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|
/****************************************************************************\
Part of the XeTeX typesetting system
copyright (c) 1994-2008 by SIL International
copyright (c) 2009 by Jonathan Kew
Written by Jonathan Kew
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
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 COPYRIGHT HOLDERS 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 copyright holders
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 copyright holders.
\****************************************************************************/
/* XeTeX_mac.c
* additional plain C extensions for XeTeX - MacOS-specific routines
*/
#ifdef __POWERPC__
#define MAC_OS_X_VERSION_MIN_REQUIRED MAC_OS_X_VERSION_10_2
#else
#define MAC_OS_X_VERSION_MIN_REQUIRED MAC_OS_X_VERSION_10_4
#endif
#define EXTERN extern
#include "xetexd.h"
#undef input /* this is defined in texmfmp.h, but we don't need it and it confuses the carbon headers */
#include <Carbon/Carbon.h>
#include <QuickTime/QuickTime.h>
#include <teckit/TECkit_Engine.h>
#include "XeTeX_ext.h"
#include "XeTeXLayoutInterface.h"
#include "XeTeXswap.h"
static ATSUTextLayout sTextLayout = 0;
static void
InitializeLayout()
{
OSStatus status = ATSUCreateTextLayout(&sTextLayout);
ATSUFontFallbacks fallbacks;
status = ATSUCreateFontFallbacks(&fallbacks);
status = ATSUSetObjFontFallbacks(fallbacks, 0, 0, kATSULastResortOnlyFallback);
ATSUAttributeTag tag = kATSULineFontFallbacksTag;
ByteCount valueSize = sizeof(fallbacks);
ATSUAttributeValuePtr value = &fallbacks;
status = ATSUSetLayoutControls(sTextLayout, 1, &tag, &valueSize, &value);
status = ATSUSetTransientFontMatching(sTextLayout, true);
}
static inline double
TeXtoPSPoints(double pts)
{
return pts * 72.0 / 72.27;
}
static inline double
PStoTeXPoints(double pts)
{
return pts * 72.27 / 72.0;
}
static inline Fixed
FixedTeXtoPSPoints(Fixed pts)
{
return X2Fix(TeXtoPSPoints(Fix2X(pts)));
}
static inline Fixed
FixedPStoTeXPoints(Fixed pts)
{
return X2Fix(PStoTeXPoints(Fix2X(pts)));
}
void
DoAtsuiLayout(void* p, int justify)
{
memoryword* node = (memoryword*)p;
unsigned f = native_font(node);
if (fontarea[f] != AAT_FONT_FLAG) {
fprintf(stderr, "internal error: do_atsui_layout called for non-ATSUI font\n");
exit(1);
}
if (sTextLayout == 0)
InitializeLayout();
OSStatus status = noErr;
long txtLen = native_length(node);
const UniChar* txtPtr = (UniChar*)(node + native_node_size);
status = ATSUSetTextPointerLocation(sTextLayout, txtPtr, 0, txtLen, txtLen);
// we're using this font in AAT mode, so fontlayoutengine[f] is actually an ATSUStyle
ATSUStyle style = (ATSUStyle)(fontlayoutengine[native_font(node)]);
status = ATSUSetRunStyle(sTextLayout, style, 0, txtLen);
ATSUAttributeTag tags[] = { kATSULineWidthTag, kATSULineJustificationFactorTag };
ItemCount numTags = sizeof(tags) / sizeof(ATSUAttributeTag);
if (justify) {
ByteCount valSizes[] = { sizeof(Fixed), sizeof(Fract) };
Fixed wid = FixedTeXtoPSPoints(node_width(node));
Fract just = fract1;
ATSUAttributeValuePtr valPtrs[] = { &wid, &just };
status = ATSUSetLayoutControls(sTextLayout, numTags, tags, valSizes, valPtrs);
}
ItemCount count;
ATSLayoutRecord* layoutRec = NULL;
