From 47d455dd55be855e4cc691c32f687f723d9247ee Mon Sep 17 00:00:00 2001 From: toma Date: Wed, 25 Nov 2009 17:56:58 +0000 Subject: Copy the KDE 3.5 branch to branches/trinity for new KDE 3.5 features. BUG:215923 git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdegraphics@1054174 283d02a7-25f6-0310-bc7c-ecb5cbfe19da --- kdvi/TeXFont_PK.cpp | 781 ++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 781 insertions(+) create mode 100644 kdvi/TeXFont_PK.cpp (limited to 'kdvi/TeXFont_PK.cpp') diff --git a/kdvi/TeXFont_PK.cpp b/kdvi/TeXFont_PK.cpp new file mode 100644 index 00000000..6a3c9b3a --- /dev/null +++ b/kdvi/TeXFont_PK.cpp @@ -0,0 +1,781 @@ +/* + * 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 +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "fontpool.h" +#include "glyph.h" +#include "xdvi.h" +#include "TeXFontDefinition.h" +#include "TeXFont_PK.h" + + +//#define DEBUG_PK + +#define PK_PRE 247 +#define PK_ID 89 +#define PK_MAGIC (PK_PRE << 8) + PK_ID + + +extern void oops(QString message); + + + +TeXFont_PK::TeXFont_PK(TeXFontDefinition *parent) + : TeXFont(parent) +{ +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::TeXFont_PK( parent=" << parent << ")" << endl; +#endif + + for(unsigned int i=0; ifilename), "r"); + if (file == 0) + kdError(4300) << i18n("Cannot open font file %1.").arg(parent->filename) << endl; +#ifdef DEBUG_PK + else + kdDebug(4300) << "TeXFont_PK::TeXFont_PK(): file opened successfully" << endl; +#endif + + read_PK_index(); + +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::TeXFont_PK() ended" << endl; +#endif +} + + +TeXFont_PK::~TeXFont_PK() +{ + //@@@ Release bitmaps + + if (file != 0) { + fclose(file); + file = 0; + } +} + + +glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const QColor& color) +{ +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::getGlyph( ch=" << ch << ", generateCharacterPixmap=" << generateCharacterPixmap << " )" << endl; +#endif + + // Paranoia checks + if (ch >= TeXFontDefinition::max_num_of_chars_in_font) { + kdError(4300) << "TeXFont_PK::getGlyph(): Argument is too big." << endl; + return glyphtable; + } + + // This is the address of the glyph that will be returned. + struct glyph *g = glyphtable+ch; + + // Check if the glyph is loaded. If not, load it now. + if (characterBitmaps[ch] == 0) { + // If the character is not defined in the PK file, mark the + // character as missing, and print an error message + if (g->addr == 0) { + kdError(4300) << i18n("TexFont_PK::operator[]: Character %1 not defined in font %2").arg(ch).arg(parent->filename) << endl; + g->addr = -1; + return g; + } + + // If the character has already been marked as missing, just + // return a pointer to the glyph (which will then be empty) + if (g->addr == -1) + return g; + + // Otherwise, try to load the character + fseek(file, g->addr, 0); + read_PK_char(ch); + // Check if the character could be loaded. If not, mark the + // character as 'missing', and return a pointer. + if (characterBitmaps[ch]->bits == 0) { + g->addr = -1; + return g; + } + } + + // At this point, g points to a properly loaded character. Generate + // a smoothly scaled QPixmap if the user asks for it. + if ((generateCharacterPixmap == true) && + ((g->shrunkenCharacter.isNull()) || (color != g->color)) && + (characterBitmaps[ch]->w != 0)) { + g->color = color; + double shrinkFactor = 1200 / parent->displayResolution_in_dpi; + + // All is fine? Then we