1 files changed, 441 insertions, 444 deletions

diff --git a/libXfont/src/fontfile/fontscale.c b/libXfont/src/fontfile/fontscale.c
index cdc43082f..524db98d0 100644
--- a/libXfont/src/fontfile/fontscale.c
+++ b/libXfont/src/fontfile/fontscale.c
@@ -1,444 +1,441 @@
-/* $Xorg: fontscale.c,v 1.5 2001/02/09 02:04:03 xorgcvs Exp $ */
-
-/*
-
-Copyright 1991, 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/fontfile/fontscale.c,v 3.9 2001/08/27 19:49:54 dawes Exp $ */
-
-/*
- * Author:  Keith Packard, MIT X Consortium
- */
-
-#ifdef HAVE_CONFIG_H
-#include <config.h>
-#endif
-#include    <X11/fonts/fntfilst.h>
-#include <math.h>
-
-#ifdef _MSC_VER
-#define hypot _hypot
-#endif
-
-Bool
-FontFileAddScaledInstance (FontEntryPtr entry, FontScalablePtr vals, 
-			   FontPtr pFont, char *bitmapName)
-{
-    FontScalableEntryPtr    scalable;
-    FontScalableExtraPtr    extra;
-    FontScaledPtr	    new;
-    int			    newsize;
-
-    scalable = &entry->u.scalable;
-    extra = scalable->extra;
-    if (extra->numScaled == extra->sizeScaled)
-    {
-	newsize = extra->sizeScaled + 4;
-	new = realloc (extra->scaled, newsize * sizeof (FontScaledRec));
-	if (!new)
-	    return FALSE;
-	extra->sizeScaled = newsize;
-	extra->scaled = new;
-    }
-    new = &extra->scaled[extra->numScaled++];
-    new->vals = *vals;
-    new->pFont = pFont;
-    new->bitmap = (FontEntryPtr) bitmapName;
-    if (pFont)
-	pFont->fpePrivate = (pointer) entry;
-    return TRUE;
-}
-
-/* Must call this after the directory is sorted */
-
-void
-FontFileSwitchStringsToBitmapPointers (FontDirectoryPtr dir)
-{
-    int	    s;
-    int	    b;
-    int	    i;
-    FontEntryPtr	    scalable;
-    FontEntryPtr	    nonScalable;
-    FontScaledPtr	    scaled;
-    FontScalableExtraPtr    extra;
-    
-    scalable = dir->scalable.entries;
-    nonScalable = dir->nonScalable.entries;
-    for (s = 0; s < dir->scalable.used; s++)
-    {
-	extra = scalable[s].u.scalable.extra;
-	scaled = extra->scaled;
-	for (i = 0; i < extra->numScaled; i++)
-	    for (b = 0; b < dir->nonScalable.used; b++)
-		if (nonScalable[b].name.name == (char *) scaled[i].bitmap)
-		    scaled[i].bitmap = &nonScalable[b];
-    }
-}
-
-void
-FontFileRemoveScaledInstance (FontEntryPtr entry, FontPtr pFont)
-{
-    FontScalableEntryPtr    scalable;
-    FontScalableExtraPtr    extra;
-    int			    i;
-
-    scalable = &entry->u.scalable;
-    extra = scalable->extra;
-    for (i = 0; i < extra->numScaled; i++)
-    {
-	if (extra->scaled[i].pFont == pFont)
-	{
-	    if (extra->scaled[i].vals.ranges)
-		free (extra->scaled[i].vals.ranges);
-	    extra->numScaled--;
-	    for (; i < extra->numScaled; i++)
-		extra->scaled[i] = extra->scaled[i+1];
-	}
-    }
-}
-
-Bool
-FontFileCompleteXLFD (FontScalablePtr vals, FontScalablePtr def)
-{
-    FontResolutionPtr res;
-    int		num_res;
-    double	sx, sy, temp_matrix[4];
-    double	pixel_setsize_adjustment = 1.0;
-    /*
-     * If two of the three vertical scale values are specified, compute the
-     * third.  If all three are specified, make sure they are consistent
-     * (within a pixel)
-     *
-     * One purpose of this procedure is to complete XLFD names in a
-     * repeatable manner.  That is, if the user partially specifies
-     * a name (say, pixelsize but not pointsize), the results generated
-     * here result in a fully specified name that will result in the
-     * same font.
-     */
-
-    res = GetClientResolutions(&num_res);
-
-    if (!(vals->values_supplied & PIXELSIZE_MASK) ||
-	!(vals->values_supplied & POINTSIZE_MASK))