status = ATSUDirectGetLayoutDataArrayPtrFromTextLayout(sTextLayout, 0,
kATSUDirectDataLayoutRecordATSLayoutRecordCurrent, (void*)&layoutRec, &count);
int i;
int realGlyphCount = 0;
int lastRealGlyph = 0;
for (i = 0; i < count; ++i)
if (layoutRec[i].glyphID < 0xfffe) {
lastRealGlyph = i;
++realGlyphCount;
}
void* glyph_info = xmalloc(realGlyphCount * native_glyph_info_size);
FixedPoint* locations = (FixedPoint*)glyph_info;
UInt16* glyphIDs = (UInt16*)(locations + realGlyphCount);
Fixed lsUnit = justify ? 0 : fontletterspace[f];
Fixed lsDelta = 0;
realGlyphCount = 0;
for (i = 0; i < count; ++i) {
if (layoutRec[i].glyphID < 0xfffe) {
if ((layoutRec[i].flags & kATSGlyphInfoIsAttachment) && (lsDelta != 0))
lsDelta -= lsUnit;
glyphIDs[realGlyphCount] = layoutRec[i].glyphID;
locations[realGlyphCount].y = 0; /* FIXME: won't handle baseline offsets */
locations[realGlyphCount].x = FixedPStoTeXPoints(layoutRec[i].realPos) + lsDelta;
lsDelta += lsUnit;
++realGlyphCount;
}
}
if (lsDelta != 0)
lsDelta -= lsUnit;
native_glyph_count(node) = realGlyphCount;
native_glyph_info_ptr(node) = glyph_info;
if (!justify)
node_width(node) = FixedPStoTeXPoints(layoutRec[count-1].realPos) + lsDelta;
ATSUDirectReleaseLayoutDataArrayPtr(NULL, kATSUDirectDataLayoutRecordATSLayoutRecordCurrent, (void*)&layoutRec);
if (justify)
ATSUClearLayoutControls(sTextLayout, numTags, tags);
}
static OSStatus QuadraticClosePath(void *callBackDataPtr)
{
return 0;
}
static OSStatus QuadraticCurve(const Float32Point *pt1, const Float32Point *controlPt, const Float32Point *pt2, void *callBackDataPtr)
{
GlyphBBox* data = (GlyphBBox*)callBackDataPtr;
if (pt1->x < data->xMin)
data->xMin = pt1->x;
if (pt1->x > data->xMax)
data->xMax = pt1->x;
if (pt1->y < data->yMin)
data->yMin = pt1->y;
if (pt1->y > data->yMax)
data->yMax = pt1->y;
if (pt2->x < data->xMin)
data->xMin = pt2->x;
if (pt2->x > data->xMax)
data->xMax = pt2->x;
if (pt2->y < data->yMin)
data->yMin = pt2->y;
if (pt2->y > data->yMax)
data->yMax = pt2->y;
if (controlPt->x < data->xMin)
data->xMin = controlPt->x;
if (controlPt->x > data->xMax)
data->xMax = controlPt->x;
if (controlPt->y < data->yMin)
data->yMin = controlPt->y;
if (controlPt->y > data->yMax)
data->yMax = controlPt->y;
return 0;
}
static OSStatus QuadraticLine(const Float32Point *pt1, const Float32Point *pt2, void *callBackDataPtr)
{
GlyphBBox* data = (GlyphBBox*)callBackDataPtr;
if (pt1->x < data->xMin)
data->xMin = pt1->x;
if (pt1->x > data->xMax)
data->xMax = pt1->x;
if (pt1->y < data->yMin)
data->yMin = pt1->y;
if (pt1->y > data->yMax)
data->yMax = pt1->y;
if (pt2->x < data->xMin)
data->xMin = pt2->x;
if (pt2->x > data->xMax)
data->xMax = pt2->x;
if (pt2->y < data->yMin)
data->yMin = pt2->y;
if (pt2->y > data->yMax)
data->yMax = pt2->y;
return 0;
}
static OSStatus QuadraticNewPath(void *callBackDataPtr)
{
return 0;
}
static OSStatus CubicMoveTo(const Float32Point *pt, void *callBackDataPtr)
{
GlyphBBox* data = (GlyphBBox*)callBackDataPtr;
if (pt->x < data->xMin)
data->xMin = pt->x;
if (pt->x > data->xMax)
data->xMax = pt->x;
if (pt->y < data->yMin)
data->yMin = pt->y;
if (pt->y > data->yMax)
data->yMax = pt->y;
return 0;
}
static OSStatus CubicLineTo(const Float32Point *pt, void *callBackDataPtr)
