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|
/*
* tkUnixRFont.c --
*
* Alternate implementation of tkUnixFont.c using Xft.
*
* Copyright © 2002-2003 Keith Packard
*
* See the file "license.terms" for information on usage and redistribution of
* this file, and for a DISCLAIMER OF ALL WARRANTIES.
*/
#include "tkUnixInt.h"
#include "tkFont.h"
#include <X11/Xft/Xft.h>
#define MAX_CACHED_COLORS 16
typedef struct {
XftFont *ftFont;
XftFont *ft0Font;
FcPattern *source;
FcCharSet *charset;
double angle;
} UnixFtFace;
typedef struct {
XftColor color;
int next;
} UnixFtColorList;
typedef struct {
TkFont font; /* Stuff used by generic font package. Must be
* first in structure. */
UnixFtFace *faces;
int nfaces;
FcFontSet *fontset;
FcPattern *pattern;
Display *display;
int screen;
XftDraw *ftDraw;
int ncolors;
int firstColor;
UnixFtColorList colors[MAX_CACHED_COLORS];
} UnixFtFont;
/*
* Used to describe the current clipping box. Can't be passed normally because
* the information isn't retrievable from the GC.
*/
typedef struct {
Region clipRegion; /* The clipping region, or None. */
} ThreadSpecificData;
static Tcl_ThreadDataKey dataKey;
/*
*-------------------------------------------------------------------------
*
* TkpFontPkgInit --
*
* This procedure is called when an application is created. It
* initializes all the structures that are used by the
* platform-dependant code on a per application basis.
* Note that this is called before TkpInit() !
*
* Results:
* None.
*
* Side effects:
* None.
*
*-------------------------------------------------------------------------
*/
static int utf8ToUcs4(const char *source, FcChar32 *c, int numBytes)
{
if (numBytes >= 6) {
return TkUtfToUniChar(source, (int *)c);
}
return FcUtf8ToUcs4((const FcChar8 *)source, c, numBytes);
}
void
TkpFontPkgInit(
TkMainInfo *mainPtr) /* The application being created. */
{
(void)mainPtr;
}
static XftFont *
GetFont(
UnixFtFont *fontPtr,
FcChar32 ucs4,
double angle)
{
int i;
if (ucs4) {
for (i = 0; i < fontPtr->nfaces; i++) {
FcCharSet *charset = fontPtr->faces[i].charset;
if (charset && FcCharSetHasChar(charset, ucs4)) {
break;
}
}
if (i == fontPtr->nfaces) {
i = 0;
}
} else {
i = 0;
}
if ((angle == 0.0 && !fontPtr->faces[i].ft0Font) || (angle != 0.0 &&
(!fontPtr->faces[i].ftFont || fontPtr->faces[i].angle != angle))){
FcPattern *pat = FcFontRenderPrepare(0, fontPtr->pattern,
fontPtr->faces[i].source);
double s = sin(angle*PI/180.0), c = cos(angle*PI/180.0);
FcMatrix mat;
XftFont *ftFont;
/*
* Initialize the matrix manually so this can compile with HP-UX cc
* (which does not allow non-constant structure initializers). [Bug
* 2978410]
*/
mat.xx = mat.yy = c;
mat.xy = -(mat.yx = s);
if (angle != 0.0) {
FcPatternAddMatrix(pat, FC_MATRIX, &mat);
}
ftFont = XftFontOpenPattern(fontPtr->display, pat);
if (!ftFont) {
/*
* The previous call to XftFontOpenPattern() should not fail, but
* sometimes does anyway. Usual cause appears to be a
* misconfigured fontconfig installation; see [Bug 1090382]. Try a
* fallback:
*/
ftFont = XftFontOpen(fontPtr->display, fontPtr->screen,
FC_FAMILY, FcTypeString, "sans",
FC_SIZE, FcTypeDouble, 12.0,
FC_MATRIX, FcTypeMatrix, &mat,
NULL);
}
if (!ftFont) {
/*
* The previous call should definitely not fail. Impossible to
* proceed at this point.
*/
Tcl_Panic("Cannot find a usable font");
}
if (angle == 0.0) {
fontPtr->faces[i].ft0Font = ftFont;
} else {
if (fontPtr->faces[i].ftFont) {
XftFontClose(fontPtr->display, fontPtr->faces[i].ftFont);
}
fontPtr->faces[i].ftFont = ftFont;
fontPtr->faces[i].angle = angle;
}
}
return (angle==0.0? fontPtr->faces[i].ft0Font : fontPtr->faces[i].ftFont);
}
/*
*---------------------------------------------------------------------------
*
* GetTkFontAttributes --
* Fill in TkFontAttributes from an XftFont.
*/
static void
GetTkFontAttributes(
XftFont *ftFont,
TkFontAttributes *faPtr)
{
const char *family = "Unknown";
const char *const *familyPtr = &family;
int weight, slant, pxsize;
double size, ptsize;
(void) XftPatternGetString(ftFont->pattern, XFT_FAMILY, 0, familyPtr);
if (XftPatternGetDouble(ftFont->pattern, XFT_SIZE, 0,
&ptsize) == XftResultMatch) {
size = ptsize;
} else if (XftPatternGetDouble(ftFont->pattern, XFT_PIXEL_SIZE, 0,
&ptsize) == XftResultMatch) {
size = -ptsize;
} else if (XftPatternGetInteger(ftFont->pattern, XFT_PIXEL_SIZE, 0,
&pxsize) == XftResultMatch) {
size = (double)-pxsize;
} else {
size = 12.0;
}
if (XftPatternGetInteger(ftFont->pattern, XFT_WEIGHT, 0,
&weight) != XftResultMatch) {
weight = XFT_WEIGHT_MEDIUM;
}
if (XftPatternGetInteger(ftFont->pattern, XFT_SLANT, 0,
&slant) != XftResultMatch) {
slant = XFT_SLANT_ROMAN;
}
#ifdef DEBUG_FONTSEL
printf("family %s size %d weight %d slant %d\n",
family, (int)size, weight, slant);
#endif /* DEBUG_FONTSEL */
faPtr->family = Tk_GetUid(family);
faPtr->size = size;
faPtr->weight = (weight > XFT_WEIGHT_MEDIUM) ? TK_FW_BOLD : TK_FW_NORMAL;
faPtr->slant = (slant > XFT_SLANT_ROMAN) ? TK_FS_ITALIC : TK_FS_ROMAN;
faPtr->underline = 0;
faPtr->overstrike = 0;
}
/*
*---------------------------------------------------------------------------
*
* GetTkFontMetrics --
* Fill in TkFontMetrics from an XftFont.