-    {
-	/* If resolution(s) unspecified and cannot be computed from
-	   pixelsize and pointsize, get appropriate defaults. */
-
-	if (num_res)
-	{
-	    if (vals->x <= 0)
-		vals->x = res->x_resolution;
-	    if (vals->y <= 0)
-		vals->y = res->y_resolution;
-	}
-
-	if (vals->x <= 0)
-	    vals->x = def->x;
-	if (vals->y <= 0)
-	    vals->y = def->y;
-    }
-    else
-    {
-	/* If needed, compute resolution values from the pixel and
-	   pointsize information we were given.  This problem is
-	   overdetermined (four equations, two unknowns), but we don't
-	   check for inconsistencies here.  If they exist, they will
-	   show up in later tests for the point and pixel sizes.  */
-
-	if (vals->y <= 0)
-	{
-	    double x = hypot(vals->pixel_matrix[1], vals->pixel_matrix[3]);
-	    double y = hypot(vals->point_matrix[1], vals->point_matrix[3]);
-	    if (y < EPS) return FALSE;
-	    vals->y = (int)(x * 72.27 / y + .5);
-	}
-	if (vals->x <= 0)
-	{
-	    /* If the pixelsize was given as an array, or as a scalar that
-	       has been normalized for the pixel shape, we have enough
-	       information to compute a separate horizontal resolution */
-
-	    if ((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY ||
-	        (vals->values_supplied & PIXELSIZE_MASK) ==
-		    PIXELSIZE_SCALAR_NORMALIZED)
-	    {
-		double x = hypot(vals->pixel_matrix[0], vals->pixel_matrix[2]);
-		double y = hypot(vals->point_matrix[0], vals->point_matrix[2]);
-		if (y < EPS) return FALSE;
-		vals->x = (int)(x * 72.27 / y + .5);
-	    }
-	    else
-	    {
-		/* Not enough information in the pixelsize array.  Just
-		   assume the pixels are square. */
-		vals->x = vals->y;
-	    }
-	}
-    }
-
-    if (vals->x <= 0 || vals->y <= 0) return FALSE;
-
-    /* If neither pixelsize nor pointsize is defined, take the pointsize
-       from the defaults structure we've been passed. */
-    if (!(vals->values_supplied & PIXELSIZE_MASK) &&
-	!(vals->values_supplied & POINTSIZE_MASK))
-    {
-	if (num_res)
-	{
-	    vals->point_matrix[0] =
-	    vals->point_matrix[3] = (double)res->point_size / 10.0;
-	    vals->point_matrix[1] =
-	    vals->point_matrix[2] = 0;
-	    vals->values_supplied = (vals->values_supplied & ~POINTSIZE_MASK) |
-				    POINTSIZE_SCALAR;
-	}
-	else if (def->values_supplied & POINTSIZE_MASK)
-	{
-	    vals->point_matrix[0] = def->point_matrix[0];
-	    vals->point_matrix[1] = def->point_matrix[1];
-	    vals->point_matrix[2] = def->point_matrix[2];
-	    vals->point_matrix[3] = def->point_matrix[3];
-	    vals->values_supplied = (vals->values_supplied & ~POINTSIZE_MASK) |
-				    (def->values_supplied & POINTSIZE_MASK);
-	}
-	else return FALSE;
-    }
-
-    /* At this point, at least two of the three vertical scale values
-       should be specified.  Our job now is to compute the missing ones
-       and check for agreement between overspecified values */
-
-    /* If pixelsize was specified by a scalar, we need to fix the matrix
-       now that we know the resolutions.  */
-    if ((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_SCALAR)
-    {
-	/* pixel_setsize_adjustment used below to modify permissible
-	   error in pixel/pointsize matching, since multiplying a
-	   number rounded to integer changes the amount of the error
-	   caused by the rounding */
-
-	pixel_setsize_adjustment = (double)vals->x / (double)vals->y;
-	vals->pixel_matrix[0] *= pixel_setsize_adjustment;
-	vals->values_supplied  = (vals->values_supplied & ~PIXELSIZE_MASK) |
-				 PIXELSIZE_SCALAR_NORMALIZED;
-    }