{
GlyphBBox* data = (GlyphBBox*)callBackDataPtr;
if (pt->x < data->xMin)
data->xMin = pt->x;
if (pt->x > data->xMax)
data->xMax = pt->x;
if (pt->y < data->yMin)
data->yMin = pt->y;
if (pt->y > data->yMax)
data->yMax = pt->y;
return 0;
}
static OSStatus CubicCurveTo(const Float32Point *pt1, const Float32Point *pt2, const Float32Point *pt3, void *callBackDataPtr)
{
GlyphBBox* data = (GlyphBBox*)callBackDataPtr;
if (pt1->x < data->xMin)
data->xMin = pt1->x;
if (pt1->x > data->xMax)
data->xMax = pt1->x;
if (pt1->y < data->yMin)
data->yMin = pt1->y;
if (pt1->y > data->yMax)
data->yMax = pt1->y;
if (pt2->x < data->xMin)
data->xMin = pt2->x;
if (pt2->x > data->xMax)
data->xMax = pt2->x;
if (pt2->y < data->yMin)
data->yMin = pt2->y;
if (pt2->y > data->yMax)
data->yMax = pt2->y;
if (pt3->x < data->xMin)
data->xMin = pt3->x;
if (pt3->x > data->xMax)
data->xMax = pt3->x;
if (pt3->y < data->yMin)
data->yMin = pt3->y;
if (pt3->y > data->yMax)
data->yMax = pt3->y;
return 0;
}
static OSStatus CubicClosePath(void *callBackDataPtr)
{
return 0;
}
void GetGlyphBBox_AAT(ATSUStyle style, UInt16 gid, GlyphBBox* bbox)
/* returns glyph bounding box in TeX points */
{
ATSCurveType curveType;
OSStatus status;
bbox->xMin = 65536.0;
bbox->yMin = 65536.0;
bbox->xMax = -65536.0;
bbox->yMax = -65536.0;
status = ATSUGetNativeCurveType(style, &curveType);
if (status == noErr) {
OSStatus cbStatus;
if (curveType == kATSCubicCurveType) {
static ATSCubicMoveToUPP cubicMoveToProc;
static ATSCubicLineToUPP cubicLineToProc;
static ATSCubicCurveToUPP cubicCurveToProc;
static ATSCubicClosePathUPP cubicClosePathProc;
if (cubicMoveToProc == NULL) {
cubicMoveToProc = NewATSCubicMoveToUPP(&CubicMoveTo);
cubicLineToProc = NewATSCubicLineToUPP(&CubicLineTo);
cubicCurveToProc = NewATSCubicCurveToUPP(&CubicCurveTo);
cubicClosePathProc = NewATSCubicClosePathUPP(&CubicClosePath);
}
status = ATSUGlyphGetCubicPaths(style, gid,
cubicMoveToProc, cubicLineToProc, cubicCurveToProc, cubicClosePathProc,
bbox, &cbStatus);
}
else {
static ATSQuadraticNewPathUPP quadraticNewPathProc;
static ATSQuadraticLineUPP quadraticLineProc;
static ATSQuadraticCurveUPP quadraticCurveProc;
static ATSQuadraticClosePathUPP quadraticClosePathProc;
if (quadraticNewPathProc == NULL) {
quadraticNewPathProc = NewATSQuadraticNewPathUPP(&QuadraticNewPath);
quadraticLineProc = NewATSQuadraticLineUPP(&QuadraticLine);
quadraticCurveProc = NewATSQuadraticCurveUPP(&QuadraticCurve);
quadraticClosePathProc = NewATSQuadraticClosePathUPP(&QuadraticClosePath);
}
status = ATSUGlyphGetQuadraticPaths(style, gid,
quadraticNewPathProc, quadraticLineProc, quadraticCurveProc, quadraticClosePathProc,
bbox, &cbStatus);
}
}
if (status != noErr || bbox->xMin == 65536.0)
bbox->xMin = bbox->yMin = bbox->xMax = bbox->yMax = 0;
else {
// convert PS to TeX points and flip y-axis
float tmp = bbox->yMin;
bbox->yMin = -bbox->yMax * 72.27 / 72.0;
bbox->yMax = -tmp * 72.27 / 72.0;
bbox->xMin *= 72.27 / 72.0;
bbox->xMax *= 72.27 / 72.0;
}
}
float GetGlyphWidth_AAT(ATSUStyle style, UInt16 gid)
/* returns TeX points */
{
ATSGlyphIdealMetrics metrics;
OSStatus status = ATSUGlyphGetIdealMetrics(style, 1, &gid, 0, &metrics);
if (status == noErr)
return PStoTeXPoints(metrics.advance.x);