*/
static void
GetTkFontMetrics(
XftFont *ftFont,
TkFontMetrics *fmPtr)
{
int spacing;
if (XftPatternGetInteger(ftFont->pattern, XFT_SPACING, 0,
&spacing) != XftResultMatch) {
spacing = XFT_PROPORTIONAL;
}
fmPtr->ascent = ftFont->ascent;
fmPtr->descent = ftFont->descent;
fmPtr->maxWidth = ftFont->max_advance_width;
fmPtr->fixed = spacing != XFT_PROPORTIONAL;
}
/*
*---------------------------------------------------------------------------
*
* InitFont --
*
* Initializes the fields of a UnixFtFont structure. If fontPtr is NULL,
* also allocates a new UnixFtFont.
*
* Results:
* On error, frees fontPtr and returns NULL, otherwise returns fontPtr.
*
*---------------------------------------------------------------------------
*/
static void
FinishedWithFont(
UnixFtFont *fontPtr);
static int
InitFontErrorProc(
ClientData clientData,
TCL_UNUSED(XErrorEvent *))
{
int *errorFlagPtr = (int *)clientData;
if (errorFlagPtr != NULL) {
*errorFlagPtr = 1;
}
return 0;
}
static UnixFtFont *
InitFont(
Tk_Window tkwin,
FcPattern *pattern,
UnixFtFont *fontPtr)
{
FcFontSet *set;
FcCharSet *charset;
FcResult result;
XftFont *ftFont;
int i, iWidth, errorFlag;
Tk_ErrorHandler handler;
if (!fontPtr) {
fontPtr = (UnixFtFont *)ckalloc(sizeof(UnixFtFont));
}
FcConfigSubstitute(0, pattern, FcMatchPattern);
XftDefaultSubstitute(Tk_Display(tkwin), Tk_ScreenNumber(tkwin), pattern);
/*
* Generate the list of fonts
*/
set = FcFontSort(0, pattern, FcTrue, NULL, &result);
if (!set || set->nfont == 0) {
ckfree(fontPtr);
return NULL;
}
fontPtr->fontset = set;
fontPtr->pattern = pattern;
fontPtr->faces = (UnixFtFace *)ckalloc(set->nfont * sizeof(UnixFtFace));
fontPtr->nfaces = set->nfont;
/*
* Fill in information about each returned font
*/
for (i = 0; i < set->nfont; i++) {
fontPtr->faces[i].ftFont = 0;
fontPtr->faces[i].ft0Font = 0;
fontPtr->faces[i].source = set->fonts[i];
if (FcPatternGetCharSet(set->fonts[i], FC_CHARSET, 0,
&charset) == FcResultMatch) {
fontPtr->faces[i].charset = FcCharSetCopy(charset);
} else {
fontPtr->faces[i].charset = 0;
}
fontPtr->faces[i].angle = 0.0;
}
fontPtr->display = Tk_Display(tkwin);
fontPtr->screen = Tk_ScreenNumber(tkwin);
fontPtr->ftDraw = 0;
fontPtr->ncolors = 0;
fontPtr->firstColor = -1;
/*
* Fill in platform-specific fields of TkFont.
*/
errorFlag = 0;
handler = Tk_CreateErrorHandler(Tk_Display(tkwin),
-1, -1, -1, InitFontErrorProc, (ClientData) &errorFlag);
ftFont = GetFont(fontPtr, 0, 0.0);
if ((ftFont == NULL) || errorFlag) {
Tk_DeleteErrorHandler(handler);
FinishedWithFont(fontPtr);
ckfree(fontPtr);
return NULL;
}
fontPtr->font.fid = XLoadFont(Tk_Display(tkwin), "fixed");
GetTkFontAttributes(ftFont, &fontPtr->font.fa);
GetTkFontMetrics(ftFont, &fontPtr->font.fm);
Tk_DeleteErrorHandler(handler);
if (errorFlag) {
FinishedWithFont(fontPtr);
ckfree(fontPtr);
return NULL;
}
/*
* Fontconfig can't report any information about the position or thickness
* of underlines or overstrikes. Thus, we use some defaults that are
* hacked around from backup defaults in tkUnixFont.c, which are in turn
* based on recommendations in the X manual. The comments from that file
* leading to these computations were:
*
* If the XA_UNDERLINE_POSITION property does not exist, the X manual
* recommends using half the descent.
*
* If the XA_UNDERLINE_THICKNESS property does not exist, the X
* manual recommends using the width of the stem on a capital letter.
* I don't know of a way to get the stem width of a letter, so guess
* and use 1/3 the width of a capital I.
