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/* This file contains those portions of Dvi2ln3 that create font loads. It
is still being developed... 

Copyright (c) 1983, 1984, 1985, 1986 by Digital Equipment Corporation.
Author: Flavio Rose, ...!decwrl!dec-rhea!dec-dvinci!rose. 

Development chronology: 

11/28/84: Initial version in PL/I. Finished 11/30/84.
  3/4/85: C translation, a prelude to writing DVI2LN3.
  5/7/85: Finally got around to debugging the C translation!
  6/5/85: Convert to work with Dvi2ln3 -- minor changes.
 6/18/85: Try not to use big input array.
 6/22/85: Cleanup, try to identify longs.
11/12/85: Changed to read PXLs rather than LN03 format files. Old file
    	  called dvi2ln3nft, now renamed to dvi2ln3pxl.
11/15/85: More optimized PXL reading -- use lnf instead of the pxlbuf
    	  when reading rasters. Return just status value from add_txf_...,
    	  use ras_len_added to communicate size. Facilitate error
    	  recovery with copy_ersatz_char. LN03 file reading functionality
    	  woven back in.
 1/16/86: Embarrassing bug, forgot to close the nftf after done with it.
 3/28/86: Conditionalization for Ultrix.
  4/7/86: After moving this to 4.3bsd at MIT, a couple more 
    	  fixes to the portability.

*/

/* INTRODUCTION: When writing an LN03 driver for TeX, it must be kept in
mind that the LN03 has limited font storage capability. The standard LN03
has just 27k bytes, and two 128k byte RAM cartridges may be added. 

For this reason, when we convert a DVI file to LN03 form, we build a
special font load that has just the glyphs that the DVI file needs. This
allows very complex files, e.g. the first nine chapters of the
Metafontbook, to be printed on LN03s that have just one extra RAM
cartridge. This approach does, however, consume considerable resources in
the VAX to build those font loads. */ 

/* The following is customary boilerplate. */ 

#ifdef vms
#include stdio
#else
#include <stdio.h>
#endif

/* In VMS we declare external variables to be globalref. 
This is not really necessary, just an old habit. */

#ifdef vms
#define GLOBAL globaldef
#define EXTERN globalref
#else
#define GLOBAL 
#define EXTERN extern
#endif

/* The following symbols are declared compatibly with those in the file
Dvi2ln3.c. */ 

#define maxnfonts 31
#define MAXTEXFONTS 100
#define FILESPECLEN 252
#define leftfirst 33
#define leftlast 126
#define rightfirst 161
#define rightlast 254

EXTERN FILE *outfile;
EXTERN int lastch[maxnfonts];
EXTERN unsigned char chw[maxnfonts][256];

struct txf { unsigned char chu[256]; int bc, ec; long space, design_size,
    scaled_size; int nchs; };
EXTERN struct txf *txfa[MAXTEXFONTS+1];
EXTERN long int *font_width[MAXTEXFONTS+1];

EXTERN char *font_name[MAXTEXFONTS+1];
EXTERN float conv, unmag_conv;

#ifndef vms
char *getenv();
#endif 

/* The LN03 font load we build is buffered in a fixed-size area, slightly
smaller than the maximum amount of font memory available on an LN03. [[The
code should be changed to chain fixed-size buffers, so font loads of
unlimited size can be handled, subject only to memory availability. On
systems with limited memory, it may be desirable to use a disk file instead
of this buffer.]] */ 

#define OBUFLEN 2*256*256
GLOBAL unsigned char lnf[OBUFLEN]; 

/* While constructing the font load, we keep track of the length of the
"character definitions area" in ras_len. We also have to keep track of the
raster size measured in three different ways, as psize (portrait), lsize
(landscape), and msize (mixed). This is required to fill certain fields in
the font load. */ 

GLOBAL long int ras_len,psize,lsize,msize; 

/* The font load that we construct consists of a number of LN03 fonts. Each
of these contains up to 94 glyphs. They may be "left fonts", so their
glyphs are invoked with codes 33 through 126; or they may be "right fonts"
that respond to codes 161 through 254. 

The font load that we construct is made up of alternating left and right
fonts (sometimes called "font pairs"). A TeX font (represented by a txf
record) is added to a font pair. It may be split between the left and right
halves of the pair. 

