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qrawfont.cpp

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39 -

40 #include "qglobal.h" -

41 -

42 #if !defined(QT_NO_RAWFONT) -

43 -

44 #include "qrawfont.h" -

45 #include "qrawfont_p.h" -

46 #include "qplatformfontdatabase.h" -

47 -

48 #include <private/qguiapplication_p.h> -

49 #include <qpa/qplatformintegration.h> -

50 #include <qpa/qplatformfontdatabase.h> -

51 -

52 #include <QtCore/qendian.h> -

53 #include <QtCore/qfile.h> -

54 -

55 QT_BEGIN_NAMESPACE -

56 -

57 /*! -

58 \class QRawFont -

59 \brief The QRawFont class provides access to a single physical instance of a font. -

60 \since 4.8 -

61 \inmodule QtGui -

62 -

63 \ingroup text -

64 \ingroup shared -

65 -

66 \note QRawFont is a low level class. For most purposes QFont is a more appropriate class. -

67 -

68 Most commonly, when presenting text in a user interface, the exact fonts used -

69 to render the characters is to some extent unknown. This can be the case for several -

70 reasons: For instance, the actual, physical fonts present on the target system could be -

71 unexpected to the developers, or the text could contain user selected styles, sizes or -

72 writing systems that are not supported by font chosen in the code. -

73 -

74 Therefore, Qt's QFont class really represents a query for fonts. When text is interpreted, -

75 Qt will do its best to match the text to the query, but depending on the support, different -

76 fonts can be used behind the scenes. -

77 -

78 For most use cases, this is both expected and necessary, as it minimizes the possibility of -

79 text in the user interface being undisplayable. In some cases, however, more direct control -

80 over the process might be useful. It is for these use cases the QRawFont class exists. -

81 -

82 A QRawFont object represents a single, physical instance of a given font in a given pixel size. -

83 I.e. in the typical case it represents a set of TrueType or OpenType font tables and uses a -

84 user specified pixel size to convert metrics into logical pixel units. It can be used in -

85 combination with the QGlyphRun class to draw specific glyph indexes at specific positions, and -

86 also have accessors to some relevant data in the physical font. -

87 -

88 QRawFont only provides support for the main font technologies: GDI and DirectWrite on Windows -

89 platforms, FreeType on Linux platforms and CoreText on \macos. For other -

90 font back-ends, the APIs will be disabled. -

91 -

92 QRawFont can be constructed in a number of ways: -

93 \list -

94 \li It can be constructed by calling QTextLayout::glyphs() or QTextFragment::glyphs(). The -

95 returned QGlyphs objects will contain QRawFont objects which represent the actual fonts -

96 used to render each portion of the text. -

97 \li It can be constructed by passing a QFont object to QRawFont::fromFont(). The function -

98 will return a QRawFont object representing the font that will be selected as response to -

99 the QFont query and the selected writing system. -

100 \li It can be constructed by passing a file name or QByteArray directly to the QRawFont -

101 constructor, or by calling loadFromFile() or loadFromData(). In this case, the -

102 font will not be registered in QFontDatabase, and it will not be available as part of -

103 regular font selection. -

104 \endlist -

105 -

106 QRawFont is considered local to the thread in which it is constructed (either using a -

107 constructor, or by calling loadFromData() or loadFromFile()). The QRawFont cannot be moved to a -

108 different thread, but will have to be recreated in the thread in question. -

109 -

110 \note For the requirement of caching glyph indexes and font selections for static text to avoid -

111 reshaping and relayouting in the inner loop of an application, a better choice is the QStaticText -

112 class, since it optimizes the memory cost of the cache and also provides the possibility of paint -

113 engine specific caches for an additional speed-up. -

114 */ -

115 -

116 /*! -

117 \enum QRawFont::AntialiasingType -

118 -

119 This enum represents the different ways a glyph can be rasterized in the function -

120 alphaMapForGlyph(). -

121 -

122 \value PixelAntialiasing Will rasterize by measuring the coverage of the shape on whole pixels. -

123 The returned image contains the alpha values of each pixel based on the coverage of -

124 the glyph shape. -

125 \value SubPixelAntialiasing Will rasterize by measuring the coverage of each subpixel, -

126 returning a separate alpha value for each of the red, green and blue components of -

127 each pixel. -

128 */ -

129 -

130 /*! -

131 \enum QRawFont::LayoutFlag -

132 \since 5.1 -

133 -

134 This enum tells the function advancesForGlyphIndexes() how to calculate the advances. -

135 -

136 \value SeparateAdvances Will calculate the advance for each glyph separately. -

