diff options
Diffstat (limited to 'libXfont/src/bitmap/bitscale.c')
-rw-r--r-- | libXfont/src/bitmap/bitscale.c | 3391 |
1 files changed, 1695 insertions, 1696 deletions
diff --git a/libXfont/src/bitmap/bitscale.c b/libXfont/src/bitmap/bitscale.c index 1ef21c336..cf22a4593 100644 --- a/libXfont/src/bitmap/bitscale.c +++ b/libXfont/src/bitmap/bitscale.c @@ -1,1696 +1,1695 @@ -/* - -Copyright 1991, 1994, 1998 The Open Group - -Permission to use, copy, modify, distribute, and sell this software and its -documentation for any purpose is hereby granted without fee, provided that -the above copyright notice appear in all copies and that both that -copyright notice and this permission notice appear in supporting -documentation. - -The above copyright notice and this permission notice shall be included -in all copies or substantial portions of the Software. - -THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS -OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF -MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. -IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR -OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, -ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR -OTHER DEALINGS IN THE SOFTWARE. - -Except as contained in this notice, the name of The Open Group shall -not be used in advertising or otherwise to promote the sale, use or -other dealings in this Software without prior written authorization -from The Open Group. - -*/ -/* $XFree86: xc/lib/font/bitmap/bitscale.c,v 3.29tsi Exp $ */ - -/* - * Author: Keith Packard, MIT X Consortium - */ - -#ifdef HAVE_CONFIG_H -#include <config.h> -#endif - -/* - * Translate monolithic #defines to modular definitions - */ - -#ifdef PCFFORMAT -#define XFONT_PCFFORMAT 1 -#endif - -#ifdef SNFFORMAT -#define XFONT_SNFFORMAT 1 -#endif - -#ifdef BDFFORMAT -#define XFONT_BDFFORMAT 1 -#endif - -#include <X11/fonts/fntfilst.h> -#include <X11/fonts/bitmap.h> -#include <X11/fonts/fontutil.h> -#include <math.h> - -#ifndef MAX -#define MAX(a,b) (((a)>(b)) ? a : b) -#endif - -#ifdef _MSC_VER -#define hypot _hypot -#endif - -/* Should get this from elsewhere */ -extern unsigned long serverGeneration; - -static void bitmapUnloadScalable (FontPtr pFont); -static void ScaleBitmap ( FontPtr pFont, CharInfoPtr opci, - CharInfoPtr pci, double *inv_xform, - double widthMult, double heightMult ); -static FontPtr BitmapScaleBitmaps(FontPtr pf, FontPtr opf, - double widthMult, double heightMult, - FontScalablePtr vals); - -enum scaleType { - atom, truncate_atom, pixel_size, point_size, resolution_x, - resolution_y, average_width, scaledX, scaledY, unscaled, fontname, - raw_ascent, raw_descent, raw_pixelsize, raw_pointsize, - raw_average_width, uncomputed -}; - -typedef struct _fontProp { - char *name; - Atom atom; - enum scaleType type; -} fontProp; - -static FontEntryPtr FindBestToScale ( FontPathElementPtr fpe, - FontEntryPtr entry, - FontScalablePtr vals, - FontScalablePtr best, - double *dxp, double *dyp, - double *sdxp, double *sdyp, - FontPathElementPtr *fpep ); - -static unsigned long bitscaleGeneration = 0; /* initialization flag */ - -static fontProp fontNamePropTable[] = { - { "FOUNDRY", 0, atom }, - { "FAMILY_NAME", 0, atom }, - { "WEIGHT_NAME", 0, atom }, - { "SLANT", 0, atom }, - { "SETWIDTH_NAME", 0, atom }, - { "ADD_STYLE_NAME", 0, atom }, - { "PIXEL_SIZE", 0, pixel_size }, - { "POINT_SIZE", 0, point_size }, - { "RESOLUTION_X", 0, resolution_x }, - { "RESOLUTION_Y", 0, resolution_y }, - { "SPACING", 0, atom }, - { "AVERAGE_WIDTH", 0, average_width }, - { "CHARSET_REGISTRY", 0, atom }, - { "CHARSET_ENCODING", 0, truncate_atom }, - { "FONT", 0, fontname }, - { "RAW_ASCENT", 0, raw_ascent }, - { "RAW_DESCENT", 0, raw_descent }, - { "RAW_PIXEL_SIZE", 0, raw_pixelsize }, - { "RAW_POINT_SIZE", 0, raw_pointsize }, - { "RAW_AVERAGE_WIDTH", 0, raw_average_width } -}; - -#define TRANSFORM_POINT(matrix, x, y, dest) \ - ((dest)[0] = (matrix)[0] * (x) + (matrix)[2] * (y), \ - (dest)[1] = (matrix)[1] * (x) + (matrix)[3] * (y)) - -#define CHECK_EXTENT(lsb, rsb, desc, asc, data) \ - ((lsb) > (data)[0] ? (lsb) = (data)[0] : 0 , \ - (rsb) < (data)[0] ? (rsb) = (data)[0] : 0, \ - (-desc) > (data)[1] ? (desc) = -(data)[1] : 0 , \ - (asc) < (data)[1] ? (asc) = (data)[1] : 0) - -#define NPROPS (sizeof(fontNamePropTable) / sizeof(fontProp)) - -/* Warning: order of the next two tables is critically interdependent. - Location of "unscaled" properties at the end of fontPropTable[] - is important. */ - -static fontProp fontPropTable[] = { - { "MIN_SPACE", 0, scaledX }, - { "NORM_SPACE", 0, scaledX }, - { "MAX_SPACE", 0, scaledX }, - { "END_SPACE", 0, scaledX }, - { "AVG_CAPITAL_WIDTH", 0, scaledX }, - { "AVG_LOWERCASE_WIDTH", 0, scaledX }, - { "QUAD_WIDTH", 0, scaledX }, - { "FIGURE_WIDTH", 0, scaledX }, - { "SUPERSCRIPT_X", 0, scaledX }, - { "SUPERSCRIPT_Y", 0, scaledY }, - { "SUBSCRIPT_X", 0, scaledX }, - { "SUBSCRIPT_Y", 0, scaledY }, - { "SUPERSCRIPT_SIZE", 0, scaledY }, - { "SUBSCRIPT_SIZE", 0, scaledY }, - { "SMALL_CAP_SIZE", 0, scaledY }, - { "UNDERLINE_POSITION", 0, scaledY }, - { "UNDERLINE_THICKNESS", 0, scaledY }, - { "STRIKEOUT_ASCENT", 0, scaledY }, - { "STRIKEOUT_DESCENT", 0, scaledY }, - { "CAP_HEIGHT", 0, scaledY }, - { "X_HEIGHT", 0, scaledY }, - { "ITALIC_ANGLE", 0, unscaled }, - { "RELATIVE_SETWIDTH", 0, unscaled }, - { "RELATIVE_WEIGHT", 0, unscaled }, - { "WEIGHT", 0, unscaled }, - { "DESTINATION", 0, unscaled }, - { "PCL_FONT_NAME", 0, unscaled }, - { "_ADOBE_POSTSCRIPT_FONTNAME", 0, unscaled } -}; - -static fontProp rawFontPropTable[] = { - { "RAW_MIN_SPACE", 0, }, - { "RAW_NORM_SPACE", 0, }, - { "RAW_MAX_SPACE", 0, }, - { "RAW_END_SPACE", 0, }, - { "RAW_AVG_CAPITAL_WIDTH", 0, }, - { "RAW_AVG_LOWERCASE_WIDTH", 0, }, - { "RAW_QUAD_WIDTH", 0, }, - { "RAW_FIGURE_WIDTH", 0, }, - { "RAW_SUPERSCRIPT_X", 0, }, - { "RAW_SUPERSCRIPT_Y", 0, }, - { "RAW_SUBSCRIPT_X", 0, }, - { "RAW_SUBSCRIPT_Y", 0, }, - { "RAW_SUPERSCRIPT_SIZE", 0, }, - { "RAW_SUBSCRIPT_SIZE", 0, }, - { "RAW_SMALL_CAP_SIZE", 0, }, - { "RAW_UNDERLINE_POSITION", 0, }, - { "RAW_UNDERLINE_THICKNESS", 0, }, - { "RAW_STRIKEOUT_ASCENT", 0, }, - { "RAW_STRIKEOUT_DESCENT", 0, }, - { "RAW_CAP_HEIGHT", 0, }, - { "RAW_X_HEIGHT", 0, } -}; - -static void -initFontPropTable(void) -{ - int i; - fontProp *t; - - i = sizeof(fontNamePropTable) / sizeof(fontProp); - for (t = fontNamePropTable; i; i--, t++) - t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE); - - i = sizeof(fontPropTable) / sizeof(fontProp); - for (t = fontPropTable; i; i--, t++) - t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE); - - i = sizeof(rawFontPropTable) / sizeof(fontProp); - for (t = rawFontPropTable; i; i--, t++) - t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE); -} - -#if 0 -static FontEntryPtr -GetScalableEntry (FontPathElementPtr fpe, FontNamePtr name) -{ - FontDirectoryPtr dir; - - dir = (FontDirectoryPtr) fpe->private; - return FontFileFindNameInDir (&dir->scalable, name); -} -#endif - -static double -get_matrix_horizontal_component(double *matrix) -{ - return hypot(matrix[0], matrix[1]); -} - -static double -get_matrix_vertical_component(double *matrix) -{ - return hypot(matrix[2], matrix[3]); -} - - -static Bool -ComputeScaleFactors(FontScalablePtr from, FontScalablePtr to, - double *dx, double *dy, double *sdx, double *sdy, - double *rescale_x) -{ - double srcpixelset, destpixelset, srcpixel, destpixel; - - srcpixelset = get_matrix_horizontal_component(from->pixel_matrix); - destpixelset = get_matrix_horizontal_component(to->pixel_matrix); - srcpixel = get_matrix_vertical_component(from->pixel_matrix); - destpixel = get_matrix_vertical_component(to->pixel_matrix); - - if (srcpixelset >= EPS) - { - *dx = destpixelset / srcpixelset; - *sdx = 1000.0 / srcpixelset; - } - else - *sdx = *dx = 0; - - *rescale_x = 1.0; - - /* If client specified a width, it overrides setsize; in this - context, we interpret width as applying to the font before any - rotation, even though that's not what is ultimately returned in - the width field. */ - if (from->width > 0 && to->width > 0 && fabs(*dx) > EPS) - { - double rescale = (double)to->width / (double)from->width; - - /* If the client specified a transformation matrix, the rescaling - for width does *not* override the setsize. Instead, just check - for consistency between the setsize from the matrix and the - setsize that would result from rescaling according to the width. - This assumes (perhaps naively) that the width is correctly - reported in the name. As an interesting side effect, this test - may result in choosing a different source bitmap (one that - scales consistently between the setsize *and* the width) than it - would choose if a width were not specified. Sort of a hidden - multiple-master functionality. */ - if ((to->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY || - (to->values_supplied & POINTSIZE_MASK) == POINTSIZE_ARRAY) - { - /* Reject if resulting width difference is >= 1 pixel */ - if (fabs(rescale * from->width - *dx * from->width) >= 10) - return FALSE; - } - else - { - *rescale_x = rescale/(*dx); - *dx = rescale; - } - } - - if (srcpixel >= EPS) - { - *dy = destpixel / srcpixel; - *sdy = 1000.0 / srcpixel; - } - else - *sdy = *dy = 0; - - return TRUE; -} - -/* favor enlargement over reduction because of aliasing resulting - from reduction */ -#define SCORE(m,s) \ -if (m >= 1.0) { \ - if (m == 1.0) \ - score += (16 * s); \ - else if (m == 2.0) \ - score += (4 * s); \ - else \ - score += (int)(((double)(3 * s)) / m); \ -} else { \ - score += (int)(((double)(2 * s)) * m); \ -} - -/* don't need to favor enlargement when looking for bitmap that can - be used unscalable */ -#define SCORE2(m,s) \ -if (m >= 1.0) \ - score += (int)(((double)(8 * s)) / m); \ -else \ - score += (int)(((double)(8 * s)) * m); - -static FontEntryPtr -FindBestToScale(FontPathElementPtr fpe, FontEntryPtr entry, - FontScalablePtr vals, FontScalablePtr best, - double *dxp, double *dyp, - double *sdxp, double *sdyp, - FontPathElementPtr *fpep) -{ - FontScalableRec temp; - int source, i; - int best_score, best_unscaled_score, - score; - double dx = 0.0, sdx = 0.0, dx_amount = 0.0, - dy = 0.0, sdy = 0.0, dy_amount = 0.0, - best_dx = 0.0, best_sdx = 0.0, best_dx_amount = 0.0, - best_dy = 0.0, best_sdy = 0.0, best_dy_amount = 0.0, - best_unscaled_sdx = 0.0, best_unscaled_sdy = 0.0, - rescale_x = 0.0, best_rescale_x = 0.0, - best_unscaled_rescale_x = 0.0; - FontEntryPtr zero; - FontNameRec zeroName; - char zeroChars[MAXFONTNAMELEN]; - FontDirectoryPtr dir; - FontScaledPtr scaled; - FontScalableExtraPtr extra; - FontScaledPtr best_scaled, best_unscaled; - FontPathElementPtr best_fpe = NULL, best_unscaled_fpe = NULL; - FontEntryPtr bitmap = NULL; - FontEntryPtr result; - int aliascount = 20; - FontPathElementPtr bitmap_fpe = NULL; - FontNameRec xlfdName; - - /* find the best match */ - rescale_x = 1.0; - best_scaled = 0; - best_score = 0; - best_unscaled = 0; - best_unscaled_score = -1; - best_dx_amount = best_dy_amount = HUGE_VAL; - memcpy (zeroChars, entry->name.name, entry->name.length); - zeroChars[entry->name.length] = '\0'; - zeroName.name = zeroChars; - FontParseXLFDName (zeroChars, &temp, FONT_XLFD_REPLACE_ZERO); - zeroName.length = strlen (zeroChars); - zeroName.ndashes = entry->name.ndashes; - xlfdName.name = vals->xlfdName; - xlfdName.length = strlen(xlfdName.name); - xlfdName.ndashes = FontFileCountDashes(xlfdName.name, xlfdName.length); - restart_bestscale_loop: ; - /* - * Look through all the registered bitmap sources for - * the same zero name as ours; entries along that one - * can be scaled as desired. - */ - for (source = 0; source < FontFileBitmapSources.count; source++) - { - /* There might already be a bitmap that satisfies the request - but didn't have a zero name that was found by the scalable - font matching logic. Keep track if there is. */ - if (bitmap == NULL && vals->xlfdName != NULL) - { - bitmap_fpe = FontFileBitmapSources.fpe[source]; - dir = (FontDirectoryPtr) bitmap_fpe->private; - bitmap = FontFileFindNameInDir (&dir->nonScalable, &xlfdName); - if (bitmap && bitmap->type != FONT_ENTRY_BITMAP) - { - if (bitmap->type == FONT_ENTRY_ALIAS && aliascount > 0) - { - aliascount--; - xlfdName.name = bitmap->u.alias.resolved; - xlfdName.length = strlen(xlfdName.name); - xlfdName.ndashes = FontFileCountDashes(xlfdName.name, - xlfdName.length); - bitmap = NULL; - goto restart_bestscale_loop; - } - else - bitmap = NULL; - } - } - - if (FontFileBitmapSources.fpe[source] == fpe) - zero = entry; - else - { - dir = (FontDirectoryPtr) FontFileBitmapSources.fpe[source]->private; - zero = FontFileFindNameInDir (&dir->scalable, &zeroName); - if (!zero) - continue; - } - extra = zero->u.scalable.extra; - for (i = 0; i < extra->numScaled; i++) - { - scaled = &extra->scaled[i]; - if (!scaled->bitmap) - continue; - if (!ComputeScaleFactors(&scaled->vals, vals, &dx, &dy, &sdx, &sdy, - &rescale_x)) - continue; - score = 0; - dx_amount = dx; - dy_amount = dy; - SCORE(dy_amount, 10); - SCORE(dx_amount, 1); - if ((score > best_score) || - ((score == best_score) && - ((dy_amount < best_dy_amount) || - ((dy_amount == best_dy_amount) && - (dx_amount < best_dx_amount))))) - { - best_fpe = FontFileBitmapSources.fpe[source]; - best_scaled = scaled; - best_score = score; - best_dx = dx; - best_dy = dy; - best_sdx = sdx; - best_sdy = sdy; - best_dx_amount = dx_amount; - best_dy_amount = dy_amount; - best_rescale_x = rescale_x; - } - /* Is this font a candidate for use without ugly rescaling? */ - if (fabs(dx) > EPS && fabs(dy) > EPS && - fabs(vals->pixel_matrix[0] * rescale_x - - scaled->vals.pixel_matrix[0]) < 1 && - fabs(vals->pixel_matrix[1] * rescale_x - - scaled->vals.pixel_matrix[1]) < EPS && - fabs(vals->pixel_matrix[2] - - scaled->vals.pixel_matrix[2]) < EPS && - fabs(vals->pixel_matrix[3] - - scaled->vals.pixel_matrix[3]) < 1) - { - /* Yes. The pixel sizes are close on the diagonal and - extremely close off the diagonal. */ - score = 0; - SCORE2(vals->pixel_matrix[3] / - scaled->vals.pixel_matrix[3], 10); - SCORE2(vals->pixel_matrix[0] * rescale_x / - scaled->vals.pixel_matrix[0], 1); - if (score > best_unscaled_score) - { - best_unscaled_fpe = FontFileBitmapSources.fpe[source]; - best_unscaled = scaled; - best_unscaled_sdx = sdx / dx; - best_unscaled_sdy = sdy / dy; - best_unscaled_score = score; - best_unscaled_rescale_x = rescale_x; - } - } - } - } - if (best_unscaled) - { - *best = best_unscaled->vals; - *fpep = best_unscaled_fpe; - *dxp = 1.0; - *dyp = 1.0; - *sdxp = best_unscaled_sdx; - *sdyp = best_unscaled_sdy; - rescale_x = best_unscaled_rescale_x; - result = best_unscaled->bitmap; - } - else if (best_scaled) - { - *best = best_scaled->vals; - *fpep = best_fpe; - *dxp = best_dx; - *dyp = best_dy; - *sdxp = best_sdx; - *sdyp = best_sdy; - rescale_x = best_rescale_x; - result = best_scaled->bitmap; - } - else - result = NULL; - - if (bitmap != NULL && (result == NULL || *dxp != 1.0 || *dyp != 1.0)) - { - *fpep = bitmap_fpe; - FontParseXLFDName (bitmap->name.name, best, FONT_XLFD_REPLACE_NONE); - if (ComputeScaleFactors(best, best, dxp, dyp, sdxp, sdyp, &rescale_x)) - result = bitmap; - else - result = NULL; - } - - if (result && rescale_x != 1.0) - { - /* We have rescaled horizontally due to an XLFD width field. Change - the matrix appropriately */ - vals->pixel_matrix[0] *= rescale_x; - vals->pixel_matrix[1] *= rescale_x; - vals->values_supplied = vals->values_supplied & ~POINTSIZE_MASK; - /* Recompute and reround the FontScalablePtr values after - rescaling for the new width. */ - FontFileCompleteXLFD(vals, vals); - } - - return result; -} - -static long -doround(double x) -{ - return (x >= 0) ? (long)(x + .5) : (long)(x - .5); -} - -static int -computeProps(FontPropPtr pf, char *wasStringProp, - FontPropPtr npf, char *isStringProp, - unsigned int nprops, double xfactor, double yfactor, - double sXfactor, double sYfactor) -{ - int n; - int count; - fontProp *t; - double rawfactor = 0.0; - - for (count = 0; nprops > 0; nprops--, pf++, wasStringProp++) { - n = sizeof(fontPropTable) / sizeof(fontProp); - for (t = fontPropTable; n && (t->atom != pf->name); n--, t++); - if (!n) - continue; - - switch (t->type) { - case scaledX: - npf->value = doround(xfactor * (double)pf->value); - rawfactor = sXfactor; - break; - case scaledY: - npf->value = doround(yfactor * (double)pf->value); - rawfactor = sYfactor; - break; - case unscaled: - npf->value = pf->value; - npf->name = pf->name; - npf++; - count++; - *isStringProp++ = *wasStringProp; - break; - default: - break; - } - if (t->type != unscaled) - { - npf->name = pf->name; - npf++; - count++; - npf->value = doround(rawfactor * (double)pf->value); - npf->name = rawFontPropTable[t - fontPropTable].atom; - npf++; - count++; - *isStringProp++ = *wasStringProp; - *isStringProp++ = *wasStringProp; - } - } - return count; -} - - -static int -ComputeScaledProperties(FontInfoPtr sourceFontInfo, /* the font to be scaled */ - char *name, /* name of resulting font */ - FontScalablePtr vals, - double dx, double dy, /* scale factors in x and y */ - double sdx, double sdy, /* directions */ - long sWidth, /* 1000-pixel average width */ - FontPropPtr *pProps, /* returns properties; - preallocated */ - char **pIsStringProp) /* return booleans; - preallocated */ -{ - int n; - char *ptr1 = NULL, *ptr2 = NULL; - char *ptr3; - FontPropPtr fp; - fontProp *fpt; - char *isStringProp; - int nProps; - - if (bitscaleGeneration != serverGeneration) { - initFontPropTable(); - bitscaleGeneration = serverGeneration; - } - nProps = NPROPS + 1 + sizeof(fontPropTable) / sizeof(fontProp) + - sizeof(rawFontPropTable) / sizeof(fontProp); - fp = malloc(sizeof(FontPropRec) * nProps); - *pProps = fp; - if (!fp) { - fprintf(stderr, "Error: Couldn't allocate font properties (%ld*%d)\n", - (unsigned long)sizeof(FontPropRec), nProps); - return 1; - } - isStringProp = malloc (nProps); - *pIsStringProp = isStringProp; - if (!isStringProp) - { - fprintf(stderr, "Error: Couldn't allocate isStringProp (%d)\n", nProps); - free (fp); - return 1; - } - ptr2 = name; - for (fpt = fontNamePropTable, n = NPROPS; - n; - fp++, fpt++, n--, isStringProp++) - { - - if (*ptr2) - { - ptr1 = ptr2 + 1; - if (!(ptr2 = strchr(ptr1, '-'))) ptr2 = strchr(ptr1, '\0'); - } - - *isStringProp = 0; - switch (fpt->type) { - case atom: - fp->value = MakeAtom(ptr1, ptr2 - ptr1, TRUE); - *isStringProp = 1; - break; - case truncate_atom: - for (ptr3 = ptr1; *ptr3; ptr3++) - if (*ptr3 == '[') - break; - if (!*ptr3) ptr3 = ptr2; - fp->value = MakeAtom(ptr1, ptr3 - ptr1, TRUE); - *isStringProp = 1; - break; - case pixel_size: - fp->value = doround(vals->pixel_matrix[3]); - break; - case point_size: - fp->value = doround(vals->point_matrix[3] * 10.0); - break; - case resolution_x: - fp->value = vals->x; - break; - case resolution_y: - fp->value = vals->y; - break; - case average_width: - fp->value = vals->width; - break; - case fontname: - fp->value = MakeAtom(name, strlen(name), TRUE); - *isStringProp = 1; - break; - case raw_ascent: - fp->value = sourceFontInfo->fontAscent * sdy; - break; - case raw_descent: - fp->value = sourceFontInfo->fontDescent * sdy; - break; - case raw_pointsize: - fp->value = (long)(72270.0 / (double)vals->y + .5); - break; - case raw_pixelsize: - fp->value = 1000; - break; - case raw_average_width: - fp->value = sWidth; - break; - default: - break; - } - fp->name = fpt->atom; - } - n = NPROPS; - n += computeProps(sourceFontInfo->props, sourceFontInfo->isStringProp, - fp, isStringProp, sourceFontInfo->nprops, dx, dy, - sdx, sdy); - return n; -} - - -static int -compute_xform_matrix(FontScalablePtr vals, double dx, double dy, - double *xform, double *inv_xform, - double *xmult, double *ymult) -{ - double det; - double pixel = get_matrix_vertical_component(vals->pixel_matrix); - double pixelset = get_matrix_horizontal_component(vals->pixel_matrix); - - if (pixel < EPS || pixelset < EPS) return 0; - - /* Initialize the transformation matrix to the scaling factors */ - xform[0] = dx / pixelset; - xform[1] = xform[2] = 0.0; - xform[3] = dy / pixel; - -/* Inline matrix multiply -- somewhat ugly to minimize register usage */ -#define MULTIPLY_XFORM(a,b,c,d) \ -{ \ - register double aa = (a), bb = (b), cc = (c), dd = (d); \ - register double temp; \ - temp = aa * xform[0] + cc * xform[1]; \ - aa = aa * xform[2] + cc * xform[3]; \ - xform[1] = bb * xform[0] + dd * xform[1]; \ - xform[3] = bb * xform[2] + dd * xform[3]; \ - xform[0] = temp; \ - xform[2] = aa; \ -} - - /* Rescale the transformation matrix for size of source font */ - MULTIPLY_XFORM(vals->pixel_matrix[0], - vals->pixel_matrix[1], - vals->pixel_matrix[2], - vals->pixel_matrix[3]); - - *xmult = xform[0]; - *ymult = xform[3]; - - - if (inv_xform == NULL) return 1; - - /* Compute the determinant for use in inverting the matrix. */ - det = xform[0] * xform[3] - xform[1] * xform[2]; - - /* If the determinant is tiny or zero, give up */ - if (fabs(det) < EPS) return 0; - - /* Compute the inverse */ - inv_xform[0] = xform[3] / det; - inv_xform[1] = -xform[1] / det; - inv_xform[2] = -xform[2] / det; - inv_xform[3] = xform[0] / det; - - return 1; -} - -/* - * ScaleFont - * returns a pointer to the new scaled font, or NULL (due to AllocError). - */ -static FontPtr -ScaleFont(FontPtr opf, /* originating font */ - double widthMult, /* glyphs width scale factor */ - double heightMult, /* glyphs height scale factor */ - double sWidthMult, /* scalable glyphs width scale factor */ - double sHeightMult, /* scalable glyphs height scale factor */ - FontScalablePtr vals, - double *newWidthMult, /* return: X component of glyphs width - scale factor */ - double *newHeightMult, /* return: Y component of glyphs height - scale factor */ - long *sWidth) /* return: average 1000-pixel width */ -{ - FontPtr pf; - FontInfoPtr pfi, - opfi; - BitmapFontPtr bitmapFont, - obitmapFont; - CharInfoPtr pci, - opci; - int nchars = 0; /* how many characters in the font */ - int i; - int firstCol, lastCol, firstRow, lastRow; - double xform[4], inv_xform[4]; - double xmult, ymult; - int totalwidth = 0, totalchars = 0; -#define OLDINDEX(i) (((i)/(lastCol - firstCol + 1) + \ - firstRow - opf->info.firstRow) * \ - (opf->info.lastCol - opf->info.firstCol + 1) + \ - (i)%(lastCol - firstCol + 1) + \ - firstCol - opf->info.firstCol) - - *sWidth = 0; - - opfi = &opf->info; - obitmapFont = (BitmapFontPtr) opf->fontPrivate; - - bitmapFont = 0; - if (!(pf = CreateFontRec())) { - fprintf(stderr, "Error: Couldn't allocate FontRec (%ld)\n", - (unsigned long)sizeof(FontRec)); - goto bail; - } - pf->refcnt = 0; - pf->bit = opf->bit; - pf->byte = opf->byte; - pf->glyph = opf->glyph; - pf->scan = opf->scan; - - pf->get_glyphs = bitmapGetGlyphs; - pf->get_metrics = bitmapGetMetrics; - pf->unload_font = bitmapUnloadScalable; - pf->unload_glyphs = NULL; - - pfi = &pf->info; - *pfi = *opfi; - /* If charset subsetting specified in vals, determine what our range - needs to be for the output font */ - if (vals->nranges) - { - int i; - - pfi->allExist = 0; - firstCol = 255; - lastCol = 0; - firstRow = 255; - lastRow = 0; - - for (i = 0; i < vals->nranges; i++) - { - if (vals->ranges[i].min_char_high != vals->ranges[i].max_char_high) - { - firstCol = opfi->firstCol; - lastCol = opfi->lastCol; - } - if (firstCol > vals->ranges[i].min_char_low) - firstCol = vals->ranges[i].min_char_low; - if (lastCol < vals->ranges[i].max_char_low) - lastCol = vals->ranges[i].max_char_low; - if (firstRow > vals->ranges[i].min_char_high) - firstRow = vals->ranges[i].min_char_high; - if (lastRow < vals->ranges[i].max_char_high) - lastRow = vals->ranges[i].max_char_high; - } - - if (firstCol > lastCol || firstRow > lastRow) - goto bail; - - if (firstCol < opfi->firstCol) - firstCol = opfi->firstCol; - if (lastCol > opfi->lastCol) - lastCol = opfi->lastCol; - if (firstRow < opfi->firstRow) - firstRow = opfi->firstRow; - if (lastRow > opfi->lastRow) - lastRow = opfi->lastRow; - } - else - { - firstCol = opfi->firstCol; - lastCol = opfi->lastCol; - firstRow = opfi->firstRow; - lastRow = opfi->lastRow; - } - - bitmapFont = malloc(sizeof(BitmapFontRec)); - if (!bitmapFont) { - fprintf(stderr, "Error: Couldn't allocate bitmapFont (%ld)\n", - (unsigned long)sizeof(BitmapFontRec)); - goto bail; - } - nchars = (lastRow - firstRow + 1) * (lastCol - firstCol + 1); - pfi->firstRow = firstRow; - pfi->lastRow = lastRow; - pfi->firstCol = firstCol; - pfi->lastCol = lastCol; - pf->fontPrivate = (pointer) bitmapFont; - bitmapFont->version_num = obitmapFont->version_num; - bitmapFont->num_chars = nchars; - bitmapFont->num_tables = obitmapFont->num_tables; - bitmapFont->metrics = 0; - bitmapFont->ink_metrics = 0; - bitmapFont->bitmaps = 0; - bitmapFont->encoding = 0; - bitmapFont->bitmapExtra = 0; - bitmapFont->pDefault = 0; - bitmapFont->metrics = malloc(nchars * sizeof(CharInfoRec)); - if (!bitmapFont->metrics) { - fprintf(stderr, "Error: Couldn't allocate metrics (%d*%ld)\n", - nchars, (unsigned long)sizeof(CharInfoRec)); - goto bail; - } - bitmapFont->encoding = calloc(NUM_SEGMENTS(nchars), sizeof(CharInfoPtr*)); - if (!bitmapFont->encoding) { - fprintf(stderr, "Error: Couldn't allocate encoding (%d*%ld)\n", - nchars, (unsigned long)sizeof(CharInfoPtr)); - goto bail; - } - -#undef MAXSHORT -#define MAXSHORT 32767 -#undef MINSHORT -#define MINSHORT -32768 - - pfi->anamorphic = FALSE; - if (heightMult != widthMult) - pfi->anamorphic = TRUE; - pfi->cachable = TRUE; - - if (!compute_xform_matrix(vals, widthMult, heightMult, xform, - inv_xform, &xmult, &ymult)) - goto bail; - - pfi->fontAscent = opfi->fontAscent * ymult; - pfi->fontDescent = opfi->fontDescent * ymult; - - pfi->minbounds.leftSideBearing = MAXSHORT; - pfi->minbounds.rightSideBearing = MAXSHORT; - pfi->minbounds.ascent = MAXSHORT; - pfi->minbounds.descent = MAXSHORT; - pfi->minbounds.characterWidth = MAXSHORT; - pfi->minbounds.attributes = MAXSHORT; - - pfi->maxbounds.leftSideBearing = MINSHORT; - pfi->maxbounds.rightSideBearing = MINSHORT; - pfi->maxbounds.ascent = MINSHORT; - pfi->maxbounds.descent = MINSHORT; - pfi->maxbounds.characterWidth = MINSHORT; - pfi->maxbounds.attributes = MINSHORT; - - /* Compute the transformation and inverse transformation matrices. - Can fail if the determinant is zero. */ - - pci = bitmapFont->metrics; - for (i = 0; i < nchars; i++) - { - if ((opci = ACCESSENCODING(obitmapFont->encoding,OLDINDEX(i)))) - { - double newlsb, newrsb, newdesc, newasc, point[2]; - -#define minchar(p) ((p).min_char_low + ((p).min_char_high << 8)) -#define maxchar(p) ((p).max_char_low + ((p).max_char_high << 8)) - - if (vals->nranges) - { - int row = i / (lastCol - firstCol + 1) + firstRow; - int col = i % (lastCol - firstCol + 1) + firstCol; - int ch = (row << 8) + col; - int j; - for (j = 0; j < vals->nranges; j++) - if (ch >= minchar(vals->ranges[j]) && - ch <= maxchar(vals->ranges[j])) - break; - if (j == vals->nranges) - { - continue; - } - } - - if (opci->metrics.leftSideBearing == 0 && - opci->metrics.rightSideBearing == 0 && - opci->metrics.ascent == 0 && - opci->metrics.descent == 0 && - opci->metrics.characterWidth == 0) - { - continue; - } - - if(!bitmapFont->encoding[SEGMENT_MAJOR(i)]) { - bitmapFont->encoding[SEGMENT_MAJOR(i)]= - calloc(BITMAP_FONT_SEGMENT_SIZE, sizeof(CharInfoPtr)); - if(!bitmapFont->encoding[SEGMENT_MAJOR(i)]) - goto bail; - } - ACCESSENCODINGL(bitmapFont->encoding, i) = pci; - - /* Compute new extents for this glyph */ - TRANSFORM_POINT(xform, - opci->metrics.leftSideBearing, - -opci->metrics.descent, - point); - newlsb = point[0]; - newrsb = newlsb; - newdesc = -point[1]; - newasc = -newdesc; - TRANSFORM_POINT(xform, - opci->metrics.leftSideBearing, - opci->metrics.ascent, - point); - CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point); - TRANSFORM_POINT(xform, - opci->metrics.rightSideBearing, - -opci->metrics.descent, - point); - CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point); - TRANSFORM_POINT(xform, - opci->metrics.rightSideBearing, - opci->metrics.ascent, - point); - CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point); - - pci->metrics.leftSideBearing = (int)floor(newlsb); - pci->metrics.rightSideBearing = (int)floor(newrsb + .5); - pci->metrics.descent = (int)ceil(newdesc); - pci->metrics.ascent = (int)floor(newasc + .5); - /* Accumulate total width of characters before transformation, - to ascertain predominant direction of font. */ - totalwidth += opci->metrics.characterWidth; - pci->metrics.characterWidth = - doround((double)opci->metrics.characterWidth * xmult); - pci->metrics.attributes = - doround((double)opci->metrics.characterWidth * sWidthMult); - if (!pci->metrics.characterWidth) - { - /* Since transformation may shrink width, height, and - escapement to zero, make sure existing characters - are not mistaken for undefined characters. */ - - if (pci->metrics.rightSideBearing == - pci->metrics.leftSideBearing) - pci->metrics.rightSideBearing++; - if (pci->metrics.ascent == -pci->metrics.descent) - pci->metrics.ascent++; - } - - pci++; - } - } - - - /* - * For each character, set the per-character metrics, scale the glyph, and - * check per-font minbounds and maxbounds character information. - */ - - pci = bitmapFont->metrics; - for (i = 0; i < nchars; i++) - { - if ((pci = ACCESSENCODING(bitmapFont->encoding,i)) && - (opci = ACCESSENCODING(obitmapFont->encoding,OLDINDEX(i)))) - { - totalchars++; - *sWidth += abs((int)(INT16)pci->metrics.attributes); -#define MINMAX(field) \ - if (pfi->minbounds.field > pci->metrics.field) \ - pfi->minbounds.field = pci->metrics.field; \ - if (pfi->maxbounds.field < pci->metrics.field) \ - pfi->maxbounds.field = pci->metrics.field - - MINMAX(leftSideBearing); - MINMAX(rightSideBearing); - MINMAX(ascent); - MINMAX(descent); - MINMAX(characterWidth); - - /* Hack: Cast attributes into a signed quantity. Tread lightly - for now and don't go changing the global Xproto.h file */ - if ((INT16)pfi->minbounds.attributes > - (INT16)pci->metrics.attributes) - pfi->minbounds.attributes = pci->metrics.attributes; - if ((INT16)pfi->maxbounds.attributes < - (INT16)pci->metrics.attributes) - pfi->maxbounds.attributes = pci->metrics.attributes; -#undef MINMAX - } - } - pfi->ink_minbounds = pfi->minbounds; - pfi->ink_maxbounds = pfi->maxbounds; - if (totalchars) - { - *sWidth = (*sWidth * 10 + totalchars / 2) / totalchars; - if (totalwidth < 0) - { - /* Dominant direction is R->L */ - *sWidth = -*sWidth; - } - - if (pfi->minbounds.characterWidth == pfi->maxbounds.characterWidth) - vals->width = pfi->minbounds.characterWidth * 10; - else - vals->width = doround((double)*sWidth * vals->pixel_matrix[0] / - 1000.0); - } - else - { - vals->width = 0; - *sWidth = 0; - } - FontComputeInfoAccelerators (pfi); - - if (pfi->defaultCh != (unsigned short) NO_SUCH_CHAR) { - unsigned int r, - c, - cols; - - r = pfi->defaultCh >> 8; - c = pfi->defaultCh & 0xFF; - if (pfi->firstRow <= r && r <= pfi->lastRow && - pfi->firstCol <= c && c <= pfi->lastCol) { - cols = pfi->lastCol - pfi->firstCol + 1; - r = r - pfi->firstRow; - c = c - pfi->firstCol; - bitmapFont->pDefault = - ACCESSENCODING(bitmapFont->encoding, r * cols + c); - } - } - - *newWidthMult = xmult; - *newHeightMult = ymult; - return pf; -bail: - if (pf) - free(pf); - if (bitmapFont) { - free(bitmapFont->metrics); - free(bitmapFont->ink_metrics); - free(bitmapFont->bitmaps); - if(bitmapFont->encoding) - for(i=0; i<NUM_SEGMENTS(nchars); i++) - free(bitmapFont->encoding[i]); - free(bitmapFont->encoding); - } - return NULL; -} - -static void -ScaleBitmap(FontPtr pFont, CharInfoPtr opci, CharInfoPtr pci, - double *inv_xform, double widthMult, double heightMult) -{ - register char *bitmap, /* The bits */ - *newBitmap; - register int bpr, /* Padding information */ - newBpr; - int width, /* Extents information */ - height, - newWidth, - newHeight; - register int row, /* Loop variables */ - col; - INT32 deltaX, /* Increments for resampling loop */ - deltaY; - INT32 xValue, /* Subscripts for resampling loop */ - yValue; - double point[2]; - unsigned char *char_grayscale = 0; - INT32 *diffusion_workspace = NULL, *thisrow = NULL, - *nextrow = NULL, pixmult = 0; - int box_x = 0, box_y = 0; - - static unsigned char masklsb[] = - { 0x1, 0x2, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80 }; - static unsigned char maskmsb[] = - { 0x80, 0x40, 0x20, 0x10, 0x8, 0x4, 0x2, 0x1 }; - unsigned char *mask = (pFont->bit == LSBFirst ? masklsb : maskmsb); - - - bitmap = opci->bits; - newBitmap = pci->bits; - width = GLYPHWIDTHPIXELS(opci); - height = GLYPHHEIGHTPIXELS(opci); - newWidth = GLYPHWIDTHPIXELS(pci); - newHeight = GLYPHHEIGHTPIXELS(pci); - if (!newWidth || !newHeight || !width || !height) - return; - - bpr = BYTES_PER_ROW(width, pFont->glyph); - newBpr = BYTES_PER_ROW(newWidth, pFont->glyph); - - if (widthMult > 0.0 && heightMult > 0.0 && - (widthMult < 1.0 || heightMult < 1.0)) - { - /* We are reducing in one or both dimensions. In an attempt to - reduce aliasing, we'll antialias by passing the original - glyph through a low-pass box filter (which results in a - grayscale image), then use error diffusion to create bitonal - output in the resampling loop. */ - - /* First compute the sizes of the box filter */ - widthMult = ceil(1.0 / widthMult); - heightMult = ceil(1.0 / heightMult); - box_x = width / 2; - box_y = height / 2; - if (widthMult < (double)box_x) box_x = (int)widthMult; - if (heightMult < (double)box_y) box_y = (int)heightMult; - /* The pixmult value (below) is used to darken the image before - we perform error diffusion: a necessary concession to the - fact that it's very difficult to generate readable halftoned - glyphs. The degree of darkening is proportional to the size - of the blurring filter, hence inversely proportional to the - darkness of the lightest gray that results from antialiasing. - The result is that characters that exercise this logic (those - generated by reducing from a larger source font) tend to err - on the side of being too bold instead of being too light to - be readable. */ - pixmult = box_x * box_y * 192; - - if (box_x > 1 || box_y > 1) - { - /* Looks like we need to anti-alias. Create a workspace to - contain the grayscale character plus an additional row and - column for scratch */ - char_grayscale = malloc((width + 1) * (height + 1)); - if (char_grayscale) - { - diffusion_workspace = calloc((newWidth + 2) * 2, sizeof(int)); - if (!diffusion_workspace) - { - fprintf(stderr, "Warning: Couldn't allocate diffusion" - " workspace (%ld)\n", - (newWidth + 2) * 2 * (unsigned long)sizeof(int)); - free(char_grayscale); - char_grayscale = (unsigned char *)0; - } - /* Initialize our error diffusion workspace for later use */ - thisrow = diffusion_workspace + 1; - nextrow = diffusion_workspace + newWidth + 3; - } else { - fprintf(stderr, "Warning: Couldn't allocate character grayscale (%d)\n", (width + 1) * (height + 1)); - } - } - } - - if (char_grayscale) - { - /* We will be doing antialiasing. First copy the bitmap into - our buffer, mapping input range [0,1] to output range - [0,255]. */ - register unsigned char *srcptr, *dstptr; - srcptr = (unsigned char *)bitmap; - dstptr = char_grayscale; - for (row = 0; row < height; row++) - { - for (col = 0; col < width; col++) - *dstptr++ = (srcptr[col >> 3] & mask[col & 0x7]) ? 255 : 0; - srcptr += bpr; /* On to next row of source */ - dstptr++; /* Skip scratch column in dest */ - } - if (box_x > 1) - { - /* Our box filter has a width > 1... let's filter the rows */ - - int right_width = box_x / 2; - int left_width = box_x - right_width - 1; - - for (row = 0; row < height; row++) - { - int sum = 0; - int left_size = 0, right_size = 0; - - srcptr = char_grayscale + (width + 1) * row; - dstptr = char_grayscale + (width + 1) * height; /* scratch */ - - /* We've computed the shape of our full box filter. Now - compute the right-hand part of the moving sum */ - for (right_size = 0; right_size < right_width; right_size++) - sum += srcptr[right_size]; - - /* Now start moving the sum, growing the box filter, and - dropping averages into our scratch buffer */ - for (left_size = 0; left_size < left_width; left_size++) - { - sum += srcptr[right_width]; - *dstptr++ = sum / (left_size + right_width + 1); - srcptr++; - } - - /* The box filter has reached full width... continue - computation of moving average until the right side - hits the wall. */ - for (col = left_size; col + right_size < width; col++) - { - sum += srcptr[right_width]; - *dstptr++ = sum / box_x; - sum -= srcptr[-left_width]; - srcptr++; - } - - /* Collapse the right side of the box filter */ - for (; right_size > 0; right_size--) - { - *dstptr++ = sum / (left_width + right_size); - sum -= srcptr[-left_width]; - srcptr++; - } - - /* Done with the row... copy dest back over source */ - memmove(char_grayscale + (width + 1) * row, - char_grayscale + (width + 1) * height, - width); - } - } - if (box_y > 1) - { - /* Our box filter has a height > 1... let's filter the columns */ - - int bottom_height = box_y / 2; - int top_height = box_y - bottom_height - 1; - - for (col = 0; col < width; col++) - { - int sum = 0; - int top_size = 0, bottom_size = 0; - - srcptr = char_grayscale + col; - dstptr = char_grayscale + width; /* scratch */ - - /* We've computed the shape of our full box filter. Now - compute the bottom part of the moving sum */ - for (bottom_size = 0; - bottom_size < bottom_height; - bottom_size++) - sum += srcptr[bottom_size * (width + 1)]; - - /* Now start moving the sum, growing the box filter, and - dropping averages into our scratch buffer */ - for (top_size = 0; top_size < top_height; top_size++) - { - sum += srcptr[bottom_height * (width + 1)]; - *dstptr = sum / (top_size + bottom_height + 1); - dstptr += width + 1; - srcptr += width + 1; - } - - /* The box filter has reached full height... continue - computation of moving average until the bottom - hits the wall. */ - for (row = top_size; row + bottom_size < height; row++) - { - sum += srcptr[bottom_height * (width + 1)]; - *dstptr = sum / box_y; - dstptr += width + 1; - sum -= srcptr[-top_height * (width + 1)]; - srcptr += width + 1; - } - - /* Collapse the bottom of the box filter */ - for (; bottom_size > 0; bottom_size--) - { - *dstptr = sum / (top_height + bottom_size); - dstptr += width + 1; - sum -= srcptr[-top_height * (width + 1)]; - srcptr += width + 1; - } - - /* Done with the column... copy dest back over source */ - - dstptr = char_grayscale + col; - srcptr = char_grayscale + width; /* scratch */ - for (row = 0; row < height; row++) - { - *dstptr = *srcptr; - dstptr += width + 1; - srcptr += width + 1; - } - } - } - - /* Increase the grayvalue to increase ink a bit */ - srcptr = char_grayscale; - for (row = 0; row < height; row++) - { - for (col = 0; col < width; col++) - { - register int pixvalue = (int)*srcptr * pixmult / 256; - if (pixvalue > 255) pixvalue = 255; - *srcptr = pixvalue; - srcptr++; - } - srcptr++; - } - } - - /* Compute the increment values for the resampling loop */ - TRANSFORM_POINT(inv_xform, 1, 0, point); - deltaX = (INT32)(point[0] * 65536.0); - deltaY = (INT32)(-point[1] * 65536.0); - - /* Resampling loop: resamples original glyph for generation of new - glyph in transformed coordinate system. */ - - for (row = 0; row < newHeight; row++) - { - /* Compute inverse transformation for start of this row */ - TRANSFORM_POINT(inv_xform, - (double)(pci->metrics.leftSideBearing) + .5, - (double)(pci->metrics.ascent - row) - .5, - point); - - /* Adjust for coordinate system to get resampling point */ - point[0] -= opci->metrics.leftSideBearing; - point[1] = opci->metrics.ascent - point[1]; - - /* Convert to integer coordinates */ - xValue = (INT32)(point[0] * 65536.0); - yValue = (INT32)(point[1] * 65536.0); - - if (char_grayscale) - { - INT32 *temp; - for (col = 0; col < newWidth; col++) - { - register int x = xValue >> 16, y = yValue >> 16; - int pixvalue, error; - - pixvalue = ((x >= 0 && x < width && y >= 0 && y < height) ? - char_grayscale[x + y * (width + 1)] : 0) + - thisrow[col] / 16; - if (pixvalue > 255) pixvalue = 255; - else if (pixvalue < 0) pixvalue = 0; - - /* Choose the bit value and set resulting error value */ - if (pixvalue >= 128) - { - newBitmap[(col >> 3) + row * newBpr] |= mask[col & 0x7]; - error = pixvalue - 255; - } - else - error = -pixvalue; - - /* Diffuse the error */ - thisrow[col + 1] += error * 7; - nextrow[col - 1] += error * 3; - nextrow[col] += error * 5; - nextrow[col + 1] = error; - - xValue += deltaX; - yValue += deltaY; - } - - /* Add in error values that fell off either end */ - nextrow[0] += nextrow[-1]; - nextrow[newWidth - 2] += thisrow[newWidth]; - nextrow[newWidth - 1] += nextrow[newWidth]; - nextrow[newWidth] = 0; - - temp = nextrow; - nextrow = thisrow; - thisrow = temp; - nextrow[-1] = nextrow[0] = 0; - } - else - { - for (col = 0; col < newWidth; col++) - { - register int x = xValue >> 16, y = yValue >> 16; - - if (x >= 0 && x < width && y >= 0 && y < height) - { - /* Use point-sampling for rescaling. */ - - if (bitmap[(x >> 3) + y * bpr] & mask[x & 0x7]) - newBitmap[(col >> 3) + row * newBpr] |= mask[col & 0x7]; - } - - xValue += deltaX; - yValue += deltaY; - } - } - } - - - if (char_grayscale) - { - free(char_grayscale); - free(diffusion_workspace); - } -} - -static FontPtr -BitmapScaleBitmaps(FontPtr pf, /* scaled font */ - FontPtr opf, /* originating font */ - double widthMult, /* glyphs width scale factor */ - double heightMult, /* glyphs height scale factor */ - FontScalablePtr vals) -{ - register int i; - int nchars = 0; - char *glyphBytes; - BitmapFontPtr bitmapFont, - obitmapFont; - CharInfoPtr pci, - opci; - FontInfoPtr pfi; - int glyph; - unsigned bytestoalloc = 0; - int firstCol, lastCol, firstRow, lastRow; - - double xform[4], inv_xform[4]; - double xmult, ymult; - - bitmapFont = (BitmapFontPtr) pf->fontPrivate; - obitmapFont = (BitmapFontPtr) opf->fontPrivate; - - if (!compute_xform_matrix(vals, widthMult, heightMult, xform, - inv_xform, &xmult, &ymult)) - goto bail; - - pfi = &pf->info; - firstCol = pfi->firstCol; - lastCol = pfi->lastCol; - firstRow = pfi->firstRow; - lastRow = pfi->lastRow; - - nchars = (lastRow - firstRow + 1) * (lastCol - firstCol + 1); - glyph = pf->glyph; - for (i = 0; i < nchars; i++) - { - if ((pci = ACCESSENCODING(bitmapFont->encoding, i))) - bytestoalloc += BYTES_FOR_GLYPH(pci, glyph); - } - - /* Do we add the font malloc stuff for VALUE ADDED ? */ - /* Will need to remember to free in the Unload routine */ - - - bitmapFont->bitmaps = calloc(1, bytestoalloc); - if (!bitmapFont->bitmaps) { - fprintf(stderr, "Error: Couldn't allocate bitmaps (%d)\n", bytestoalloc); - goto bail; - } - - glyphBytes = bitmapFont->bitmaps; - for (i = 0; i < nchars; i++) - { - if ((pci = ACCESSENCODING(bitmapFont->encoding, i)) && - (opci = ACCESSENCODING(obitmapFont->encoding, OLDINDEX(i)))) - { - pci->bits = glyphBytes; - ScaleBitmap (pf, opci, pci, inv_xform, - widthMult, heightMult); - glyphBytes += BYTES_FOR_GLYPH(pci, glyph); - } - } - return pf; - -bail: - if (pf) - free(pf); - if (bitmapFont) { - free(bitmapFont->metrics); - free(bitmapFont->ink_metrics); - free(bitmapFont->bitmaps); - if(bitmapFont->encoding) - for(i=0; i<NUM_SEGMENTS(nchars); i++) - free(bitmapFont->encoding[i]); - free(bitmapFont->encoding); - } - return NULL; -} - -/* ARGSUSED */ -int -BitmapOpenScalable (FontPathElementPtr fpe, - FontPtr *pFont, - int flags, - FontEntryPtr entry, - char *fileName, /* unused */ - FontScalablePtr vals, - fsBitmapFormat format, - fsBitmapFormatMask fmask, - FontPtr non_cachable_font) /* We don't do licensing */ -{ - FontScalableRec best; - FontPtr font = NullFont; - double dx, sdx, - dy, sdy, - savedX, savedY; - FontPropPtr props; - char *isStringProp = NULL; - int propCount; - int status; - long sWidth; - - FontEntryPtr scaleFrom; - FontPathElementPtr scaleFPE = NULL; - FontPtr sourceFont; - char fontName[MAXFONTNAMELEN]; - - /* Can't deal with mix-endian fonts yet */ - - - /* Reject outrageously small font sizes to keep the math from - blowing up. */ - if (get_matrix_vertical_component(vals->pixel_matrix) < 1.0 || - get_matrix_horizontal_component(vals->pixel_matrix) < 1.0) - return BadFontName; - - scaleFrom = FindBestToScale(fpe, entry, vals, &best, &dx, &dy, &sdx, &sdy, - &scaleFPE); - - if (!scaleFrom) - return BadFontName; - - status = FontFileOpenBitmap(scaleFPE, &sourceFont, LoadAll, scaleFrom, - format, fmask); - - if (status != Successful) - return BadFontName; - - if (!vals->width) - vals->width = best.width * dx; - - /* Compute the scaled font */ - - savedX = dx; - savedY = dy; - font = ScaleFont(sourceFont, dx, dy, sdx, sdy, vals, &dx, &dy, &sWidth); - if (font) - font = BitmapScaleBitmaps(font, sourceFont, savedX, savedY, vals); - - if (!font) - { - if (!sourceFont->refcnt) - FontFileCloseFont((FontPathElementPtr) 0, sourceFont); - return AllocError; - } - - /* Prepare font properties for the new font */ - - strcpy (fontName, scaleFrom->name.name); - FontParseXLFDName (fontName, vals, FONT_XLFD_REPLACE_VALUE); - - propCount = ComputeScaledProperties(&sourceFont->info, fontName, vals, - dx, dy, sdx, sdy, sWidth, &props, - &isStringProp); - - if (!sourceFont->refcnt) - FontFileCloseFont((FontPathElementPtr) 0, sourceFont); - - if (propCount && (!props || !isStringProp)) - { - font->info.nprops = 0; - font->info.props = (FontPropPtr)0; - font->info.isStringProp = (char *)0; - bitmapUnloadScalable(font); - return AllocError; - } - - font->info.props = props; - font->info.nprops = propCount; - font->info.isStringProp = isStringProp; - - *pFont = font; - return Successful; -} - -int -BitmapGetInfoScalable (FontPathElementPtr fpe, - FontInfoPtr pFontInfo, - FontEntryPtr entry, - FontNamePtr fontName, - char *fileName, - FontScalablePtr vals) -{ - FontPtr pfont; - int flags = 0; - long format = 0; /* It doesn't matter what format for just info */ - long fmask = 0; - int ret; - - ret = BitmapOpenScalable(fpe, &pfont, flags, entry, fileName, vals, - format, fmask, NULL); - if (ret != Successful) - return ret; - *pFontInfo = pfont->info; - - pfont->info.nprops = 0; - pfont->info.props = NULL; - pfont->info.isStringProp = NULL; - - (*pfont->unload_font)(pfont); - return Successful; -} - -static void -bitmapUnloadScalable (FontPtr pFont) -{ - BitmapFontPtr bitmapFont; - FontInfoPtr pfi; - int i, nencoding; - - bitmapFont = (BitmapFontPtr) pFont->fontPrivate; - pfi = &pFont->info; - free (pfi->props); - free (pfi->isStringProp); - if(bitmapFont->encoding) { - nencoding = (pFont->info.lastCol - pFont->info.firstCol + 1) * - (pFont->info.lastRow - pFont->info.firstRow + 1); - for(i=0; i<NUM_SEGMENTS(nencoding); i++) - free(bitmapFont->encoding[i]); - } - free (bitmapFont->encoding); - free (bitmapFont->bitmaps); - free (bitmapFont->ink_metrics); - free (bitmapFont->metrics); - free (pFont->fontPrivate); - DestroyFontRec (pFont); -} +/*
+
+Copyright 1991, 1994, 1998 The Open Group
+
+Permission to use, copy, modify, distribute, and sell this software and its
+documentation for any purpose is hereby granted without fee, provided that
+the above copyright notice appear in all copies and that both that
+copyright notice and this permission notice appear in supporting
+documentation.
+
+The above copyright notice and this permission notice shall be included
+in all copies or substantial portions of the Software.
+
+THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
+OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
+IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR
+OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+OTHER DEALINGS IN THE SOFTWARE.
+
+Except as contained in this notice, the name of The Open Group shall
+not be used in advertising or otherwise to promote the sale, use or
+other dealings in this Software without prior written authorization
+from The Open Group.
+
+*/
+
+/*
+ * Author: Keith Packard, MIT X Consortium
+ */
+
+#ifdef HAVE_CONFIG_H
+#include <config.h>
+#endif
+
+/*
+ * Translate monolithic #defines to modular definitions
+ */
+
+#ifdef PCFFORMAT
+#define XFONT_PCFFORMAT 1
+#endif
+
+#ifdef SNFFORMAT
+#define XFONT_SNFFORMAT 1
+#endif
+
+#ifdef BDFFORMAT
+#define XFONT_BDFFORMAT 1
+#endif
+
+#include <X11/fonts/fntfilst.h>
+#include <X11/fonts/bitmap.h>
+#include <X11/fonts/fontutil.h>
+#include <math.h>
+
+#ifndef MAX
+#define MAX(a,b) (((a)>(b)) ? a : b)
+#endif
+
+#ifdef _MSC_VER
+#define hypot _hypot
+#endif
+
+/* Should get this from elsewhere */
+extern unsigned long serverGeneration;
+
+static void bitmapUnloadScalable (FontPtr pFont);
+static void ScaleBitmap ( FontPtr pFont, CharInfoPtr opci,
+ CharInfoPtr pci, double *inv_xform,
+ double widthMult, double heightMult );
+static FontPtr BitmapScaleBitmaps(FontPtr pf, FontPtr opf,
+ double widthMult, double heightMult,
+ FontScalablePtr vals);
+
+enum scaleType {
+ atom, truncate_atom, pixel_size, point_size, resolution_x,
+ resolution_y, average_width, scaledX, scaledY, unscaled, fontname,
+ raw_ascent, raw_descent, raw_pixelsize, raw_pointsize,
+ raw_average_width, uncomputed
+};
+
+typedef struct _fontProp {
+ char *name;
+ Atom atom;
+ enum scaleType type;
+} fontProp;
+
+static FontEntryPtr FindBestToScale ( FontPathElementPtr fpe,
+ FontEntryPtr entry,
+ FontScalablePtr vals,
+ FontScalablePtr best,
+ double *dxp, double *dyp,
+ double *sdxp, double *sdyp,
+ FontPathElementPtr *fpep );
+
+static unsigned long bitscaleGeneration = 0; /* initialization flag */
+
+static fontProp fontNamePropTable[] = {
+ { "FOUNDRY", 0, atom },
+ { "FAMILY_NAME", 0, atom },
+ { "WEIGHT_NAME", 0, atom },
+ { "SLANT", 0, atom },
+ { "SETWIDTH_NAME", 0, atom },
+ { "ADD_STYLE_NAME", 0, atom },
+ { "PIXEL_SIZE", 0, pixel_size },
+ { "POINT_SIZE", 0, point_size },
+ { "RESOLUTION_X", 0, resolution_x },
+ { "RESOLUTION_Y", 0, resolution_y },
+ { "SPACING", 0, atom },
+ { "AVERAGE_WIDTH", 0, average_width },
+ { "CHARSET_REGISTRY", 0, atom },
+ { "CHARSET_ENCODING", 0, truncate_atom },
+ { "FONT", 0, fontname },
+ { "RAW_ASCENT", 0, raw_ascent },
+ { "RAW_DESCENT", 0, raw_descent },
+ { "RAW_PIXEL_SIZE", 0, raw_pixelsize },
+ { "RAW_POINT_SIZE", 0, raw_pointsize },
+ { "RAW_AVERAGE_WIDTH", 0, raw_average_width }
+};
+
+#define TRANSFORM_POINT(matrix, x, y, dest) \
+ ((dest)[0] = (matrix)[0] * (x) + (matrix)[2] * (y), \
+ (dest)[1] = (matrix)[1] * (x) + (matrix)[3] * (y))
+
+#define CHECK_EXTENT(lsb, rsb, desc, asc, data) \
+ ((lsb) > (data)[0] ? (lsb) = (data)[0] : 0 , \
+ (rsb) < (data)[0] ? (rsb) = (data)[0] : 0, \
+ (-desc) > (data)[1] ? (desc) = -(data)[1] : 0 , \
+ (asc) < (data)[1] ? (asc) = (data)[1] : 0)
+
+#define NPROPS (sizeof(fontNamePropTable) / sizeof(fontProp))
+
+/* Warning: order of the next two tables is critically interdependent.