*
* Note that nothing corresponding to *either* property is reported by
* Fontconfig at all. [Bug 1961455]
*/
{
TkFont *fPtr = &fontPtr->font;
fPtr->underlinePos = fPtr->fm.descent / 2;
handler = Tk_CreateErrorHandler(Tk_Display(tkwin),
-1, -1, -1, InitFontErrorProc, (ClientData) &errorFlag);
errorFlag = 0;
Tk_MeasureChars((Tk_Font) fPtr, "I", 1, -1, 0, &iWidth);
Tk_DeleteErrorHandler(handler);
if (errorFlag) {
FinishedWithFont(fontPtr);
ckfree(fontPtr);
return NULL;
}
fPtr->underlineHeight = iWidth / 3;
if (fPtr->underlineHeight == 0) {
fPtr->underlineHeight = 1;
}
if (fPtr->underlineHeight + fPtr->underlinePos > fPtr->fm.descent) {
fPtr->underlineHeight = fPtr->fm.descent - fPtr->underlinePos;
if (fPtr->underlineHeight == 0) {
fPtr->underlinePos--;
fPtr->underlineHeight = 1;
}
}
}
return fontPtr;
}
static void
FinishedWithFont(
UnixFtFont *fontPtr)
{
Display *display = fontPtr->display;
int i;
Tk_ErrorHandler handler =
Tk_CreateErrorHandler(display, -1, -1, -1, NULL, NULL);
for (i = 0; i < fontPtr->nfaces; i++) {
if (fontPtr->faces[i].ftFont) {
XftFontClose(fontPtr->display, fontPtr->faces[i].ftFont);
}
if (fontPtr->faces[i].ft0Font) {
XftFontClose(fontPtr->display, fontPtr->faces[i].ft0Font);
}
if (fontPtr->faces[i].charset) {
FcCharSetDestroy(fontPtr->faces[i].charset);
}
}
if (fontPtr->faces) {
ckfree(fontPtr->faces);
}
if (fontPtr->pattern) {
FcPatternDestroy(fontPtr->pattern);
}
if (fontPtr->ftDraw) {
XftDrawDestroy(fontPtr->ftDraw);
}
if (fontPtr->font.fid) {
XUnloadFont(fontPtr->display, fontPtr->font.fid);
}
if (fontPtr->fontset) {
FcFontSetDestroy(fontPtr->fontset);
}
Tk_DeleteErrorHandler(handler);
}
TkFont *
TkpGetNativeFont(
Tk_Window tkwin, /* For display where font will be used. */
const char *name) /* Platform-specific font name. */
{
UnixFtFont *fontPtr;
FcPattern *pattern;
#ifdef DEBUG_FONTSEL
printf("TkpGetNativeFont %s\n", name);
#endif /* DEBUG_FONTSEL */
pattern = XftXlfdParse(name, FcFalse, FcFalse);
if (!pattern) {
return NULL;
}
/*
* Should also try: pattern = FcNameParse(name); but generic/tkFont.c
* expects TkpGetNativeFont() to only work on XLFD names under Unix.
*/
fontPtr = InitFont(tkwin, pattern, NULL);
if (!fontPtr) {
FcPatternDestroy(pattern);
return NULL;
}
return &fontPtr->font;
}
TkFont *
TkpGetFontFromAttributes(
TkFont *tkFontPtr, /* If non-NULL, store the information in this
* existing TkFont structure, rather than
* allocating a new structure to hold the
* font; the existing contents of the font
* will be released. If NULL, a new TkFont
* structure is allocated. */
Tk_Window tkwin, /* For display where font will be used. */
const TkFontAttributes *faPtr)
/* Set of attributes to match. */
{
XftPattern *pattern;
int weight, slant;
UnixFtFont *fontPtr;
#ifdef DEBUG_FONTSEL
printf("TkpGetFontFromAttributes %s-%d %d %d\n", faPtr->family,
faPtr->size, faPtr->weight, faPtr->slant);
#endif /* DEBUG_FONTSEL */
pattern = XftPatternCreate();
if (faPtr->family) {
XftPatternAddString(pattern, XFT_FAMILY, faPtr->family);
}
if (faPtr->size > 0.0) {
XftPatternAddDouble(pattern, XFT_SIZE, faPtr->size);
} else if (faPtr->size < 0.0) {
XftPatternAddDouble(pattern, XFT_SIZE, TkFontGetPoints(tkwin, faPtr->size));
} else {
XftPatternAddDouble(pattern, XFT_SIZE, 12.0);
}
switch (faPtr->weight) {
case TK_FW_NORMAL:
default:
weight = XFT_WEIGHT_MEDIUM;
break;
case TK_FW_BOLD:
weight = XFT_WEIGHT_BOLD;
break;
}
XftPatternAddInteger(pattern, XFT_WEIGHT, weight);
switch (faPtr->slant) {
case TK_FS_ROMAN:
default:
slant = XFT_SLANT_ROMAN;
break;
case TK_FS_ITALIC:
slant = XFT_SLANT_ITALIC;
break;
case TK_FS_OBLIQUE:
slant = XFT_SLANT_OBLIQUE;
break;
}
XftPatternAddInteger(pattern, XFT_SLANT, slant);
fontPtr = (UnixFtFont *) tkFontPtr;
if (fontPtr != NULL) {
FinishedWithFont(fontPtr);
}
fontPtr = InitFont(tkwin, pattern, fontPtr);
/*
* Hack to work around issues with weird issues with Xft/Xrender
* connection. For details, see comp.lang.tcl thread starting from
* <adcc99ed-c73e-4efc-bb5d-e57a57a051e8@l35g2000pra.googlegroups.com>
*/
if (!fontPtr) {
XftPatternAddBool(pattern, XFT_RENDER, FcFalse);
fontPtr = InitFont(tkwin, pattern, fontPtr);
}
if (!fontPtr) {
FcPatternDestroy(pattern);
return NULL;
}
fontPtr->font.fa.underline = faPtr->underline;
fontPtr->font.fa.overstrike = faPtr->overstrike;
return &fontPtr->font;
}
void
TkpDeleteFont(
TkFont *tkFontPtr) /* Token of font to be deleted. */
{
UnixFtFont *fontPtr = (UnixFtFont *) tkFontPtr;
FinishedWithFont(fontPtr);
/* XXX tkUnixFont.c doesn't free tkFontPtr... */
}
/*
*---------------------------------------------------------------------------
*
* TkpGetFontFamilies --
*
* Return information about the font families that are available on the
* display of the given window.