137 \value KernedAdvances Will apply kerning between adjacent glyphs. Note that OpenType GPOS based -

138 kerning is currently not supported. -

139 \value UseDesignMetrics Use design metrics instead of hinted metrics adjusted to the resolution -

140 of the paint device. -

141 Can be OR-ed with any of the options above. -

142 */ -

143 -

144 /*! -

145 Constructs an invalid QRawFont. -

146 */ -

147 QRawFont::QRawFont() -

148 : d(new QRawFontPrivate) -

149 { -

150

}

never executed: end of block

151 -

152 /*! -

153 Constructs a QRawFont representing the font contained in the file referenced -

154 by \a fileName for the size (in pixels) given by \a pixelSize, and using the -

155 hinting preference specified by \a hintingPreference. -

156 -

157 \note The referenced file must contain a TrueType or OpenType font. -

158 */ -

159 QRawFont::QRawFont(const QString &fileName, -

160 qreal pixelSize, -

161 QFont::HintingPreference hintingPreference) -

162 : d(new QRawFontPrivate) -

163 { -

164 loadFromFile(fileName, pixelSize, hintingPreference); -

165

}

never executed: end of block

166 -

167 /*! -

168 Constructs a QRawFont representing the font contained in the supplied -

169 \a fontData for the size (in pixels) given by \a pixelSize, and using the -

170 hinting preference specified by \a hintingPreference. -

171 -

172 \note The data must contain a TrueType or OpenType font. -

173 */ -

174 QRawFont::QRawFont(const QByteArray &fontData, -

175 qreal pixelSize, -

176 QFont::HintingPreference hintingPreference) -

177 : d(new QRawFontPrivate) -

178 { -

179 loadFromData(fontData, pixelSize, hintingPreference); -

180

}

never executed: end of block

181 -

182 /*! -

183 Creates a QRawFont which is a copy of \a other. -

184 */ -

185 QRawFont::QRawFont(const QRawFont &other) -

186 { -

187 d = other.d; -

188

}

never executed: end of block

189 -

190 /*! -

191 Destroys the QRawFont -

192 */ -

193 QRawFont::~QRawFont() -

194 { -

195 } -

196 -

197 /*! -

198 Assigns \a other to this QRawFont. -

199 */ -

200 QRawFont &QRawFont::operator=(const QRawFont &other) -

201 { -

202 d = other.d; -

203

return *this;

never executed: return *this;

204 } -

205 -

206 /*! -

207 \fn void QRawFont::swap(QRawFont &other) -

208 \since 5.0 -

209 -

210 Swaps this raw font with \a other. This function is very fast and -

211 never fails. -

212 */ -

213 -

214 /*! -

215 Returns \c true if the QRawFont is valid and false otherwise. -

216 */ -

217 bool QRawFont::isValid() const -

218 { -

219

return d->isValid();

never executed: return d->isValid();

220 } -

221 -

222 /*! -

223 Replaces the current QRawFont with the contents of the file referenced -

224 by \a fileName for the size (in pixels) given by \a pixelSize, and using the -

225 hinting preference specified by \a hintingPreference. -

226 -

227 The file must reference a TrueType or OpenType font. -

228 -

229 \sa loadFromData() -

230 */ -

231 void QRawFont::loadFromFile(const QString &fileName, -

232 qreal pixelSize, -

233 QFont::HintingPreference hintingPreference) -

234 { -

235 QFile file(fileName); -

236

if (file.open(QIODevice::ReadOnly))

file.open(QIODevice::ReadOnly)	Description
TRUE	never evaluated
FALSE	never evaluated

237

loadFromData(file.readAll(), pixelSize, hintingPreference);

never executed: loadFromData(file.readAll(), pixelSize, hintingPreference);

238

}

never executed: end of block

239 -

240 /*! -

241 Replaces the current QRawFont with the font contained in the supplied -

242 \a fontData for the size (in pixels) given by \a pixelSize, and using the -

243 hinting preference specified by \a hintingPreference. -

244 -

245 The \a fontData must contain a TrueType or OpenType font. -

246 -

247 \sa loadFromFile() -

248 */ -

249 void QRawFont::loadFromData(const QByteArray &fontData, -

250 qreal pixelSize, -

251 QFont::HintingPreference hintingPreference) -

252 { -

253 d.detach(); -

254 d->cleanUp(); -

255 d->hintingPreference = hintingPreference; -

256 d->loadFromData(fontData, pixelSize, hintingPreference); -

257

}

never executed: end of block

258 -

259 /*! -

260 This function returns a rasterized image of the glyph at the given -

261 \a glyphIndex in the underlying font, using the \a transform specified. -

262 If the QRawFont is not valid, this function will return an invalid QImage. -

263 -

264 If \a antialiasingType is set to QRawFont::SubPixelAntialiasing, then the resulting image will be -

265 in QImage::Format_RGB32 and the RGB values of each pixel will represent the subpixel opacities of -