The variable using_r keeps track of whether we are using a right font. */ 

GLOBAL char using_r; 

GLOBAL unsigned int nft_first_ch,nft_last_ch,chardir_offset;
GLOBAL int lnf_chardir,ras_beg;
GLOBAL long ras_len_added; 

GLOBAL int pxlf,nftf;

/* The purpose of add_txf_to_lnf is to read the PXL or LN03 font file
corresponding to TeX font txfno and add its rasters to the font pair
referred to by lnfno. The function returns 0 if all went well, and various
negative numbers to indicate problems. The number of bytes added to the
font load is returned in the global ras_len_added. */ 

int add_txf_to_lnf(lnfno,txfno)
int lnfno,txfno;
{
    int i,j,k,l,width;
    int first_txfc,last_txfc;
    char first_txf,last_txf;

    ras_len_added = 0;

    if (txfno < 0 || txfno > MAXTEXFONTS || txfa[txfno] == 0 ||
    	lnfno < 0 || lnfno > maxnfonts) {
    	printf("\nDvi2ln3 internal error, bad txfno or lnfno");
    	goto error_return;
    }
			
/* Now, compute first_txfc and last_txfc, the first and last characters 
codes to be copied from the TeX font. */

    first_txfc = -1; last_txfc = -1;
    for (i=0; i<256; i++) {
	if (txfa[txfno] -> chu[i] != 0) {
	    if (first_txfc == -1)  first_txfc = i;
	    last_txfc = i;
	}
    }
    if (first_txfc == -1 || last_txfc == -1) return(0);

/* Tell user what font is being loaded */

    printf("\nLoading font %s",font_name[txfno]);
    k = (1500.0*conv*txfa[txfno] -> scaled_size)/
	    (unmag_conv*txfa[txfno] -> design_size) + 0.5;
    l = ((float)k)/15.0 + 0.5;
    if (l != 100) printf(" (magnified %d%%)",l);

/* Now open the file from which we are getting rasters. We look first for a
PXL file, then for an LN03 format font file (NFT file). */ 

    pxlf = -1;
    nftf = -1;
    open_nft_file(txfno);
    if (nftf == -1) open_pxl_file(txfno);

/* If neither a PXL file nor an LN03 format file could be opened, warn the
user. The font load will be filled in with blanks nonetheless. */ 

    if (pxlf == -1 && nftf == -1) 
    	printf("\n Couldn't find good font file: using blanks");

/* Now replace first_txfc and last_txfc by the character codes into which
they are going to be copied. */ 

    first_txfc = txfa[txfno] -> chu[first_txfc];
    last_txfc = txfa[txfno] -> chu[last_txfc];

/* Determine if this is the first or last TeX font that is being copied
into the current LN03 font pair. */ 

    first_txf = (first_txfc == leftfirst);
    last_txf = (last_txfc == lastch[lnfno]);

/* If this is the first TeX font for the current LN03 font pair, then we
have to initialize the LN03 font load buffer. The initialization routine
computes where the rasters begin in the output buffer, puts in the blanks,
etc. */ 

    if (first_txf) {
    	using_r = 0;
    	initialize_lnf(lnfno);
    }

/* Now go through all the characters in the TeX font and copy their rasters
into the appropriate positions in the LN03 font pair. When we copy the the
last rasters into the left font, we write the font out and then a comma to
separate it from the next font. [[Fencepost error?]] */ 

    for (i=0; i<256; i++) {
    	if (txfa[txfno] -> chu[i] != 0) {
    	    j = txfa[txfno] -> chu[i];
    	    if (!using_r && j >= rightfirst) {
    		write_lnf();
    		fprintf(outfile,"\n,");
    		using_r = 1;
    		initialize_lnf(lnfno);
    	    }
    	    if (pxlf != -1) {
    		k = copy_pxl_char(i,j,lnfno);
    		if (k != 0) {
    		    close(pxlf);
    		    pxlf = -1;
    		}
    	    } else if (nftf != -1) {
    		k = copy_nft_char(i,j,lnfno);
    		if (k != 0) {
    		     close(nftf);
    		     nftf = -1;
    		}
    	    }
    	    if (pxlf == -1 && nftf == -1) {
    		width = font_width[txfno][i]*conv+0.5;
    		k = copy_ersatz_char(j,lnfno,width);
    	    }
	}
    }

    if (nftf != -1) close(nftf);
    if (pxlf != -1) close(pxlf);

/* If this is the last TeX font being added to this LN03 font pair, write
out the current font (right or left) from the pair. */ 

    if (last_txf) write_lnf(); 
    
/* Type and return the incremental amount of space that the TeX font being
added takes up in the output font load. */ 

    ras_len_added += 4*(txfa[txfno] -> nchs);
    printf(", %d bytes",ras_len_added);

    return(0);

error_return: 
    return(-1);

}

/* A buffer is used to hold the directory part of the PXL file. */

#define PXLBUFSIZE 4*517

GLOBAL unsigned char pxlbuf[PXLBUFSIZE];
GLOBAL long pxllen;

/* The value pxlconv is computed to be the correct conversion factor from the
widths in the PXL file, which are expressed in units of 2^-20 times the
design size, to pixels. */ 

GLOBAL float pxlconv;

/* As usual when dealing with TeX files, we have to rearrange bytes in
an overlay to combine them into longwords. The reason for this is that
bytes in TeX files are combined into longwords the opposite way from how
the VAX combines them.

