIT *uptr, t_value *val, int32 sw)
 {
 	return SCPE_ARG;
 }

 #ifndef _WIN32

 int strnicmp (const char *a, const char *b, size_t n)
 {
 	int ca, cb;

 	if (n == 0) return 0;					/* zero length compare is equal */

 	for (;;) {
 		if ((ca = *a) == 0)				/* get character, stop on null terminator */
 			return *b ? -1 : 0;

 		if (ca >= 'a' && ca <= 'z')		/* fold lowercase to uppercase */
 			ca -= 32;

 		cb = *b;
 		if (cb >= 'a' && cb <= 'z')
 			cb -= 32;

 		if ((ca -= cb) != 0)			/* if different, return comparison */
 			return ca;

 		a++, b++;

 		if (--n == 0)					/* still equal after n characters? quit now */
 			return 0;
 	}
 }

 int strcmpi (const char *a, const char *b)
 {
 	int ca, cb;

 	for (;;) {
 		if ((ca = *a) == 0)				/* get character, stop on null terminator */
 			return *b ? -1 : 0;

 		if (ca >= 'a' && ca <= 'z')		/* fold lowercase to uppercase */
 			ca -= 32;

 		cb = *b;
 		if (cb >= 'a' && cb <= 'z')
 			cb -= 32;

 		if ((ca -= cb) != 0)			/* if different, return comparison */
 			return ca;

 		a++, b++;
 	}
 }

 #endif
	/* ibm1130_sys.c: IBM 1130 simulator interface

	Based on PDP-11 simulator written by Robert M Supnik

	Revision History
	0.27 2005Mar08 - Added sca device
	0.26 2002Apr24 - Added !BREAK in card deck file to stop simulator
	0.25 2002Apr18 - Fixed some card reader problems. It starts the reader
	properly if you attach a deck while it's waiting to a read.
	0.24 2002Mar27 - Fixed BOSC bug; BOSC works in short instructions too
	0.23 2002Feb26 - Added @decklist feature for ATTACH CR.
	0.22 2002Feb26 - Replaced "strupr" with "upcase" for compatibility.
	0.21 2002Feb25 - Some compiler compatibiity changes, couple of compiler-detected
	bugs
	0.01 2001Jul31 - Derived from pdp11_sys.c, which carries this disclaimer:

	* (C) Copyright 2002, Brian Knittel.
	* You may freely use this program, but: it offered strictly on an AS-IS, AT YOUR OWN
	* RISK basis, there is no warranty of fitness for any purpose, and the rest of the
	* usual yada-yada. Please keep this notice and the copyright in any distributions
	* or modifications.
	*
	* This is not a supported product, but I welcome bug reports and fixes.
	* Mail to simh@ibm1130.org
	*/

	#include "ibm1130_defs.h"
	#include <ctype.h>
	#include <stdarg.h>

	extern DEVICE cpu_dev, console_dev, dsk_dev, cr_dev, cp_dev, ptr_dev, ptp_dev, t2741_dev;
	extern DEVICE tti_dev, tto_dev, prt_dev, log_dev, sca_dev;
	extern DEVICE gdu_dev, console_dev, plot_dev;

	extern UNIT cpu_unit;
	extern REG cpu_reg[];
	extern int32 saved_PC;

	/* SCP data structures and interface routines

	sim_name simulator name string
	sim_PC pointer to saved PC register descriptor
	sim_emax number of words for examine
	sim_devices array of pointers to simulated devices
	sim_stop_messages array of pointers to stop messages
	sim_load binary loader
	*/

	char sim_name[] = "IBM 1130";

	REG *sim_PC = &cpu_reg[0];

	int32 sim_emax = 4;

