def __call__(self, ok): from PyQt4.Qt import QImage, QPainter, QByteArray, QBuffer try: if not ok: raise RuntimeError('Rendering of HTML failed.') de = self.page.mainFrame().documentElement() pe = de.findFirst('parsererror') if not pe.isNull(): raise ParserError(pe.toPlainText()) image = QImage(self.page.viewportSize(), QImage.Format_ARGB32) image.setDotsPerMeterX(96*(100/2.54)) image.setDotsPerMeterY(96*(100/2.54)) painter = QPainter(image) self.page.mainFrame().render(painter) painter.end() ba = QByteArray() buf = QBuffer(ba) buf.open(QBuffer.WriteOnly) image.save(buf, 'JPEG') self.data = str(ba.data()) except Exception as e: self.exception = e self.traceback = traceback.format_exc() finally: self.loop.exit(0)
def render_emblems(item, emblems): emblems = tuple(emblems) if not emblems: return icon = self.rendered_emblem_cache.get(emblems, None) if icon is None: pixmaps = [] for emblem in emblems: pm = self.emblem_cache.get(emblem, None) if pm is None: pm = self.emblem_cache[emblem] = QPixmap( I(emblem)).scaled(self.iconSize(), transformMode=Qt.SmoothTransformation) pixmaps.append(pm) num = len(pixmaps) w, h = pixmaps[0].width(), pixmaps[0].height() if num == 1: icon = self.rendered_emblem_cache[emblems] = QIcon(pixmaps[0]) else: canvas = QPixmap((num * w) + ((num-1)*2), h) canvas.fill(Qt.transparent) painter = QPainter(canvas) for i, pm in enumerate(pixmaps): painter.drawPixmap(i * (w + 2), 0, pm) painter.end() icon = self.rendered_emblem_cache[emblems] = canvas item.setData(0, Qt.DecorationRole, icon)
def paintEvent(self, event): painter = QPainter(self) painter.setRenderHints(self.renderHints()) self.document.mainFrame().render(painter, event.region()) if not self.isEnabled(): painter.fillRect(event.region().boundingRect(), self.DISABLED_BRUSH) painter.end()
def paintEvent(self, event): canvas_size = self.rect() width = self.current_pixmap_size.width() extrax = canvas_size.width() - width if extrax < 0: extrax = 0 x = int(extrax/2.) height = self.current_pixmap_size.height() extray = canvas_size.height() - height if extray < 0: extray = 0 y = int(extray/2.) target = QRect(x, y, width, height) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap(target, self.pixmap.scaled(target.size(), Qt.KeepAspectRatio, Qt.SmoothTransformation)) if gprefs['bd_overlay_cover_size']: sztgt = target.adjusted(0, 0, 0, -4) f = p.font() f.setBold(True) p.setFont(f) sz = u'\u00a0%d x %d\u00a0'%(self.pixmap.width(), self.pixmap.height()) flags = Qt.AlignBottom|Qt.AlignRight|Qt.TextSingleLine szrect = p.boundingRect(sztgt, flags, sz) p.fillRect(szrect.adjusted(0, 0, 0, 4), QColor(0, 0, 0, 200)) p.setPen(QPen(QColor(255,255,255))) p.drawText(sztgt, flags, sz) p.end()
def drag_icon(self, cover, multiple): cover = cover.scaledToHeight(120, Qt.SmoothTransformation) if multiple: base_width = cover.width() base_height = cover.height() base = QImage(base_width+21, base_height+21, QImage.Format_ARGB32_Premultiplied) base.fill(QColor(255, 255, 255, 0).rgba()) p = QPainter(base) rect = QRect(20, 0, base_width, base_height) p.fillRect(rect, QColor('white')) p.drawRect(rect) rect.moveLeft(10) rect.moveTop(10) p.fillRect(rect, QColor('white')) p.drawRect(rect) rect.moveLeft(0) rect.moveTop(20) p.fillRect(rect, QColor('white')) p.save() p.setCompositionMode(p.CompositionMode_SourceAtop) p.drawImage(rect.topLeft(), cover) p.restore() p.drawRect(rect) p.end() cover = base return QPixmap.fromImage(cover)
def drag_icon(self, cover, multiple): cover = cover.scaledToHeight(120, Qt.SmoothTransformation) if multiple: base_width = cover.width() base_height = cover.height() base = QImage(base_width + 21, base_height + 21, QImage.Format_ARGB32_Premultiplied) base.fill(QColor(255, 255, 255, 0).rgba()) p = QPainter(base) rect = QRect(20, 0, base_width, base_height) p.fillRect(rect, QColor('white')) p.drawRect(rect) rect.moveLeft(10) rect.moveTop(10) p.fillRect(rect, QColor('white')) p.drawRect(rect) rect.moveLeft(0) rect.moveTop(20) p.fillRect(rect, QColor('white')) p.save() p.setCompositionMode(p.CompositionMode_SourceAtop) p.drawImage(rect.topLeft(), cover) p.restore() p.drawRect(rect) p.end() cover = base return QPixmap.fromImage(cover)