+ Location of "unscaled" properties at the end of fontPropTable[]
+ is important. */
+
+static fontProp fontPropTable[] = {
+ { "MIN_SPACE", 0, scaledX },
+ { "NORM_SPACE", 0, scaledX },
+ { "MAX_SPACE", 0, scaledX },
+ { "END_SPACE", 0, scaledX },
+ { "AVG_CAPITAL_WIDTH", 0, scaledX },
+ { "AVG_LOWERCASE_WIDTH", 0, scaledX },
+ { "QUAD_WIDTH", 0, scaledX },
+ { "FIGURE_WIDTH", 0, scaledX },
+ { "SUPERSCRIPT_X", 0, scaledX },
+ { "SUPERSCRIPT_Y", 0, scaledY },
+ { "SUBSCRIPT_X", 0, scaledX },
+ { "SUBSCRIPT_Y", 0, scaledY },
+ { "SUPERSCRIPT_SIZE", 0, scaledY },
+ { "SUBSCRIPT_SIZE", 0, scaledY },
+ { "SMALL_CAP_SIZE", 0, scaledY },
+ { "UNDERLINE_POSITION", 0, scaledY },
+ { "UNDERLINE_THICKNESS", 0, scaledY },
+ { "STRIKEOUT_ASCENT", 0, scaledY },
+ { "STRIKEOUT_DESCENT", 0, scaledY },
+ { "CAP_HEIGHT", 0, scaledY },
+ { "X_HEIGHT", 0, scaledY },
+ { "ITALIC_ANGLE", 0, unscaled },
+ { "RELATIVE_SETWIDTH", 0, unscaled },
+ { "RELATIVE_WEIGHT", 0, unscaled },
+ { "WEIGHT", 0, unscaled },
+ { "DESTINATION", 0, unscaled },
+ { "PCL_FONT_NAME", 0, unscaled },
+ { "_ADOBE_POSTSCRIPT_FONTNAME", 0, unscaled }
+};
+
+static fontProp rawFontPropTable[] = {
+ { "RAW_MIN_SPACE", 0, },
+ { "RAW_NORM_SPACE", 0, },
+ { "RAW_MAX_SPACE", 0, },
+ { "RAW_END_SPACE", 0, },
+ { "RAW_AVG_CAPITAL_WIDTH", 0, },
+ { "RAW_AVG_LOWERCASE_WIDTH", 0, },
+ { "RAW_QUAD_WIDTH", 0, },
+ { "RAW_FIGURE_WIDTH", 0, },
+ { "RAW_SUPERSCRIPT_X", 0, },
+ { "RAW_SUPERSCRIPT_Y", 0, },
+ { "RAW_SUBSCRIPT_X", 0, },
+ { "RAW_SUBSCRIPT_Y", 0, },
+ { "RAW_SUPERSCRIPT_SIZE", 0, },
+ { "RAW_SUBSCRIPT_SIZE", 0, },
+ { "RAW_SMALL_CAP_SIZE", 0, },
+ { "RAW_UNDERLINE_POSITION", 0, },
+ { "RAW_UNDERLINE_THICKNESS", 0, },
+ { "RAW_STRIKEOUT_ASCENT", 0, },
+ { "RAW_STRIKEOUT_DESCENT", 0, },
+ { "RAW_CAP_HEIGHT", 0, },
+ { "RAW_X_HEIGHT", 0, }
+};
+
+static void
+initFontPropTable(void)
+{
+ int i;
+ fontProp *t;
+
+ i = sizeof(fontNamePropTable) / sizeof(fontProp);
+ for (t = fontNamePropTable; i; i--, t++)
+ t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE);
+
+ i = sizeof(fontPropTable) / sizeof(fontProp);
+ for (t = fontPropTable; i; i--, t++)
+ t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE);
+
+ i = sizeof(rawFontPropTable) / sizeof(fontProp);
+ for (t = rawFontPropTable; i; i--, t++)
+ t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE);
+}
+
+#if 0
+static FontEntryPtr
+GetScalableEntry (FontPathElementPtr fpe, FontNamePtr name)
+{
+ FontDirectoryPtr dir;
+
+ dir = (FontDirectoryPtr) fpe->private;
+ return FontFileFindNameInDir (&dir->scalable, name);
+}
+#endif
+
+static double
+get_matrix_horizontal_component(double *matrix)
+{
+ return hypot(matrix[0], matrix[1]);
+}
+
+static double
+get_matrix_vertical_component(double *matrix)
+{
+ return hypot(matrix[2], matrix[3]);
+}
+
+
+static Bool
+ComputeScaleFactors(FontScalablePtr from, FontScalablePtr to,
+ double *dx, double *dy, double *sdx, double *sdy,
+ double *rescale_x)
+{
+ double srcpixelset, destpixelset, srcpixel, destpixel;
+
+ srcpixelset = get_matrix_horizontal_component(from->pixel_matrix);
+ destpixelset = get_matrix_horizontal_component(to->pixel_matrix);
+ srcpixel = get_matrix_vertical_component(from->pixel_matrix);
+ destpixel = get_matrix_vertical_component(to->pixel_matrix);
+
+ if (srcpixelset >= EPS)
+ {
+ *dx = destpixelset / srcpixelset;
+ *sdx = 1000.0 / srcpixelset;
+ }
+ else
+ *sdx = *dx = 0;
+
+ *rescale_x = 1.0;
+
+ /* If client specified a width, it overrides setsize; in this
+ context, we interpret width as applying to the font before any
+ rotation, even though that's not what is ultimately returned in
+ the width field. */
+ if (from->width > 0 && to->width > 0 && fabs(*dx) > EPS)
+ {
+ double rescale = (double)to->width / (double)from->width;
+
+ /* If the client specified a transformation matrix, the rescaling
+ for width does *not* override the setsize. Instead, just check
+ for consistency between the setsize from the matrix and the
+ setsize that would result from rescaling according to the width.
+ This assumes (perhaps naively) that the width is correctly
+ reported in the name. As an interesting side effect, this test
+ may result in choosing a different source bitmap (one that
+ scales consistently between the setsize *and* the width) than it
+ would choose if a width were not specified. Sort of a hidden
+ multiple-master functionality. */
+ if ((to->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY ||
+ (to->values_supplied & POINTSIZE_MASK) == POINTSIZE_ARRAY)
+ {
+ /* Reject if resulting width difference is >= 1 pixel */
+ if (fabs(rescale * from->width - *dx * from->width) >= 10)
+ return FALSE;
+ }
+ else
+ {
+ *rescale_x = rescale/(*dx);
+ *dx = rescale;
+ }
+ }
+
+ if (srcpixel >= EPS)
+ {
+ *dy = destpixel / srcpixel;
+ *sdy = 1000.0 / srcpixel;
+ }
+ else
+ *sdy = *dy = 0;
+
+ return TRUE;
+}
+
+/* favor enlargement over reduction because of aliasing resulting
+ from reduction */
+#define SCORE(m,s) \
+if (m >= 1.0) { \
+ if (m == 1.0) \
+ score += (16 * s); \
+ else if (m == 2.0) \
+ score += (4 * s); \
+ else \
+ score += (int)(((double)(3 * s)) / m); \
+} else { \
+ score += (int)(((double)(2 * s)) * m); \
+}
+
+/* don't need to favor enlargement when looking for bitmap that can
+ be used unscalable */
+#define SCORE2(m,s) \
+if (m >= 1.0) \
+ score += (int)(((double)(8 * s)) / m); \
+else \
+ score += (int)(((double)(8 * s)) * m);
+
+static FontEntryPtr
+FindBestToScale(FontPathElementPtr fpe, FontEntryPtr entry,
+ FontScalablePtr vals, FontScalablePtr best,
+ double *dxp, double *dyp,
+ double *sdxp, double *sdyp,
+ FontPathElementPtr *fpep)
+{
+ FontScalableRec temp;
+ int source, i;
+ int best_score, best_unscaled_score,
+ score;
+ double dx = 0.0, sdx = 0.0, dx_amount = 0.0,
+ dy = 0.0, sdy = 0.0, dy_amount = 0.0,
+ best_dx = 0.0, best_sdx = 0.0, best_dx_amount = 0.0,
+ best_dy = 0.0, best_sdy = 0.0, best_dy_amount = 0.0,
+ best_unscaled_sdx = 0.0, best_unscaled_sdy = 0.0,
+ rescale_x = 0.0, best_rescale_x = 0.0,
+ best_unscaled_rescale_x = 0.0;
+ FontEntryPtr zero;
+ FontNameRec zeroName;
+ char zeroChars[MAXFONTNAMELEN];
+ FontDirectoryPtr dir;
+ FontScaledPtr scaled;
+ FontScalableExtraPtr extra;
+ FontScaledPtr best_scaled, best_unscaled;
+ FontPathElementPtr best_fpe = NULL, best_unscaled_fpe = NULL;
+ FontEntryPtr bitmap = NULL;
+ FontEntryPtr result;
+ int aliascount = 20;
+ FontPathElementPtr bitmap_fpe = NULL;
+ FontNameRec xlfdName;
+
+ /* find the best match */
+ rescale_x = 1.0;
+ best_scaled = 0;
+ best_score = 0;
+ best_unscaled = 0;
+ best_unscaled_score = -1;
+ best_dx_amount = best_dy_amount = HUGE_VAL;
+ memcpy (zeroChars, entry->name.name, entry->name.length);
+ zeroChars[entry->name.length] = '\0';
+ zeroName.name = zeroChars;
+ FontParseXLFDName (zeroChars, &temp, FONT_XLFD_REPLACE_ZERO);
+ zeroName.length = strlen (zeroChars);
+ zeroName.ndashes = entry->name.ndashes;
+ xlfdName.name = vals->xlfdName;
+ xlfdName.length = strlen(xlfdName.name);
+ xlfdName.ndashes = FontFileCountDashes(xlfdName.name, xlfdName.length);
+ restart_bestscale_loop: ;
+ /*
+ * Look through all the registered bitmap sources for
+ * the same zero name as ours; entries along that one
+ * can be scaled as desired.