*
* Results:
* Modifies interp's result object to hold a list of all the available
* font families.
*
*---------------------------------------------------------------------------
*/
void
TkpGetFontFamilies(
Tcl_Interp *interp, /* Interp to hold result. */
Tk_Window tkwin) /* For display to query. */
{
Tcl_Obj *resultPtr;
XftFontSet *list;
int i;
resultPtr = Tcl_NewListObj(0, NULL);
list = XftListFonts(Tk_Display(tkwin), Tk_ScreenNumber(tkwin),
(char *) 0, /* pattern elements */
XFT_FAMILY, (char*) 0); /* fields */
for (i = 0; i < list->nfont; i++) {
char *family, **familyPtr = &family;
if (XftPatternGetString(list->fonts[i], XFT_FAMILY, 0, familyPtr)
== XftResultMatch) {
Tcl_Obj *strPtr = Tcl_NewStringObj(family, -1);
Tcl_ListObjAppendElement(NULL, resultPtr, strPtr);
}
}
XftFontSetDestroy(list);
Tcl_SetObjResult(interp, resultPtr);
}
/*
*-------------------------------------------------------------------------
*
* TkpGetSubFonts --
*
* Called by [testfont subfonts] in the Tk testing package.
*
* Results:
* Sets interp's result to a list of the faces used by tkfont
*
*-------------------------------------------------------------------------
*/
void
TkpGetSubFonts(
Tcl_Interp *interp,
Tk_Font tkfont)
{
Tcl_Obj *objv[3], *listPtr, *resultPtr;
UnixFtFont *fontPtr = (UnixFtFont *) tkfont;
FcPattern *pattern;
const char *family = "Unknown";
const char *const *familyPtr = &family;
const char *foundry = "Unknown";
const char *const *foundryPtr = &foundry;
const char *encoding = "Unknown";
const char *const *encodingPtr = &encoding;
int i;
resultPtr = Tcl_NewListObj(0, NULL);
for (i = 0; i < fontPtr->nfaces ; ++i) {
pattern = FcFontRenderPrepare(0, fontPtr->pattern,
fontPtr->faces[i].source);
XftPatternGetString(pattern, XFT_FAMILY, 0, familyPtr);
XftPatternGetString(pattern, XFT_FOUNDRY, 0, foundryPtr);
XftPatternGetString(pattern, XFT_ENCODING, 0, encodingPtr);
objv[0] = Tcl_NewStringObj(family, -1);
objv[1] = Tcl_NewStringObj(foundry, -1);
objv[2] = Tcl_NewStringObj(encoding, -1);
listPtr = Tcl_NewListObj(3, objv);
Tcl_ListObjAppendElement(NULL, resultPtr, listPtr);
}
Tcl_SetObjResult(interp, resultPtr);
}
/*
*----------------------------------------------------------------------
*
* TkpGetFontAttrsForChar --
*
* Retrieve the font attributes of the actual font used to render a given
* character.
*
*----------------------------------------------------------------------
*/
void
TkpGetFontAttrsForChar(
TCL_UNUSED(Tk_Window), /* Window on the font's display */
Tk_Font tkfont, /* Font to query */
int c, /* Character of interest */
TkFontAttributes *faPtr) /* Output: Font attributes */
{
UnixFtFont *fontPtr = (UnixFtFont *) tkfont;
/* Structure describing the logical font */
FcChar32 ucs4 = (FcChar32) c;
/* UCS-4 character to map */
XftFont *ftFont = GetFont(fontPtr, ucs4, 0.0);
/* Actual font used to render the character */
GetTkFontAttributes(ftFont, faPtr);
faPtr->underline = fontPtr->font.fa.underline;
faPtr->overstrike = fontPtr->font.fa.overstrike;
}
int
Tk_MeasureChars(
Tk_Font tkfont, /* Font in which characters will be drawn. */
const char *source, /* UTF-8 string to be displayed. Need not be
* '\0' terminated. */
int numBytes, /* Maximum number of bytes to consider from
* source string. */
int maxLength, /* If >= 0, maxLength specifies the longest
* permissible line length in pixels; don't
* consider any character that would cross
* this x-position. If < 0, then line length
* is unbounded and the flags argument is
* ignored. */
int flags, /* Various flag bits OR-ed together:
* TK_PARTIAL_OK means include the last char
* which only partially fit on this line.