rescale the bitmap in order to produce the + // required pixmap. Rescaling a character, however, is an art + // that requires some explanation... + // + // If we would just divide the size of the character and the + // coordinates by the shrink factor, then the result would look + // quite ugly: due to the ineviatable rounding errors in the + // integer arithmetic, the characters would be displaced by up to + // a pixel. That doesn't sound much, but on low-resolution + // devices, such as a notebook screen, the effect would be a + // "dancing line" of characters, which looks really bad. + + // Calculate the coordinates of the hot point in the shrunken + // bitmap. For simplicity, let us consider the x-coordinate + // first. In principle, the hot point should have an x-coordinate + // of (g->x/shrinkFactor). That, however, will generally NOT be an + // integral number. The cure is to translate the source image + // somewhat, so that the x-coordinate of the hot point falls onto + // the round-up of this number, i.e. + g->x2 = (int)ceil(g->x/shrinkFactor); + + // Translating and scaling then means that the pixel in the scaled + // image which covers the range [x,x+1) corresponds to the range + // [x*shrinkFactor+srcXTrans, (x+1)*shrinkFactor+srcXTrans), where + // srcXTrans is the following NEGATIVE number + double srcXTrans = shrinkFactor * (g->x/shrinkFactor - ceil(g->x/shrinkFactor)); + + // How big will the shrunken bitmap then become? If shrunk_width + // denotes that width of the scaled image, and + // characterBitmaps[ch]->w the width of the orininal image, we + // need to make sure that the following inequality holds: + // + // shrunk_width*shrinkFactor+srcXTrans >= characterBitmaps[ch]->w + // + // in other words, + int shrunk_width = (int)ceil( (characterBitmaps[ch]->w - srcXTrans)/shrinkFactor ); + + // Now do the same for the y-coordinate + g->y2 = (int)ceil(g->y/shrinkFactor); + double srcYTrans = shrinkFactor * (g->y/shrinkFactor - ceil(g->y/shrinkFactor )); + int shrunk_height = (int)ceil( (characterBitmaps[ch]->h - srcYTrans)/shrinkFactor ); + + // Turn the image into 8 bit + QByteArray translated(characterBitmaps[ch]->w * characterBitmaps[ch]->h); + Q_UINT8 *data = (Q_UINT8 *)translated.data(); + for(int x=0; xw; x++) + for(int y=0; yh; y++) { + Q_UINT8 bit = *(characterBitmaps[ch]->bits + characterBitmaps[ch]->bytes_wide*y + (x >> 3)); + bit = bit >> (x & 7); + bit = bit & 1; + data[characterBitmaps[ch]->w*y + x] = bit; + } + + // Now shrink the image. We shrink the X-direction first + QByteArray xshrunk(shrunk_width*characterBitmaps[ch]->h); + Q_UINT8 *xdata = (Q_UINT8 *)xshrunk.data(); + + // Do the shrinking. The pixel (x,y) that we want to calculate + // corresponds to the line segment from + // + // [shrinkFactor*x+srcXTrans, shrinkFactor*(x+1)+srcXTrans) + // + // The trouble is, these numbers are in general no integers. + + for(int y=0; yh; y++) + for(int x=0; x= 0) && (srcX < characterBitmaps[ch]->w)) + value += data[characterBitmaps[ch]->w*y + srcX] * 255; + + if (destStartX >= 0.0) + value += (Q_UINT32) (255.0*(ceil(destStartX)-destStartX) * data[characterBitmaps[ch]->w*y + (int)floor(destStartX)]); + if (floor(destEndX) < characterBitmaps[ch]->w) + value += (Q_UINT32) (255.0*(destEndX-floor(destEndX)) * data[characterBitmaps[ch]->w*y + (int)floor(destEndX)]); + + xdata[shrunk_width*y + x] = (int)(value/shrinkFactor + 0.5); + } + + // Now shrink the Y-direction + QByteArray xyshrunk(shrunk_width*shrunk_height); + Q_UINT8 *xydata = (Q_UINT8 *)xyshrunk.data(); + for(int x=0; x= 0) && (srcY < characterBitmaps[ch]->h)) + value += xdata[shrunk_width*srcY + x]; + + if (destStartY >= 0.0) + value += (Q_UINT32) ((ceil(destStartY)-destStartY) * xdata[shrunk_width*(int)floor(destStartY) + x]); + if (floor(destEndY) < characterBitmaps[ch]->h) + value += (Q_UINT32) ((destEndY-floor(destEndY)) * xdata[shrunk_width*(int)floor(destEndY) + x]); + + xydata[shrunk_width*y + x] = (int)(value/shrinkFactor); + } + + QImage im32(shrunk_width, shrunk_height, 32); + im32.setAlphaBuffer(true); + // Do QPixmaps fully support the alpha channel? If yes, we use + // that. Otherwise, use other routines as a fallback + if (parent->font_pool->QPixmapSupportsAlpha) { + // If the alpha channel is properly supported, we set the + // character glyph to a colored rectangle, and define the + // character outline only using the alpha channel. That ensures + // good quality rendering for overlapping characters. + im32.fill(qRgb(color.red(), color.green(), color.blue())); + for(Q_UINT16 y=0; y white; data = 0xff -> use "color" + *destScanLine = qRgba(0xFF - (rInv*data + 0x7F) / 0xFF, + 0xFF - (gInv*data + 0x7F) / 0xFF, + 0xFF - (bInv*data + 0x7F) / 0xFF, + (data > 0x03) ? 0xff : 0x00); + destScanLine++; + srcScanLine++; + } + } + } + + g->shrunkenCharacter.convertFromImage(im32,0); + g->shrunkenCharacter.setOptimization(QPixmap::BestOptim); + } + return g; +} + + + +#define ADD(a, b) ((Q_UINT32 *) (((char *) a) + b)) +#define SUB(a, b) ((Q_UINT32 *) (((char *) a) - b)) + + + +// This table is used for changing the bit order in a byte. The +// expression bitflp[byte] takes a byte in big endian and gives the +// little endian equivalent of that. +static const uchar bitflip[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 +}; + +static Q_UINT32 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 +}; + + +#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 + + +int TeXFont_PK::PK_get_nyb(FILE *fp) +{ +#ifdef DEBUG_PK + kdDebug(4300) << "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 TeXFont_PK::PK_packed_num(FILE *fp) +{ +#ifdef DEBUG_PK + kdDebug(4300) << "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 TeXFont_PK::PK_skip_specials() +{ +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::PK_skip_specials() called" << endl; +#endif + + int i,j; + register FILE *fp = file; + +#ifdef DEBUG_PK + if (fp == 0) + kdDebug(4300) << "TeXFont_PK::PK_skip_specials(): file == 0" << endl; +#endif + + 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(i18n("Unexpected %1 in PK file %2").arg(PK_flag_byte).arg(parent->filename) ); + break; + } + } + } + while (PK_flag_byte != PK_POST && PK_flag_byte >= PK_CMD_START); + +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::PK_skip_specials() ended" << endl; +#endif +} + + +void TeXFont_PK::read_PK_char(unsigned int ch) +{ +#ifdef DEBUG_PK + kdDebug(4300) << "read_PK_char" << endl; +#endif + + int i, j; + int n; + int row_bit_pos; + bool paint_switch; + Q_UINT32 *cp; + register struct glyph *g; + register FILE *fp = file; + long fpwidth; + Q_UINT32 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(4300) << "loading pk char " << ch << ", char type " << n << endl; +#endif + + if (characterBitmaps[ch] == 0) + characterBitmaps[ch] = new bitmap(); + + /* + * 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(i18n("The character %1 is too large in file %2").arg(ch).arg(parent->filename)); + characterBitmaps[ch]->w = w; + characterBitmaps[ch]->h = h; + } + g->x = snum(fp, n); + g->y = snum(fp, n); + + g->dvi_advance_in_units_of_design_size_by_2e20 = fpwidth; + + { + /* width must be multiple of 16 bits for raster_op */ + characterBitmaps[ch]->bytes_wide = ROUNDUP((int) characterBitmaps[ch]->w, 32) * 4; + register unsigned int size = characterBitmaps[ch]->bytes_wide * characterBitmaps[ch]->h; + characterBitmaps[ch]->bits = new char[size != 0 ? size : 1]; + } + + cp = (Q_UINT32 *) characterBitmaps[ch]->bits; + + /* + * read character data into *cp + */ + bytes_wide = ROUNDUP((int) characterBitmaps[ch]->w, 32) * 4; + PK_bitpos = -1; + + // The routines which read the character depend on the bit + // ordering. In principle, the bit order should be detected at + // compile time and the proper routing chosen. For the moment, as + // autoconf is somewhat complicated for the author, we prefer a + // simpler -even if somewhat slower approach and detect the ordering + // at runtime. That should of course be changed in the future. + + int wordSize; + bool bigEndian; + qSysInfo (&wordSize, &bigEndian); + + if (bigEndian) { + // Routine for big Endian machines. Applies e.g. to Motorola and + // (Ultra-)Sparc processors. + +#ifdef DEBUG_PK + kdDebug(4300) << "big Endian byte ordering" << endl; +#endif + + if (PK_dyn_f == 14) { /* get raster by bits */ + memset(characterBitmaps[ch]->bits, 0, (int) characterBitmaps[ch]->h * bytes_wide); + for (i = 0; i < (int) characterBitmaps[ch]->h; i++) { /* get all rows */ + cp = ADD(characterBitmaps[ch]->bits, i * bytes_wide); + row_bit_pos = 32; + for (j = 0; j < (int) characterBitmaps[ch]->w; j++) { /* get one row */ + if (--PK_bitpos < 0) { + word = one(fp); + PK_bitpos = 7; + } + if (--row_bit_pos < 0) { + cp++; + row_bit_pos = 32 - 1; + } + if (word & (1 << PK_bitpos)) + *cp |= 1 << row_bit_pos; + } + } + } else { /* get packed raster */ + rows_left = characterBitmaps[ch]->h; + h_bit = characterBitmaps[ch]->w; + PK_repeat_count = 0; + word_weight = 32; + word = 0; + while (rows_left > 0) { + count = PK_packed_num(fp); + while (count > 0) { + if (count < word_weight && count < h_bit) { + h_bit -= count; + word_weight -= count; + if (paint_switch) + word |= bit_masks[count] << word_weight; + count = 0; + } else + if (count >= h_bit && h_bit <= word_weight) { + if (paint_switch) + word |= bit_masks[h_bit] << (word_weight - h_bit); + *cp++ = word; + /* "output" row(s) */ + for (i = PK_repeat_count * bytes_wide / 4; i > 0; --i) { + *cp = *SUB(cp, bytes_wide); + ++cp; + } + rows_left -= PK_repeat_count + 1; + PK_repeat_count = 0; + word = 0; + word_weight = 32; + count -= h_bit; + h_bit = characterBitmaps[ch]->w; + } else { + if (paint_switch) + word |= bit_masks[word_weight]; + *cp++ = word; + word = 0; + count -= word_weight; + h_bit -= word_weight; + word_weight = 32; + } + } + paint_switch = 1 - paint_switch; + } + if (cp != ((Q_UINT32 *) (characterBitmaps[ch]->bits + bytes_wide * characterBitmaps[ch]->h))) + oops(i18n("Wrong number of bits stored: char. %1, font %2").arg(ch).arg(parent->filename)); + if (rows_left != 0 || h_bit != characterBitmaps[ch]->w) + oops(i18n("Bad pk file (%1), too many bits").arg(parent->filename)); + } + + // The data in the bitmap is now in the processor's bit order, + // that is, big endian. Since XWindows needs little endian, we + // need to change the