266 the pixel in the rasterization of the glyph. Otherwise, the image will be in the format of -

267 QImage::Format_Indexed8 and each pixel will contain the opacity of the pixel in the -

268 rasterization. -

269 -

270 \sa pathForGlyph(), QPainter::drawGlyphRun() -

271 */ -

272 QImage QRawFont::alphaMapForGlyph(quint32 glyphIndex, AntialiasingType antialiasingType, -

273 const QTransform &transform) const -

274 { -

275

if (!d->isValid())

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

276

return QImage();

never executed: return QImage();

277 -

278

if (antialiasingType == SubPixelAntialiasing)

antialiasingTy...elAntialiasing	Description
TRUE	never evaluated
FALSE	never evaluated

279

return d->fontEngine->alphaRGBMapForGlyph(glyphIndex, QFixed(), transform);

never executed: return d->fontEngine->alphaRGBMapForGlyph(glyphIndex, QFixed(), transform);

280 -

281

return d->fontEngine->alphaMapForGlyph(glyphIndex, QFixed(), transform);

never executed: return d->fontEngine->alphaMapForGlyph(glyphIndex, QFixed(), transform);

282 } -

283 -

284 /*! -

285 This function returns the shape of the glyph at a given \a glyphIndex in the underlying font -

286 if the QRawFont is valid. Otherwise, it returns an empty QPainterPath. -

287 -

288 The returned glyph will always be unhinted. -

289 -

290 \sa alphaMapForGlyph(), QPainterPath::addText() -

291 */ -

292 QPainterPath QRawFont::pathForGlyph(quint32 glyphIndex) const -

293 { -

294

if (!d->isValid())

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

295

return QPainterPath();

never executed: return QPainterPath();

296 -

297 QFixedPoint position; -

298 QPainterPath path; -

299 d->fontEngine->addGlyphsToPath(&glyphIndex, &position, 1, &path, 0); -

300

return path;

never executed: return path;

301 } -

302 -

303 /*! -

304 Returns \c true if this QRawFont is equal to \a other. Otherwise, returns \c false. -

305 */ -

306 bool QRawFont::operator==(const QRawFont &other) const -

307 { -

308

return d->fontEngine == other.d->fontEngine;

never executed: return d->fontEngine == other.d->fontEngine;

309 } -

310 -

311 /*! -

312 \fn bool QRawFont::operator!=(const QRawFont &other) const -

313 -

314 Returns \c true if this QRawFont is not equal to \a other. Otherwise, returns \c false. -

315 */ -

316 -

317 /*! -

318 Returns the ascent of this QRawFont in pixel units. -

319 -

320 The ascent of a font is the distance from the baseline to the -

321 highest position characters extend to. In practice, some font -

322 designers break this rule, e.g. when they put more than one accent -

323 on top of a character, or to accommodate an unusual character in -

324 an exotic language, so it is possible (though rare) that this -

325 value will be too small. -

326 -

327 \sa QFontMetricsF::ascent() -

328 */ -

329 qreal QRawFont::ascent() const -

330 { -

331

return d->isValid() ? d->fontEngine->ascent().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->ascent().toReal() : 0.0;

332 } -

333 -

334 /*! -

335 Returns the descent of this QRawFont in pixel units. -

336 -

337 The descent is the distance from the base line to the lowest point -

338 characters extend to. In practice, some font designers break this rule, -

339 e.g. to accommodate an unusual character in an exotic language, so -

340 it is possible (though rare) that this value will be too small. -

341 -

342 \sa QFontMetricsF::descent() -

343 */ -

344 qreal QRawFont::descent() const -

345 { -

346

return d->isValid() ? d->fontEngine->descent().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->descent().toReal() : 0.0;

347 } -

348 -

349 /*! -

350 Returns the xHeight of this QRawFont in pixel units. -

351 -

352 This is often but not always the same as the height of the character 'x'. -

353 -

354 \sa QFontMetricsF::xHeight() -

355 */ -

356 qreal QRawFont::xHeight() const -

357 { -

358

return d->isValid() ? d->fontEngine->xHeight().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->xHeight().toReal() : 0.0;