* TK_WHOLE_WORDS means stop on a word
* boundary, if possible. TK_AT_LEAST_ONE
* means return at least one character even if
* no characters fit. */
int *lengthPtr) /* Filled with x-location just after the
* terminating character. */
{
UnixFtFont *fontPtr = (UnixFtFont *) tkfont;
XftFont *ftFont;
FcChar32 c;
XGlyphInfo extents;
int clen, curX, newX, curByte, newByte, sawNonSpace;
int termByte = 0, termX = 0, errorFlag = 0;
Tk_ErrorHandler handler;
#ifdef DEBUG_FONTSEL
char string[256];
int len = 0;
#endif /* DEBUG_FONTSEL */
handler = Tk_CreateErrorHandler(fontPtr->display,
-1, -1, -1, InitFontErrorProc, &errorFlag);
curX = 0;
curByte = 0;
sawNonSpace = 0;
while (numBytes > 0) {
int unichar;
clen = TkUtfToUniChar(source, &unichar);
c = (FcChar32) unichar;
if (clen <= 0) {
/*
* This can't happen (but see #1185640)
*/
*lengthPtr = curX;
return curByte;
}
source += clen;
numBytes -= clen;
if (c < 256 && isspace(c)) { /* I18N: ??? */
if (sawNonSpace) {
termByte = curByte;
termX = curX;
sawNonSpace = 0;
}
} else {
sawNonSpace = 1;
}
#ifdef DEBUG_FONTSEL
string[len++] = (char) c;
#endif /* DEBUG_FONTSEL */
ftFont = GetFont(fontPtr, c, 0.0);
if (!errorFlag) {
XftTextExtents32(fontPtr->display, ftFont, &c, 1, &extents);
} else {
extents.xOff = 0;
errorFlag = 0;
}
newX = curX + extents.xOff;
newByte = curByte + clen;
if (maxLength >= 0 && newX > maxLength) {
if (flags & TK_PARTIAL_OK ||
(flags & TK_AT_LEAST_ONE && curByte == 0)) {
curX = newX;
curByte = newByte;
} else if (flags & TK_WHOLE_WORDS) {
if ((flags & TK_AT_LEAST_ONE) && (termX == 0)) {
/*
* No space was seen before reaching the right
* of the allotted maxLength space, i.e. no word
* boundary. Return the string that fills the
* allotted space, without overfill.
* curX and curByte are already the right ones:
*/
} else {
curX = termX;
curByte = termByte;
}
}
break;
}
curX = newX;
curByte = newByte;
}
Tk_DeleteErrorHandler(handler);
#ifdef DEBUG_FONTSEL
string[len] = '\0';
printf("MeasureChars %s length %d bytes %d\n", string, curX, curByte);
#endif /* DEBUG_FONTSEL */
*lengthPtr = curX;
return curByte;
}
int
TkpMeasureCharsInContext(
Tk_Font tkfont,
const char *source,
int numBytes,
int rangeStart,
int rangeLength,
int maxLength,
int flags,
int *lengthPtr)
{
(void) numBytes; /*unused*/
return Tk_MeasureChars(tkfont, source + rangeStart, rangeLength,
maxLength, flags, lengthPtr);
}
/*
*----------------------------------------------------------------------
*
* LookUpColor --
*
* Convert a pixel value to an XftColor. This can be slow due to the
* need to call XQueryColor, which involves a server round-trip. To
* avoid that, a least-recently-used cache of up to MAX_CACHED_COLORS
* is kept, in the form of a linked list. The returned color is moved
* to the front of the list, so repeatedly asking for the same one
* should be fast.
*
* Results:
* A pointer to the XftColor structure for the requested color is
* returned.
*
* Side effects:
* The converted color is stored in a cache in the UnixFtFont structure. The cache
* can hold at most MAX_CACHED_COLORS colors. If no more slots are available, the least
* recently used color is replaced with the new one.
*----------------------------------------------------------------------
*/
static XftColor *
LookUpColor(Display *display, /* Display to lookup colors on */
UnixFtFont *fontPtr, /* Font to search for cached colors */
unsigned long pixel) /* Pixel value to translate to XftColor */
{
int i, last = -1, last2 = -1;
XColor xcolor;
for (i = fontPtr->firstColor;
i >= 0; last2 = last, last = i, i = fontPtr->colors[i].next) {
if (pixel == fontPtr->colors[i].color.pixel) {
/*
* Color found in cache. Move it to the front of the list and return it.
*/
if (last >= 0) {
fontPtr->colors[last].next = fontPtr->colors[i].next;
fontPtr->colors[i].next = fontPtr->firstColor;
fontPtr->firstColor = i;
}
return &fontPtr->colors[i].color;
}
}
/*
* Color wasn't found, so it needs to be added to the cache.
* If a spare slot is available, it can be put there. If not, last
* will now point to the least recently used color, so replace that one.
*/
if (fontPtr->ncolors < MAX_CACHED_COLORS) {
last2 = -1;
last = fontPtr->ncolors++;
}
/*
* Translate the pixel value to a color. Needs a server round-trip.
*/
xcolor.pixel = pixel;
XQueryColor(display, DefaultColormap(display, fontPtr->screen), &xcolor);
fontPtr->colors[last].color.color.red = xcolor.red;
fontPtr->colors[last].color.color.green = xcolor.green;
fontPtr->colors[last].color.color.blue = xcolor.blue;
fontPtr->colors[last].color.color.alpha = 0xFFFF;
fontPtr->colors[last].color.pixel = pixel;
/*
* Put at the front of the list.