Hence, the following overlay and macro: */

GLOBAL union lc { unsigned long int ul; 
    long int l;
    unsigned char c[4]; } lcy;

#define copy_from_lnf(i) lcy.c[0] = lnf[i]; lcy.c[1] = lnf[i+1]; \
    lcy.c[2] = lnf[i+2]; lcy.c[3] = lnf[i+3]
#define copy_to_lnf(i) lnf[i] =  lcy.c[0]; lnf[i+1] = lcy.c[1]; \
    lnf[i+2] = lcy.c[2] ; lnf[i+3] = lcy.c[3] 
#define copy_from_pxl(_x) { lcy.c[3] = pxlbuf[_x]; \
    lcy.c[2] = pxlbuf[(_x)+1]; lcy.c[1] = pxlbuf[(_x)+2]; \
    lcy.c[0] = pxlbuf[(_x)+3]; }

/* open_pxl_file reads the last 517 longwords of the PXL file into the
pxlbuf. */ 

int open_pxl_file(txfno) 
int txfno;
{

    long i,j;
    float two_to_the_20th = 0x100000;
    int k,l,jnam,jext,target;
    char fullspec[FILESPECLEN];
#ifndef vms
    char *pxldir;
#endif

    find_filename(font_name[txfno],&jnam,&jext);
    
    fullspec[0] = '\0';
#ifdef vms
    if (jnam == 0) strcpy(fullspec,"TEX$PXLDIR:");
#else
    if (jnam == 0) {
    	pxldir = getenv("TEX_PXLDIR");
	strcpy(fullspec,pxldir);
	strcat(fullspec,"/");
    }
#endif
    strcat(fullspec,font_name[txfno]);
    k = (1500.0*conv*txfa[txfno] -> scaled_size)/
	    (unmag_conv*txfa[txfno] -> design_size) + 0.5;
    l = strlen(fullspec);
    sprintf(&fullspec[l],".%dpxl\0",k);

    pxllen = 0;
    pxlf = open(fullspec,0);
    if (pxlf == -1) return(1);

    lseek(pxlf,-517*4,2);
    i = read(pxlf,pxlbuf,517*4);
    if (i != 517*4) {
	printf("\n Error while reading PXL file");
	close(pxlf);
    	pxlf = -1;
	return(1);
    }
    pxllen = 4*517;

/* Now that we have read the PXL file, check that it is in correct format
by looking for a trailing ID byte of 1001. */ 

    copy_from_pxl(pxllen-4);
    if (lcy.ul != 1001) {
    	printf("\n Error while reading PXL file");
    	close(pxlf);
    	pxlf = -1;
    	return(1);
    }

/* If the format is correct, derive a scale factor for the widths. */ 

    copy_from_pxl(pxllen-12);
    pxlconv = lcy.ul;
    copy_from_pxl(pxllen-16);
    pxlconv = (pxlconv/two_to_the_20th)*(lcy.ul/5.0)
    	*(1.0/(72.27*two_to_the_20th));
    return(0);

}

GLOBAL unsigned char rev_byte[256] = {
    0,128,64,192,32,160,96,224,
    16,144,80,208,48,176,112,240,
    8,136,72,200,40,168,104,232,
    24,152,88,216,56,184,120,248,
    4,132,68,196,36,164,100,228,
    20,148,84,212,52,180,116,244,
    12,140,76,204,44,172,108,236,
    28,156,92,220,60,188,124,252,
    2,130,66,194,34,162,98,226,
    18,146,82,210,50,178,114,242,
    10,138,74,202,42,170,106,234,
    26,154,90,218,58,186,122,250,
    6,134,70,198,38,166,102,230,
    22,150,86,214,54,182,118,246,
    14,142,78,206,46,174,110,238,
    30,158,94,222,62,190,126,254,
    1,129,65,193,33,161,97,225,
    17,145,81,209,49,177,113,241,
    9,137,73,201,41,169,105,233,
    25,153,89,217,57,185,121,249,
    5,133,69,197,37,165,101,229,
    21,149,85,213,53,181,117,245,
    13,141,77,205,45,173,109,237,
    29,157,93,221,61,189,125,253,
    3,131,67,195,35,163,99,227,
    19,147,83,211,51,179,115,243,
    11,139,75,203,43,171,107,235,
    27,155,91,219,59,187,123,251,
    7,135,71,199,39,167,103,231,
    23,151,87,215,55,183,119,247,
    15,143,79,207,47,175,111,239,
    31,159,95,223,63,191,127,255
    };

#define pxl_word(_x) (pxlbuf[_x]*256+pxlbuf[(_x)+1])
#define signed_pxl_word(_x) ((pxl_word(_x)>0x8000) ? \
    (pxl_word(_x)-0x10000) : pxl_word(_x))

/* Copy_pxl_char copies the rasters and character directory information
corresponding to code from in the PXL file, into the to position of the
LN03 font load buffer. */ 

int copy_pxl_char(from,to,lnfno)
unsigned char from,to;
int lnfno;
{

    unsigned long ds,rs,i,j,def_start;
    unsigned int rows,cols,k,l,m,n;
    int xoffset, yoffset;
    int width;
    char all_blank;

