Ibm1130/ibm1130_fmt.c - emulators/simh - Rivoreo Source Code Repositories

 // ibm1130_fmt.c : interpret tabs in 1130 Assembler or Fortran source
 // Bob Flanders
 // -------------------------------------------------------------------------------------------
 //
 // These routines are used by ibm1130_cr.c when the user has indicated
 // that the input text is formatted with tabs. Input lines are edited
 // into the appropriate column format. Three edit modes are recognized:
 //
 // Assembler mode:
 //		Input lines of the form
 //
 //			[label]<whitespace>[opcode]<tab>[tag][L]<tab>[argument]
 //
 //	    are rearranged so that the input fields are placed in the appropriate columns
 //
 //		The label must start on the first character of the line. If there is no label,
 //		the first character(s) before the opcode must be whitespace. Following the opcode, there
 //		MUST be a tab character, followed by the format and tag. Following the format and tag
 //		may be exactly one whitespace character, and then starts the argument.
 //
 //	    Input lines with * in column 1 and blank lines are turned into Assembler comments,
 //		with the * in the Opcode field.
 //
 // 		Assembler directive lines at the beginning of the deck must be preceded by
 //		! to indicate that they are not comments. For example,
 //
 //		!*LIST
 //		* This is a comment
 //
 // Fortran mode:
 //		Input lines of the form
 //
 //			[label]<tab>statement
 //
 //	    or
 //
 //			[label]<tab>Xcontinuation
 //
 //		where X is a non alphabetic contination character are rearranged in the
 //		appropriate manner:
 //
 //					 1		   2
 //			12345678901234567890...
 //			------------------------
 //  	    label statement
 //  	    labelXcontinuation
 //
 //		However, you must take care that you don't end up with statement text after column 72.
 //
 //		Input lines with * or C in column 1 are left alone (comments and directives)
 //
 //		(The ! escape is not used before Fortran directives as before Assembler directives)
 //
 // Tab mode:
 //		Tabs are replaced with spaces. Tab settings are assumed to be eight characters wide,
 //		as is standard for vi, notepad, etc.
 // -------------------------------------------------------------------------------------------

 #include <stdio.h>
 #include <stdlib.h>
 #include <memory.h>
 #include <ctype.h>
 #include <string.h>
 #include "ibm1130_fmt.h"

 #define MAXLINE		81									// maximum output line size
 #define WORKSZ		256									// size for tab work area
 #define TAGOFFSET	12									// offset for tag field
 #define	FMTOFFSET	11									// offset for format field

 #define MIN(a,b)	((a < b) ? a : b)
 #define AMSG		" with Assembler Reformat"
 #define FMSG		" with FORTRAN Reformat"
 #define AFORMAT		"%20.20s%-60.60s"," "
 #define ACOMMENTFMT	"%20.20s%-60.60s"," "
 #define ABLANKLINE	"%20.20s*"," "
 #define FFORMAT		"%-5.5s %-74.74s"
 #define FCONTFMT	"%-5.5s%-75.75s"

 char 	gszLabel[6];									// work area for label
 char	gszArg[MAXLINE];								// .. argument
 char	gszOutput[MAXLINE];								// .. output
 short	gaiAsmTabs[] = {7,12,15,20,25,30,35,40,45,52,0};// tab stops for assembler

 short	gaiPlainTabs[] = {9, 17, 25, 33, 41, 49, 57, 65, 73, 0};// tab stops for just plain tabs