	DEVICE *sim_devices[] = {
	&cpu_dev, /* the cpu */
	&dsk_dev, /* disk drive(s) */
	&cr_dev, /* card reader/punch */
	&cp_dev,
	&tti_dev, /* console keyboard, selectric printer */
	&tto_dev,
	&prt_dev, /* 1132 printer */
	&ptr_dev, /* 1134 paper tape reader */
	&ptp_dev, /* 1055 paper tape punch */
	&sca_dev, /* Synchronous communications adapter option */
	&console_dev, /* console display (windows GUI) */
	&gdu_dev, /* 2250 display */
	&t2741_dev, /* nonstandard serial interface used by APL\1130 */
	&plot_dev, /* plotter device, in ibm1130_plot.c */
	NULL
	};

	const char *sim_stop_messages[] = {
	"Unknown error",
	"Wait",
	"Invalid command",
	"Simulator breakpoint",
	"Use of incomplete simulator function",
	"Power off",
	"!BREAK in card deck file",
	"Phase load break",
	"Program has run amok",
	"Run time limit exceeded",
	"Immediate Stop key requested",
	"Simulator break key pressed",
	"Simulator step count expired",
	"Simulator IO error",
	};

	/* Loader. IPL is normally performed by card reader (boot command). This function
	* loads hex data from a file for testing purposes. The format is:
	*
	* blank lines or lines starting with ; / or # are ignored as comments
	*
	* @XXXX set load addresss to hex value XXXX
	* XXXX store hex word value XXXX at current load address and increment address
	* ...
	* =XXXX set IAR to hex value XXXX
	* ZXXXX zero XXXX words and increment load address
	* SXXXX set console entry switches to XXXX. This lets a program specify the
	* default value for the toggle switches.
	*
	* Multiple @ and data sections may be entered. If more than one = or S value is specified
	* the last one wins.
	*
	* Note: the load address @XXXX and data values XXXX can be followed by the letter
	* R to indicate that the values are relocatable addresses. This is ignored in this loader,
	* but the asm1130 cross assembler may put them there.
	*/

	t_stat my_load (FILE fileref, char cptr, char *fnam)
	{
	char line[150], *c;
	int iaddr = -1, runaddr = -1, val, nwords;

	while (fgets(line, sizeof(line), fileref) != NULL) {
	for (c = line; c && c <= ' '; c++) /* find first nonblank */
	;

	if (c == '\0' \|\| c == '#' \|\| c == '/' \|\| c == ';')
	continue; /* empty line or comment */

	if (c == '@') { / set load address */
	if (sscanf(c+1, "%x", &iaddr) != 1)
	return SCPE_FMT;
	}
	else if (*c == '=') {
	if (sscanf(c+1, "%x", &runaddr) != 1)
	return SCPE_FMT;
	}
	else if (c == 's' \|\| c == 'S') {
	if (sscanf(c+1, "%x", &val) != 1)
	return SCPE_FMT;

	CES = val & 0xFFFF; /preload console entry switches /
	}
	else if (c == 'z' \|\| c == 'Z') {
	if (sscanf(c+1, "%x", &nwords) != 1)
	return SCPE_FMT;

	if (iaddr == -1)
	return SCPE_FMT;

	while (--nwords >= 0) {
	WriteW(iaddr, 0);
	iaddr++;
	}
	}
	else if (strchr("0123456789abcdefABCDEF", *c) != NULL) {
	if (sscanf(c, "%x", &val) != 1)
	return SCPE_FMT;

	if (iaddr == -1)
	return SCPE_FMT;

	WriteW(iaddr, val); /store data /
	iaddr++;
	}
	else
	return SCPE_FMT; /unexpected data /
	}

	if (runaddr != -1)
	IAR = runaddr;

	return SCPE_OK;
	}

	t_stat my_save (FILE fileref, char cptr, char *fnam)
	{
	int iaddr, nzeroes = 0, nwords = (int) (MEMSIZE/2), val;