/* Check if the character code from is in the right range for the PXL file.
*/ 

    if (from > 127) return(1);

/* Locate the definition and the rasters for from in the PXL file. */ 

    ds = 16*from;
    copy_from_pxl(ds+8);
    rs = 4*lcy.ul;
    cols = pxl_word(ds); rows = pxl_word(ds+2);

/* If a glyph has no rasters, an "undocumented feature" of the LN03 seems
to cause the glyph to be printed incorrectly. Because of this, we set the
number of rows and columns to 1, and put in a blank byte (below). */ 

    all_blank = ((rows == 0) & (cols == 0)) | rs == 0;
    if (all_blank) {
	cols = 1;
	rows = 1;
    }

/* Compute the width of the glyph in pixels, the xoffset, and the yoffset.
*/ 

    copy_from_pxl(ds+12);
    width = pxlconv*lcy.ul+0.5;
    xoffset = signed_pxl_word(ds+4); 
    yoffset = signed_pxl_word(ds+6); 
    chw[lnfno][to] = width;

/* Check that we have enough room left in the LN03 font load buffer. Fudge
factor of 3 added because the read below may read too much. */ 

    def_start = ras_beg+ras_len;
    if (def_start+rows*((cols+7)/32)+24+3 > OBUFLEN) {
    	printf("\nNo more room in LN03 font load buffer (%ld bytes long)",
    		OBUFLEN);
    	return(1);
    }

/* Clear the character definition area in the LN03 font load buffer. */ 

    for(i=0; i<24+rows*((cols+7)/8); i++)
      	lnf[def_start+i] = 0; 

/* Set the fields in the first six longwords of the LN03 font load
character definition. The first assignment sets the so-called "flag flag",
which must be always be set according to the Common Font File Format. A
conversion factor of 24 is used in converting pixel values, because the
values are supposed to be in centipoints in the LN03 font load, and if we
assume there are 300 pixels in an inch, then there are 7200 centipoints in
an inch. */ 

    lnf[def_start+3] = 0x80; 
    lcy.ul = 24*width;   
    copy_to_lnf(def_start+4);
    lcy.l = -24*xoffset;
    copy_to_lnf(def_start+8);
    lcy.l = -24*yoffset;
    copy_to_lnf(def_start+12);

/* The rasters are always placed in portrait into the LN03 font load, with
no use of run-length encoding. Thus, the orient field in the raster format
will be 0, and the Type 1 field is set to 0x81. */ 

    lnf[def_start+17] = 0x81;
    lnf[def_start+20] = rows%256;
    lnf[def_start+21] = rows/256;
    lnf[def_start+22] = cols%256;
    lnf[def_start+23] = cols/256;

/* Now we copy the rasters themselves. As we do so, we have to reverse
the bits within each byte. */

    k = (cols+31)/32;
    n = (cols+7)/8;
    lseek(pxlf,rs,0);
    if (!all_blank) {
	for (l=0; l<rows; l++) {
	    read(pxlf,&lnf[def_start+24+n*l],4*k);
	}
	for (m=0; m<n*rows; m++) 
	    lnf[def_start+24+m] = rev_byte[lnf[def_start+24+m]];
    }

/* Set the character locator, increment the LN03 font load buffer length,
and recompute the three sizes. */ 

    lcy.l = def_start;
    if (to <= leftlast)  i = to-leftfirst; else i = to-rightfirst;
    copy_to_lnf(lnf_chardir+4*i);
    ras_len += 24+rows*n;
    ras_len_added += 24+rows*n;
    if (ras_len%2 == 1) {
    	lnf[ras_beg+ras_len] = 0;
    	ras_len++;
    	ras_len_added++;
    }

    i = rows*((cols+7)/8);
    psize += i;
    j = ((rows+7)/8)*cols;
    lsize += j;
    msize += (i > j) ? i : j;

    return(0);
}

/* Write a blank character of specified width (in pixels) into LN03 font
load buffer. Also, set the chw array. [[This function is a bit excessive.
If we couldn't find a character's rasters, it would suffice just to leave
the character locator blank.]] */ 

int copy_ersatz_char(to,lnfno,width)
unsigned char to;
int lnfno,width;
{

    unsigned long ds,rs,i,j,def_start;
    unsigned int rows,cols,k,l,m,n;

    cols = 1;
    rows = 1;
    chw[lnfno][to] = width;

/* Check that we have enough room left in the LN03 font load buffer. Return
silently if not. */ 

    def_start = ras_beg+ras_len;
    if (def_start+rows*((cols+7)/32)+24 > OBUFLEN) return(1);