359 } -

360 -

361 /*! -

362 Returns the leading of this QRawFont in pixel units. -

363 -

364 This is the natural inter-line spacing. -

365 -

366 \sa QFontMetricsF::leading() -

367 */ -

368 qreal QRawFont::leading() const -

369 { -

370

return d->isValid() ? d->fontEngine->leading().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->leading().toReal() : 0.0;

371 } -

372 -

373 /*! -

374 Returns the average character width of this QRawFont in pixel units. -

375 -

376 \sa QFontMetricsF::averageCharWidth() -

377 */ -

378 qreal QRawFont::averageCharWidth() const -

379 { -

380

return d->isValid() ? d->fontEngine->averageCharWidth().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->averageCharWidth().toReal() : 0.0;

381 } -

382 -

383 /*! -

384 Returns the width of the widest character in the font. -

385 -

386 \sa QFontMetricsF::maxWidth() -

387 */ -

388 qreal QRawFont::maxCharWidth() const -

389 { -

390

return d->isValid() ? d->fontEngine->maxCharWidth() : 0.0;

never executed: return d->isValid() ? d->fontEngine->maxCharWidth() : 0.0;

391 } -

392 -

393 /*! -

394 Returns the pixel size set for this QRawFont. The pixel size affects how glyphs are -

395 rasterized, the size of glyphs returned by pathForGlyph(), and is used to convert -

396 internal metrics from design units to logical pixel units. -

397 -

398 \sa setPixelSize() -

399 */ -

400 qreal QRawFont::pixelSize() const -

401 { -

402

return d->isValid() ? d->fontEngine->fontDef.pixelSize : 0.0;

never executed: return d->isValid() ? d->fontEngine->fontDef.pixelSize : 0.0;

403 } -

404 -

405 /*! -

406 Returns the number of design units define the width and height of the em square -

407 for this QRawFont. This value is used together with the pixel size when converting design metrics -

408 to pixel units, as the internal metrics are specified in design units and the pixel size gives -

409 the size of 1 em in pixels. -

410 -

411 \sa pixelSize(), setPixelSize() -

412 */ -

413 qreal QRawFont::unitsPerEm() const -

414 { -

415

return d->isValid() ? d->fontEngine->emSquareSize().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->emSquareSize().toReal() : 0.0;

416 } -

417 -

418 /*! -

419 Returns the thickness for drawing lines (underline, overline, etc.) -

420 along with text drawn in this font. -

421 */ -

422 qreal QRawFont::lineThickness() const -

423 { -

424

return d->isValid() ? d->fontEngine->lineThickness().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->lineThickness().toReal() : 0.0;

425 } -

426 -

427 /*! -

428 Returns the position from baseline for drawing underlines below the text -

429 rendered with this font. -

430 */ -

431 qreal QRawFont::underlinePosition() const -

432 { -

433

return d->isValid() ? d->fontEngine->underlinePosition().toReal() : 0.0;

never executed: return d->isValid() ? d->fontEngine->underlinePosition().toReal() : 0.0;

434 } -

435 -

436 /*! -

437 Returns the family name of this QRawFont. -

438 */ -

439 QString QRawFont::familyName() const -

440 { -

441

return d->isValid() ? d->fontEngine->fontDef.family : QString();

never executed: return d->isValid() ? d->fontEngine->fontDef.family : QString();

442 } -

443 -

444 /*! -

445 Returns the style name of this QRawFont. -

446 -

447 \sa QFont::styleName() -

448 */ -

449 QString QRawFont::styleName() const -

450 { -

451

return d->isValid() ? d->fontEngine->fontDef.styleName : QString();

never executed: return d->isValid() ? d->fontEngine->fontDef.styleName : QString();

452 } -

453 -

454 /*! -

455 Returns the style of this QRawFont. -

456 -

457 \sa QFont::style() -

458 */ -

459 QFont::Style QRawFont::style() const -

460 { -

461

return d->isValid() ? QFont::Style(d->fontEngine->fontDef.style) : QFont::StyleNormal;

never executed: return d->isValid() ? QFont::Style(d->fontEngine->fontDef.style) : QFont::StyleNormal;

462 } -

463 -

464 /*! -

465 Returns the weight of this QRawFont. -

466 -

467 \sa QFont::weight() -

468 */ -

469 int QRawFont::weight() const -

470 { -

471

return d->isValid() ? int(d->fontEngine->fontDef.weight) : -1;

never executed: return d->isValid() ? int(d->fontEngine->fontDef.weight) : -1;

472 } -

473 -

474 /*! -

475 Converts the string of unicode points given by \a text to glyph indexes -

476 using the CMAP table in the underlying font, and returns a vector containing -