else
return 0;
}
void GetGlyphHeightDepth_AAT(ATSUStyle style, UInt16 gid, float* ht, float* dp)
/* returns TeX points */
{
GlyphBBox bbox;
GetGlyphBBox_AAT(style, gid, &bbox);
*ht = bbox.yMax;
*dp = -bbox.yMin;
}
void GetGlyphSidebearings_AAT(ATSUStyle style, UInt16 gid, float* lsb, float* rsb)
/* returns TeX points */
{
ATSGlyphIdealMetrics metrics;
OSStatus status = ATSUGlyphGetIdealMetrics(style, 1, &gid, 0, &metrics);
if (status == noErr) {
GlyphBBox bbox;
GetGlyphBBox_AAT(style, gid, &bbox);
*lsb = bbox.xMin;
*rsb = PStoTeXPoints(metrics.advance.x) - bbox.xMax;
}
else {
*lsb = *rsb = 0;
}
}
float GetGlyphItalCorr_AAT(ATSUStyle style, UInt16 gid)
{
float rval = 0.0;
ATSGlyphIdealMetrics metrics;
OSStatus status = ATSUGlyphGetIdealMetrics(style, 1, &gid, 0, &metrics);
if (status == noErr) {
GlyphBBox bbox;
GetGlyphBBox_AAT(style, gid, &bbox);
if (bbox.xMax > PStoTeXPoints(metrics.advance.x))
rval = bbox.xMax - PStoTeXPoints(metrics.advance.x);
}
return rval;
}
int MapCharToGlyph_AAT(ATSUStyle style, UInt32 ch)
{
UniChar txt[2];
int len = 1;
if (sTextLayout == 0)
InitializeLayout();
if (ch > 0xffff) {
ch -= 0x10000;
txt[0] = 0xd800 + ch / 1024;
txt[1] = 0xdc00 + ch % 1024;
len = 2;
}
else
txt[0] = ch;
OSStatus status = ATSUSetTextPointerLocation(sTextLayout, &txt[0], 0, len, len);
if (status != noErr)
return 0;
status = ATSUSetRunStyle(sTextLayout, style, 0, len);
if (status != noErr)
return 0;
ByteCount bufferSize = sizeof(ATSUGlyphInfoArray);
ATSUGlyphInfoArray info;
status = ATSUGetGlyphInfo(sTextLayout, 0, len, &bufferSize, &info);
if (status == noErr) {
if (bufferSize > 0 && info.numGlyphs > 0)
return info.glyphs[0].glyphID;
}
return 0;
}
int MapGlyphToIndex_AAT(ATSUStyle style, const char* glyphName)
{
ATSUFontID fontID;
ATSUGetAttribute(style, kATSUFontTag, sizeof(ATSUFontID), &fontID, 0);
ATSFontRef fontRef = FMGetATSFontRefFromFont(fontID);
ByteCount length;
OSStatus status = ATSFontGetTable(fontRef, kPost, 0, 0, 0, &length);
if (status != noErr)
goto ats_failed;
void* table = xmalloc(length);
status = ATSFontGetTable(fontRef, kPost, 0, length, table, &length);
if (status != noErr) {
free(table);
goto ats_failed;
}
int rval = findGlyphInPostTable(table, length, glyphName);
free(table);
if (rval)
return rval;
ats_failed:
return GetGlyphIDFromCGFont(fontRef, glyphName);
}
int GetGlyphIDFromCGFont(ATSFontRef atsFontRef, const char* glyphName)
{
if (&CGFontGetGlyphWithGlyphName == NULL)
return 0;
int rval = 0;
CFStringRef psname;
OSStatus status = ATSFontGetPostScriptName(atsFontRef, 0, &psname);
if ((status == noErr) && psname) {
CGFontRef cgfont = CGFontCreateWithFontName(psname);
CFRelease(psname);
if (cgfont) {
CFStringRef glyphname = CFStringCreateWithCStringNoCopy(kCFAllocatorDefault,
glyphName,
kCFStringEncodingUTF8,
kCFAllocatorNull);
rval = CGFontGetGlyphWithGlyphName(cgfont, glyphname);
CFRelease(glyphname);
CGFontRelease(cgfont);
}
}
return rval;
}
char*
GetGlyphName_AAT(ATSUStyle style, UInt16 gid, int* len)
{
static char buffer[256];
const char* namePtr;
ATSUFontID fontID;
ATSUGetAttribute(style, kATSUFontTag, sizeof(ATSUFontID), &fontID, 0);
ATSFontRef fontRef = FMGetATSFontRefFromFont(fontID);
ByteCount length;