-
-    sx = (double)vals->x / 72.27;
-    sy = (double)vals->y / 72.27;
-
-    /* If a pointsize was specified, make sure pixelsize is consistent
-       to within 1 pixel, then replace pixelsize with a consistent
-       floating-point value.  */
-
-    if (vals->values_supplied & POINTSIZE_MASK)
-    {
-    recompute_pixelsize: ;
-	temp_matrix[0] = vals->point_matrix[0] * sx;
-	temp_matrix[1] = vals->point_matrix[1] * sy;
-	temp_matrix[2] = vals->point_matrix[2] * sx;
-	temp_matrix[3] = vals->point_matrix[3] * sy;
-	if (vals->values_supplied & PIXELSIZE_MASK)
-	{
-	    if (fabs(vals->pixel_matrix[0] - temp_matrix[0]) >
-		    pixel_setsize_adjustment ||
-		fabs(vals->pixel_matrix[1] - temp_matrix[1]) > 1 ||
-		fabs(vals->pixel_matrix[2] - temp_matrix[2]) > 1 ||
-		fabs(vals->pixel_matrix[3] - temp_matrix[3]) > 1)
-		return FALSE;
-	}
-	if ((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY &&
-	    (vals->values_supplied & POINTSIZE_MASK) == POINTSIZE_SCALAR)
-	{
-	    /* In the special case that pixelsize came as an array and
-	       pointsize as a scalar, recompute the pointsize matrix
-	       from the pixelsize matrix. */
-	    goto recompute_pointsize;
-	}
-
-	/* Refresh pixel matrix with precise values computed from
-	   pointsize and resolution.  */
-	vals->pixel_matrix[0] = temp_matrix[0];
-	vals->pixel_matrix[1] = temp_matrix[1];
-	vals->pixel_matrix[2] = temp_matrix[2];
-	vals->pixel_matrix[3] = temp_matrix[3];
-
-	/* Set values_supplied for pixel to match that for point */
-	vals->values_supplied =
-	    (vals->values_supplied & ~PIXELSIZE_MASK) |
-	    (((vals->values_supplied & POINTSIZE_MASK) == POINTSIZE_ARRAY) ?
-		PIXELSIZE_ARRAY : PIXELSIZE_SCALAR_NORMALIZED);
-    }
-    else
-    {
-	/* Pointsize unspecified...  compute from pixel size and
-	   resolutions */
-    recompute_pointsize: ;
-	if (fabs(sx) < EPS || fabs(sy) < EPS) return FALSE;
-	vals->point_matrix[0] = vals->pixel_matrix[0] / sx;
-	vals->point_matrix[1] = vals->pixel_matrix[1] / sy;
-	vals->point_matrix[2] = vals->pixel_matrix[2] / sx;
-	vals->point_matrix[3] = vals->pixel_matrix[3] / sy;
-
-	/* Set values_supplied for pixel to match that for point */
-	vals->values_supplied =
-	    (vals->values_supplied & ~POINTSIZE_MASK) |
-	    (((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY) ?
-		POINTSIZE_ARRAY : POINTSIZE_SCALAR);
-
-	/* If we computed scalar pointsize from scalar pixelsize, round
-	   pointsize to decipoints and recompute pixelsize so we end up
-	   with a repeatable name */
-	if ((vals->values_supplied & POINTSIZE_MASK) == POINTSIZE_SCALAR)
-	{
-	    /* Off-diagonal elements should be zero since no matrix was
-	       specified. */
-	    vals->point_matrix[0] =
-		(double)(int)(vals->point_matrix[0] * 10.0 + .5) / 10.0;
-	    vals->point_matrix[3] =
-		(double)(int)(vals->point_matrix[3] * 10.0 + .5) / 10.0;
-	    goto recompute_pixelsize;
-	}
-    }
-
-    /* We've succeeded.  Round everything to a few decimal places
-       for repeatability. */
-
-    vals->pixel_matrix[0] = xlfd_round_double(vals->pixel_matrix[0]);
-    vals->pixel_matrix[1] = xlfd_round_double(vals->pixel_matrix[1]);
-    vals->pixel_matrix[2] = xlfd_round_double(vals->pixel_matrix[2]);
-    vals->pixel_matrix[3] = xlfd_round_double(vals->pixel_matrix[3]);
-    vals->point_matrix[0] = xlfd_round_double(vals->point_matrix[0]);
-    vals->point_matrix[1] = xlfd_round_double(vals->point_matrix[1]);
-    vals->point_matrix[2] = xlfd_round_double(vals->point_matrix[2]);
-    vals->point_matrix[3] = xlfd_round_double(vals->point_matrix[3]);