477 the result. -

478 -

479 Note that, in cases where there are other tables in the font that affect the -

480 shaping of the text, the returned glyph indexes will not correctly represent -

481 the rendering of the text. To get the correctly shaped text, you can use -

482 QTextLayout to lay out and shape the text, then call QTextLayout::glyphs() -

483 to get the set of glyph index list and QRawFont pairs. -

484 -

485 \sa advancesForGlyphIndexes(), glyphIndexesForChars(), QGlyphRun, QTextLayout::glyphRuns(), QTextFragment::glyphRuns() -

486 */ -

487 QVector<quint32> QRawFont::glyphIndexesForString(const QString &text) const -

488 { -

489 QVector<quint32> glyphIndexes; -

490

if (!d->isValid() || text.isEmpty())

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

text.isEmpty()	Description
TRUE	never evaluated
FALSE	never evaluated

491

return glyphIndexes;

never executed: return glyphIndexes;

492 -

493 int numGlyphs = text.size(); -

494 glyphIndexes.resize(numGlyphs); -

495 -

496 QGlyphLayout glyphs; -

497 glyphs.numGlyphs = numGlyphs; -

498 glyphs.glyphs = glyphIndexes.data(); -

499

if (!d->fontEngine->stringToCMap(text.data(), text.size(), &glyphs, &numGlyphs, QFontEngine::GlyphIndicesOnly))

!d->fontEngine...phIndicesOnly)	Description
TRUE	never evaluated
FALSE	never evaluated

500

Q_UNREACHABLE();

never executed: end of block

501 -

502 glyphIndexes.resize(numGlyphs); -

503

return glyphIndexes;

never executed: return glyphIndexes;

504 } -

505 -

506 /*! -

507 Converts a string of unicode points to glyph indexes using the CMAP table in the -

508 underlying font. The function works like glyphIndexesForString() except it take -

509 an array (\a chars), the results will be returned though \a glyphIndexes array -

510 and number of glyphs will be set in \a numGlyphs. The size of \a glyphIndexes array -

511 must be at least \a numChars, if that's still not enough, this function will return -

512 false, then you can resize \a glyphIndexes from the size returned in \a numGlyphs. -

513 -

514 \sa glyphIndexesForString(), advancesForGlyphIndexes(), QGlyphRun, QTextLayout::glyphRuns(), QTextFragment::glyphRuns() -

515 */ -

516 bool QRawFont::glyphIndexesForChars(const QChar *chars, int numChars, quint32 *glyphIndexes, int *numGlyphs) const -

517 { -

518 Q_ASSERT(numGlyphs); -

519

if (!d->isValid() || numChars <= 0) {

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

numChars <= 0	Description
TRUE	never evaluated
FALSE	never evaluated

520 *numGlyphs = 0; -

521

return false;

never executed: return false;

522 } -

523 -

524

if (*numGlyphs <= 0 || !glyphIndexes) {

*numGlyphs <= 0	Description
TRUE	never evaluated
FALSE	never evaluated

!glyphIndexes	Description
TRUE	never evaluated
FALSE	never evaluated

525 *numGlyphs = numChars; -

526

return false;

never executed: return false;

527 } -

528 -

529 QGlyphLayout glyphs; -

530 glyphs.numGlyphs = *numGlyphs; -

531 glyphs.glyphs = glyphIndexes; -

532

return d->fontEngine->stringToCMap(chars, numChars, &glyphs, numGlyphs, QFontEngine::GlyphIndicesOnly);

never executed: return d->fontEngine->stringToCMap(chars, numChars, &glyphs, numGlyphs, QFontEngine::GlyphIndicesOnly);

533 } -

534 -

535 /*! -

536 \fn QVector<QPointF> QRawFont::advancesForGlyphIndexes(const QVector<quint32> &glyphIndexes, LayoutFlags layoutFlags) const -

537 \since 5.1 -

538 -

539 Returns the QRawFont's advances for each of the \a glyphIndexes in pixel units. The advances -

540 give the distance from the position of a given glyph to where the next glyph should be drawn -

541 to make it appear as if the two glyphs are unspaced. How the advances are calculated is -

542 controlled by \a layoutFlags. -

543 -

544 \sa QTextLine::horizontalAdvance(), QFontMetricsF::width() -

545 */ -

546 -

547 /*! -

548 \fn QVector<QPointF> QRawFont::advancesForGlyphIndexes(const QVector<quint32> &glyphIndexes) const -

549 -

550 \overload -

551 -

552 Returns the QRawFont's advances for each of the \a glyphIndexes in pixel units. The advances -

553 give the distance from the position of a given glyph to where the next glyph should be drawn -