OSStatus status = ATSFontGetTable(fontRef, kPost, 0, 0, 0, &length);
if (status != noErr)
goto ats_failed;
void* table = xmalloc(length);
status = ATSFontGetTable(fontRef, kPost, 0, length, table, &length);
if (status != noErr) {
free(table);
goto ats_failed;
}
buffer[0] = 0;
namePtr = getGlyphNamePtr(table, length, gid, len);
if (*len > 255)
*len = 255;
if (namePtr) {
memcpy(buffer, namePtr, *len);
buffer[*len] = 0;
}
free(table);
if (buffer[0])
return &buffer[0];
ats_failed:
return GetGlyphNameFromCGFont(fontRef, gid, len);
}
char*
GetGlyphNameFromCGFont(ATSFontRef atsFontRef, UInt16 gid, int* len)
{
*len = 0;
static char buffer[256];
buffer[0] = 0;
if (&CGFontCopyGlyphNameForGlyph == NULL)
return &buffer[0];
CFStringRef psname;
OSStatus status = ATSFontGetPostScriptName(atsFontRef, 0, &psname);
if ((status == noErr) && psname) {
CGFontRef cgfont = CGFontCreateWithFontName(psname);
CFRelease(psname);
if (cgfont && gid < CGFontGetNumberOfGlyphs(cgfont)) {
CFStringRef glyphname = CGFontCopyGlyphNameForGlyph(cgfont, gid);
if (glyphname) {
if (CFStringGetCString(glyphname, buffer, 256, kCFStringEncodingUTF8)) {
*len = strlen(buffer);
}
CFRelease(glyphname);
}
CGFontRelease(cgfont);
}
}
return &buffer[0];
}
/*
int
GetFontCharRange_AAT(ATSUStyle style, int reqFirst)
{
if (reqFirst) {
int ch = 0;
while (MapCharToGlyph_AAT(style, ch) == 0 && ch < 0x10ffff)
++ch;
return ch;
}
else {
int ch = 0x10ffff;
while (MapCharToGlyph_AAT(style, ch) == 0 && ch > 0)
--ch;
return ch;
}
}
*/
ATSUFontVariationAxis
find_axis_by_name(ATSUFontID fontID, const char* name, int nameLength)
{
ATSUFontVariationAxis result = 0;
Str255 inName;
inName[0] = nameLength;
int i;
for (i = 0; i < inName[0]; ++i)
inName[i + 1] = name[i];
ItemCount varCount;
ATSUCountFontVariations(fontID, &varCount);
if (varCount > 0) {
for (i = 0; i < varCount; ++i) {
ATSUFontVariationAxis axis;
ATSUGetIndFontVariation(fontID, i, &axis, 0, 0, 0);
FontNameCode nameCode;
ATSUGetFontVariationNameCode(fontID, axis, &nameCode);
Str255 name;
ByteCount nameLen;
ATSUFindFontName(fontID, nameCode, kFontMacintoshPlatform, kFontNoScript, kFontNoLanguage,
255, (Ptr)&name[1], &nameLen, 0);
name[0] = nameLen;
if (EqualString(inName, name, false, true)) {
result = axis;
break;
}
}
}
return result;
}
ATSUFontFeatureType
find_feature_by_name(ATSUFontID fontID, const char* name, int nameLength)
{
ATSUFontFeatureType result = 0x0000FFFF;
Str255 inName;
inName[0] = nameLength;
int i;
for (i = 0; i < inName[0]; ++i)
inName[i + 1] = name[i];
ItemCount typeCount;
ATSUCountFontFeatureTypes(fontID, &typeCount);
if (typeCount > 0) {
ATSUFontFeatureType* types = (ATSUFontFeatureType*)xmalloc(typeCount * sizeof(ATSUFontFeatureType));
ATSUGetFontFeatureTypes(fontID, typeCount, types, 0);
for (i = 0; i < typeCount; ++i) {
FontNameCode nameCode;
ATSUGetFontFeatureNameCode(fontID, types[i], 0x0000FFFF, &nameCode);
Str255 name;
ByteCount nameLen;
ATSUFindFontName(fontID, nameCode, kFontMacintoshPlatform, kFontNoScript, kFontNoLanguage,
255, (Ptr)&name[1], &nameLen, 0);
name[0] = nameLen;
if (EqualString(inName, name, false, true)) {
result = types[i];
break;
}
}
free((char*)types);
}
return result;
}
ATSUFontFeatureSelector
find_selector_by_name(ATSUFontID fontID, ATSUFontFeatureType featureType, const char* name, int nameLength)