/* Clear the character definition area in the LN03 font load buffer. */ 

    for(i=0; i<24+rows*((cols+7)/8); i++)
      	lnf[def_start+i] = 0; 
    lnf[def_start+3] = 0x80; 
    lcy.ul = 24*width;   
    copy_to_lnf(def_start+4);

/* The rasters are always placed in portrait into the LN03 font load, with
[no use of run-length encoding. Thus, the orient field in the raster format
will be 0, and the Type 1 field is set to 0x81. */ 

    lnf[def_start+17] = 0x81;
    lnf[def_start+20] = rows%256;
    lnf[def_start+21] = rows/256;
    lnf[def_start+22] = cols%256;
    lnf[def_start+23] = cols/256;

/* Set the character locator, increment the LN03 font load buffer length,
and recompute the three sizes. */ 

    n = (cols+7)/8;
    lcy.l = def_start;
    if (to <= leftlast)  i = to-leftfirst; else i = to-rightfirst;
    copy_to_lnf(lnf_chardir+4*i);
    ras_len += 24+rows*n;
    ras_len_added += 24+rows*n;
    if (ras_len%2 == 1) {
    	lnf[ras_beg+ras_len] = 0;
    	ras_len++;
    	ras_len_added++;
    }

    i = rows*((cols+7)/8);
    psize += i;
    j = ((rows+7)/8)*cols;
    lsize += j;
    msize += (i > j) ? i : j;

    return(0);
}

/* The opening part of each NFT file is copied into the array nfta.
Nftlen keeps track of how much of the NFT file we have read. Nftf 
is the file descriptor used to do the reading. */

GLOBAL unsigned char nfta[480+1024];
GLOBAL long nftlen;

#define copy_from_nft(i) lcy.c[0] = nfta[i]; lcy.c[1] = nfta[i+1]; \
    lcy.c[2] = nfta[i+2]; lcy.c[3] = nfta[i+3]

/* Open_nft_file opens the NFT file and reads the opening part into the NFT
array. */ 

int open_nft_file(txfno) 
int txfno;
{
    int k,l,jnam,jext,target;
    char fullspec[FILESPECLEN];
#ifndef vms
    char *ln3dir;
#endif

    find_filename(font_name[txfno],&jnam,&jext);
    
    fullspec[0] = '\0';
#ifdef vms
    if (jnam == 0) strcpy(fullspec,"TEX$LN03DIR:");
#else
    if (jnam == 0) {
    	ln3dir = getenv("TEX_LN03DIR");
	strcpy(fullspec,ln3dir);
	strcat(fullspec,"/");
    }
#endif
    strcat(fullspec,font_name[txfno]);
    k = (100.0*conv*txfa[txfno] -> scaled_size)/
	    (unmag_conv*txfa[txfno] -> design_size) + 0.5;
    if (k == 100) strcat(fullspec,".nft");
    else {
    	l = strlen(fullspec);
	if (k < 1000) sprintf(&fullspec[l],".%03d\0",k);
	else sprintf(&fullspec[l],".%d\0",k);
    }

    nftlen = 0;
    nftf = open(fullspec,0);
    if (nftf == -1) return(1);

    if (read_nft_with_retry(nfta,480) != 0) {
	close(nftf);
    	nftf = -1;
	return(1);
    } 

/* The NFT file might be random, or it might be a Common Font File Format
file that isn't loadable into an LN03. So, we make a few checks. 

The second longword must be 'FONT'. */ 

    if (nfta[4] != 'F' || nfta[5] != 'O' || nfta[6] != 'N' 
    	|| nfta[7] != 'T') {
    	printf(" -- Bad NFT file, lacks FONT.");
    	close(nftf);
    	nftf = -1;
    	return(1);
    }

/* We also check that there are a full 16 bytes of character parameters. If
there are fewer, we give up: LN03s need all sixteen, and it's too hard to
figure out how to give the missing ones reasonable values. 

Throughout this program, we define some constants beginning with fnt__
which define byte offsets into the nft file. [[The long prefixes of these
may cause some trouble if one's C compiler does not recognize too many
significant characters in identifiers.]] */ 

#define fnt__l_parameters_size 200

    copy_from_nft(fnt__l_parameters_size);
    if (lcy.l != 16) {
    	printf(" -- bad NFT file, not enough character parameters");
    	close(nftf);
    	nftf = -1;
    	return(1);
    }

/* Set the variable that tells us the starting location of the
character directory. */

    chardir_offset = 480;

/* Figure out what the first and last character codes in the NFT file are.
*/ 

#define fnt__l_first_character 164

    copy_from_nft(fnt__l_first_character);
    nft_first_ch = lcy.l;
    copy_from_nft(fnt__l_first_character+4);
    nft_last_ch = lcy.l;

/* We must have 0 <= nft_first_ch <= nft_last_ch <= 255, otherwise we
give up on the NFT file. */

    if  (!((0 <= nft_first_ch) && (nft_first_ch <= nft_last_ch) &&
    	(nft_last_ch <= 255))) {
    	printf(" -- bad NFT file, bad character range.");
    	close(nftf);
    	nftf = -1;
    	return(1);
    }