 // ///////////////
 // helper routines

 ///////////////////////////////////////////////////
 // ExpandTabs: Expand tabs to spaces

 char* ExpandTabs(char*	p_szInbuf,						// expand tabs .. input buffer
 				 char*	p_szOutbuf,						// .. output buffer
 				 short*	p_aiTabs)						// .. array of tab stops (1 based) -- 0 end of array
 {
 short	iI,													// input position
 		iO,													// output position
 		iT;													// next tab stop

 char	cX;													// character to test

 	iI = 0;													// init input position
 	iO = 0;													// init output position
 	iT = 0;													// init tab stop

 	while ((cX = *(p_szInbuf + iI))	!= 0)					// while there are characters
 	{
 		if (cX == '\t')										// q. tab character?
 		{													// a. yes ..
 			while ((p_aiTabs[iT] <= iO + 1)					// search for next valid stop ..
 					&& (p_aiTabs[iT] != 0))					// .. or end of table
 				iT++;										// .. go to next tab

 			if (p_aiTabs[iT] != 0)							// q. end of tab array?
 			{												// a. no ..
 				while (iO < (p_aiTabs[iT] - 1))				// fill to tab with blanks
 						*(p_szOutbuf + iO++) = ' ';			// .. put in a blank

 			}
 			else											// Otherwise ...
 				*(p_szOutbuf + iO++) = ' ';					// .. Translate to blank
 		}
 		else												// Otherwise .. not tab
 			*(p_szOutbuf + iO++) = cX;						// .. save the input char

 		iI++;												// next input character
 	}

 	*(p_szOutbuf + iO) = 0;									// end the string..
 	return p_szOutbuf;										// .. return output area addr
 }

 /////////////////////////////////////
 // extract next token, modify pointer

 char* GetToken(char* p_szOut,							// output location
 			   int	 p_iLen,							// max output length
 			   char**p_pszToken)						// pointer to input token
 {
 int		iI;													// work integer
 char*	pszX;												// work pointer

 	pszX = *p_pszToken;										// get pointer to token

 	for (iI = 0; *(pszX + iI) && (!isspace(*(pszX + iI)));)	// while not whitespace & not end
 		iI++;												// .. count token length

 	memset(p_szOut, 0, p_iLen);								// zero out output area

 	if (iI > 0)												// q. any chars?
 		strncpy(p_szOut, *p_pszToken, MIN(iI, p_iLen-1)); 	// a. yes.. copy max of p_iLen-1

 	*p_pszToken += iI;										// point beyond token
 	return p_szOut;											// .. return token pointer
 }

 /////////////////////////////////////////////////////////
 // EditToAsm - convert tab-formatted text line to 1130 Assembler format

 char *EditToAsm (char* p_pszEdit)						// convert line to 1130 assembler
 {
 char	pszLine[MAXLINE];									// source line
 char	pszWork[WORKSZ];									// work buffer
 char	acTFWrk[2];											// tag/format work area
 size_t	iI;													// work integer

 	if (p_pszEdit == NULL)									// q. null request?
 		return AMSG;										// a. yes .. return display message

 	if (*p_pszEdit == '!')									// leave lines starting with ! alone
 		return EditToWhitespace(p_pszEdit+1);

 	if (*p_pszEdit == '*')									// q. comment line?
 	{														// a. yes..
 		strncpy(pszWork, EditToWhitespace(p_pszEdit), MAXLINE);		// .. convert any tabs
 		sprintf(gszOutput, ACOMMENTFMT, pszWork);			// .. put the comment out there in the opcode column
 		return gszOutput;									// .. and return it
 	}

 	strncpy(pszLine, p_pszEdit, MAXLINE-1);					// copy the line local

 	ExpandTabs(pszLine, pszWork, gaiAsmTabs);				// expand the tabs
 	strncpy(pszLine, pszWork, MAXLINE-1);					// copy the line back

 	for (iI = strlen(pszLine); iI--;)						// trim trailing whitespace
 	{
 		if (*(pszLine + iI) <= ' ')							// q. space or less?
 			*(pszLine + iI) = 0;							// a. yes .. remove it
 		else												// otherwise
 			break;											// .. done. Leave loop.
 	}

 	if (strlen(pszLine) == 0)								// q. blank line?
 	{														// a. yes ..  Assembler abhors these so
 		sprintf(gszOutput, ABLANKLINE);						// format as comment statement
 		return gszOutput;									// .. and return it
 	}