def render_html(self, ok): try: if not ok: return cwidth, cheight = self.page.mainFrame().contentsSize().width(), self.page.mainFrame().contentsSize().height() self.page.setViewportSize(QSize(cwidth, cheight)) factor = float(self.width)/cwidth if cwidth > self.width else 1 cutoff_height = int(self.height/factor)-3 image = QImage(self.page.viewportSize(), QImage.Format_ARGB32) image.setDotsPerMeterX(self.dpi*(100/2.54)) image.setDotsPerMeterY(self.dpi*(100/2.54)) painter = QPainter(image) self.page.mainFrame().render(painter) painter.end() cheight = image.height() cwidth = image.width() pos = 0 while pos < cheight: img = image.copy(0, pos, cwidth, min(cheight-pos, cutoff_height)) pos += cutoff_height-20 if cwidth > self.width: img = img.scaledToWidth(self.width, Qt.SmoothTransform) f = os.path.join(self.tdir, '%d.png'%pos) img.save(f) self.images.append((f, img.width(), img.height())) finally: QApplication.quit()
def render_emblems(item, emblems): emblems = tuple(emblems) if not emblems: return icon = self.rendered_emblem_cache.get(emblems, None) if icon is None: pixmaps = [] for emblem in emblems: pm = self.emblem_cache.get(emblem, None) if pm is None: pm = self.emblem_cache[emblem] = QPixmap( I(emblem)).scaled( self.iconSize(), transformMode=Qt.SmoothTransformation) pixmaps.append(pm) num = len(pixmaps) w, h = pixmaps[0].width(), pixmaps[0].height() if num == 1: icon = self.rendered_emblem_cache[emblems] = QIcon( pixmaps[0]) else: canvas = QPixmap((num * w) + ((num - 1) * 2), h) canvas.fill(Qt.transparent) painter = QPainter(canvas) for i, pm in enumerate(pixmaps): painter.drawPixmap(i * (w + 2), 0, pm) painter.end() icon = self.rendered_emblem_cache[emblems] = canvas item.setData(0, Qt.DecorationRole, icon)
def paintEvent(self, ev): p = QPainter(self) p.setRenderHints(p.Antialiasing) p.setBrush(self.brush) p.setPen(Qt.NoPen) p.drawPath(self.arrow_path) p.end()
def _exportImageToPNG(self, filename=None): if not filename: if not self._export_png_dialog: dialog = self._export_png_dialog = QFileDialog(self, "Export image to PNG", ".", "*.png") dialog.setDefaultSuffix("png") dialog.setFileMode(QFileDialog.AnyFile) dialog.setAcceptMode(QFileDialog.AcceptSave) dialog.setModal(True) QObject.connect(dialog, SIGNAL("filesSelected(const QStringList &)"), self._exportImageToPNG) return self._export_png_dialog.exec_() == QDialog.Accepted busy = BusyIndicator() if isinstance(filename, QStringList): filename = filename[0] filename = str(filename) # make QPixmap nx, ny = self.image.imageDims() (l0, l1), (m0, m1) = self.image.getExtents() pixmap = QPixmap(nx, ny) painter = QPainter(pixmap) # use QwtPlot implementation of draw canvas, since we want to avoid caching xmap = QwtScaleMap() xmap.setPaintInterval(0, nx) xmap.setScaleInterval(l1, l0) ymap = QwtScaleMap() ymap.setPaintInterval(ny, 0) ymap.setScaleInterval(m0, m1) self.image.draw(painter, xmap, ymap, pixmap.rect()) painter.end() # save to file try: pixmap.save(filename, "PNG") except Exception as exc: self.emit(SIGNAL("showErrorMessage"), "Error writing %s: %s" % (filename, str(exc))) return self.emit(SIGNAL("showMessage"), "Exported image to file %s" % filename)
def paintEvent(self, event): contents_y = self.edit.verticalScrollBar().value() page_bottom = contents_y + self.edit.viewport().height() font_metrics = self.fontMetrics() painter = QPainter(self) line_count = 0 # Iterate over all text blocks in the document. block = self.edit.document().begin() while block.isValid(): line_count += 1 # The top left position of the block in the document position = self.edit.document().documentLayout().blockBoundingRect(block).topLeft() # Check if the position of the block is out side of the visible # area. if position.y() > page_bottom: break # Draw the line number right justified at the y position of the # line. 3 is a magic padding number. drawText(x, y, text). painter.drawText(-5 + self.width() - font_metrics.width(str(line_count)) - 3, round(position.y()) - contents_y + font_metrics.ascent(), str(line_count)) block = block.next() self.highest_line = line_count painter.end() QWidget.paintEvent(self, event)