554 to make it appear as if the two glyphs are unspaced. The advance of each glyph is calculated -

555 separately. -

556 -

557 \sa QTextLine::horizontalAdvance(), QFontMetricsF::width() -

558 */ -

559 -

560 /*! -

561 \since 5.1 -

562 -

563 Returns the QRawFont's advances for each of the \a glyphIndexes in pixel units. The advances -

564 give the distance from the position of a given glyph to where the next glyph should be drawn -

565 to make it appear as if the two glyphs are unspaced. The glyph indexes are given with the -

566 array \a glyphIndexes while the results are returned through \a advances, both of them must -

567 have \a numGlyphs elements. How the advances are calculated is controlled by \a layoutFlags. -

568 -

569 \sa QTextLine::horizontalAdvance(), QFontMetricsF::width() -

570 */ -

571 bool QRawFont::advancesForGlyphIndexes(const quint32 *glyphIndexes, QPointF *advances, int numGlyphs, LayoutFlags layoutFlags) const -

572 { -

573 Q_ASSERT(glyphIndexes && advances); -

574

if (!d->isValid() || numGlyphs <= 0)

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

numGlyphs <= 0	Description
TRUE	never evaluated
FALSE	never evaluated

575

return false;

never executed: return false;

576 -

577 QVarLengthArray<QFixed> tmpAdvances(numGlyphs); -

578 -

579 QGlyphLayout glyphs; -

580 glyphs.glyphs = const_cast<glyph_t *>(glyphIndexes); -

581 glyphs.numGlyphs = numGlyphs; -

582 glyphs.advances = tmpAdvances.data(); -

583 -

584 bool design = layoutFlags & UseDesignMetrics; -

585 -

586 d->fontEngine->recalcAdvances(&glyphs, design ? QFontEngine::DesignMetrics : QFontEngine::ShaperFlag(0)); -

587

if (layoutFlags & KernedAdvances)

layoutFlags & KernedAdvances	Description
TRUE	never evaluated
FALSE	never evaluated

588

d->fontEngine->doKerning(&glyphs, design ? QFontEngine::DesignMetrics : QFontEngine::ShaperFlag(0));

never executed: d->fontEngine->doKerning(&glyphs, design ? QFontEngine::DesignMetrics : QFontEngine::ShaperFlag(0));

589 -

590

for (int i=0; i<numGlyphs; ++i)

i<numGlyphs	Description
TRUE	never evaluated
FALSE	never evaluated

591

advances[i] = QPointF(tmpAdvances[i].toReal(), 0.0);

never executed: advances[i] = QPointF(tmpAdvances[i].toReal(), 0.0);

592 -

593

return true;

never executed: return true;

594 } -

595 -

596 /*! -

597 \overload -

598 -

599 Returns the QRawFont's advances for each of the \a glyphIndexes in pixel units. The advances -

600 give the distance from the position of a given glyph to where the next glyph should be drawn -

601 to make it appear as if the two glyphs are unspaced. The glyph indexes are given with the -

602 array \a glyphIndexes while the results are returned through \a advances, both of them must -

603 have \a numGlyphs elements. The advance of each glyph is calculated separately -

604 -

605 \sa QTextLine::horizontalAdvance(), QFontMetricsF::width() -

606 */ -

607 bool QRawFont::advancesForGlyphIndexes(const quint32 *glyphIndexes, QPointF *advances, int numGlyphs) const -

608 { -

609

return QRawFont::advancesForGlyphIndexes(glyphIndexes, advances, numGlyphs, SeparateAdvances);

never executed: return QRawFont::advancesForGlyphIndexes(glyphIndexes, advances, numGlyphs, SeparateAdvances);

610 } -

611 -

612 /*! -

613 Returns the hinting preference used to construct this QRawFont. -

614 -

615 \sa QFont::hintingPreference() -

616 */ -

617 QFont::HintingPreference QRawFont::hintingPreference() const -

618 { -

619

return d->isValid() ? d->hintingPreference : QFont::PreferDefaultHinting;

never executed: return d->isValid() ? d->hintingPreference : QFont::PreferDefaultHinting;

620 } -

621 -

622 /*! -

623 Retrieves the sfnt table named \a tagName from the underlying physical font, or an empty -

624 byte array if no such table was found. The returned font table's byte order is Big Endian, like -

625 the sfnt format specifies. The \a tagName must be four characters long and should be formatted -

626 in the default endianness of the current platform. -

627 */ -

628 QByteArray QRawFont::fontTable(const char *tagName) const -

629 { -

630

if (!d->isValid())