bit order now. + register unsigned char* bitmapData = (unsigned char*) characterBitmaps[ch]->bits; + register unsigned char* endOfData = bitmapData + characterBitmaps[ch]->bytes_wide*characterBitmaps[ch]->h; + while(bitmapData < endOfData) { + *bitmapData = bitflip[*bitmapData]; + bitmapData++; + } + + } else { + + // Routines for small Endian start here. This applies e.g. to + // Intel and Alpha processors. + +#ifdef DEBUG_PK + kdDebug(4300) << "small Endian byte ordering" << endl; +#endif + + if (PK_dyn_f == 14) { /* get raster by bits */ + memset(characterBitmaps[ch]->bits, 0, (int) characterBitmaps[ch]->h * bytes_wide); + for (i = 0; i < (int) characterBitmaps[ch]->h; i++) { /* get all rows */ + cp = ADD(characterBitmaps[ch]->bits, i * bytes_wide); + row_bit_pos = -1; + for (j = 0; j < (int) characterBitmaps[ch]->w; j++) { /* get one row */ + if (--PK_bitpos < 0) { + word = one(fp); + PK_bitpos = 7; + } + if (++row_bit_pos >= 32) { + cp++; + row_bit_pos = 0; + } + if (word & (1 << PK_bitpos)) + *cp |= 1 << row_bit_pos; + } + } + } else { /* get packed raster */ + rows_left = characterBitmaps[ch]->h; + h_bit = characterBitmaps[ch]->w; + PK_repeat_count = 0; + word_weight = 32; + word = 0; + while (rows_left > 0) { + count = PK_packed_num(fp); + while (count > 0) { + if (count < word_weight && count < h_bit) { + if (paint_switch) + word |= bit_masks[count] << (32 - word_weight); + h_bit -= count; + word_weight -= count; + count = 0; + } else + if (count >= h_bit && h_bit <= word_weight) { + if (paint_switch) + word |= bit_masks[h_bit] << (32 - word_weight); + *cp++ = word; + /* "output" row(s) */ + for (i = PK_repeat_count * bytes_wide / 4; i > 0; --i) { + *cp = *SUB(cp, bytes_wide); + ++cp; + } + rows_left -= PK_repeat_count + 1; + PK_repeat_count = 0; + word = 0; + word_weight = 32; + count -= h_bit; + h_bit = characterBitmaps[ch]->w; + } else { + if (paint_switch) + word |= bit_masks[word_weight] << (32 - word_weight); + *cp++ = word; + word = 0; + count -= word_weight; + h_bit -= word_weight; + word_weight = 32; + } + } + paint_switch = 1 - paint_switch; + } + if (cp != ((Q_UINT32 *) (characterBitmaps[ch]->bits + bytes_wide * characterBitmaps[ch]->h))) + oops(i18n("Wrong number of bits stored: char. %1, font %2").arg(ch).arg(parent->filename)); + if (rows_left != 0 || h_bit != characterBitmaps[ch]->w) + oops(i18n("Bad pk file (%1), too many bits").arg(parent->filename)); + } + } // endif: big or small Endian? +} + + +void TeXFont_PK::read_PK_index() +{ +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::read_PK_index() called" << endl; +#endif + + if (file == 0) { + kdError(4300) << "TeXFont_PK::read_PK_index(): file == 0" << endl; + return; + } + + int magic = two(file); + if (magic != PK_MAGIC) { + kdError(4300) << "TeXFont_PK::read_PK_index(): file is not a PK file" << endl; + return; + } + + fseek(file, (long) one(file), SEEK_CUR); /* skip comment */ + (void) four(file); /* skip design size */ + + checksum = four(file); + + int hppp = sfour(file); + int vppp = sfour(file); + if (hppp != vppp) + kdWarning(4300) << i18n("Font has non-square aspect ratio ") << vppp << ":" << hppp << endl; + + // 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, SEEK_CUR); +#ifdef DEBUG_PK + kdDebug(4300) << "Scanning pk char " << ch << "at " << glyphtable[ch].addr << endl; +#endif + } +#ifdef DEBUG_PK + kdDebug(4300) << "TeXFont_PK::read_PK_index() called" << endl; +#endif +} -- cgit v1.2.1