-
-    /* Fill in the deprecated fields for the benefit of rasterizers
-       that do not handle the matrices. */
-    vals->point = vals->point_matrix[3] * 10;
-    vals->pixel = vals->pixel_matrix[3];
-
-    return TRUE;
-}
-
-static Bool
-MatchScalable (FontScalablePtr a, FontScalablePtr b)
-{
-    int i;
-
-    /* Some asymmetry here:  we assume that the first argument (a) is
-       the table entry and the second (b) the item we're trying to match
-       (the key).  We'll consider the fonts matched if the relevant
-       metrics match *and* if a) the table entry doesn't have charset
-       subsetting or b) the table entry has identical charset subsetting
-       to that in the key.  We could add logic to check if the table
-       entry has a superset of the charset required by the key, but
-       we'll resist the urge for now.  */
-
-#define EQUAL(a,b) ((a)[0] == (b)[0] && \
-                    (a)[1] == (b)[1] && \
-                    (a)[2] == (b)[2] && \
-                    (a)[3] == (b)[3])
-
-    if (!(a->x == b->x &&
-	  a->y == b->y &&
-	  (a->width == b->width || a->width == 0 || b->width == 0 || b->width == -1) &&
-	  (!(b->values_supplied & PIXELSIZE_MASK) ||
-	    ((a->values_supplied & PIXELSIZE_MASK) ==
-	     (b->values_supplied & PIXELSIZE_MASK) &&
-	    EQUAL(a->pixel_matrix, b->pixel_matrix))) &&
-	  (!(b->values_supplied & POINTSIZE_MASK) ||
-	    ((a->values_supplied & POINTSIZE_MASK) ==
-	     (b->values_supplied & POINTSIZE_MASK) &&
-	    EQUAL(a->point_matrix, b->point_matrix))) &&
-	  (a->nranges == 0 || a->nranges == b->nranges)))
-      return FALSE;
-
-    for (i = 0; i < a->nranges; i++)
-	if (a->ranges[i].min_char_low != b->ranges[i].min_char_low ||
-	    a->ranges[i].min_char_high != b->ranges[i].min_char_high ||
-	    a->ranges[i].max_char_low != b->ranges[i].max_char_low ||
-	    a->ranges[i].max_char_high != b->ranges[i].max_char_high)
-		return FALSE;
- 
-    return TRUE;
-}
-
-FontScaledPtr
-FontFileFindScaledInstance (FontEntryPtr entry, FontScalablePtr vals, 
-			    int noSpecificSize)
-{
-    FontScalableEntryPtr    scalable;
-    FontScalableExtraPtr    extra;
-    FontScalablePtr	    mvals;
-    int			    dist, i;
-    int			    mini;
-    double		    mindist;
-    register double	    temp, sum=0.0;
-
-#define NORMDIFF(a, b) ( \
-    temp = (a)[0] - (b)[0], \
-    sum = temp * temp, \
-    temp = (a)[1] - (b)[1], \
-    sum += temp * temp, \
-    temp = (a)[2] - (b)[2], \
-    sum += temp * temp, \
-    temp = (a)[3] - (b)[3], \
-    sum + temp * temp )
-
-    scalable = &entry->u.scalable;
-    extra = scalable->extra;
-    if (noSpecificSize && extra->numScaled)
-    {
-	mini = 0;
-	mindist = NORMDIFF(extra->scaled[0].vals.point_matrix,
-			   vals->point_matrix);
-	for (i = 1; i < extra->numScaled; i++)
-	{
-	    if (extra->scaled[i].pFont &&
-		!extra->scaled[i].pFont->info.cachable) continue;
-	    mvals = &extra->scaled[i].vals;
-	    dist = NORMDIFF(mvals->point_matrix, vals->point_matrix);
-	    if (dist < mindist)
-	    {
-		mindist = dist;
-		mini = i;
-	    }
-	}
-	if (extra->scaled[mini].pFont &&
-	    !extra->scaled[mini].pFont->info.cachable) return 0;
-	return &extra->scaled[mini];
-    }
-    else
-    {
-    	/* See if we've scaled to this value yet */
-    	for (i = 0; i < extra->numScaled; i++)
-    	{
-	    if (extra->scaled[i].pFont &&
-		!extra->scaled[i].pFont->info.cachable) continue;
-	    if (MatchScalable (&extra->scaled[i].vals, vals))
-	    	return &extra->scaled[i];
-    	}
-    }
-    return 0;
-}
+/*