	fprintf(fileref, "=%04x\r\n", IAR);
	fprintf(fileref, "@0000\r\n");
	for (iaddr = 0; iaddr < nwords; iaddr++) {
	val = ReadW(iaddr);
	if (val == 0) /queue up zeroes /
	nzeroes++;
	else {
	if (nzeroes >= 4) { /spit out a Z directive /
	fprintf(fileref, "Z%04x\r\n", nzeroes);
	nzeroes = 0;
	}
	else { /write queued zeroes literally /
	while (nzeroes > 0) {
	fprintf(fileref, " 0000\r\n");
	nzeroes--;
	}
	}
	fprintf(fileref, " %04x\r\n", val);
	}
	}
	if (nzeroes >= 4) { /emit any queued zeroes /
	fprintf(fileref, "Z%04x\r\n", nzeroes);
	nzeroes = 0;
	}
	else {
	while (nzeroes > 0) {
	fprintf(fileref, " 0000\r\n");
	nzeroes--;
	}
	}

	return SCPE_OK;
	}

	t_stat sim_load (FILE fileref, char cptr, char *fnam, int flag)
	{
	if (flag)
	return my_save(fileref, cptr, fnam);
	else
	return my_load(fileref, cptr, fnam);
	}

	/* Specifier decode

	Inputs:
	*of = output stream
	addr = current PC
	spec = specifier
	nval = next word
	flag = TRUE if decoding for CPU
	iflag = TRUE if decoding integer instruction
	Outputs:
	count = -number of extra words retired
	*/

	/* Symbolic decode

	Inputs:
	*of = output stream
	addr = current PC
	*val = values to decode
	*uptr = pointer to unit
	sw = switches
	Outputs:
	return = if >= 0, error code
	if < 0, number of extra words retired
	*/

	static char *opcode[] = {
	"?00 ", "XIO ", "SLA ", "SRA ",
	"LDS ", "STS ", "WAIT", "?07 ",
	"BSI ", "BSC ", "?0A ", "?0B ",
	"LDX ", "STX ", "MDX ", "?0F ",
	"A ", "AD ", "S ", "SD ",
	"M ", "D ", "?16 ", "?17 ",
	"LD ", "LDD ", "STO ", "STD ",
	"AND ", "OR ", "EOR ", "?1F ",
	};

	static char relative[] = { /true if short mode displacements are IAR relative /
	FALSE, TRUE, FALSE, FALSE,
	FALSE, TRUE, FALSE, FALSE,
	TRUE, FALSE, FALSE, FALSE,
	TRUE, TRUE, TRUE, FALSE,
	TRUE, TRUE, TRUE, TRUE,
	TRUE, TRUE, FALSE, FALSE,
	TRUE, TRUE, TRUE, TRUE,
	TRUE, TRUE, TRUE, FALSE
	};

	static char *lsopcode[] = {"SLA ", "SLCA ", "SLT ", "SLC "};
	static char *rsopcode[] = {"SRA ", "?188 ", "SRT ", "RTE "};
	static char tagc[] = " 123";

	static int ascii_to_ebcdic_table[128] =
	{
	0x00,0x01,0x02,0x03,0x37,0x2d,0x2e,0x2f, 0x16,0x05,0x25,0x0b,0x0c,0x0d,0x0e,0x0f,
	0x10,0x11,0x12,0x13,0x3c,0x3d,0x32,0x26, 0x18,0x19,0x3f,0x27,0x1c,0x1d,0x1e,0x1f,
	0x40,0x5a,0x7f,0x7b,0x5b,0x6c,0x50,0x7d, 0x4d,0x5d,0x5c,0x4e,0x6b,0x60,0x4b,0x61,
	0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7, 0xf8,0xf9,0x7a,0x5e,0x4c,0x7e,0x6e,0x6f,