/* Now read the character directory into the nfta. */

    target = chardir_offset+4*(nft_last_ch+1-nft_first_ch);
    if (read_nft_with_retry(&nfta[480],target) != 0) {
    	close(nftf);
    	nftf = -1;
    	return(1);
    }
    return(0);
}

/* Copy_nft_char copies the character parameters and rasters corresponding
to the from argument out of the NFT file and into the LN03 font buffer. It
also updates the chw (character width) array. */ 

int copy_nft_char(from,to,lnfno)
unsigned char from,to;
int lnfno;
{

    int rows,columns,quo;
    long i,j,len,def_start,target;

/* Replace from by the first character code if the NFT file has no rasters
for code from. If this is done, the output will of course be mangled. The
user has already been warned above, so no further message is needed. */ 

    if (from < nft_first_ch) from = nft_first_ch;
    if (from > nft_last_ch) from = nft_last_ch;

/* First we need to determine def_start, the byte offset of the character
definition for code from in the NFT file */ 

    copy_from_nft(chardir_offset+(from-nft_first_ch)*4);
    def_start = lcy.l;

/* If the locator is earlier in the file, just give up. Otherwise, assume
it's good, continue and give a vague error message is something goes wrong.
*/ 

    if (def_start < nftlen || read_nft_until(def_start) != 0) {
    	printf("\n LN03 font file bad, using blanks");
    	return(1);
    }

/* Read the first 24 bytes of character data. */

    def_start = ras_beg+ras_len;
    if (read_nft_with_retry(&lnf[def_start],nftlen+24) != 0) return(1);

/* Now we need to check that the rasters are uncompressed. LN03s can't
accept compressed rasters, and this program isn't clever enough to
decompress them. */ 

    if (lnf[def_start+17] != 129) {
	printf("\n LN03 font file bad, using blanks");
	return(1);
    }

/* Fill in the chw array (which holds character widths). Centipoint to
pixel conversion is necessary (there are 24 centipoints in a pixel), with
rounding (hence the 12). */ 

    copy_from_lnf(def_start+4);
    chw[lnfno][to] = (lcy.l+12)/24;

/* NFT files may contain character widths which are not integral numbers of
pixels. It is necessary to round such values to pixels when copying into
the final font load -- if sent unrounded to the LN03, the widths will be
truncated and positions will be off in the printed output. */ 

    lcy.l = 24*chw[lnfno][to];
    copy_to_lnf(def_start+4);

/* Now we need to compute the size of the rasters, and copy that number of
bytes into the LN03 font buffer. */

    rows = lnf[def_start+20]+256*lnf[def_start+21];
    columns = lnf[def_start+22]+256*lnf[def_start+23];

/* We have to update psize, lsize and msize to fill slots in the format. */

    quo = rows/8;
    if (rows != quo*8) quo++;
    i = quo*columns;
    lsize += quo*columns;
    quo = columns/8;
    if (columns != quo*8) quo++;
    psize += quo*rows;
    if (i > quo*rows)  msize += i; else msize += quo*rows;

/* Now do the actual copy. We have to ensure that the rasters are
word-aligned in the font load (where one word = 2 bytes, of course). */ 

    if (lnf[def_start+16] % 2 == 0) len = quo*rows; else len = i;
    if (read_nft_with_retry(&lnf[def_start+24],nftlen+len) != 0)
    	return(1);
    lcy.l = def_start;
    if (to <= leftlast)  i = to-leftfirst; else i = to-rightfirst;
    copy_to_lnf(lnf_chardir+4*i);
    ras_len += len+24;
    ras_len_added += len+24;
    if (ras_len % 2 != 0) {
    	lnf[ras_beg+ras_len] = 0;
	ras_len++;
	ras_len_added++;
    }
    return(0);

}

int read_nft_with_retry(where,upto)
long upto;
char *where;
{
    long i,target;
    int l;
    
    i = 0;
    while (nftlen < upto) {
    	target = upto-nftlen;
    	l = read(nftf,&where[i],target);
    	if (l <= 0) {
	    printf("\n LN03 font file bad, using blanks");
	    return(1);
	} 
    	nftlen += l;
    	i += l;
    }
    return(0);
}

int read_nft_until(pos)
long pos;
{
    char bit_bucket[512];
    int l;
    long target;
    
    while (nftlen < pos) {
    	target = pos-nftlen;
    	if (target > 512) target = 512;
    	l = read(nftf,bit_bucket,target);
    	if (l <= 0) {
	    printf("\n LN03 font file bad, using blanks");
	    return(1);
	} 
    	nftlen += l;
    }
    return(0);
}

GLOBAL unsigned char preline[96];    

/* write_lnf performs the last fixups to the LN03 font buffer and dumps it,
sixelized, into the output file. */ 

int write_lnf (){

    long i,j,k,rem,quo,ma;