+

+Copyright 1991, 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

+#include    <X11/fonts/fntfilst.h>

+#include <math.h>

+

+#ifdef _MSC_VER

+#define hypot _hypot

+#endif

+

+Bool

+FontFileAddScaledInstance (FontEntryPtr entry, FontScalablePtr vals, 

+			   FontPtr pFont, char *bitmapName)

+{

+    FontScalableEntryPtr    scalable;

+    FontScalableExtraPtr    extra;

+    FontScaledPtr	    new;

+    int			    newsize;

+

+    scalable = &entry->u.scalable;

+    extra = scalable->extra;

+    if (extra->numScaled == extra->sizeScaled)

+    {

+	newsize = extra->sizeScaled + 4;

+	new = realloc (extra->scaled, newsize * sizeof (FontScaledRec));

+	if (!new)

+	    return FALSE;

+	extra->sizeScaled = newsize;

+	extra->scaled = new;

+    }

+    new = &extra->scaled[extra->numScaled++];

+    new->vals = *vals;

+    new->pFont = pFont;

+    new->bitmap = (FontEntryPtr) bitmapName;

+    if (pFont)

+	pFont->fpePrivate = (pointer) entry;

+    return TRUE;

+}

+

+/* Must call this after the directory is sorted */

+

+void

+FontFileSwitchStringsToBitmapPointers (FontDirectoryPtr dir)

+{

+    int	    s;

+    int	    b;

+    int	    i;

+    FontEntryPtr	    scalable;

+    FontEntryPtr	    nonScalable;

+    FontScaledPtr	    scaled;

+    FontScalableExtraPtr    extra;

+    

+    scalable = dir->scalable.entries;

+    nonScalable = dir->nonScalable.entries;

+    for (s = 0; s < dir->scalable.used; s++)

+    {

+	extra = scalable[s].u.scalable.extra;

+	scaled = extra->scaled;

+	for (i = 0; i < extra->numScaled; i++)

+	    for (b = 0; b < dir->nonScalable.used; b++)

+		if (nonScalable[b].name.name == (char *) scaled[i].bitmap)

+		    scaled[i].bitmap = &nonScalable[b];

+    }

+}

+

+void

+FontFileRemoveScaledInstance (FontEntryPtr entry, FontPtr pFont)

+{

+    FontScalableEntryPtr    scalable;

+    FontScalableExtraPtr    extra;

+    int			    i;

+

+    scalable = &entry->u.scalable;

+    extra = scalable->extra;

+    for (i = 0; i < extra->numScaled; i++)

+    {

+	if (extra->scaled[i].pFont == pFont)

+	{

+	    if (extra->scaled[i].vals.ranges)

+		free (extra->scaled[i].vals.ranges);

+	    extra->numScaled--;

+	    for (; i < extra->numScaled; i++)

+		extra->scaled[i] = extra->scaled[i+1];

+	}

+    }

+}

+

+Bool

+FontFileCompleteXLFD (FontScalablePtr vals, FontScalablePtr def)

+{

+    FontResolutionPtr res;

+    int		num_res;

+    double	sx, sy, temp_matrix[4];

+    double	pixel_setsize_adjustment = 1.0;

+    /*

+     * If two of the three vertical scale values are specified, compute the

+     * third.  If all three are specified, make sure they are consistent

+     * (within a pixel)

+     *

+     * One purpose of this procedure is to complete XLFD names in a

+     * repeatable manner.  That is, if the user partially specifies

+     * a name (say, pixelsize but not pointsize), the results generated

+     * here result in a fully specified name that will result in the

+     * same font.