*/
if (last2 >= 0) {
fontPtr->colors[last2].next = fontPtr->colors[last].next;
}
fontPtr->colors[last].next = fontPtr->firstColor;
fontPtr->firstColor = last;
return &fontPtr->colors[last].color;
}
#define NUM_SPEC 1024
void
Tk_DrawChars(
Display *display, /* Display on which to draw. */
Drawable drawable, /* Window or pixmap in which to draw. */
GC gc, /* Graphics context for drawing characters. */
Tk_Font tkfont, /* Font in which characters will be drawn;
* must be the same as font used in GC. */
const char *source, /* UTF-8 string to be displayed. Need not be
* '\0' terminated. All Tk meta-characters
* (tabs, control characters, and newlines)
* should be stripped out of the string that
* is passed to this function. If they are not
* stripped out, they will be displayed as
* regular printing characters. */
int numBytes, /* Number of bytes in string. */
int x, int y) /* Coordinates at which to place origin of
* string when drawing. */
{
const int maxCoord = 0x7FFF;/* Xft coordinates are 16 bit values */
const int minCoord = -maxCoord-1;
UnixFtFont *fontPtr = (UnixFtFont *) tkfont;
XGCValues values;
XftColor *xftcolor;
int clen, nspec, xStart = x;
XftGlyphFontSpec specs[NUM_SPEC];
XGlyphInfo metrics;
ThreadSpecificData *tsdPtr = (ThreadSpecificData *)
Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData));
if (fontPtr->ftDraw == 0) {
#ifdef DEBUG_FONTSEL
printf("Switch to drawable 0x%x\n", drawable);
#endif /* DEBUG_FONTSEL */
fontPtr->ftDraw = XftDrawCreate(display, drawable,
DefaultVisual(display, fontPtr->screen),
DefaultColormap(display, fontPtr->screen));
} else {
Tk_ErrorHandler handler =
Tk_CreateErrorHandler(display, -1, -1, -1, NULL, NULL);
XftDrawChange(fontPtr->ftDraw, drawable);
Tk_DeleteErrorHandler(handler);
}
XGetGCValues(display, gc, GCForeground, &values);
xftcolor = LookUpColor(display, fontPtr, values.foreground);
if (tsdPtr->clipRegion != NULL) {
XftDrawSetClip(fontPtr->ftDraw, tsdPtr->clipRegion);
}
nspec = 0;
while (numBytes > 0) {
XftFont *ftFont;
FcChar32 c;
clen = utf8ToUcs4(source, &c, numBytes);
if (clen <= 0) {
/*
* This should not happen, but it can.
*/
goto doUnderlineStrikeout;
}
source += clen;
numBytes -= clen;
ftFont = GetFont(fontPtr, c, 0.0);
if (ftFont) {
specs[nspec].glyph = XftCharIndex(fontPtr->display, ftFont, c);
XftGlyphExtents(fontPtr->display, ftFont, &specs[nspec].glyph, 1,
&metrics);
/*
* Draw glyph only when it fits entirely into 16 bit coords.
*/
if (x >= minCoord && y >= minCoord &&
x <= maxCoord - metrics.width &&
y <= maxCoord - metrics.height) {
specs[nspec].font = ftFont;
specs[nspec].x = x;
specs[nspec].y = y;
if (++nspec == NUM_SPEC) {
XftDrawGlyphFontSpec(fontPtr->ftDraw, xftcolor,
specs, nspec);
nspec = 0;
}
}
x += metrics.xOff;
y += metrics.yOff;
}
}
if (nspec) {
XftDrawGlyphFontSpec(fontPtr->ftDraw, xftcolor, specs, nspec);
}
doUnderlineStrikeout:
if (tsdPtr->clipRegion != NULL) {
XftDrawSetClip(fontPtr->ftDraw, NULL);
}
if (fontPtr->font.fa.underline != 0) {
XFillRectangle(display, drawable, gc, xStart,
y + fontPtr->font.underlinePos, (unsigned) (x - xStart),
(unsigned) fontPtr->font.underlineHeight);
}
if (fontPtr->font.fa.overstrike != 0) {
y -= fontPtr->font.fm.descent + (fontPtr->font.fm.ascent) / 10;
XFillRectangle(display, drawable, gc, xStart, y,
(unsigned) (x - xStart),
(unsigned) fontPtr->font.underlineHeight);
}
}
/*
*---------------------------------------------------------------------------
*
* TkDrawAngledChars --
*
* Draw some characters at an angle. This would be simple code, except
* Xft has bugs with cumulative errors in character positioning which are
* caused by trying to perform all calculations internally with integers.
* So we have to do the work ourselves with floating-point math.
*
* Results:
* None.
*
* Side effects:
* Target drawable is updated.
*
*---------------------------------------------------------------------------
*/
void
TkDrawAngledChars(
Display *display, /* Display on which to draw. */
Drawable drawable, /* Window or pixmap in which to draw. */
GC gc, /* Graphics context for drawing characters. */
Tk_Font tkfont, /* Font in which characters will be drawn;
* must be the same as font used in GC. */
const char *source, /* UTF-8 string to be displayed. Need not be
* '\0' terminated. All Tk meta-characters
* (tabs, control characters, and newlines)
* should be stripped out of the string that
* is passed to this function. If they are not
* stripped out, they will be displayed as
* regular printing characters. */
int numBytes, /* Number of bytes in string. */
double x, double y, /* Coordinates at which to place origin of
* string when drawing. */
double angle) /* What angle to put text at, in degrees. */
{
const int maxCoord = 0x7FFF;/* Xft coordinates are 16 bit values */
const int minCoord = -maxCoord-1;
UnixFtFont *fontPtr = (UnixFtFont *) tkfont;
XGCValues values;
XftColor *xftcolor;
int xStart = x, yStart = y;
ThreadSpecificData *tsdPtr = (ThreadSpecificData *)
Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData));
#ifdef XFT_HAS_FIXED_ROTATED_PLACEMENT
int clen, nglyph;
FT_UInt glyphs[NUM_SPEC];
XGlyphInfo metrics;
XftFont *currentFtFont;
int originX, originY;
if (fontPtr->ftDraw == 0) {
#ifdef DEBUG_FONTSEL
printf("Switch to drawable 0x%x\n", drawable);
#endif /* DEBUG_FONTSEL */
fontPtr->ftDraw = XftDrawCreate(display, drawable,
DefaultVisual(display, fontPtr->screen),
DefaultColormap(display, fontPtr->screen));
} else {
Tk_ErrorHandler handler =
Tk_CreateErrorHandler(display, -1, -1, -1, NULL, NULL);
XftDrawChange(fontPtr->ftDraw, drawable);
Tk_DeleteErrorHandler(handler);
}
XGetGCValues(display, gc, GCForeground, &values);
xftcolor = LookUpColor(display, fontPtr, values.foreground);
if (tsdPtr->clipRegion != None) {
XftDrawSetClip(fontPtr->ftDraw, tsdPtr->clipRegion);
}
nglyph = 0;
currentFtFont = NULL;
originX = originY = 0;
while (numBytes > 0) {
XftFont *ftFont;
FcChar32 c;
clen = utf8ToUcs4(source, &c, numBytes);
if (clen <= 0) {
/*
* This should not happen, but it can.