 	// TODO: Add code to process a strip switch
 	// comment?

 	if (strlen(pszLine) > (TAGOFFSET + 1))					// q. line long enough?
 	{														// a. yes.. reorder tag/format
 		memcpy(acTFWrk, pszLine + FMTOFFSET, 2);			// get tag/format
 		memset((pszLine + FMTOFFSET), ' ', 2);				// .. blank 'em out

 		for (iI = 0; iI < 2; iI ++)
 			if (isalpha(acTFWrk[iI]))						// q. alpha char?
 				*(pszLine + FMTOFFSET) = acTFWrk[iI];		// a. yes .. make it format
 			else if (isdigit(acTFWrk[iI]))					// q. digit?
 				*(pszLine + TAGOFFSET) = acTFWrk[iI];		// a. yes .. make it the tag
 	}

 	sprintf(gszOutput, AFORMAT, pszLine);					// format the line

 	return gszOutput;										// return formatted line
 }

 /////////////////////////////////////////////////////////
 // EditToFortran - convert tab-formatted input text line to FORTRAN format
 // (a la DEC Fortran)

 char *EditToFortran(char* p_pszEdit)					// convert line to 1130 assembler
 {
 char	pszLine[MAXLINE];									// source line
 char*	pszWork;											// work pointer
 size_t	iI;													// work integer
 int		bContinue;											// true if continue

 	if (p_pszEdit == NULL)									// q. null request?
 		return FMSG;										// a. yes .. return display message

 	if (strchr(p_pszEdit, '\t') == NULL)					// q. no tab in the line?
 		return p_pszEdit;									// a. nope, return line as is, assume it's formatted correctly

 	if (*p_pszEdit == 'C' || *p_pszEdit == '*' || *p_pszEdit == '\0')	// q. comment or directive or blank line?
 	{														// a. yes.. don't restructure
 		return EditToWhitespace(p_pszEdit);
 	}

 	strncpy(pszLine, p_pszEdit, MAXLINE-1);					// copy the line local

 	for (iI = strlen(pszLine); iI--;)						// trim trailing whitespace
 	{
 		if (*(pszLine + iI) <= ' ')							// q. space or less?
 			*(pszLine + iI) = 0;							// a. yes .. remove it
 		else												// otherwise
 			break;											// .. done. Leave loop.
 	}

 	// TODO: Add code to process a strip switch
 	// comment?

 	pszWork = (char*) pszLine;								// set pointer to line
 	GetToken(gszLabel, 6, &pszWork);						// get the line, if any.

 	pszWork++;												// skip tab/whitespace

 															// continuation...
 	bContinue = ((isdigit(*pszWork) && (*pszWork != '0'))	// if first char non-zero digit
 			|| (!isspace(*pszWork) && !isalpha(*pszWork))); // .. or non-alpha non-blank

 	memset(gszArg, 0, MAXLINE);								// .. and arguments

 	strncpy(gszArg, pszWork, 75);							// copy rest to argument

 	sprintf(gszOutput, (bContinue) ? FCONTFMT : FFORMAT,	// format the line
 						gszLabel,							// .. statement #
 						gszArg);							// .. code

 	return gszOutput;										// return formatted line
 }

 /////////////////////////////////////////////////////////
 // EditToWhitespace - expand tabs at 8 space intervals.