	0x7c,0xc1,0xc2,0xc3,0xc4,0xc5,0xc6,0xc7, 0xc8,0xc9,0xd1,0xd2,0xd3,0xd4,0xd5,0xd6,
	0xd7,0xd8,0xd9,0xe2,0xe3,0xe4,0xe5,0xe6, 0xe7,0xe8,0xe9,0xba,0xe0,0xbb,0xb0,0x6d,
	0x79,0x81,0x82,0x83,0x84,0x85,0x86,0x87, 0x88,0x89,0x91,0x92,0x93,0x94,0x95,0x96,
	0x97,0x98,0x99,0xa2,0xa3,0xa4,0xa5,0xa6, 0xa7,0xa8,0xa9,0xc0,0x4f,0xd0,0xa1,0x07,
	};

	static int ebcdic_to_ascii (int ch)
	{
	int j;

	for (j = 32; j < 128; j++)
	if (ascii_to_ebcdic_table[j] == ch)
	return j;

	return '?';
	}

	t_stat fprint_sym (FILE of, t_addr addr, t_value val, UNIT *uptr, int32 sw)
	{
	int32 cflag, ch, OP, F, TAG, INDIR, DSPLC, IR, eaddr;
	char *mnem, tst[12];

	cflag = (uptr == NULL) \|\| (uptr == &cpu_unit);

	/* if (sw & SWMASK ('A')) { // ASCII? not useful
	fprintf (of, (c1 < 040)? "<%03o>": "%c", c1);
	return SCPE_OK;
	}
	*/

	if (sw & SWMASK ('C')) /* character? not useful -- make it EBCDIC */
	sw \|= SWMASK('E');

	if (sw & SWMASK ('E')) { /* EBCDIC! */
	ch = ebcdic_to_ascii((val[0] >> 8) & 0xFF); /* take high byte first */
	fprintf (of, (ch < ' ')? "<%03o>": "%c", ch);
	ch = ebcdic_to_ascii(val[0] & 0xFF);
	fprintf (of, (ch < ' ')? "<%03o>": "%c", ch);
	return SCPE_OK;
	}

	if (sw & SWMASK ('H')) { /* HOLLERITH! now THIS is useful! */
	ch = hollerith_to_ascii((int16) val[0]);
	fprintf (of, (ch < ' ')? "<%03o>": "%c", ch);
	return SCPE_OK;
	}

	if (! (sw & SWMASK ('M')))
	return SCPE_ARG;

	IR = val[0];
	OP = (IR >> 11) & 0x1F; /* opcode */
	F = IR & 0x0400; /* format bit: 1 = long instr */
	TAG = IR & 0x0300; /* tag bits: index reg select */
	if (TAG)
	TAG >>= 8;

	if (F) { /* long instruction, ASSUME it's valid (have to decrement IAR if not) */
	INDIR = IR & 0x0080; /* indirect bit */
	DSPLC = IR & 0x007F; /* displacement or modifier */
	if (DSPLC & 0x0040)
	DSPLC \|= ~ 0x7F; /* sign extend */

	eaddr = val[1]; /* get reference address */
	}
	else { /* short instruction, use displacement */
	INDIR = 0; /* never indirect */
	DSPLC = IR & 0x00FF; /* get displacement */
	if (DSPLC & 0x0080)
	DSPLC \|= ~ 0xFF;

	eaddr = DSPLC;
	if (relative[OP] && ! TAG)
	eaddr += addr+1; /* turn displacement into address */
	}

	mnem = opcode[OP]; /* get mnemonic */
	if (OP == 0x02) { /* left shifts are special */
	mnem = lsopcode[(DSPLC >> 6) & 0x0003];
	DSPLC &= 0x003F;
	eaddr = DSPLC;
	}
	else if (OP == 0x03) { /* right shifts too */
	mnem = rsopcode[(DSPLC >> 6) & 0x0003];
	DSPLC &= 0x003F;
	eaddr = DSPLC;
	}
	else if ((OP == 0x08 && F)\|\| OP == 0x09) { /* BSI L and BSC any */
	if (OP == 0x09 && (IR & 0x40))
	mnem = "BOSC";

	tst[0] = '\0';
	if (DSPLC & 0x20) strcat(tst, "Z");
	if (DSPLC & 0x10) strcat(tst, "-");
	if (DSPLC & 0x08) strcat(tst, "+");
	if (DSPLC & 0x04) strcat(tst, "E");
	if (DSPLC & 0x02) strcat(tst, "C");
	if (DSPLC & 0x01) strcat(tst, "O");