+ */
+ for (source = 0; source < FontFileBitmapSources.count; source++)
+ {
+ /* There might already be a bitmap that satisfies the request
+ but didn't have a zero name that was found by the scalable
+ font matching logic. Keep track if there is. */
+ if (bitmap == NULL && vals->xlfdName != NULL)
+ {
+ bitmap_fpe = FontFileBitmapSources.fpe[source];
+ dir = (FontDirectoryPtr) bitmap_fpe->private;
+ bitmap = FontFileFindNameInDir (&dir->nonScalable, &xlfdName);
+ if (bitmap && bitmap->type != FONT_ENTRY_BITMAP)
+ {
+ if (bitmap->type == FONT_ENTRY_ALIAS && aliascount > 0)
+ {
+ aliascount--;
+ xlfdName.name = bitmap->u.alias.resolved;
+ xlfdName.length = strlen(xlfdName.name);
+ xlfdName.ndashes = FontFileCountDashes(xlfdName.name,
+ xlfdName.length);
+ bitmap = NULL;
+ goto restart_bestscale_loop;
+ }
+ else
+ bitmap = NULL;
+ }
+ }
+
+ if (FontFileBitmapSources.fpe[source] == fpe)
+ zero = entry;
+ else
+ {
+ dir = (FontDirectoryPtr) FontFileBitmapSources.fpe[source]->private;
+ zero = FontFileFindNameInDir (&dir->scalable, &zeroName);
+ if (!zero)
+ continue;
+ }
+ extra = zero->u.scalable.extra;
+ for (i = 0; i < extra->numScaled; i++)
+ {
+ scaled = &extra->scaled[i];
+ if (!scaled->bitmap)
+ continue;
+ if (!ComputeScaleFactors(&scaled->vals, vals, &dx, &dy, &sdx, &sdy,
+ &rescale_x))
+ continue;
+ score = 0;
+ dx_amount = dx;
+ dy_amount = dy;
+ SCORE(dy_amount, 10);
+ SCORE(dx_amount, 1);
+ if ((score > best_score) ||
+ ((score == best_score) &&
+ ((dy_amount < best_dy_amount) ||
+ ((dy_amount == best_dy_amount) &&
+ (dx_amount < best_dx_amount)))))
+ {
+ best_fpe = FontFileBitmapSources.fpe[source];
+ best_scaled = scaled;
+ best_score = score;
+ best_dx = dx;
+ best_dy = dy;
+ best_sdx = sdx;
+ best_sdy = sdy;
+ best_dx_amount = dx_amount;
+ best_dy_amount = dy_amount;
+ best_rescale_x = rescale_x;
+ }
+ /* Is this font a candidate for use without ugly rescaling? */
+ if (fabs(dx) > EPS && fabs(dy) > EPS &&
+ fabs(vals->pixel_matrix[0] * rescale_x -
+ scaled->vals.pixel_matrix[0]) < 1 &&
+ fabs(vals->pixel_matrix[1] * rescale_x -
+ scaled->vals.pixel_matrix[1]) < EPS &&
+ fabs(vals->pixel_matrix[2] -
+ scaled->vals.pixel_matrix[2]) < EPS &&
+ fabs(vals->pixel_matrix[3] -
+ scaled->vals.pixel_matrix[3]) < 1)
+ {
+ /* Yes. The pixel sizes are close on the diagonal and
+ extremely close off the diagonal. */
+ score = 0;
+ SCORE2(vals->pixel_matrix[3] /
+ scaled->vals.pixel_matrix[3], 10);
+ SCORE2(vals->pixel_matrix[0] * rescale_x /
+ scaled->vals.pixel_matrix[0], 1);
+ if (score > best_unscaled_score)
+ {
+ best_unscaled_fpe = FontFileBitmapSources.fpe[source];
+ best_unscaled = scaled;
+ best_unscaled_sdx = sdx / dx;
+ best_unscaled_sdy = sdy / dy;
+ best_unscaled_score = score;
+ best_unscaled_rescale_x = rescale_x;
+ }
+ }
+ }
+ }
+ if (best_unscaled)
+ {
+ *best = best_unscaled->vals;
+ *fpep = best_unscaled_fpe;
+ *dxp = 1.0;
+ *dyp = 1.0;
+ *sdxp = best_unscaled_sdx;
+ *sdyp = best_unscaled_sdy;
+ rescale_x = best_unscaled_rescale_x;
+ result = best_unscaled->bitmap;
+ }
+ else if (best_scaled)
+ {
+ *best = best_scaled->vals;
+ *fpep = best_fpe;
+ *dxp = best_dx;
+ *dyp = best_dy;
+ *sdxp = best_sdx;
+ *sdyp = best_sdy;
+ rescale_x = best_rescale_x;
+ result = best_scaled->bitmap;
+ }
+ else
+ result = NULL;
+
+ if (bitmap != NULL && (result == NULL || *dxp != 1.0 || *dyp != 1.0))
+ {
+ *fpep = bitmap_fpe;
+ FontParseXLFDName (bitmap->name.name, best, FONT_XLFD_REPLACE_NONE);
+ if (ComputeScaleFactors(best, best, dxp, dyp, sdxp, sdyp, &rescale_x))
+ result = bitmap;
+ else
+ result = NULL;
+ }
+
+ if (result && rescale_x != 1.0)
+ {
+ /* We have rescaled horizontally due to an XLFD width field. Change
+ the matrix appropriately */
+ vals->pixel_matrix[0] *= rescale_x;
+ vals->pixel_matrix[1] *= rescale_x;
+ vals->values_supplied = vals->values_supplied & ~POINTSIZE_MASK;
+ /* Recompute and reround the FontScalablePtr values after
+ rescaling for the new width. */
+ FontFileCompleteXLFD(vals, vals);
+ }
+
+ return result;
+}
+
+static long
+doround(double x)
+{
+ return (x >= 0) ? (long)(x + .5) : (long)(x - .5);
+}
+
+static int
+computeProps(FontPropPtr pf, char *wasStringProp,
+ FontPropPtr npf, char *isStringProp,
+ unsigned int nprops, double xfactor, double yfactor,
+ double sXfactor, double sYfactor)
+{
+ int n;
+ int count;
+ fontProp *t;
+ double rawfactor = 0.0;
+
+ for (count = 0; nprops > 0; nprops--, pf++, wasStringProp++) {
+ n = sizeof(fontPropTable) / sizeof(fontProp);
+ for (t = fontPropTable; n && (t->atom != pf->name); n--, t++);
+ if (!n)
+ continue;
+
+ switch (t->type) {
+ case scaledX:
+ npf->value = doround(xfactor * (double)pf->value);
+ rawfactor = sXfactor;
+ break;
+ case scaledY:
+ npf->value = doround(yfactor * (double)pf->value);
+ rawfactor = sYfactor;
+ break;
+ case unscaled:
+ npf->value = pf->value;
+ npf->name = pf->name;
+ npf++;
+ count++;
+ *isStringProp++ = *wasStringProp;
+ break;
+ default:
+ break;
+ }
+ if (t->type != unscaled)
+ {
+ npf->name = pf->name;
+ npf++;
+ count++;
+ npf->value = doround(rawfactor * (double)pf->value);
+ npf->name = rawFontPropTable[t - fontPropTable].atom;
+ npf++;
+ count++;
+ *isStringProp++ = *wasStringProp;
+ *isStringProp++ = *wasStringProp;
+ }
+ }
+ return count;
+}
+
+
+static int
+ComputeScaledProperties(FontInfoPtr sourceFontInfo, /* the font to be scaled */
+ char *name, /* name of resulting font */
+ FontScalablePtr vals,
+ double dx, double dy, /* scale factors in x and y */
+ double sdx, double sdy, /* directions */
+ long sWidth, /* 1000-pixel average width */
+ FontPropPtr *pProps, /* returns properties;
+ preallocated */
+ char **pIsStringProp) /* return booleans;
+ preallocated */
+{
+ int n;
+ char *ptr1 = NULL, *ptr2 = NULL;
+ char *ptr3;
+ FontPropPtr fp;
+ fontProp *fpt;
+ char *isStringProp;
+ int nProps;
+
+ if (bitscaleGeneration != serverGeneration) {
+ initFontPropTable();
+ bitscaleGeneration = serverGeneration;
+ }
+ nProps = NPROPS + 1 + sizeof(fontPropTable) / sizeof(fontProp) +
+ sizeof(rawFontPropTable) / sizeof(fontProp);
+ fp = malloc(sizeof(FontPropRec) * nProps);
+ *pProps = fp;
+ if (!fp) {
+ fprintf(stderr, "Error: Couldn't allocate font properties (%ld*%d)\n",
+ (unsigned long)sizeof(FontPropRec), nProps);
+ return 1;
+ }
+ isStringProp = malloc (nProps);
+ *pIsStringProp = isStringProp;
+ if (!isStringProp)
+ {
+ fprintf(stderr, "Error: Couldn't allocate isStringProp (%d)\n", nProps);
+ free (fp);
+ return 1;
+ }
+ ptr2 = name;
+ for (fpt = fontNamePropTable, n = NPROPS;
+ n;
+ fp++, fpt++, n--, isStringProp++)
+ {
+
+ if (*ptr2)
+ {
+ ptr1 = ptr2 + 1;
+ if (!(ptr2 = strchr(ptr1, '-'))) ptr2 = strchr(ptr1, '\0');
+ }
+
+ *isStringProp = 0;
+ switch (fpt->type) {
+ case atom:
+ fp->value = MakeAtom(ptr1, ptr2 - ptr1, TRUE);
+ *isStringProp = 1;
+ break;
+ case truncate_atom:
+ for (ptr3 = ptr1; *ptr3; ptr3++)
+ if (*ptr3 == '[')
+ break;
+ if (!*ptr3) ptr3 = ptr2;
+ fp->value = MakeAtom(ptr1, ptr3 - ptr1, TRUE);
+ *isStringProp = 1;
+ break;
+ case pixel_size:
+ fp->value = doround(vals->pixel_matrix[3]);
+ break;
+ case point_size:
+ fp->value = doround(vals->point_matrix[3] * 10.0);
+ break;
+ case resolution_x:
+ fp->value = vals->x;
+ break;
+ case resolution_y:
+ fp->value = vals->y;
+ break;
+ case average_width:
+ fp->value = vals->width;
+ break;
+ case fontname:
+ fp->value = MakeAtom(name, strlen(name), TRUE);
+ *isStringProp = 1;
+ break;
+ case raw_ascent:
+ fp->value = sourceFontInfo->fontAscent * sdy;
+ break;
+ case raw_descent:
+ fp->value = sourceFontInfo->fontDescent * sdy;
+ break;
+ case raw_pointsize:
+ fp->value = (long)(72270.0 / (double)vals->y + .5);
+ break;
+ case raw_pixelsize:
+ fp->value = 1000;
+ break;
+ case raw_average_width:
+ fp->value = sWidth;
+ break;
+ default:
+ break;
+ }
+ fp->name = fpt->atom;
+ }
+ n = NPROPS;
+ n += computeProps(sourceFontInfo->props, sourceFontInfo->isStringProp,
+ fp, isStringProp, sourceFontInfo->nprops, dx, dy,
+ sdx, sdy);
+ return n;
+}
+
+
+static int
+compute_xform_matrix(FontScalablePtr vals, double dx, double dy,
+ double *xform, double *inv_xform,
+ double *xmult, double *ymult)
+{
+ double det;
+ double pixel = get_matrix_vertical_component(vals->pixel_matrix);
+ double pixelset = get_matrix_horizontal_component(vals->pixel_matrix);
+
+ if (pixel < EPS || pixelset < EPS) return 0;
+
+ /* Initialize the transformation matrix to the scaling factors */
+ xform[0] = dx / pixelset;
+ xform[1] = xform[2] = 0.0;
+ xform[3] = dy / pixel;
+
+/* Inline matrix multiply -- somewhat ugly to minimize register usage */
+#define MULTIPLY_XFORM(a,b,c,d) \
+{ \
+ register double aa = (a), bb = (b), cc = (c), dd = (d); \
+ register double temp; \
+ temp = aa * xform[0] + cc * xform[1]; \
+ aa = aa * xform[2] + cc * xform[3]; \
+ xform[1] = bb * xform[0] + dd * xform[1]; \
+ xform[3] = bb * xform[2] + dd * xform[3]; \
+ xform[0] = temp; \
+ xform[2] = aa; \
+}
+
+ /* Rescale the transformation matrix for size of source font */
+ MULTIPLY_XFORM(vals->pixel_matrix[0],
+ vals->pixel_matrix[1],
+ vals->pixel_matrix[2],
+ vals->pixel_matrix[3]);
+
+ *xmult = xform[0];
+ *ymult = xform[3];
+
+
+ if (inv_xform == NULL) return 1;
+
+ /* Compute the determinant for use in inverting the matrix. */
+ det = xform[0] * xform[3] - xform[1] * xform[2];
+
+ /* If the determinant is tiny or zero, give up */
+ if (fabs(det) < EPS) return 0;
+
+ /* Compute the inverse */
+ inv_xform[0] = xform[3] / det;
+ inv_xform[1] = -xform[1] / det;
+ inv_xform[2] = -xform[2] / det;
+ inv_xform[3] = xform[0] / det;
+
+ return 1;
+}
+
+/*
+ * ScaleFont
+ * returns a pointer to the new scaled font, or NULL (due to AllocError).
+ */
+static FontPtr
+ScaleFont(FontPtr opf, /* originating font */
+ double widthMult, /* glyphs width scale factor */
+ double heightMult, /* glyphs height scale factor */
+ double sWidthMult, /* scalable glyphs width scale factor */
+ double sHeightMult, /* scalable glyphs height scale factor */
+ FontScalablePtr vals,
+ double *newWidthMult, /* return: X component of glyphs width
+ scale factor */
+ double *newHeightMult, /* return: Y component of glyphs height
+ scale factor */
+ long *sWidth) /* return: average 1000-pixel width */
+{
+ FontPtr pf;
+ FontInfoPtr pfi,
+ opfi;
+ BitmapFontPtr bitmapFont,
+ obitmapFont;
+ CharInfoPtr pci,
+ opci;
+ int nchars = 0; /* how many characters in the font */
+ int i;
+ int firstCol, lastCol, firstRow, lastRow;
+ double xform[4], inv_xform[4];
+ double xmult, ymult;
+ int totalwidth = 0, totalchars = 0;
+#define OLDINDEX(i) (((i)/(lastCol - firstCol + 1) + \
+ firstRow - opf->info.firstRow) * \
+ (opf->info.lastCol - opf->info.firstCol + 1) + \
+ (i)%(lastCol - firstCol + 1) + \
+ firstCol - opf->info.firstCol)
+
+ *sWidth = 0;
+
+ opfi = &opf->info;
+ obitmapFont = (BitmapFontPtr) opf->fontPrivate;
+
+ bitmapFont = 0;
+ if (!(pf = CreateFontRec())) {
+ fprintf(stderr, "Error: Couldn't allocate FontRec (%ld)\n",
+ (unsigned long)sizeof(FontRec));
+ goto bail;
+ }
+ pf->refcnt = 0;
+ pf->bit = opf->bit;
+ pf->byte = opf->byte;
+ pf->glyph = opf->glyph;
+ pf->scan = opf->scan;
+
+ pf->get_glyphs = bitmapGetGlyphs;
+ pf->get_metrics = bitmapGetMetrics;
+ pf->unload_font = bitmapUnloadScalable;
+ pf->unload_glyphs = NULL;
+
+ pfi = &pf->info;
+ *pfi = *opfi;
+ /* If charset subsetting specified in vals, determine what our range
+ needs to be for the output font */
+ if (vals->nranges)
+ {
+ int i;
+
+ pfi->allExist = 0;
+ firstCol = 255;
+ lastCol = 0;
+ firstRow = 255;
+ lastRow = 0;
+
+ for (i = 0; i < vals->nranges; i++)
+ {
+ if (vals->ranges[i].min_char_high != vals->ranges[i].max_char_high)
+ {
+ firstCol = opfi->firstCol;
+ lastCol = opfi->lastCol;
+ }
+ if (firstCol > vals->ranges[i].min_char_low)
+ firstCol = vals->ranges[i].min_char_low;
+ if (lastCol < vals->ranges[i].max_char_low)
+ lastCol = vals->ranges[i].max_char_low;
+ if (firstRow > vals->ranges[i].min_char_high)
+ firstRow = vals->ranges[i].min_char_high;
+ if (lastRow < vals->ranges[i].max_char_high)
+ lastRow = vals->ranges[i].max_char_high;
+ }
+
+ if (firstCol > lastCol || firstRow > lastRow)
+ goto bail;
+
+ if (firstCol < opfi->firstCol)
+ firstCol = opfi->firstCol;
+ if (lastCol > opfi->lastCol)
+ lastCol = opfi->lastCol;
+ if (firstRow < opfi->firstRow)
+ firstRow = opfi->firstRow;
+ if (lastRow > opfi->lastRow)
+ lastRow = opfi->lastRow;
+ }
+ else
+ {
+ firstCol = opfi->firstCol;
+ lastCol = opfi->lastCol;
+ firstRow = opfi->firstRow;
+ lastRow = opfi->lastRow;
+ }
+
+ bitmapFont = malloc(sizeof(BitmapFontRec));
+ if (!bitmapFont) {
+ fprintf(stderr, "Error: Couldn't allocate bitmapFont (%ld)\n",
+ (unsigned long)sizeof(BitmapFontRec));
+ goto bail;
+ }
+ nchars = (lastRow - firstRow + 1) * (lastCol - firstCol + 1);
+ pfi->firstRow = firstRow;
+ pfi->lastRow = lastRow;
+ pfi->firstCol = firstCol;
+ pfi->lastCol = lastCol;
+ pf->fontPrivate = (pointer) bitmapFont;
+ bitmapFont->version_num = obitmapFont->version_num;
+ bitmapFont->num_chars = nchars;
+ bitmapFont->num_tables = obitmapFont->num_tables;
+ bitmapFont->metrics = 0;
+ bitmapFont->ink_metrics = 0;
+ bitmapFont->bitmaps = 0;
+ bitmapFont->encoding = 0;
+ bitmapFont->bitmapExtra = 0;
+ bitmapFont->pDefault = 0;
+ bitmapFont->metrics = malloc(nchars * sizeof(CharInfoRec));
+ if (!bitmapFont->metrics) {
+ fprintf(stderr, "Error: Couldn't allocate metrics (%d*%ld)\n",
+ nchars, (unsigned long)sizeof(CharInfoRec));
+ goto bail;
+ }
+ bitmapFont->encoding = calloc(NUM_SEGMENTS(nchars), sizeof(CharInfoPtr*));
+ if (!bitmapFont->encoding) {
+ fprintf(stderr, "Error: Couldn't allocate encoding (%d*%ld)\n",
+ nchars, (unsigned long)sizeof(CharInfoPtr));
+ goto bail;
+ }
+
+#undef MAXSHORT
+#define MAXSHORT 32767
+#undef MINSHORT
+#define MINSHORT -32768
+
+ pfi->anamorphic = FALSE;
+ if (heightMult != widthMult)
+ pfi->anamorphic = TRUE;
+ pfi->cachable = TRUE;
+
+ if (!compute_xform_matrix(vals, widthMult, heightMult, xform,
+ inv_xform, &xmult, &ymult))
+ goto bail;
+
+ pfi->fontAscent = opfi->fontAscent * ymult;
+ pfi->fontDescent = opfi->fontDescent * ymult;
+
+ pfi->minbounds.leftSideBearing = MAXSHORT;
+ pfi->minbounds.rightSideBearing = MAXSHORT;
+ pfi->minbounds.ascent = MAXSHORT;
+ pfi->minbounds.descent = MAXSHORT;
+ pfi->minbounds.characterWidth = MAXSHORT;
+ pfi->minbounds.attributes = MAXSHORT;
+
+ pfi->maxbounds.leftSideBearing = MINSHORT;
+ pfi->maxbounds.rightSideBearing = MINSHORT;
+ pfi->maxbounds.ascent = MINSHORT;
+ pfi->maxbounds.descent = MINSHORT;
+ pfi->maxbounds.characterWidth = MINSHORT;
+ pfi->maxbounds.attributes = MINSHORT;
+
+ /* Compute the transformation and inverse transformation matrices.