{
ATSUFontFeatureSelector result = 0x0000FFFF;
Str255 inName;
inName[0] = nameLength;
int i;
for (i = 0; i < inName[0]; ++i)
inName[i + 1] = name[i];
ItemCount selectorCount;
ATSUCountFontFeatureSelectors(fontID, featureType, &selectorCount);
if (selectorCount > 0) {
ATSUFontFeatureSelector* selectors = (ATSUFontFeatureSelector*)xmalloc(selectorCount * sizeof(ATSUFontFeatureSelector));
ATSUGetFontFeatureSelectors(fontID, featureType, selectorCount, selectors, 0, 0, 0);
for (i = 0; i < selectorCount; ++i) {
FontNameCode nameCode;
ATSUGetFontFeatureNameCode(fontID, featureType, selectors[i], &nameCode);
Str255 name;
ByteCount nameLen;
ATSUFindFontName(fontID, nameCode, kFontMacintoshPlatform, kFontNoScript, kFontNoLanguage,
255, (Ptr)&name[1], &nameLen, 0);
name[0] = nameLen;
if (EqualString(inName, name, false, true)) {
result = selectors[i];
break;
}
}
free((char*)selectors);
}
return result;
}
void*
loadAATfont(ATSFontRef fontRef, long scaled_size, const char* cp1)
{
ATSUFontID fontID = FMGetFontFromATSFontRef(fontRef);
ATSUStyle style = 0;
OSStatus status = ATSUCreateStyle(&style);
float extend = 1.0;
float slant = 0.0;
float embolden = 0.0;
float letterspace = 0.0;
int i;
if (status == noErr) {
UInt32 rgbValue;
Fixed tracking = 0x80000000;
Fixed atsuSize = FixedTeXtoPSPoints(scaled_size);
ATSStyleRenderingOptions options = kATSStyleNoHinting;
Fract hangInhibit = fract1;
ATSUAttributeTag tags[] = { kATSUFontTag, kATSUSizeTag, kATSUStyleRenderingOptionsTag, kATSUHangingInhibitFactorTag };
ByteCount sizes[] = { sizeof(ATSUFontID), sizeof(Fixed), sizeof(ATSStyleRenderingOptions), sizeof(Fract) };
ATSUAttributeValuePtr attrs[] = { &fontID, &atsuSize, &options, &hangInhibit };
ATSUSetAttributes(style, sizeof(tags) / sizeof(ATSUAttributeTag), tags, sizes, attrs);
#define FEAT_ALLOC_CHUNK 8
#define VAR_ALLOC_CHUNK 4
if (cp1 != NULL) {
int allocFeats = FEAT_ALLOC_CHUNK;
UInt16* featureTypes = (UInt16*)xmalloc(allocFeats * sizeof(UInt16));
UInt16* selectorValues = (UInt16*)xmalloc(allocFeats * sizeof(UInt16));
int numFeatures = 0;
int allocVars = VAR_ALLOC_CHUNK;
UInt32* axes = (UInt32*)xmalloc(allocVars * sizeof(UInt32));
SInt32* values = (SInt32*)xmalloc(allocVars * sizeof(SInt32));
int numVariations = 0;
// interpret features & variations following ":"
while (*cp1) {
// locate beginning of name=value pair
if (*cp1 == ':' || *cp1 == ';') // skip over separator
++cp1;
while (*cp1 == ' ' || *cp1 == '\t') // skip leading whitespace
++cp1;
if (*cp1 == 0) // break if end of string
break;
// scan to end of pair
const char* cp2 = cp1;
while (*cp2 && *cp2 != ';' && *cp2 != ':')
++cp2;
// look for the '=' separator
const char* cp3 = cp1;
while (cp3 < cp2 && *cp3 != '=')
++cp3;
if (cp3 == cp2)
goto bad_option;
// now cp1 points to option name, cp3 to '=', cp2 to ';' or null
// first try for a feature by this name
ATSUFontFeatureType featureType;
featureType = find_feature_by_name(fontID, cp1, cp3 - cp1);
if (featureType != 0x0000FFFF) {
// look past the '=' separator for setting names
int featLen = cp3 - cp1;
++cp3;
while (cp3 < cp2) {
// skip leading whitespace
while (*cp3 == ' ' || *cp3 == '\t')
++cp3;
// possibly multiple settings...