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

631

return QByteArray();

never executed: return QByteArray();

632 -

633

return d->fontEngine->getSfntTable(MAKE_TAG(tagName[0], tagName[1], tagName[2], tagName[3]));

never executed:

return d->fontEngine->getSfntTable(( (((quint32)(tagName[0])) << 24) | (((quint32)(tagName[1])) << 16) | (((quint32)(tagName[2])) << 8) | ((quint32)(tagName[3])) ));

634 } -

635 -

636 /*! -

637 Returns a list of writing systems supported by the font according to designer supplied -

638 information in the font file. Please note that this does not guarantee support for a -

639 specific unicode point in the font. You can use the supportsCharacter() to check support -

640 for a single, specific character. -

641 -

642 \note The list is determined based on the unicode ranges and codepage ranges set in the font's -

643 OS/2 table and requires such a table to be present in the underlying font file. -

644 -

645 \sa supportsCharacter() -

646 */ -

647 QList<QFontDatabase::WritingSystem> QRawFont::supportedWritingSystems() const -

648 { -

649 QList<QFontDatabase::WritingSystem> writingSystems; -

650

if (d->isValid()) {

d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

651 QByteArray os2Table = fontTable("OS/2"); -

652

if (os2Table.size() > 86) {

os2Table.size() > 86	Description
TRUE	never evaluated
FALSE	never evaluated

653 const uchar * const data = reinterpret_cast<const uchar *>(os2Table.constData()); -

654 const uchar * const bigEndianUnicodeRanges = data + 42; -

655 const uchar * const bigEndianCodepageRanges = data + 78; -

656 -

657 quint32 unicodeRanges[4]; -

658 quint32 codepageRanges[2]; -

659 -

660

for (size_t i = 0; i < sizeof unicodeRanges / sizeof *unicodeRanges; ++i)

i < sizeof uni...*unicodeRanges	Description
TRUE	never evaluated
FALSE	never evaluated

661

unicodeRanges[i] = qFromBigEndian<quint32>(bigEndianUnicodeRanges + i * sizeof(quint32));

never executed: unicodeRanges[i] = qFromBigEndian<quint32>(bigEndianUnicodeRanges + i * sizeof(quint32));

662 -

663

for (size_t i = 0; i < sizeof codepageRanges / sizeof *codepageRanges; ++i)

i < sizeof cod...codepageRanges	Description
TRUE	never evaluated
FALSE	never evaluated

664

codepageRanges[i] = qFromBigEndian<quint32>(bigEndianCodepageRanges + i * sizeof(quint32));

never executed: codepageRanges[i] = qFromBigEndian<quint32>(bigEndianCodepageRanges + i * sizeof(quint32));

665 -

666 QSupportedWritingSystems ws = QPlatformFontDatabase::writingSystemsFromTrueTypeBits(unicodeRanges, codepageRanges); -

667

for (int i = 0; i < QFontDatabase::WritingSystemsCount; ++i) {

i < QFontDatab...ngSystemsCount	Description
TRUE	never evaluated
FALSE	never evaluated

668

if (ws.supported(QFontDatabase::WritingSystem(i)))

ws.supported(Q...tingSystem(i))	Description
TRUE	never evaluated
FALSE	never evaluated

669

writingSystems.append(QFontDatabase::WritingSystem(i));

never executed: writingSystems.append(QFontDatabase::WritingSystem(i));

670

}

never executed: end of block

671

}

never executed: end of block

672

}

never executed: end of block

673 -

674

return writingSystems;

never executed: return writingSystems;

675 } -

676 -

677 /*! -

678 Returns \c true if the font has a glyph that corresponds to the given \a character. -

679 -

680 \sa supportedWritingSystems() -

681 */ -

682 bool QRawFont::supportsCharacter(QChar character) const -

683 { -

684

return supportsCharacter(character.unicode());

never executed: return supportsCharacter(character.unicode());

685 } -

686 -

687 /*! -

688 \overload -

689 -

690 Returns \c true if the font has a glyph that corresponds to the UCS-4 encoded character \a ucs4. -

691 -

692 \sa supportedWritingSystems() -

693 */ -

694 bool QRawFont::supportsCharacter(uint ucs4) const -

695 { -

696

return d->isValid() && d->fontEngine->canRender(ucs4);

never executed: return d->isValid() && d->fontEngine->canRender(ucs4);

697 } -

698 -

699 // qfontdatabase.cpp -

700 extern int qt_script_for_writing_system(QFontDatabase::WritingSystem writingSystem); -