+     */

+

+    res = GetClientResolutions(&num_res);

+

+    if (!(vals->values_supplied & PIXELSIZE_MASK) ||

+	!(vals->values_supplied & POINTSIZE_MASK))

+    {

+	/* If resolution(s) unspecified and cannot be computed from

+	   pixelsize and pointsize, get appropriate defaults. */

+

+	if (num_res)

+	{

+	    if (vals->x <= 0)

+		vals->x = res->x_resolution;

+	    if (vals->y <= 0)

+		vals->y = res->y_resolution;

+	}

+

+	if (vals->x <= 0)

+	    vals->x = def->x;

+	if (vals->y <= 0)

+	    vals->y = def->y;

+    }

+    else

+    {

+	/* If needed, compute resolution values from the pixel and

+	   pointsize information we were given.  This problem is

+	   overdetermined (four equations, two unknowns), but we don't

+	   check for inconsistencies here.  If they exist, they will

+	   show up in later tests for the point and pixel sizes.  */

+

+	if (vals->y <= 0)

+	{

+	    double x = hypot(vals->pixel_matrix[1], vals->pixel_matrix[3]);

+	    double y = hypot(vals->point_matrix[1], vals->point_matrix[3]);

+	    if (y < EPS) return FALSE;

+	    vals->y = (int)(x * 72.27 / y + .5);

+	}

+	if (vals->x <= 0)

+	{

+	    /* If the pixelsize was given as an array, or as a scalar that

+	       has been normalized for the pixel shape, we have enough

+	       information to compute a separate horizontal resolution */

+

+	    if ((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY ||

+	        (vals->values_supplied & PIXELSIZE_MASK) ==

+		    PIXELSIZE_SCALAR_NORMALIZED)

+	    {

+		double x = hypot(vals->pixel_matrix[0], vals->pixel_matrix[2]);

+		double y = hypot(vals->point_matrix[0], vals->point_matrix[2]);

+		if (y < EPS) return FALSE;

+		vals->x = (int)(x * 72.27 / y + .5);

+	    }

+	    else

+	    {

+		/* Not enough information in the pixelsize array.  Just

+		   assume the pixels are square. */

+		vals->x = vals->y;

+	    }

+	}

+    }

+

+    if (vals->x <= 0 || vals->y <= 0) return FALSE;

+

+    /* If neither pixelsize nor pointsize is defined, take the pointsize

+       from the defaults structure we've been passed. */

+    if (!(vals->values_supplied & PIXELSIZE_MASK) &&

+	!(vals->values_supplied & POINTSIZE_MASK))

+    {

+	if (num_res)

+	{

+	    vals->point_matrix[0] =

+	    vals->point_matrix[3] = (double)res->point_size / 10.0;

+	    vals->point_matrix[1] =

+	    vals->point_matrix[2] = 0;

+	    vals->values_supplied = (vals->values_supplied & ~POINTSIZE_MASK) |

+				    POINTSIZE_SCALAR;

+	}

+	else if (def->values_supplied & POINTSIZE_MASK)

+	{

+	    vals->point_matrix[0] = def->point_matrix[0];

+	    vals->point_matrix[1] = def->point_matrix[1];

+	    vals->point_matrix[2] = def->point_matrix[2];

+	    vals->point_matrix[3] = def->point_matrix[3];

+	    vals->values_supplied = (vals->values_supplied & ~POINTSIZE_MASK) |

+				    (def->values_supplied & POINTSIZE_MASK);

+	}

+	else return FALSE;

+    }

+

+    /* At this point, at least two of the three vertical scale values

+       should be specified.  Our job now is to compute the missing ones

+       and check for agreement between overspecified values */

+

+    /* If pixelsize was specified by a scalar, we need to fix the matrix

+       now that we know the resolutions.  */

+    if ((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_SCALAR)

+    {

+	/* pixel_setsize_adjustment used below to modify permissible

+	   error in pixel/pointsize matching, since multiplying a

+	   number rounded to integer changes the amount of the error

+	   caused by the rounding */

+

+	pixel_setsize_adjustment = (double)vals->x / (double)vals->y;

+	vals->pixel_matrix[0] *= pixel_setsize_adjustment;

+	vals->values_supplied  = (vals->values_supplied & ~PIXELSIZE_MASK) |

+				 PIXELSIZE_SCALAR_NORMALIZED;

+    }

+

+    sx = (double)vals->x / 72.27;

+    sy = (double)vals->y / 72.27;

+

+    /* If a pointsize was specified, make sure pixelsize is consistent

+       to within 1 pixel, then replace pixelsize with a consistent

+       floating-point value.  */

+

+    if (vals->values_supplied & POINTSIZE_MASK)

+    {

+    recompute_pixelsize: ;

+	temp_matrix[0] = vals->point_matrix[0] * sx;