int disable = 0;
if (*cp3 == '!') { // check for negation
disable = 1;
++cp3;
}
// scan for end of setting name
const char* cp4 = cp3;
while (cp4 < cp2 && *cp4 != ',')
++cp4;
// now cp3 points to name, cp4 to ',' or ';' or null
ATSUFontFeatureSelector selectorValue = find_selector_by_name(fontID, featureType, cp3, cp4 - cp3);
if (selectorValue != 0x0000FFFF) {
if (numFeatures == allocFeats) {
allocFeats += FEAT_ALLOC_CHUNK;
featureTypes = xrealloc(featureTypes, allocFeats * sizeof(UInt16));
selectorValues = xrealloc(selectorValues, allocFeats * sizeof(UInt16));
}
featureTypes[numFeatures] = featureType;
selectorValues[numFeatures] = selectorValue + disable;
++numFeatures;
}
else {
fontfeaturewarning(cp1, featLen, cp3, cp4 - cp3);
}
// point beyond setting name terminator
cp3 = cp4 + 1;
}
goto next_option;
}
// try to find a variation by this name
ATSUFontVariationAxis axis;
axis = find_axis_by_name(fontID, cp1, cp3 - cp1);
if (axis != 0) {
// look past the '=' separator for the value
++cp3;
double value = 0.0, decimal = 1.0;
bool negate = false;
if (*cp3 == '-') {
++cp3;
negate = true;
}
while (cp3 < cp2) {
int v = *cp3 - '0';
if (v >= 0 && v <= 9) {
if (decimal != 1.0) {
value += v / decimal;
decimal *= 10.0;
}
else
value = value * 10.0 + v;
}
else if (*cp3 == '.') {
if (decimal != 1.0)
break;
decimal = 10.0;
}
else
break;
++cp3;
}
if (negate)
value = -value;
if (numVariations == allocVars) {
allocVars += VAR_ALLOC_CHUNK;
axes = xrealloc(axes, allocVars * sizeof(UInt32));
values = xrealloc(values, allocVars * sizeof(SInt32));
}
axes[numVariations] = axis;
values[numVariations] = value * 65536.0; // X2Fix(value);
++numVariations;
goto next_option;
}
// didn't find feature or variation, try other options....
i = readCommonFeatures(cp1, cp2, &extend, &slant, &embolden, &letterspace, &rgbValue);
if (i == 1)
goto next_option;
else if (i == -1)
goto bad_option;
if (strncmp(cp1, "tracking", 8) == 0) {
cp3 = cp1 + 8;
if (*cp3 != '=')
goto bad_option;
++cp3;
double val = read_double(&cp3);
tracking = X2Fix(val);
goto next_option;
}
bad_option:
// not a name=value pair, or not recognized....
// check for plain "vertical" before complaining
if (strncmp(cp1, "vertical", 8) == 0) {
cp3 = cp2;
if (*cp3 == ';' || *cp3 == ':')
--cp3;
while (*cp3 == '\0' || *cp3 == ' ' || *cp3 == '\t')
--cp3;
if (*cp3)
++cp3;
if (cp3 == cp1 + 8) {
ATSUVerticalCharacterType vert = kATSUStronglyVertical;
tags[0] = kATSUVerticalCharacterTag;
sizes[0] = sizeof(ATSUVerticalCharacterType);
attrs[0] = |
ATSUSetAttributes(style, 1, tags, sizes, attrs);
goto next_option;
}
}
fontfeaturewarning(cp1, cp2 - cp1, 0, 0);
next_option:
// go to next name=value pair
cp1 = cp2;
}
if (numFeatures > 0)
ATSUSetFontFeatures(style, numFeatures, featureTypes, selectorValues);
if (numVariations > 0)
ATSUSetVariations(style, numVariations, axes, values);
if ((loadedfontflags & FONT_FLAGS_COLORED) != 0) {
ATSURGBAlphaColor rgba;
rgba.red = ((rgbValue & 0xFF000000) >> 24) / 255.0;
rgba.green = ((rgbValue & 0x00FF0000) >> 16) / 255.0;
rgba.blue = ((rgbValue & 0x0000FF00) >> 8 ) / 255.0;
rgba.alpha = ((rgbValue & 0x000000FF) ) / 255.0;
tags[0] = kATSURGBAlphaColorTag;
sizes[0] = sizeof(ATSURGBAlphaColor);
attrs[0] = &rgba;
ATSUSetAttributes(style, 1, tags, sizes, attrs);
}
if (tracking != 0x80000000) {
tags[0] = kATSUTrackingTag;
sizes[0] = sizeof(Fixed);
attrs[0] = &tracking;
ATSUSetAttributes(style, 1, tags, sizes, attrs);
}
if (extend != 1.0 || slant != 0.0) {
CGAffineTransform t = { extend, slant, 0, 1.0, 0, 0 };
tags[0] = kATSUFontMatrixTag;
sizes[0] = sizeof(CGAffineTransform);
attrs[0] = &t;
ATSUSetAttributes(style, 1, tags, sizes, attrs);
}
if (embolden != 0.0) {