/* We now have to fix a number of slots: size of file, length of rasters,
final 'FONT', psize, lsize, msize. */

    lcy.l = ras_beg+ras_len+8;
    copy_to_lnf(0); 
    copy_to_lnf(lcy.l-8);
    lnf[lcy.l-4] = 'F';
    lnf[lcy.l-3] = 'O';
    lnf[lcy.l-2] = 'N';
    lnf[lcy.l-1] = 'T';

/* Clear out remaining bytes up to 96 more. */

    j = 96*((lcy.l+95)/96);
    for (i=lcy.l; i<j; i++) lnf[i] = 0;

/* Length of rasters */

#define fnt__l_char_definitions_length 156

    lcy.l = ras_len;
    copy_to_lnf(fnt__l_char_definitions_length);

#define fnt__l_portrait_byte_count 228
#define fnt__l_landscape_byte_count 232
#define fnt__l_mixed_byte_count 236

    lcy.l = psize;
    copy_to_lnf(fnt__l_portrait_byte_count);

    lcy.l = lsize;
    copy_to_lnf(fnt__l_landscape_byte_count);

    lcy.l = msize;
    copy_to_lnf(fnt__l_mixed_byte_count);

/* Now sixelize and write the contents of LNF. */ 

    sixelize_and_write(ras_beg+ras_len+8);
    return(0);
}

int sixelize_and_write(howmuch)
int howmuch;
{
    int quo,i,j;

    quo = howmuch/96;
    if (howmuch > quo*96) quo++;

    for (i=0; i<quo; i++) {
	for (j=0; j<96; j++) 
	    preline[j] = lnf[96*i+j];
	write_preline();
    }

}

int write_preline() {

    char sixel_line[129];
    int i,j,ix,pllen;
    unsigned v,w;

    pllen = 96;
    ix = 0;
    sixel_line[128] = '\0';
    for (i=0; i<128; i++) sixel_line[i] = '?';
    for (i=0; i<pllen; i += 3) {
    	v = preline[i];
    	w = v>>2;
    	sixel_line[ix] = 63+w;
	ix++;
    	w = (v&3)<<4;
    	v = preline[i+1];
    	w |= v>>4;
    	sixel_line[ix] = 63+w;
	ix++;
    	w = (v&15)<<2;
    	v = preline[i+2];
    	w |= v>>6;
    	sixel_line[ix] = 63+w;
    	ix++;
    	w = v&63;
    	sixel_line[ix] = 63+w;
    	ix++;
    }
    fprintf(outfile,"\n%s",sixel_line);
}

/* Initializes the LN03 font buffer. */ 

int initialize_lnf(lnfno) 
int lnfno;
{
    int i,j;

/* The following array holds reasonable values for bytes 0-479 of an LN03
format font. These bytes were copied from a font load which the LN03 was
known to accept. The font loads generated by this program are initialized
using these values. Some of them are overwritten later, however. */ 

    static char good_opening[512] = {
	104,38,0,0,70,79,78,84,
	1,0,0,0,31,0,0,0,
	20,0,0,0,85,48,48,48,
	48,48,48,48,48,50,83,75,
	48,48,71,71,48,48,48,49,
	85,90,90,90,90,48,50,70,
	48,48,48,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	181,7,9,0,11,0,14,0,
	0,0,0,0,104,0,0,0,
	252,0,0,0,124,0,0,0,
	100,1,0,0,120,1,0,0,
	224,1,0,0,4,0,0,0,
	88,3,0,0,0,0,0,0,
	92,3,0,0,48,0,0,0,
	92,3,0,0,0,0,0,0,
	140,3,0,0,212,34,0,0,
	140,3,0,0,33,0,0,0,
	126,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	32,0,0,0,168,0,0,0,
	16,0,0,0,94,0,0,0,
	0,0,0,0,94,0,0,0,
	0,0,0,0,94,0,0,0,
	0,0,0,0,236,25,0,0,
	54,25,0,0,14,27,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,2,0,0,0,
	7,0,0,0,92,3,0,0,
	7,0,0,0,99,3,0,0,
	16,0,0,0,106,3,0,0,
	16,0,0,0,122,3,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	10,0,0,0,244,1,0,0,
	0,0,24,0,16,0,0,0,
	16,0,0,0,1,0,1,0,
	1,0,1,0,0,0,1,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	0,0,0,0,0,0,0,0,
	30,0,0,0,20,0,0,0,
	196,255,255,255,20,0,0,0,
	106,255,255,255,20,0,0,0,
	0,0,1,0,0,0,30,0,
	166,255,255,255,0,0,0,0,
	40,0,0,0,0,0,0,0,
	60,0,0,0,240,0,0,0,
	60,0,0,0,100,0,0,0,
	240,0,0,0,120,0,0,0,
	40,0,0,0,120,0,0,0,
	96,255,255,255,136,255,255,255,
	186,255,255,255,240,0,0,0,
	76,255,255,255,60,0,0,0,
	160,0,0,0,120,0,0,0,
	20,0,0,0,20,0,0,0,
	140,3,0,0,194,3,0,0,
	244,3,0,0,160,4,0,0,
	254,4,0,0,162,5,0,0,
	46,6,0,0,84,6,0,0};
    int pool_beg;