+	temp_matrix[1] = vals->point_matrix[1] * sy;

+	temp_matrix[2] = vals->point_matrix[2] * sx;

+	temp_matrix[3] = vals->point_matrix[3] * sy;

+	if (vals->values_supplied & PIXELSIZE_MASK)

+	{

+	    if (fabs(vals->pixel_matrix[0] - temp_matrix[0]) >

+		    pixel_setsize_adjustment ||

+		fabs(vals->pixel_matrix[1] - temp_matrix[1]) > 1 ||

+		fabs(vals->pixel_matrix[2] - temp_matrix[2]) > 1 ||

+		fabs(vals->pixel_matrix[3] - temp_matrix[3]) > 1)

+		return FALSE;

+	}

+	if ((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY &&

+	    (vals->values_supplied & POINTSIZE_MASK) == POINTSIZE_SCALAR)

+	{

+	    /* In the special case that pixelsize came as an array and

+	       pointsize as a scalar, recompute the pointsize matrix

+	       from the pixelsize matrix. */

+	    goto recompute_pointsize;

+	}

+

+	/* Refresh pixel matrix with precise values computed from

+	   pointsize and resolution.  */

+	vals->pixel_matrix[0] = temp_matrix[0];

+	vals->pixel_matrix[1] = temp_matrix[1];

+	vals->pixel_matrix[2] = temp_matrix[2];

+	vals->pixel_matrix[3] = temp_matrix[3];

+

+	/* Set values_supplied for pixel to match that for point */

+	vals->values_supplied =

+	    (vals->values_supplied & ~PIXELSIZE_MASK) |

+	    (((vals->values_supplied & POINTSIZE_MASK) == POINTSIZE_ARRAY) ?

+		PIXELSIZE_ARRAY : PIXELSIZE_SCALAR_NORMALIZED);

+    }

+    else

+    {

+	/* Pointsize unspecified...  compute from pixel size and

+	   resolutions */

+    recompute_pointsize: ;

+	if (fabs(sx) < EPS || fabs(sy) < EPS) return FALSE;

+	vals->point_matrix[0] = vals->pixel_matrix[0] / sx;

+	vals->point_matrix[1] = vals->pixel_matrix[1] / sy;

+	vals->point_matrix[2] = vals->pixel_matrix[2] / sx;

+	vals->point_matrix[3] = vals->pixel_matrix[3] / sy;

+

+	/* Set values_supplied for pixel to match that for point */

+	vals->values_supplied =

+	    (vals->values_supplied & ~POINTSIZE_MASK) |

+	    (((vals->values_supplied & PIXELSIZE_MASK) == PIXELSIZE_ARRAY) ?

+		POINTSIZE_ARRAY : POINTSIZE_SCALAR);

+

+	/* If we computed scalar pointsize from scalar pixelsize, round

+	   pointsize to decipoints and recompute pixelsize so we end up

+	   with a repeatable name */

+	if ((vals->values_supplied & POINTSIZE_MASK) == POINTSIZE_SCALAR)

+	{

+	    /* Off-diagonal elements should be zero since no matrix was

+	       specified. */

+	    vals->point_matrix[0] =

+		(double)(int)(vals->point_matrix[0] * 10.0 + .5) / 10.0;

+	    vals->point_matrix[3] =

+		(double)(int)(vals->point_matrix[3] * 10.0 + .5) / 10.0;

+	    goto recompute_pixelsize;

+	}

+    }

+

+    /* We've succeeded.  Round everything to a few decimal places

+       for repeatability. */

+

+    vals->pixel_matrix[0] = xlfd_round_double(vals->pixel_matrix[0]);

+    vals->pixel_matrix[1] = xlfd_round_double(vals->pixel_matrix[1]);

+    vals->pixel_matrix[2] = xlfd_round_double(vals->pixel_matrix[2]);

+    vals->pixel_matrix[3] = xlfd_round_double(vals->pixel_matrix[3]);

+    vals->point_matrix[0] = xlfd_round_double(vals->point_matrix[0]);

+    vals->point_matrix[1] = xlfd_round_double(vals->point_matrix[1]);

+    vals->point_matrix[2] = xlfd_round_double(vals->point_matrix[2]);

+    vals->point_matrix[3] = xlfd_round_double(vals->point_matrix[3]);

+

+    /* Fill in the deprecated fields for the benefit of rasterizers

+       that do not handle the matrices. */

+    vals->point = vals->point_matrix[3] * 10;