	if (F) {
	fprintf(of, "%04x %s %c%c %s,%04x ", IR & 0xFFFF, mnem, F ? (INDIR ? 'I' : 'L') : ' ', tagc[TAG], tst, eaddr & 0xFFFF);
	return -1;
	}
	fprintf(of, "%04x %s %c%c %s ", IR & 0xFFFF, mnem, F ? (INDIR ? 'I' : 'L') : ' ', tagc[TAG], tst);
	return SCPE_OK;
	}
	else if (OP == 0x0e && TAG == 0) { /* MDX with no tag => MDM or jump */
	if (F) {
	fprintf(of, "%04x %s %c%c %04x,%x (%d) ", IR & 0xFFFF, "MDM ", (INDIR ? 'I' : 'L'), tagc[TAG], eaddr & 0xFFFF, DSPLC & 0xFFFF, DSPLC);
	return -1;
	}
	mnem = "JMP ";
	}

	fprintf(of, "%04x %s %c%c %04x ", IR & 0xFFFF, mnem, F ? (INDIR ? 'I' : 'L') : ' ', tagc[TAG], eaddr & 0xFFFF);
	return F ? -1 : SCPE_OK; /* inform how many words we read */
	}

	int32 get_reg (char cptr, const char strings[], char mchar)
	{
	return -1;
	}

	/* Number or memory address

	Inputs:
	*cptr = pointer to input string
	*dptr = pointer to output displacement
	*pflag = pointer to accumulating flags
	Outputs:
	cptr = pointer to next character in input string
	NULL if parsing error

	Flags: 0 (no result), A_NUM (number), A_REL (relative)
	*/

	char get_addr (char cptr, int32 dptr, int32 pflag)
	{
	return 0;
	}

	/* Specifier decode

	Inputs:
	*cptr = pointer to input string
	addr = current PC
	n1 = 0 if no extra word used
	-1 if extra word used in prior decode
	*sptr = pointer to output specifier
	*dptr = pointer to output displacement
	cflag = true if parsing for the CPU
	iflag = true if integer specifier
	Outputs:
	status = = -1 extra word decoded
	= 0 ok
	= +1 error
	*/

	t_stat get_spec (char cptr, t_addr addr, int32 n1, int32 sptr, t_value *dptr,
	int32 cflag, int32 iflag)
	{
	return -1;
	}

	/* Symbolic input

	Inputs:
	*cptr = pointer to input string
	addr = current PC
	*uptr = pointer to unit
	*val = pointer to output values
	sw = switches
	Outputs:
	status = > 0 error code
	<= 0 -number of extra words
	*/

	t_stat parse_sym (char cptr, t_addr addr, UNIT uptr, t_value *val, int32 sw)
	{
	return SCPE_ARG;
	}

	#ifndef _WIN32

	int strnicmp (const char a, const char b, size_t n)
	{
	int ca, cb;

	if (n == 0) return 0; /* zero length compare is equal */

	for (;;) {
	if ((ca = a) == 0) / get character, stop on null terminator */
	return *b ? -1 : 0;

	if (ca >= 'a' && ca <= 'z') /* fold lowercase to uppercase */
	ca -= 32;

	cb = *b;
	if (cb >= 'a' && cb <= 'z')
	cb -= 32;

	if ((ca -= cb) != 0) /* if different, return comparison */
	return ca;

	a++, b++;

	if (--n == 0) /* still equal after n characters? quit now */
	return 0;
	}
	}

	int strcmpi (const char a, const char b)
	{
	int ca, cb;

	for (;;) {
	if ((ca = a) == 0) / get character, stop on null terminator */
	return *b ? -1 : 0;

	if (ca >= 'a' && ca <= 'z') /* fold lowercase to uppercase */
	ca -= 32;

	cb = *b;
	if (cb >= 'a' && cb <= 'z')
	cb -= 32;

	if ((ca -= cb) != 0) /* if different, return comparison */
	return ca;

	a++, b++;
	}
	}

	#endif