*/
goto doUnderlineStrikeout;
}
source += clen;
numBytes -= clen;
ftFont = GetFont(fontPtr, c, angle);
if (!ftFont) {
continue;
}
if (ftFont != currentFtFont || nglyph == NUM_SPEC) {
if (nglyph) {
/*
* We pass multiple glyphs at once to enable the code to
* perform better rendering of sub-pixel inter-glyph spacing.
* If only the current Xft implementation could make use of
* this information... but we'll be ready when it does!
*/
XftGlyphExtents(fontPtr->display, currentFtFont, glyphs,
nglyph, &metrics);
/*
* Draw glyph only when it fits entirely into 16 bit coords.
*/
if (x >= minCoord && y >= minCoord &&
x <= maxCoord - metrics.width &&
y <= maxCoord - metrics.height) {
/*
* NOTE:
* The whole algorithm has a design problem, the choice of
* NUM_SPEC is arbitrary, and so the inter-glyph spacing could
* look arbitrary. This algorithm has to draw the whole string
* at once (or whole blocks with same font), this requires a
* dynamic 'glyphs' array. In case of overflow the array has to
* be divided until the maximal string will fit. (GC)
* Given the resolution of current displays though, this should
* not be a huge issue since NUM_SPEC is 1024 and thus able to
* cover about 6000 pixels for a 6 pixel wide font (which is
* a very small barely readable font)
*/
XftDrawGlyphs(fontPtr->ftDraw, xftcolor, currentFtFont,
originX, originY, glyphs, nglyph);
}
}
originX = ROUND16(x);
originY = ROUND16(y);
currentFtFont = ftFont;
}
glyphs[nglyph++] = XftCharIndex(fontPtr->display, ftFont, c);
}
if (nglyph) {
XftGlyphExtents(fontPtr->display, currentFtFont, glyphs,
nglyph, &metrics);
/*
* Draw glyph only when it fits entirely into 16 bit coords.
*/
if (x >= minCoord && y >= minCoord &&
x <= maxCoord - metrics.width &&
y <= maxCoord - metrics.height) {
XftDrawGlyphs(fontPtr->ftDraw, xftcolor, currentFtFont,
originX, originY, glyphs, nglyph);
}
}
#else /* !XFT_HAS_FIXED_ROTATED_PLACEMENT */
int clen, nspec;
XftGlyphFontSpec specs[NUM_SPEC];
XGlyphInfo metrics;
double sinA = sin(angle * PI/180.0), cosA = cos(angle * PI/180.0);
if (fontPtr->ftDraw == 0) {
#ifdef DEBUG_FONTSEL
printf("Switch to drawable 0x%x\n", drawable);
#endif /* DEBUG_FONTSEL */
fontPtr->ftDraw = XftDrawCreate(display, drawable,
DefaultVisual(display, fontPtr->screen),
DefaultColormap(display, fontPtr->screen));
} else {
Tk_ErrorHandler handler =
Tk_CreateErrorHandler(display, -1, -1, -1, NULL, NULL);
XftDrawChange(fontPtr->ftDraw, drawable);
Tk_DeleteErrorHandler(handler);
}
XGetGCValues(display, gc, GCForeground, &values);
xftcolor = LookUpColor(display, fontPtr, values.foreground);
if (tsdPtr->clipRegion != NULL) {
XftDrawSetClip(fontPtr->ftDraw, tsdPtr->clipRegion);
}
nspec = 0;
while (numBytes > 0) {
XftFont *ftFont, *ft0Font;
FcChar32 c;
clen = utf8ToUcs4(source, &c, numBytes);
if (clen <= 0) {
/*
* This should not happen, but it can.
*/
goto doUnderlineStrikeout;
}
source += clen;
numBytes -= clen;
ftFont = GetFont(fontPtr, c, angle);
ft0Font = GetFont(fontPtr, c, 0.0);
if (ftFont && ft0Font) {
specs[nspec].glyph = XftCharIndex(fontPtr->display, ftFont, c);
XftGlyphExtents(fontPtr->display, ft0Font, &specs[nspec].glyph, 1,
&metrics);
/*
* Draw glyph only when it fits entirely into 16 bit coords.