+    vals->pixel = vals->pixel_matrix[3];

+

+    return TRUE;

+}

+

+static Bool

+MatchScalable (FontScalablePtr a, FontScalablePtr b)

+{

+    int i;

+

+    /* Some asymmetry here:  we assume that the first argument (a) is

+       the table entry and the second (b) the item we're trying to match

+       (the key).  We'll consider the fonts matched if the relevant

+       metrics match *and* if a) the table entry doesn't have charset

+       subsetting or b) the table entry has identical charset subsetting

+       to that in the key.  We could add logic to check if the table

+       entry has a superset of the charset required by the key, but

+       we'll resist the urge for now.  */

+

+#define EQUAL(a,b) ((a)[0] == (b)[0] && \

+                    (a)[1] == (b)[1] && \

+                    (a)[2] == (b)[2] && \

+                    (a)[3] == (b)[3])

+

+    if (!(a->x == b->x &&

+	  a->y == b->y &&

+	  (a->width == b->width || a->width == 0 || b->width == 0 || b->width == -1) &&

+	  (!(b->values_supplied & PIXELSIZE_MASK) ||

+	    ((a->values_supplied & PIXELSIZE_MASK) ==

+	     (b->values_supplied & PIXELSIZE_MASK) &&

+	    EQUAL(a->pixel_matrix, b->pixel_matrix))) &&

+	  (!(b->values_supplied & POINTSIZE_MASK) ||

+	    ((a->values_supplied & POINTSIZE_MASK) ==

+	     (b->values_supplied & POINTSIZE_MASK) &&

+	    EQUAL(a->point_matrix, b->point_matrix))) &&

+	  (a->nranges == 0 || a->nranges == b->nranges)))

+      return FALSE;

+

+    for (i = 0; i < a->nranges; i++)

+	if (a->ranges[i].min_char_low != b->ranges[i].min_char_low ||

+	    a->ranges[i].min_char_high != b->ranges[i].min_char_high ||

+	    a->ranges[i].max_char_low != b->ranges[i].max_char_low ||

+	    a->ranges[i].max_char_high != b->ranges[i].max_char_high)

+		return FALSE;

+ 

+    return TRUE;

+}

+

+FontScaledPtr

+FontFileFindScaledInstance (FontEntryPtr entry, FontScalablePtr vals, 

+			    int noSpecificSize)

+{

+    FontScalableEntryPtr    scalable;

+    FontScalableExtraPtr    extra;

+    FontScalablePtr	    mvals;

+    int			    dist, i;

+    int			    mini;

+    double		    mindist;

+    register double	    temp, sum=0.0;

+

+#define NORMDIFF(a, b) ( \

+    temp = (a)[0] - (b)[0], \

+    sum = temp * temp, \

+    temp = (a)[1] - (b)[1], \

+    sum += temp * temp, \

+    temp = (a)[2] - (b)[2], \

+    sum += temp * temp, \

+    temp = (a)[3] - (b)[3], \

+    sum + temp * temp )

+

+    scalable = &entry->u.scalable;

+    extra = scalable->extra;

+    if (noSpecificSize && extra->numScaled)

+    {

+	mini = 0;

+	mindist = NORMDIFF(extra->scaled[0].vals.point_matrix,

+			   vals->point_matrix);

+	for (i = 1; i < extra->numScaled; i++)

+	{

+	    if (extra->scaled[i].pFont &&

+		!extra->scaled[i].pFont->info.cachable) continue;

+	    mvals = &extra->scaled[i].vals;

+	    dist = NORMDIFF(mvals->point_matrix, vals->point_matrix);

+	    if (dist < mindist)

+	    {

+		mindist = dist;

+		mini = i;

+	    }

+	}

+	if (extra->scaled[mini].pFont &&

+	    !extra->scaled[mini].pFont->info.cachable) return 0;

+	return &extra->scaled[mini];

+    }

+    else

+    {

+    	/* See if we've scaled to this value yet */

+    	for (i = 0; i < extra->numScaled; i++)

+    	{

+	    if (extra->scaled[i].pFont &&

+		!extra->scaled[i].pFont->info.cachable) continue;

+	    if (MatchScalable (&extra->scaled[i].vals, vals))

+	    	return &extra->scaled[i];

+    	}

+    }

+    return 0;

+}