/* * Copyright (c) 1994 Paul Vojta. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * NOTE: * xdvi is based on prior work as noted in the modification history, below. */ /* * DVI previewer for X. * * Eric Cooper, CMU, September 1985. * * Code derived from dvi-imagen.c. * * Modification history: * 1/1986 Modified for X.10 --Bob Scheifler, MIT LCS. * 7/1988 Modified for X.11 --Mark Eichin, MIT * 12/1988 Added 'R' option, toolkit, magnifying glass * --Paul Vojta, UC Berkeley. * 2/1989 Added tpic support --Jeffrey Lee, U of Toronto * 4/1989 Modified for System V --Donald Richardson, Clarkson Univ. * 3/1990 Added VMS support --Scott Allendorf, U of Iowa * 7/1990 Added reflection mode --Michael Pak, Hebrew U of Jerusalem * 1/1992 Added greyscale code --Till Brychcy, Techn. Univ. Muenchen * and Lee Hetherington, MIT * 4/1994 Added DPS support, bounding box * --Ricardo Telichevesky * and Luis Miguel Silveira, MIT RLE. */ #include #include "font.h" #include "dviwin.h" #include #include #include "glyph.h" #include "oconfig.h" extern char *xmalloc (unsigned, const char *); extern void oops(const char *message, ...); extern void alloc_bitmap(bitmap *bitmap); BMUNIT bit_masks[33] = { 0x0, 0x1, 0x3, 0x7, 0xf, 0x1f, 0x3f, 0x7f, 0xff, 0x1ff, 0x3ff, 0x7ff, 0xfff, 0x1fff, 0x3fff, 0x7fff, 0xffff, 0x1ffff, 0x3ffff, 0x7ffff, 0xfffff, 0x1fffff, 0x3fffff, 0x7fffff, 0xffffff, 0x1ffffff, 0x3ffffff, 0x7ffffff, 0xfffffff, 0x1fffffff, 0x3fffffff, 0x7fffffff, 0xffffffff }; /*** *** PK font reading routines. *** Public routines are read_PK_index and read_PK_char. ***/ #define PK_ID 89 #define PK_CMD_START 240 #define PK_X1 240 #define PK_X2 241 #define PK_X3 242 #define PK_X4 243 #define PK_Y 244 #define PK_POST 245 #define PK_NOOP 246 #define PK_PRE 247 static int PK_flag_byte; static unsigned PK_input_byte; static int PK_bitpos; static int PK_dyn_f; static int PK_repeat_count; int font::PK_get_nyb(FILE *fp) { #ifdef DEBUG_PK kdDebug() << "PK_get_nyb" << endl; #endif unsigned temp; if (PK_bitpos < 0) { PK_input_byte = one(fp); PK_bitpos = 4; } temp = PK_input_byte >> PK_bitpos; PK_bitpos -= 4; return (temp & 0xf); } int font::PK_packed_num(FILE *fp) { #ifdef DEBUG_PK kdDebug() << "PK_packed_num" << endl; #endif int i,j; if ((i = PK_get_nyb(fp)) == 0) { do { j = PK_get_nyb(fp); ++i; } while (j == 0); while (i > 0) { j = (j << 4) | PK_get_nyb(fp); --i; } return (j - 15 + ((13 - PK_dyn_f) << 4) + PK_dyn_f); } else { if (i <= PK_dyn_f) return i; if (i < 14) return (((i - PK_dyn_f - 1) << 4) + PK_get_nyb(fp) + PK_dyn_f + 1); if (i == 14) PK_repeat_count = PK_packed_num(fp); else PK_repeat_count = 1; return PK_packed_num(fp); } } void font::PK_skip_specials(void) { #ifdef DEBUG_PK kdDebug() << "PK_skip_specials" << endl; #endif int i,j; register FILE *fp = file; do { PK_flag_byte = one(fp); if (PK_flag_byte >= PK_CMD_START) { switch (PK_flag_byte) { case PK_X1 : case PK_X2 : case PK_X3 : case PK_X4 : i = 0; for (j = PK_CMD_START; j <= PK_flag_byte; ++j) i = (i << 8) | one(fp); while (i--) (void) one(fp); break; case PK_Y : (void) four(fp); case PK_POST : case PK_NOOP : break; default : oops("Unexpected %d in PK file %s", PK_flag_byte, filename); break; } } } while (PK_flag_byte != PK_POST && PK_flag_byte >= PK_CMD_START) ; } /* * Public routines */ void font::read_PK_char(unsigned int ch) { #ifdef DEBUG_PK kdDebug() << "read_PK_char" << endl; #endif int i, j; int n; int row_bit_pos; Boolean paint_switch; BMUNIT *cp; register struct glyph *g; register FILE *fp = file; long fpwidth; BMUNIT word = 0; int word_weight, bytes_wide; int rows_left, h_bit, count; g = glyphtable + ch; PK_flag_byte = g->x2; PK_dyn_f = PK_flag_byte >> 4; paint_switch = ((PK_flag_byte & 8) != 0); PK_flag_byte &= 0x7; if (PK_flag_byte == 7) n = 4; else if (PK_flag_byte > 3) n = 2; else n = 1; #ifdef DEBUG_PK kdDebug() << "loading pk char " << ch << ", char type " << n << endl; #endif /* * now read rest of character preamble */ if (n != 4) fpwidth = num(fp, 3); else { fpwidth = sfour(fp); (void) four(fp); /* horizontal escapement */ } (void) num(fp, n); /* vertical escapement */ { unsigned long w, h; w = num(fp, n); h = num(fp, n); if (w > 0x7fff || h > 0x7fff) oops("Character %d too large in file %s", ch, fontname); g->bitmap.w = w; g->bitmap.h = h; } g->x = snum(fp, n); g->y = snum(fp, n); g->dvi_adv = (int)(dimconv * fpwidth + 0.5); alloc_bitmap(&g->bitmap); cp = (BMUNIT *) g->bitmap.bits; /* * read character data into *cp */ bytes_wide = ROUNDUP((int) g->bitmap.w, BITS_PER_BMUNIT) * BYTES_PER_BMUNIT; PK_bitpos = -1; if (PK_dyn_f == 14) { /* get raster by bits */ bzero(g->bitmap.bits, (int) g->bitmap.h * bytes_wide); for (i = 0; i < (int) g->bitmap.h; i++) { /* get all rows */ cp = ADD(g->bitmap.bits, i * bytes_wide); #ifndef MSBITFIRST row_bit_pos = -1; #else row_bit_pos = BITS_PER_BMUNIT; #endif for (j = 0; j < (int) g->bitmap.w; j++) { /* get one row */ if (--PK_bitpos < 0) { word = one(fp); PK_bitpos = 7; } #ifndef MSBITFIRST if (++row_bit_pos >= BITS_PER_BMUNIT) { cp++; row_bit_pos = 0; } #else if (--row_bit_pos < 0) { cp++; row_bit_pos = BITS_PER_BMUNIT - 1; } #endif if (word & (1 << PK_bitpos)) *cp |= 1 << row_bit_pos; } } } else { /* get packed raster */ rows_left = g->bitmap.h; h_bit = g->bitmap.w; PK_repeat_count = 0; word_weight = BITS_PER_BMUNIT; word = 0; while (rows_left > 0) { count = PK_packed_num(fp); while (count > 0) { if (count < word_weight && count < h_bit) { #ifndef MSBITFIRST if (paint_switch) word |= bit_masks[count] << (BITS_PER_BMUNIT - word_weight); #endif h_bit -= count; word_weight -= count; #ifdef MSBITFIRST if (paint_switch) word |= bit_masks[count] << word_weight; #endif count = 0; } else if (count >= h_bit && h_bit <= word_weight) { if (paint_switch) word |= bit_masks[h_bit] << #ifndef MSBITFIRST (BITS_PER_BMUNIT - word_weight); #else (word_weight - h_bit); #endif *cp++ = word; /* "output" row(s) */ for (i = PK_repeat_count * bytes_wide / BYTES_PER_BMUNIT; i > 0; --i) { *cp = *SUB(cp, bytes_wide); ++cp; } rows_left -= PK_repeat_count + 1; PK_repeat_count = 0; word = 0; word_weight = BITS_PER_BMUNIT; count -= h_bit; h_bit = g->bitmap.w; } else { if (paint_switch) #ifndef MSBITFIRST word |= bit_masks[word_weight] << (BITS_PER_BMUNIT - word_weight); #else word |= bit_masks[word_weight]; #endif *cp++ = word; word = 0; count -= word_weight; h_bit -= word_weight; word_weight = BITS_PER_BMUNIT; } } paint_switch = 1 - paint_switch; } if (cp != ((BMUNIT *) (g->bitmap.bits + bytes_wide * g->bitmap.h))) oops("Wrong number of bits stored: char. %d, font %s", ch, fontname); if (rows_left != 0 || h_bit != g->bitmap.w) oops("Bad pk file (%s), too many bits", fontname); } } void font::read_PK_index(void) { #ifdef DEBUG_PK kdDebug() << "Reading PK pixel file " << filename << endl; #endif Fseek(file, (long) one(file), 1); /* skip comment */ (void) four(file); /* skip design size */ long file_checksum = four(file); if (checksum && checksum && file_checksum != checksum) kdError(1) << "Checksum mismatch (dvi = " << checksum << "pk = " << file_checksum << ") in font file " << filename << endl; int hppp = sfour(file); int vppp = sfour(file); if (hppp != vppp) kdDebug() << "Font has non-square aspect ratio " << vppp << ":" << hppp << endl; /* * Prepare glyph array. */ glyphtable = (struct glyph *) xmalloc(max_num_of_chars_in_font * sizeof(struct glyph), "glyph array"); bzero((char *) glyphtable, max_num_of_chars_in_font * sizeof(struct glyph)); /* * Read glyph directory (really a whole pass over the file). */ for (;;) { int bytes_left, flag_low_bits; unsigned int ch; PK_skip_specials(); if (PK_flag_byte == PK_POST) break; flag_low_bits = PK_flag_byte & 0x7; if (flag_low_bits == 7) { bytes_left = four(file); ch = four(file); } else if (flag_low_bits > 3) { bytes_left = ((flag_low_bits - 4) << 16) + two(file); ch = one(file); } else { bytes_left = (flag_low_bits << 8) + one(file); ch = one(file); } glyphtable[ch].addr = ftell(file); glyphtable[ch].x2 = PK_flag_byte; Fseek(file, (long) bytes_left, 1); #ifdef DEBUG_PK kdDebug() << "Scanning pk char " << ch << "at " << glyphtable[ch].addr << endl; #endif } }