 char*	EditToWhitespace(char *p_pszEdit)
 {
 int		iI;													/* work integer				*/
 char	pszLine[MAXLINE];									// source line
 char	pszWork[WORKSZ];									// work buffer

 	if (p_pszEdit == NULL)									// q. null request?
 		return AMSG;										// a. yes .. return display message

 	strncpy(pszLine, p_pszEdit, MAXLINE-1);					// copy the line local

 	ExpandTabs(pszLine, pszWork, gaiPlainTabs);				// expand the tabs
 	strncpy(gszOutput, pszWork, MAXLINE-1);					// copy the line back

 	for (iI = strlen(gszOutput); iI--;)						// look at each character
 	{
 		if (*(gszOutput + iI) <= ' ')						// q. space or less?
 			*(gszOutput + iI) = 0;							// a. yes .. remove it
 		else												// otherwise
 			break;											// .. done. Leave loop.
 	}


 	return gszOutput;										/* ... return buffer		*/
 }
	// ibm1130_fmt.c : interpret tabs in 1130 Assembler or Fortran source
	// Bob Flanders
	// -------------------------------------------------------------------------------------------
	//
	// These routines are used by ibm1130_cr.c when the user has indicated
	// that the input text is formatted with tabs. Input lines are edited
	// into the appropriate column format. Three edit modes are recognized:
	//
	// Assembler mode:
	// Input lines of the form
	//
	// [label]<whitespace>[opcode]<tab>[tag][L]<tab>[argument]
	//
	// are rearranged so that the input fields are placed in the appropriate columns
	//
	// The label must start on the first character of the line. If there is no label,
	// the first character(s) before the opcode must be whitespace. Following the opcode, there
	// MUST be a tab character, followed by the format and tag. Following the format and tag
	// may be exactly one whitespace character, and then starts the argument.
	//
	// Input lines with * in column 1 and blank lines are turned into Assembler comments,
	// with the * in the Opcode field.
	//
	// Assembler directive lines at the beginning of the deck must be preceded by
	// ! to indicate that they are not comments. For example,
	//
	// !*LIST
	// * This is a comment
	//
	// Fortran mode:
	// Input lines of the form
	//
	// [label]<tab>statement
	//
	// or
	//
	// [label]<tab>Xcontinuation
	//
	// where X is a non alphabetic contination character are rearranged in the
	// appropriate manner:
	//
	// 1 2
	// 12345678901234567890...
	// ------------------------
	// label statement
	// labelXcontinuation
	//
	// However, you must take care that you don't end up with statement text after column 72.
	//
	// Input lines with * or C in column 1 are left alone (comments and directives)
	//
	// (The ! escape is not used before Fortran directives as before Assembler directives)
	//
	// Tab mode:
	// Tabs are replaced with spaces. Tab settings are assumed to be eight characters wide,
	// as is standard for vi, notepad, etc.
	// -------------------------------------------------------------------------------------------

	#include <stdio.h>
	#include <stdlib.h>
	#include <memory.h>
	#include <ctype.h>
	#include <string.h>
	#include "ibm1130_fmt.h"

	#define MAXLINE 81 // maximum output line size
	#define WORKSZ 256 // size for tab work area
	#define TAGOFFSET 12 // offset for tag field
	#define FMTOFFSET 11 // offset for format field

	#define MIN(a,b) ((a < b) ? a : b)
	#define AMSG " with Assembler Reformat"
	#define FMSG " with FORTRAN Reformat"
	#define AFORMAT "%20.20s%-60.60s"," "
	#define ACOMMENTFMT "%20.20s%-60.60s"," "
	#define ABLANKLINE "%20.20s*"," "
	#define FFORMAT "%-5.5s %-74.74s"
	#define FCONTFMT "%-5.5s%-75.75s"

	char gszLabel[6]; // work area for label
	char gszArg[MAXLINE]; // .. argument
	char gszOutput[MAXLINE]; // .. output
	short gaiAsmTabs[] = {7,12,15,20,25,30,35,40,45,52,0};// tab stops for assembler

	short gaiPlainTabs[] = {9, 17, 25, 33, 41, 49, 57, 65, 73, 0};// tab stops for just plain tabs