*/
if (x >= minCoord && y >= minCoord &&
x <= maxCoord - metrics.width &&
y <= maxCoord - metrics.height) {
specs[nspec].font = ftFont;
specs[nspec].x = ROUND16(x);
specs[nspec].y = ROUND16(y);
if (++nspec == NUM_SPEC) {
XftDrawGlyphFontSpec(fontPtr->ftDraw, xftcolor,
specs, nspec);
nspec = 0;
}
}
x += metrics.xOff*cosA + metrics.yOff*sinA;
y += metrics.yOff*cosA - metrics.xOff*sinA;
}
}
if (nspec) {
XftDrawGlyphFontSpec(fontPtr->ftDraw, xftcolor, specs, nspec);
}
#endif /* XFT_HAS_FIXED_ROTATED_PLACEMENT */
doUnderlineStrikeout:
if (tsdPtr->clipRegion != NULL) {
XftDrawSetClip(fontPtr->ftDraw, NULL);
}
if (fontPtr->font.fa.underline || fontPtr->font.fa.overstrike) {
XPoint points[5];
double width = (x - xStart) * cosA + (yStart - y) * sinA;
double barHeight = fontPtr->font.underlineHeight;
double dy = fontPtr->font.underlinePos;
if (fontPtr->font.fa.underline != 0) {
if (fontPtr->font.underlineHeight == 1) {
dy++;
}
points[0].x = xStart + ROUND16(dy*sinA);
points[0].y = yStart + ROUND16(dy*cosA);
points[1].x = xStart + ROUND16(dy*sinA + width*cosA);
points[1].y = yStart + ROUND16(dy*cosA - width*sinA);
if (fontPtr->font.underlineHeight == 1) {
XDrawLines(display, drawable, gc, points, 2, CoordModeOrigin);
} else {
points[2].x = xStart + ROUND16(dy*sinA + width*cosA
+ barHeight*sinA);
points[2].y = yStart + ROUND16(dy*cosA - width*sinA
+ barHeight*cosA);
points[3].x = xStart + ROUND16(dy*sinA + barHeight*sinA);
points[3].y = yStart + ROUND16(dy*cosA + barHeight*cosA);
points[4].x = points[0].x;
points[4].y = points[0].y;
XFillPolygon(display, drawable, gc, points, 5, Complex,
CoordModeOrigin);
XDrawLines(display, drawable, gc, points, 5, CoordModeOrigin);
}
}
if (fontPtr->font.fa.overstrike != 0) {
dy = -fontPtr->font.fm.descent
- (fontPtr->font.fm.ascent) / 10;
points[0].x = xStart + ROUND16(dy*sinA);
points[0].y = yStart + ROUND16(dy*cosA);
points[1].x = xStart + ROUND16(dy*sinA + width*cosA);
points[1].y = yStart + ROUND16(dy*cosA - width*sinA);
if (fontPtr->font.underlineHeight == 1) {
XDrawLines(display, drawable, gc, points, 2, CoordModeOrigin);
} else {
points[2].x = xStart + ROUND16(dy*sinA + width*cosA
+ barHeight*sinA);
points[2].y = yStart + ROUND16(dy*cosA - width*sinA
+ barHeight*cosA);
points[3].x = xStart + ROUND16(dy*sinA + barHeight*sinA);
points[3].y = yStart + ROUND16(dy*cosA + barHeight*cosA);
points[4].x = points[0].x;
points[4].y = points[0].y;
XFillPolygon(display, drawable, gc, points, 5, Complex,
CoordModeOrigin);
XDrawLines(display, drawable, gc, points, 5, CoordModeOrigin);
}
}
}
}
/*
*---------------------------------------------------------------------------
*
* TkpDrawCharsInContext --
*
* Draw a string of characters on the screen like Tk_DrawChars(), but
* with access to all the characters on the line for context. On X11 this
* context isn't consulted, so we just call Tk_DrawChars().
*
* Note: TK_DRAW_IN_CONTEXT being currently defined only on macOS, this
* function is unused (and possibly unfinished). See [7655f65ae7].
*
* Results:
* None.
*
* Side effects:
* Information gets drawn on the screen.
*
*---------------------------------------------------------------------------
*/
void
TkpDrawCharsInContext(
Display *display, /* Display on which to draw. */
Drawable drawable, /* Window or pixmap in which to draw. */
GC gc, /* Graphics context for drawing characters. */
Tk_Font tkfont, /* Font in which characters will be drawn;
* must be the same as font used in GC. */
const char *source, /* UTF-8 string to be displayed. Need not be
* '\0' terminated. All Tk meta-characters
* (tabs, control characters, and newlines)
* should be stripped out of the string that
* is passed to this function. If they are not
* stripped out, they will be displayed as
* regular printing characters. */
int numBytes, /* Number of bytes in string. */
int rangeStart, /* Index of first byte to draw. */
int rangeLength, /* Length of range to draw in bytes. */
int x, int y) /* Coordinates at which to place origin of the
* whole (not just the range) string when
* drawing. */
{
int widthUntilStart;
(void) numBytes; /*unused*/
Tk_MeasureChars(tkfont, source, rangeStart, -1, 0, &widthUntilStart);
Tk_DrawChars(display, drawable, gc, tkfont, source + rangeStart,
rangeLength, x+widthUntilStart, y);
}
void
TkpDrawAngledCharsInContext(
Display *display, /* Display on which to draw. */
Drawable drawable, /* Window or pixmap in which to draw. */
GC gc, /* Graphics context for drawing characters. */
Tk_Font tkfont, /* Font in which characters will be drawn; must
* be the same as font used in GC. */
const char * source, /* UTF-8 string to be displayed. Need not be
* '\0' terminated. All Tk meta-characters
* (tabs, control characters, and newlines)
* should be stripped out of the string that is
* passed to this function. If they are not
* stripped out, they will be displayed as
* regular printing characters. */
int numBytes, /* Number of bytes in string. */
int rangeStart, /* Index of first byte to draw. */
int rangeLength, /* Length of range to draw in bytes. */
double x, double y, /* Coordinates at which to place origin of the
* whole (not just the range) string when
* drawing. */
double angle) /* What angle to put text at, in degrees. */
{
int widthUntilStart;
double sinA = sin(angle * PI/180.0), cosA = cos(angle * PI/180.0);
(void) numBytes; /*unused*/
Tk_MeasureChars(tkfont, source, rangeStart, -1, 0, &widthUntilStart);
TkDrawAngledChars(display, drawable, gc, tkfont, source + rangeStart,
rangeLength, x+cosA*widthUntilStart, y-sinA*widthUntilStart, angle);
}
void
TkUnixSetXftClipRegion(
Region clipRegion) /* The clipping region to install. */
{
ThreadSpecificData *tsdPtr = (ThreadSpecificData *)
Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData));
tsdPtr->clipRegion = clipRegion;
}
/*
* Local Variables:
* c-basic-offset: 4
* fill-column: 78
* End:
*/
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