701 -

702 /*! -

703 Fetches the physical representation based on a \a font query. The physical font returned is -

704 the font that will be preferred by Qt in order to display text in the selected \a writingSystem. -

705 -

706 \warning This function is potentially expensive and should not be called in performance -

707 sensitive code. -

708 */ -

709 QRawFont QRawFont::fromFont(const QFont &font, QFontDatabase::WritingSystem writingSystem) -

710 { -

711 QRawFont rawFont; -

712 const QFontPrivate *font_d = QFontPrivate::get(font); -

713 int script = qt_script_for_writing_system(writingSystem); -

714 QFontEngine *fe = font_d->engineForScript(script); -

715 -

716

if (fe != 0 && fe->type() == QFontEngine::Multi) {

fe != 0	Description
TRUE	never evaluated
FALSE	never evaluated

fe->type() == ...tEngine::Multi	Description
TRUE	never evaluated
FALSE	never evaluated

717 QFontEngineMulti *multiEngine = static_cast<QFontEngineMulti *>(fe); -

718 fe = multiEngine->engine(0); -

719 -

720

if (script > QChar::Script_Latin) {

script > QChar::Script_Latin	Description
TRUE	never evaluated
FALSE	never evaluated

721 // keep in sync with QFontEngineMulti::loadEngine() -

722 QFontDef request(multiEngine->fontDef); -

723 request.styleStrategy |= QFont::NoFontMerging; -

724 -

725

if (QFontEngine *engine = QFontDatabase::findFont(request, script)) {

QFontEngine *e...quest, script)	Description
TRUE	never evaluated
FALSE	never evaluated

726

if (request.weight > QFont::Normal)

request.weight > QFont::Normal	Description
TRUE	never evaluated
FALSE	never evaluated

727

engine->fontDef.weight = request.weight;

never executed: engine->fontDef.weight = request.weight;

728

if (request.style > QFont::StyleNormal)

request.style ...t::StyleNormal	Description
TRUE	never evaluated
FALSE	never evaluated

729

engine->fontDef.style = request.style;

never executed: engine->fontDef.style = request.style;

730 fe = engine; -

731

}

never executed: end of block

732

}

never executed: end of block

733 Q_ASSERT(fe); -

734

}

never executed: end of block

735 -

736

if (fe != 0) {

fe != 0	Description
TRUE	never evaluated
FALSE	never evaluated

737 rawFont.d.data()->setFontEngine(fe); -

738 rawFont.d.data()->hintingPreference = font.hintingPreference(); -

739

}

never executed: end of block

740

return rawFont;

never executed: return rawFont;

741 } -

742 -

743 /*! -

744 Sets the pixel size with which this font should be rendered to \a pixelSize. -

745 */ -

746 void QRawFont::setPixelSize(qreal pixelSize) -

747 { -

748

if (!d->isValid() || qFuzzyCompare(d->fontEngine->fontDef.pixelSize, pixelSize))

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

qFuzzyCompare(...ze, pixelSize)	Description
TRUE	never evaluated
FALSE	never evaluated

749

return;

never executed: return;

750 -

751 d.detach(); -

752 d->setFontEngine(d->fontEngine->cloneWithSize(pixelSize)); -

753

}

never executed: end of block

754 -

755 /*! -

756 \internal -

757 */ -

758 void QRawFontPrivate::loadFromData(const QByteArray &fontData, qreal pixelSize, -

759 QFont::HintingPreference hintingPreference) -

760 { -

761 Q_ASSERT(fontEngine == 0); -

762 -

763 QPlatformFontDatabase *pfdb = QGuiApplicationPrivate::platformIntegration()->fontDatabase(); -

764 setFontEngine(pfdb->fontEngine(fontData, pixelSize, hintingPreference)); -

765

}

never executed: end of block

766 -

767 /*! -

768 Returns the smallest rectangle containing the glyph with the given \a glyphIndex. -

769 -

770 \since 5.0 -

771 */ -

772 QRectF QRawFont::boundingRect(quint32 glyphIndex) const -

773 { -

774

if (!d->isValid())

!d->isValid()	Description
TRUE	never evaluated
FALSE	never evaluated

775

return QRectF();

never executed: return QRectF();

776 -

777 glyph_metrics_t gm = d->fontEngine->boundingBox(glyphIndex); -

778

return QRectF(gm.x.toReal(), gm.y.toReal(), gm.width.toReal(), gm.height.toReal());

never executed: return QRectF(gm.x.toReal(), gm.y.toReal(), gm.width.toReal(), gm.height.toReal());

779 } -

780 -

781 #endif // QT_NO_RAWFONT -

782 -

783 QT_END_NAMESPACE -

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