+ Can fail if the determinant is zero. */
+
+ pci = bitmapFont->metrics;
+ for (i = 0; i < nchars; i++)
+ {
+ if ((opci = ACCESSENCODING(obitmapFont->encoding,OLDINDEX(i))))
+ {
+ double newlsb, newrsb, newdesc, newasc, point[2];
+
+#define minchar(p) ((p).min_char_low + ((p).min_char_high << 8))
+#define maxchar(p) ((p).max_char_low + ((p).max_char_high << 8))
+
+ if (vals->nranges)
+ {
+ int row = i / (lastCol - firstCol + 1) + firstRow;
+ int col = i % (lastCol - firstCol + 1) + firstCol;
+ int ch = (row << 8) + col;
+ int j;
+ for (j = 0; j < vals->nranges; j++)
+ if (ch >= minchar(vals->ranges[j]) &&
+ ch <= maxchar(vals->ranges[j]))
+ break;
+ if (j == vals->nranges)
+ {
+ continue;
+ }
+ }
+
+ if (opci->metrics.leftSideBearing == 0 &&
+ opci->metrics.rightSideBearing == 0 &&
+ opci->metrics.ascent == 0 &&
+ opci->metrics.descent == 0 &&
+ opci->metrics.characterWidth == 0)
+ {
+ continue;
+ }
+
+ if(!bitmapFont->encoding[SEGMENT_MAJOR(i)]) {
+ bitmapFont->encoding[SEGMENT_MAJOR(i)]=
+ calloc(BITMAP_FONT_SEGMENT_SIZE, sizeof(CharInfoPtr));
+ if(!bitmapFont->encoding[SEGMENT_MAJOR(i)])
+ goto bail;
+ }
+ ACCESSENCODINGL(bitmapFont->encoding, i) = pci;
+
+ /* Compute new extents for this glyph */
+ TRANSFORM_POINT(xform,
+ opci->metrics.leftSideBearing,
+ -opci->metrics.descent,
+ point);
+ newlsb = point[0];
+ newrsb = newlsb;
+ newdesc = -point[1];
+ newasc = -newdesc;
+ TRANSFORM_POINT(xform,
+ opci->metrics.leftSideBearing,
+ opci->metrics.ascent,
+ point);
+ CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point);
+ TRANSFORM_POINT(xform,
+ opci->metrics.rightSideBearing,
+ -opci->metrics.descent,
+ point);
+ CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point);
+ TRANSFORM_POINT(xform,
+ opci->metrics.rightSideBearing,
+ opci->metrics.ascent,
+ point);
+ CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point);
+
+ pci->metrics.leftSideBearing = (int)floor(newlsb);
+ pci->metrics.rightSideBearing = (int)floor(newrsb + .5);
+ pci->metrics.descent = (int)ceil(newdesc);
+ pci->metrics.ascent = (int)floor(newasc + .5);
+ /* Accumulate total width of characters before transformation,
+ to ascertain predominant direction of font. */
+ totalwidth += opci->metrics.characterWidth;
+ pci->metrics.characterWidth =
+ doround((double)opci->metrics.characterWidth * xmult);
+ pci->metrics.attributes =
+ doround((double)opci->metrics.characterWidth * sWidthMult);
+ if (!pci->metrics.characterWidth)
+ {
+ /* Since transformation may shrink width, height, and
+ escapement to zero, make sure existing characters
+ are not mistaken for undefined characters. */
+
+ if (pci->metrics.rightSideBearing ==
+ pci->metrics.leftSideBearing)
+ pci->metrics.rightSideBearing++;
+ if (pci->metrics.ascent == -pci->metrics.descent)
+ pci->metrics.ascent++;
+ }
+
+ pci++;
+ }
+ }
+
+
+ /*
+ * For each character, set the per-character metrics, scale the glyph, and
+ * check per-font minbounds and maxbounds character information.
+ */
+
+ pci = bitmapFont->metrics;
+ for (i = 0; i < nchars; i++)
+ {
+ if ((pci = ACCESSENCODING(bitmapFont->encoding,i)) &&
+ (opci = ACCESSENCODING(obitmapFont->encoding,OLDINDEX(i))))
+ {
+ totalchars++;
+ *sWidth += abs((int)(INT16)pci->metrics.attributes);
+#define MINMAX(field) \
+ if (pfi->minbounds.field > pci->metrics.field) \
+ pfi->minbounds.field = pci->metrics.field; \
+ if (pfi->maxbounds.field < pci->metrics.field) \
+ pfi->maxbounds.field = pci->metrics.field
+
+ MINMAX(leftSideBearing);
+ MINMAX(rightSideBearing);
+ MINMAX(ascent);
+ MINMAX(descent);
+ MINMAX(characterWidth);
+
+ /* Hack: Cast attributes into a signed quantity. Tread lightly
+ for now and don't go changing the global Xproto.h file */
+ if ((INT16)pfi->minbounds.attributes >
+ (INT16)pci->metrics.attributes)
+ pfi->minbounds.attributes = pci->metrics.attributes;
+ if ((INT16)pfi->maxbounds.attributes <
+ (INT16)pci->metrics.attributes)
+ pfi->maxbounds.attributes = pci->metrics.attributes;
+#undef MINMAX
+ }
+ }
+ pfi->ink_minbounds = pfi->minbounds;
+ pfi->ink_maxbounds = pfi->maxbounds;
+ if (totalchars)
+ {
+ *sWidth = (*sWidth * 10 + totalchars / 2) / totalchars;
+ if (totalwidth < 0)
+ {
+ /* Dominant direction is R->L */
+ *sWidth = -*sWidth;
+ }
+
+ if (pfi->minbounds.characterWidth == pfi->maxbounds.characterWidth)
+ vals->width = pfi->minbounds.characterWidth * 10;
+ else
+ vals->width = doround((double)*sWidth * vals->pixel_matrix[0] /
+ 1000.0);
+ }
+ else
+ {
+ vals->width = 0;
+ *sWidth = 0;
+ }
+ FontComputeInfoAccelerators (pfi);
+
+ if (pfi->defaultCh != (unsigned short) NO_SUCH_CHAR) {
+ unsigned int r,
+ c,
+ cols;
+
+ r = pfi->defaultCh >> 8;
+ c = pfi->defaultCh & 0xFF;
+ if (pfi->firstRow <= r && r <= pfi->lastRow &&
+ pfi->firstCol <= c && c <= pfi->lastCol) {
+ cols = pfi->lastCol - pfi->firstCol + 1;
+ r = r - pfi->firstRow;
+ c = c - pfi->firstCol;
+ bitmapFont->pDefault =
+ ACCESSENCODING(bitmapFont->encoding, r * cols + c);
+ }
+ }
+
+ *newWidthMult = xmult;
+ *newHeightMult = ymult;
+ return pf;
+bail:
+ if (pf)
+ free(pf);
+ if (bitmapFont) {
+ free(bitmapFont->metrics);
+ free(bitmapFont->ink_metrics);
+ free(bitmapFont->bitmaps);
+ if(bitmapFont->encoding)
+ for(i=0; i<NUM_SEGMENTS(nchars); i++)
+ free(bitmapFont->encoding[i]);
+ free(bitmapFont->encoding);
+ }
+ return NULL;
+}
+
+static void
+ScaleBitmap(FontPtr pFont, CharInfoPtr opci, CharInfoPtr pci,
+ double *inv_xform, double widthMult, double heightMult)
+{
+ register char *bitmap, /* The bits */
+ *newBitmap;
+ register int bpr, /* Padding information */
+ newBpr;
+ int width, /* Extents information */
+ height,
+ newWidth,
+ newHeight;
+ register int row, /* Loop variables */
+ col;
+ INT32 deltaX, /* Increments for resampling loop */
+ deltaY;
+ INT32 xValue, /* Subscripts for resampling loop */
+ yValue;
+ double point[2];
+ unsigned char *char_grayscale = 0;
+ INT32 *diffusion_workspace = NULL, *thisrow = NULL,
+ *nextrow = NULL, pixmult = 0;
+ int box_x = 0, box_y = 0;
+
+ static unsigned char masklsb[] =
+ { 0x1, 0x2, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80 };
+ static unsigned char maskmsb[] =
+ { 0x80, 0x40, 0x20, 0x10, 0x8, 0x4, 0x2, 0x1 };
+ unsigned char *mask = (pFont->bit == LSBFirst ? masklsb : maskmsb);
+
+
+ bitmap = opci->bits;
+ newBitmap = pci->bits;
+ width = GLYPHWIDTHPIXELS(opci);
+ height = GLYPHHEIGHTPIXELS(opci);
+ newWidth = GLYPHWIDTHPIXELS(pci);
+ newHeight = GLYPHHEIGHTPIXELS(pci);
+ if (!newWidth || !newHeight || !width || !height)
+ return;
+
+ bpr = BYTES_PER_ROW(width, pFont->glyph);
+ newBpr = BYTES_PER_ROW(newWidth, pFont->glyph);
+
+ if (widthMult > 0.0 && heightMult > 0.0 &&
+ (widthMult < 1.0 || heightMult < 1.0))
+ {
+ /* We are reducing in one or both dimensions. In an attempt to
+ reduce aliasing, we'll antialias by passing the original
+ glyph through a low-pass box filter (which results in a
+ grayscale image), then use error diffusion to create bitonal
+ output in the resampling loop. */
+
+ /* First compute the sizes of the box filter */
+ widthMult = ceil(1.0 / widthMult);
+ heightMult = ceil(1.0 / heightMult);
+ box_x = width / 2;
+ box_y = height / 2;
+ if (widthMult < (double)box_x) box_x = (int)widthMult;
+ if (heightMult < (double)box_y) box_y = (int)heightMult;
+ /* The pixmult value (below) is used to darken the image before
+ we perform error diffusion: a necessary concession to the
+ fact that it's very difficult to generate readable halftoned
+ glyphs. The degree of darkening is proportional to the size
+ of the blurring filter, hence inversely proportional to the
+ darkness of the lightest gray that results from antialiasing.