embolden = embolden * Fix2X(scaled_size) / 100.0;
tags[0] = kXeTeXEmboldenTag;
sizes[0] = sizeof(float);
attrs[0] = &embolden;
ATSUSetAttributes(style, 1, tags, sizes, attrs);
}
if (letterspace != 0.0)
loadedfontletterspace = (letterspace / 100.0) * scaled_size;
free((char*)featureTypes);
free((char*)selectorValues);
free((char*)axes);
free((char*)values);
}
}
nativefonttypeflag = AAT_FONT_FLAG;
return style;
}
int
countpdffilepages()
{
int rval = 0;
char* pic_path = kpse_find_file((char*)nameoffile + 1, kpse_pict_format, 1);
CFURLRef picFileURL = NULL;
if (pic_path) {
picFileURL = CFURLCreateFromFileSystemRepresentation(kCFAllocatorDefault, (UInt8*)pic_path, strlen(pic_path), false);
if (picFileURL != NULL) {
FSRef picFileRef;
CFURLGetFSRef(picFileURL, &picFileRef);
CGPDFDocumentRef document = CGPDFDocumentCreateWithURL(picFileURL);
if (document != NULL) {
rval = CGPDFDocumentGetNumberOfPages(document);
CGPDFDocumentRelease(document);
}
CFRelease(picFileURL);
}
free(pic_path);
}
return rval;
}
int
find_pic_file(char** path, realrect* bounds, int pdfBoxType, int page)
/* returns bounds in TeX points */
{
*path = NULL;
OSStatus result = fnfErr;
char* pic_path = kpse_find_file((char*)nameoffile + 1, kpse_pict_format, 1);
CFURLRef picFileURL = NULL;
if (pic_path) {
picFileURL = CFURLCreateFromFileSystemRepresentation(kCFAllocatorDefault, (UInt8*)pic_path, strlen(pic_path), false);
if (picFileURL != NULL) {
/* get an FSRef for the URL we constructed */
FSRef picFileRef;
CFURLGetFSRef(picFileURL, &picFileRef);
if (pdfBoxType > 0) {
CGPDFDocumentRef document = CGPDFDocumentCreateWithURL(picFileURL);
if (document != NULL) {
int nPages = CGPDFDocumentGetNumberOfPages(document);
if (page < 0)
page = nPages + 1 + page;
if (page < 1)
page = 1;
if (page > nPages)
page = nPages;
CGRect r;
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_3
if (&CGPDFDocumentGetPage == NULL) {
switch (pdfBoxType) {
case pdfbox_crop:
default:
r = CGPDFDocumentGetCropBox(document, page);
break;
case pdfbox_media:
r = CGPDFDocumentGetMediaBox(document, page);
break;
case pdfbox_bleed:
r = CGPDFDocumentGetBleedBox(document, page);
break;
case pdfbox_trim:
r = CGPDFDocumentGetTrimBox(document, page);
break;
case pdfbox_art:
r = CGPDFDocumentGetArtBox(document, page);
break;
}
}
else
#endif
{
CGPDFPageRef pageRef = CGPDFDocumentGetPage(document, page);
CGPDFBox boxType;
switch (pdfBoxType) {
case pdfbox_crop:
default:
boxType = kCGPDFCropBox;
break;
case pdfbox_media:
boxType = kCGPDFMediaBox;
break;
case pdfbox_bleed:
boxType = kCGPDFBleedBox;
break;
case pdfbox_trim:
boxType = kCGPDFTrimBox;
break;
case pdfbox_art:
boxType = kCGPDFArtBox;
break;
}
r = CGPDFPageGetBoxRect(pageRef, boxType);
}
bounds->x = r.origin.x * 72.27 / 72.0;
bounds->y = r.origin.y * 72.27 / 72.0;
bounds->wd = r.size.width * 72.27 / 72.0;
bounds->ht = r.size.height * 72.27 / 72.0;
CGPDFDocumentRelease(document);
result = noErr;
}
}
else {
/* make an FSSpec for the file, and try to import it as a pic */
FSSpec picFileSpec;
result = FSGetCatalogInfo(&picFileRef, kFSCatInfoNone, NULL, NULL, &picFileSpec, NULL);
if (result == noErr) {
ComponentInstance ci;
result = GetGraphicsImporterForFile(&picFileSpec, &ci);
if (result == noErr) {
ImageDescriptionHandle desc = NULL;
result = GraphicsImportGetImageDescription(ci, &desc);
bounds->x = 0;
bounds->y = 0;
bounds->wd = (*desc)->width * 72.27 / Fix2X((*desc)->hRes);
bounds->ht = (*desc)->height * 72.27 / Fix2X((*desc)->vRes);
DisposeHandle((Handle)desc);
(void)CloseComponent(ci);
}
}
}
CFRelease(picFileURL);
}
/* if we couldn't import it, toss the pathname as we'll be returning an error */
if (result != noErr)
free(pic_path);
else
*path = (char*)pic_path;
}
return result;
}
|