	// ///////////////
	// helper routines

	///////////////////////////////////////////////////
	// ExpandTabs: Expand tabs to spaces

	char* ExpandTabs(char* p_szInbuf, // expand tabs .. input buffer
	char* p_szOutbuf, // .. output buffer
	short* p_aiTabs) // .. array of tab stops (1 based) -- 0 end of array
	{
	short iI, // input position
	iO, // output position
	iT; // next tab stop

	char cX; // character to test

	iI = 0; // init input position
	iO = 0; // init output position
	iT = 0; // init tab stop

	while ((cX = *(p_szInbuf + iI)) != 0) // while there are characters
	{
	if (cX == '\t') // q. tab character?
	{ // a. yes ..
	while ((p_aiTabs[iT] <= iO + 1) // search for next valid stop ..
	&& (p_aiTabs[iT] != 0)) // .. or end of table
	iT++; // .. go to next tab

	if (p_aiTabs[iT] != 0) // q. end of tab array?
	{ // a. no ..
	while (iO < (p_aiTabs[iT] - 1)) // fill to tab with blanks
	*(p_szOutbuf + iO++) = ' '; // .. put in a blank

	}
	else // Otherwise ...
	*(p_szOutbuf + iO++) = ' '; // .. Translate to blank
	}
	else // Otherwise .. not tab
	*(p_szOutbuf + iO++) = cX; // .. save the input char

	iI++; // next input character
	}

	*(p_szOutbuf + iO) = 0; // end the string..
	return p_szOutbuf; // .. return output area addr
	}

	/////////////////////////////////////
	// extract next token, modify pointer

	char* GetToken(char* p_szOut, // output location
	int p_iLen, // max output length
	char**p_pszToken) // pointer to input token
	{
	int iI; // work integer
	char* pszX; // work pointer

	pszX = *p_pszToken; // get pointer to token

	for (iI = 0; (pszX + iI) && (!isspace((pszX + iI)));) // while not whitespace & not end
	iI++; // .. count token length

	memset(p_szOut, 0, p_iLen); // zero out output area

	if (iI > 0) // q. any chars?
	strncpy(p_szOut, *p_pszToken, MIN(iI, p_iLen-1)); // a. yes.. copy max of p_iLen-1

	*p_pszToken += iI; // point beyond token
	return p_szOut; // .. return token pointer
	}

	/////////////////////////////////////////////////////////
	// EditToAsm - convert tab-formatted text line to 1130 Assembler format

	char EditToAsm (char p_pszEdit) // convert line to 1130 assembler
	{
	char pszLine[MAXLINE]; // source line
	char pszWork[WORKSZ]; // work buffer
	char acTFWrk[2]; // tag/format work area
	size_t iI; // work integer

	if (p_pszEdit == NULL) // q. null request?
	return AMSG; // a. yes .. return display message

	if (*p_pszEdit == '!') // leave lines starting with ! alone
	return EditToWhitespace(p_pszEdit+1);

	if (p_pszEdit == '') // q. comment line?
	{ // a. yes..
	strncpy(pszWork, EditToWhitespace(p_pszEdit), MAXLINE); // .. convert any tabs
	sprintf(gszOutput, ACOMMENTFMT, pszWork); // .. put the comment out there in the opcode column
	return gszOutput; // .. and return it
	}

	strncpy(pszLine, p_pszEdit, MAXLINE-1); // copy the line local

	ExpandTabs(pszLine, pszWork, gaiAsmTabs); // expand the tabs
	strncpy(pszLine, pszWork, MAXLINE-1); // copy the line back

	for (iI = strlen(pszLine); iI--;) // trim trailing whitespace
	{
	if (*(pszLine + iI) <= ' ') // q. space or less?
	*(pszLine + iI) = 0; // a. yes .. remove it
	else // otherwise
	break; // .. done. Leave loop.
	}

	if (strlen(pszLine) == 0) // q. blank line?
	{ // a. yes .. Assembler abhors these so
	sprintf(gszOutput, ABLANKLINE); // format as comment statement
	return gszOutput; // .. and return it
	}


	// TODO: Add code to process a strip switch
	// comment?