+ The result is that characters that exercise this logic (those
+ generated by reducing from a larger source font) tend to err
+ on the side of being too bold instead of being too light to
+ be readable. */
+ pixmult = box_x * box_y * 192;
+
+ if (box_x > 1 || box_y > 1)
+ {
+ /* Looks like we need to anti-alias. Create a workspace to
+ contain the grayscale character plus an additional row and
+ column for scratch */
+ char_grayscale = malloc((width + 1) * (height + 1));
+ if (char_grayscale)
+ {
+ diffusion_workspace = calloc((newWidth + 2) * 2, sizeof(int));
+ if (!diffusion_workspace)
+ {
+ fprintf(stderr, "Warning: Couldn't allocate diffusion"
+ " workspace (%ld)\n",
+ (newWidth + 2) * 2 * (unsigned long)sizeof(int));
+ free(char_grayscale);
+ char_grayscale = (unsigned char *)0;
+ }
+ /* Initialize our error diffusion workspace for later use */
+ thisrow = diffusion_workspace + 1;
+ nextrow = diffusion_workspace + newWidth + 3;
+ } else {
+ fprintf(stderr, "Warning: Couldn't allocate character grayscale (%d)\n", (width + 1) * (height + 1));
+ }
+ }
+ }
+
+ if (char_grayscale)
+ {
+ /* We will be doing antialiasing. First copy the bitmap into
+ our buffer, mapping input range [0,1] to output range
+ [0,255]. */
+ register unsigned char *srcptr, *dstptr;
+ srcptr = (unsigned char *)bitmap;
+ dstptr = char_grayscale;
+ for (row = 0; row < height; row++)
+ {
+ for (col = 0; col < width; col++)
+ *dstptr++ = (srcptr[col >> 3] & mask[col & 0x7]) ? 255 : 0;
+ srcptr += bpr; /* On to next row of source */
+ dstptr++; /* Skip scratch column in dest */
+ }
+ if (box_x > 1)
+ {
+ /* Our box filter has a width > 1... let's filter the rows */
+
+ int right_width = box_x / 2;
+ int left_width = box_x - right_width - 1;
+
+ for (row = 0; row < height; row++)
+ {
+ int sum = 0;
+ int left_size = 0, right_size = 0;
+
+ srcptr = char_grayscale + (width + 1) * row;
+ dstptr = char_grayscale + (width + 1) * height; /* scratch */
+
+ /* We've computed the shape of our full box filter. Now
+ compute the right-hand part of the moving sum */
+ for (right_size = 0; right_size < right_width; right_size++)
+ sum += srcptr[right_size];
+
+ /* Now start moving the sum, growing the box filter, and
+ dropping averages into our scratch buffer */
+ for (left_size = 0; left_size < left_width; left_size++)
+ {
+ sum += srcptr[right_width];
+ *dstptr++ = sum / (left_size + right_width + 1);
+ srcptr++;
+ }
+
+ /* The box filter has reached full width... continue
+ computation of moving average until the right side
+ hits the wall. */
+ for (col = left_size; col + right_size < width; col++)
+ {
+ sum += srcptr[right_width];
+ *dstptr++ = sum / box_x;
+ sum -= srcptr[-left_width];
+ srcptr++;
+ }
+
+ /* Collapse the right side of the box filter */
+ for (; right_size > 0; right_size--)
+ {
+ *dstptr++ = sum / (left_width + right_size);
+ sum -= srcptr[-left_width];
+ srcptr++;
+ }
+
+ /* Done with the row... copy dest back over source */
+ memmove(char_grayscale + (width + 1) * row,
+ char_grayscale + (width + 1) * height,
+ width);
+ }
+ }
+ if (box_y > 1)
+ {
+ /* Our box filter has a height > 1... let's filter the columns */
+
+ int bottom_height = box_y / 2;
+ int top_height = box_y - bottom_height - 1;
+
+ for (col = 0; col < width; col++)
+ {
+ int sum = 0;
+ int top_size = 0, bottom_size = 0;
+
+ srcptr = char_grayscale + col;
+ dstptr = char_grayscale + width; /* scratch */
+
+ /* We've computed the shape of our full box filter. Now
+ compute the bottom part of the moving sum */
+ for (bottom_size = 0;
+ bottom_size < bottom_height;
+ bottom_size++)
+ sum += srcptr[bottom_size * (width + 1)];
+
+ /* Now start moving the sum, growing the box filter, and
+ dropping averages into our scratch buffer */
+ for (top_size = 0; top_size < top_height; top_size++)
+ {
+ sum += srcptr[bottom_height * (width + 1)];
+ *dstptr = sum / (top_size + bottom_height + 1);
+ dstptr += width + 1;
+ srcptr += width + 1;
+ }
+
+ /* The box filter has reached full height... continue
+ computation of moving average until the bottom
+ hits the wall. */
+ for (row = top_size; row + bottom_size < height; row++)
+ {
+ sum += srcptr[bottom_height * (width + 1)];
+ *dstptr = sum / box_y;
+ dstptr += width + 1;
+ sum -= srcptr[-top_height * (width + 1)];
+ srcptr += width + 1;
+ }
+
+ /* Collapse the bottom of the box filter */
+ for (; bottom_size > 0; bottom_size--)
+ {
+ *dstptr = sum / (top_height + bottom_size);
+ dstptr += width + 1;
+ sum -= srcptr[-top_height * (width + 1)];
+ srcptr += width + 1;
+ }
+
+ /* Done with the column... copy dest back over source */
+
+ dstptr = char_grayscale + col;
+ srcptr = char_grayscale + width; /* scratch */
+ for (row = 0; row < height; row++)
+ {
+ *dstptr = *srcptr;
+ dstptr += width + 1;
+ srcptr += width + 1;
+ }
+ }
+ }
+
+ /* Increase the grayvalue to increase ink a bit */
+ srcptr = char_grayscale;
+ for (row = 0; row < height; row++)
+ {
+ for (col = 0; col < width; col++)
+ {
+ register int pixvalue = (int)*srcptr * pixmult / 256;
+ if (pixvalue > 255) pixvalue = 255;
+ *srcptr = pixvalue;
+ srcptr++;
+ }
+ srcptr++;
+ }
+ }
+
+ /* Compute the increment values for the resampling loop */
+ TRANSFORM_POINT(inv_xform, 1, 0, point);
+ deltaX = (INT32)(point[0] * 65536.0);
+ deltaY = (INT32)(-point[1] * 65536.0);
+
+ /* Resampling loop: resamples original glyph for generation of new
+ glyph in transformed coordinate system. */
+
+ for (row = 0; row < newHeight; row++)
+ {
+ /* Compute inverse transformation for start of this row */
+ TRANSFORM_POINT(inv_xform,
+ (double)(pci->metrics.leftSideBearing) + .5,
+ (double)(pci->metrics.ascent - row) - .5,
+ point);
+
+ /* Adjust for coordinate system to get resampling point */
+ point[0] -= opci->metrics.leftSideBearing;
+ point[1] = opci->metrics.ascent - point[1];
+
+ /* Convert to integer coordinates */
+ xValue = (INT32)(point[0] * 65536.0);
+ yValue = (INT32)(point[1] * 65536.0);
+
+ if (char_grayscale)
+ {
+ INT32 *temp;
+ for (col = 0; col < newWidth; col++)
+ {
+ register int x = xValue >> 16, y = yValue >> 16;
+ int pixvalue, error;
+
+ pixvalue = ((x >= 0 && x < width && y >= 0 && y < height) ?
+ char_grayscale[x + y * (width + 1)] : 0) +
+ thisrow[col] / 16;
+ if (pixvalue > 255) pixvalue = 255;
+ else if (pixvalue < 0) pixvalue = 0;
+
+ /* Choose the bit value and set resulting error value */
+ if (pixvalue >= 128)
+ {
+ newBitmap[(col >> 3) + row * newBpr] |= mask[col & 0x7];
+ error = pixvalue - 255;
+ }
+ else
+ error = -pixvalue;
+
+ /* Diffuse the error */
+ thisrow[col + 1] += error * 7;
+ nextrow[col - 1] += error * 3;
+ nextrow[col] += error * 5;
+ nextrow[col + 1] = error;
+
+ xValue += deltaX;
+ yValue += deltaY;
+ }
+
+ /* Add in error values that fell off either end */
+ nextrow[0] += nextrow[-1];
+ nextrow[newWidth - 2] += thisrow[newWidth];
+ nextrow[newWidth - 1] += nextrow[newWidth];
+ nextrow[newWidth] = 0;
+
+ temp = nextrow;
+ nextrow = thisrow;
+ thisrow = temp;
+ nextrow[-1] = nextrow[0] = 0;
+ }
+ else
+ {
+ for (col = 0; col < newWidth; col++)
+ {
+ register int x = xValue >> 16, y = yValue >> 16;
+
+ if (x >= 0 && x < width && y >= 0 && y < height)
+ {
+ /* Use point-sampling for rescaling. */
+
+ if (bitmap[(x >> 3) + y * bpr] & mask[x & 0x7])
+ newBitmap[(col >> 3) + row * newBpr] |= mask[col & 0x7];
+ }
+
+ xValue += deltaX;
+ yValue += deltaY;
+ }
+ }
+ }
+
+
+ if (char_grayscale)
+ {
+ free(char_grayscale);
+ free(diffusion_workspace);
+ }
+}
+
+static FontPtr
+BitmapScaleBitmaps(FontPtr pf, /* scaled font */
+ FontPtr opf, /* originating font */
+ double widthMult, /* glyphs width scale factor */
+ double heightMult, /* glyphs height scale factor */
+ FontScalablePtr vals)
+{
+ register int i;
+ int nchars = 0;
+ char *glyphBytes;
+ BitmapFontPtr bitmapFont,
+ obitmapFont;
+ CharInfoPtr pci,
+ opci;
+ FontInfoPtr pfi;
+ int glyph;
+ unsigned bytestoalloc = 0;
+ int firstCol, lastCol, firstRow, lastRow;
+
+ double xform[4], inv_xform[4];
+ double xmult, ymult;
+
+ bitmapFont = (BitmapFontPtr) pf->fontPrivate;
+ obitmapFont = (BitmapFontPtr) opf->fontPrivate;
+
+ if (!compute_xform_matrix(vals, widthMult, heightMult, xform,
+ inv_xform, &xmult, &ymult))
+ goto bail;
+
+ pfi = &pf->info;
+ firstCol = pfi->firstCol;
+ lastCol = pfi->lastCol;
+ firstRow = pfi->firstRow;
+ lastRow = pfi->lastRow;
+
+ nchars = (lastRow - firstRow + 1) * (lastCol - firstCol + 1);
+ glyph = pf->glyph;
+ for (i = 0; i < nchars; i++)
+ {
+ if ((pci = ACCESSENCODING(bitmapFont->encoding, i)))
+ bytestoalloc += BYTES_FOR_GLYPH(pci, glyph);
+ }
+
+ /* Do we add the font malloc stuff for VALUE ADDED ? */
+ /* Will need to remember to free in the Unload routine */
+
+
+ bitmapFont->bitmaps = calloc(1, bytestoalloc);
+ if (!bitmapFont->bitmaps) {
+ fprintf(stderr, "Error: Couldn't allocate bitmaps (%d)\n", bytestoalloc);
+ goto bail;
+ }
+
+ glyphBytes = bitmapFont->bitmaps;
+ for (i = 0; i < nchars; i++)
+ {
+ if ((pci = ACCESSENCODING(bitmapFont->encoding, i)) &&
+ (opci = ACCESSENCODING(obitmapFont->encoding, OLDINDEX(i))))
+ {
+ pci->bits = glyphBytes;
+ ScaleBitmap (pf, opci, pci, inv_xform,
+ widthMult, heightMult);
+ glyphBytes += BYTES_FOR_GLYPH(pci, glyph);
+ }
+ }
+ return pf;
+
+bail:
+ if (pf)
+ free(pf);
+ if (bitmapFont) {
+ free(bitmapFont->metrics);
+ free(bitmapFont->ink_metrics);
+ free(bitmapFont->bitmaps);
+ if(bitmapFont->encoding)
+ for(i=0; i<NUM_SEGMENTS(nchars); i++)
+ free(bitmapFont->encoding[i]);
+ free(bitmapFont->encoding);
+ }
+ return NULL;
+}
+
+/* ARGSUSED */
+int
+BitmapOpenScalable (FontPathElementPtr fpe,
+ FontPtr *pFont,
+ int flags,
+ FontEntryPtr entry,
+ char *fileName, /* unused */
+ FontScalablePtr vals,
+ fsBitmapFormat format,
+ fsBitmapFormatMask fmask,
+ FontPtr non_cachable_font) /* We don't do licensing */
+{
+ FontScalableRec best;
+ FontPtr font = NullFont;
+ double dx, sdx,
+ dy, sdy,
+ savedX, savedY;
+ FontPropPtr props;
+ char *isStringProp = NULL;
+ int propCount;
+ int status;
+ long sWidth;
+
+ FontEntryPtr scaleFrom;
+ FontPathElementPtr scaleFPE = NULL;
+ FontPtr sourceFont;
+ char fontName[MAXFONTNAMELEN];
+
+ /* Can't deal with mix-endian fonts yet */
+
+
+ /* Reject outrageously small font sizes to keep the math from
+ blowing up. */
+ if (get_matrix_vertical_component(vals->pixel_matrix) < 1.0 ||
+ get_matrix_horizontal_component(vals->pixel_matrix) < 1.0)
+ return BadFontName;
+
+ scaleFrom = FindBestToScale(fpe, entry, vals, &best, &dx, &dy, &sdx, &sdy,
+ &scaleFPE);
+
+ if (!scaleFrom)
+ return BadFontName;
+
+ status = FontFileOpenBitmap(scaleFPE, &sourceFont, LoadAll, scaleFrom,
+ format, fmask);
+
+ if (status != Successful)
+ return BadFontName;
+
+ if (!vals->width)
+ vals->width = best.width * dx;
+
+ /* Compute the scaled font */
+
+ savedX = dx;
+ savedY = dy;
+ font = ScaleFont(sourceFont, dx, dy, sdx, sdy, vals, &dx, &dy, &sWidth);
+ if (font)
+ font = BitmapScaleBitmaps(font, sourceFont, savedX, savedY, vals);
+
+ if (!font)
+ {
+ if (!sourceFont->refcnt)
+ FontFileCloseFont((FontPathElementPtr) 0, sourceFont);
+ return AllocError;
+ }
+
+ /* Prepare font properties for the new font */
+
+ strcpy (fontName, scaleFrom->name.name);
+ FontParseXLFDName (fontName, vals, FONT_XLFD_REPLACE_VALUE);
+
+ propCount = ComputeScaledProperties(&sourceFont->info, fontName, vals,
+ dx, dy, sdx, sdy, sWidth, &props,
+ &isStringProp);
+
+ if (!sourceFont->refcnt)
+ FontFileCloseFont((FontPathElementPtr) 0, sourceFont);
+
+ if (propCount && (!props || !isStringProp))
+ {
+ font->info.nprops = 0;
+ font->info.props = (FontPropPtr)0;
+ font->info.isStringProp = (char *)0;
+ bitmapUnloadScalable(font);
+ return AllocError;
+ }
+
+ font->info.props = props;
+ font->info.nprops = propCount;
+ font->info.isStringProp = isStringProp;
+
+ *pFont = font;
+ return Successful;
+}
+
+int
+BitmapGetInfoScalable (FontPathElementPtr fpe,
+ FontInfoPtr pFontInfo,
+ FontEntryPtr entry,
+ FontNamePtr fontName,
+ char *fileName,
+ FontScalablePtr vals)
+{
+ FontPtr pfont;
+ int flags = 0;
+ long format = 0; /* It doesn't matter what format for just info */
+ long fmask = 0;
+ int ret;
+
+ ret = BitmapOpenScalable(fpe, &pfont, flags, entry, fileName, vals,
+ format, fmask, NULL);
+ if (ret != Successful)
+ return ret;
+ *pFontInfo = pfont->info;
+
+ pfont->info.nprops = 0;
+ pfont->info.props = NULL;
+ pfont->info.isStringProp = NULL;
+
+ (*pfont->unload_font)(pfont);
+ return Successful;
+}
+
+static void
+bitmapUnloadScalable (FontPtr pFont)
+{
+ BitmapFontPtr bitmapFont;
+ FontInfoPtr pfi;
+ int i, nencoding;
+
+ bitmapFont = (BitmapFontPtr) pFont->fontPrivate;
+ pfi = &pFont->info;
+ free (pfi->props);
+ free (pfi->isStringProp);
+ if(bitmapFont->encoding) {
+ nencoding = (pFont->info.lastCol - pFont->info.firstCol + 1) *
+ (pFont->info.lastRow - pFont->info.firstRow + 1);
+ for(i=0; i<NUM_SEGMENTS(nencoding); i++)
+ free(bitmapFont->encoding[i]);
+ }
+ free (bitmapFont->encoding);
+ free (bitmapFont->bitmaps);
+ free (bitmapFont->ink_metrics);
+ free (bitmapFont->metrics);
+ free (pFont->fontPrivate);
+ DestroyFontRec (pFont);
+}
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