/* The character directory always begins at position 480 in the Common
Font File Format. */

    lnf_chardir = 480; 
    ras_len = 0;
    psize = 0;
    lsize = 0;
    msize = 0;

/* Copy the good values into the lnf array */

    for (i=0; i<480; i++) 
	lnf[i] = good_opening[i];

/* Set the last character if necessary */ 

#define fnt__l_first_character 164

    if (lastch[lnfno] < leftlast && !using_r) 
    	lnf[fnt__l_first_character+4] = lastch[lnfno];
    if (using_r) 
    	lnf[fnt__l_first_character+4] = lastch[lnfno]-rightfirst+
	    leftfirst;

/* Set the character counts */

#define fnt__l_infile_locators 204
#define fnt__l_character_definitions 212
#define fnt__l_raster_count 220

    i = lnf[fnt__l_first_character+4]-
	    lnf[fnt__l_first_character]+1;
    ras_beg = lnf_chardir + 4*i + 4 + 48;
    lnf[fnt__l_infile_locators] = i;
    lnf[fnt__l_character_definitions] = i;
    lnf[fnt__l_raster_count] = i;
    lnf[ras_beg-52] = lnf[ras_beg-51] = lnf[ras_beg-50] =
    	lnf[ras_beg-49] = 0;

/* Set the font file id. This id is a 31-byte string. We make it depend on
the lnfno number, and on whether this is a left or right font.
Specifically, the first seven bytes are U0000nn where nn is lnfno possibly
with a leading zero. The character set part of the ID is 1O if using_r,
otherwise the default from good_opening. */ 

#define fnt__t_font_file_id 20

    lnf[fnt__t_font_file_id+5] = lnfno/10+'0';
    lnf[fnt__t_font_file_id+6] = lnfno % 10 + '0';
    if (using_r) lnf[fnt__t_font_file_id+20] = 'O';

/* We now have to set some fields in the font format that are pointers to
where other fields begin. These pointers depend on the number of glyphs we
are placing in the font file. */ 

#define fnt__a_subset_tables 128

    lcy.l = lnf_chardir+4*i;
    copy_to_lnf(fnt__a_subset_tables);

    lcy.l = lcy.l+4;
    copy_to_lnf(fnt__a_subset_tables+8);
    copy_to_lnf(fnt__a_subset_tables+16);

    lcy.l = lcy.l+48;
    copy_to_lnf(fnt__a_subset_tables+24);

#define fnt__a_char_definitions 160 

    copy_to_lnf(fnt__a_char_definitions);

/* Set up the string pool region of the font load (48 bytes). The only
tricky part here is the character set designator at the very beginning of
the pool. Left fonts use one designator, right fonts another. [[More
explanation is needed.]] */ 

    pool_beg = ras_beg-48;
	
    lnf[pool_beg] = '0';
    lnf[pool_beg+1] = using_r ? '<':'B';
    lnf[pool_beg+2] = '\011';	    /* ascii tab */
    lnf[pool_beg+3] = 'Z';	    
    lnf[pool_beg+4] = 'Z';	    
    lnf[pool_beg+5] = 'Z';	    
    lnf[pool_beg+6] = 'Z';

/* For reasons that are beyond my comprehension, the Common Font File
Format requires us to copy the first seven characters of the font file id
into one piece of the string pool, and the first sixteen into another
place. */ 

    for (i=1; i<8; i++) 
	lnf[pool_beg+7+i-1] = lnf[fnt__t_font_file_id+i-1];
    for (i=1; i<17; i++)
	lnf[pool_beg+7+7+i-1] = ' ';
    for (i=1; i<17; i++)
	lnf[pool_beg+7+7+16+i-1] = lnf[fnt__t_font_file_id+i-1];
    lnf[pool_beg+46] = lnf[pool_beg+47] = 0;

/* Now make string descriptors point into the string pool. */

#define fnt__a_char_set 260
#define fnt__a_family_id 268
#define fnt__a_family_name 276
#define fnt__a_font_id 284

    lcy.l = pool_beg;
    copy_to_lnf(fnt__a_char_set);
    lcy.l = pool_beg+7;
    copy_to_lnf(fnt__a_family_id);
    lcy.l = pool_beg+7+7;
    copy_to_lnf(fnt__a_family_name);
    lcy.l = pool_beg+7+7+16;
    copy_to_lnf(fnt__a_font_id);

/* Mercifully, all remaining font file slots that we can fill now are
already good as received from good_opening. */ 

}