	if (strlen(pszLine) > (TAGOFFSET + 1)) // q. line long enough?
	{ // a. yes.. reorder tag/format
	memcpy(acTFWrk, pszLine + FMTOFFSET, 2); // get tag/format
	memset((pszLine + FMTOFFSET), ' ', 2); // .. blank 'em out

	for (iI = 0; iI < 2; iI ++)
	if (isalpha(acTFWrk[iI])) // q. alpha char?
	*(pszLine + FMTOFFSET) = acTFWrk[iI]; // a. yes .. make it format
	else if (isdigit(acTFWrk[iI])) // q. digit?
	*(pszLine + TAGOFFSET) = acTFWrk[iI]; // a. yes .. make it the tag
	}

	sprintf(gszOutput, AFORMAT, pszLine); // format the line

	return gszOutput; // return formatted line
	}

	/////////////////////////////////////////////////////////
	// EditToFortran - convert tab-formatted input text line to FORTRAN format
	// (a la DEC Fortran)

	char EditToFortran(char p_pszEdit) // convert line to 1130 assembler
	{
	char pszLine[MAXLINE]; // source line
	char* pszWork; // work pointer
	size_t iI; // work integer
	int bContinue; // true if continue

	if (p_pszEdit == NULL) // q. null request?
	return FMSG; // a. yes .. return display message

	if (strchr(p_pszEdit, '\t') == NULL) // q. no tab in the line?
	return p_pszEdit; // a. nope, return line as is, assume it's formatted correctly

	if (p_pszEdit == 'C' \|\| p_pszEdit == '' \|\| p_pszEdit == '\0') // q. comment or directive or blank line?
	{ // a. yes.. don't restructure
	return EditToWhitespace(p_pszEdit);
	}

	strncpy(pszLine, p_pszEdit, MAXLINE-1); // copy the line local

	for (iI = strlen(pszLine); iI--;) // trim trailing whitespace
	{
	if (*(pszLine + iI) <= ' ') // q. space or less?
	*(pszLine + iI) = 0; // a. yes .. remove it
	else // otherwise
	break; // .. done. Leave loop.
	}

	// TODO: Add code to process a strip switch
	// comment?

	pszWork = (char*) pszLine; // set pointer to line
	GetToken(gszLabel, 6, &pszWork); // get the line, if any.

	pszWork++; // skip tab/whitespace

	// continuation...
	bContinue = ((isdigit(pszWork) && (pszWork != '0')) // if first char non-zero digit
	\|\| (!isspace(pszWork) && !isalpha(pszWork))); // .. or non-alpha non-blank

	memset(gszArg, 0, MAXLINE); // .. and arguments

	strncpy(gszArg, pszWork, 75); // copy rest to argument

	sprintf(gszOutput, (bContinue) ? FCONTFMT : FFORMAT, // format the line
	gszLabel, // .. statement #
	gszArg); // .. code

	return gszOutput; // return formatted line
	}

	/////////////////////////////////////////////////////////
	// EditToWhitespace - expand tabs at 8 space intervals.

	char* EditToWhitespace(char *p_pszEdit)
	{
	int iI; /* work integer */
	char pszLine[MAXLINE]; // source line
	char pszWork[WORKSZ]; // work buffer

	if (p_pszEdit == NULL) // q. null request?
	return AMSG; // a. yes .. return display message

	strncpy(pszLine, p_pszEdit, MAXLINE-1); // copy the line local

	ExpandTabs(pszLine, pszWork, gaiPlainTabs); // expand the tabs
	strncpy(gszOutput, pszWork, MAXLINE-1); // copy the line back

	for (iI = strlen(gszOutput); iI--;) // look at each character
	{
	if (*(gszOutput + iI) <= ' ') // q. space or less?
	*(gszOutput + iI) = 0; // a. yes .. remove it
	else // otherwise
	break; // .. done. Leave loop.
	}


	return gszOutput; /* ... return buffer */
	}