def paintEvent(self, event): QWidget.paintEvent(self, event) pmap = self._pixmap if pmap.isNull(): return w, h = pmap.width(), pmap.height() cw, ch = self.rect().width(), self.rect().height() scaled, nw, nh = fit_image(w, h, cw, ch) if scaled: pmap = pmap.scaled(nw, nh, Qt.IgnoreAspectRatio, Qt.SmoothTransformation) w, h = pmap.width(), pmap.height() x = int(abs(cw - w)/2.) y = int(abs(ch - h)/2.) target = QRect(x, y, w, h) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap(target, pmap) pen = QPen() pen.setWidth(self.BORDER_WIDTH) p.setPen(pen) if self.draw_border: p.drawRect(target) #p.drawRect(self.rect()) p.end()
def paintEvent(self, event): QWidget.paintEvent(self, event) pmap = self._pixmap if pmap.isNull(): return w, h = pmap.width(), pmap.height() ow, oh = w, h cw, ch = self.rect().width(), self.rect().height() scaled, nw, nh = fit_image(w, h, cw, ch) if scaled: pmap = pmap.scaled(nw, nh, Qt.IgnoreAspectRatio, Qt.SmoothTransformation) w, h = pmap.width(), pmap.height() x = int(abs(cw - w) / 2.0) y = int(abs(ch - h) / 2.0) target = QRect(x, y, w, h) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap(target, pmap) if self.draw_border: pen = QPen() pen.setWidth(self.BORDER_WIDTH) p.setPen(pen) p.drawRect(target) if self.show_size: sztgt = target.adjusted(0, 0, 0, -4) f = p.font() f.setBold(True) p.setFont(f) sz = u"\u00a0%d x %d\u00a0" % (ow, oh) flags = Qt.AlignBottom | Qt.AlignRight | Qt.TextSingleLine szrect = p.boundingRect(sztgt, flags, sz) p.fillRect(szrect.adjusted(0, 0, 0, 4), QColor(0, 0, 0, 200)) p.setPen(QPen(QColor(255, 255, 255))) p.drawText(sztgt, flags, sz) p.end()
def paintEvent(self, event): pmap = self.blank if self.pixmap is None or self.pixmap.isNull( ) else self.pixmap target = self.rect() scaled, width, height = fit_image(pmap.width(), pmap.height(), target.width(), target.height()) target.setRect(target.x(), target.y(), width, height) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap(target, pmap) if self.pixmap is not None and not self.pixmap.isNull(): sztgt = target.adjusted(0, 0, 0, -4) f = p.font() f.setBold(True) p.setFont(f) sz = u'\u00a0%d x %d\u00a0' % (self.pixmap.width(), self.pixmap.height()) flags = Qt.AlignBottom | Qt.AlignRight | Qt.TextSingleLine szrect = p.boundingRect(sztgt, flags, sz) p.fillRect(szrect.adjusted(0, 0, 0, 4), QColor(0, 0, 0, 200)) p.setPen(QPen(QColor(255, 255, 255))) p.drawText(sztgt, flags, sz) p.end()
def paintEvent(self, event): QWidget.paintEvent(self, event) pmap = self._pixmap if pmap.isNull(): return w, h = pmap.width(), pmap.height() cw, ch = self.rect().width(), self.rect().height() scaled, nw, nh = fit_image(w, h, cw, ch) if scaled: pmap = pmap.scaled(nw, nh, Qt.IgnoreAspectRatio, Qt.SmoothTransformation) w, h = pmap.width(), pmap.height() x = int(abs(cw - w) / 2.) y = int(abs(ch - h) / 2.) target = QRect(x, y, w, h) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap(target, pmap) pen = QPen() pen.setWidth(self.BORDER_WIDTH) p.setPen(pen) if self.draw_border: p.drawRect(target) #p.drawRect(self.rect()) p.end()
def paintEvent(self, event): contents_y = self.edit.verticalScrollBar().value() page_bottom = contents_y + self.edit.viewport().height() font_metrics = self.fontMetrics() painter = QPainter(self) line_count = 0 block = self.edit.document().begin() while block.isValid(): line_count += 1 # The top left position of the block in the document position = self.edit.document().documentLayout().blockBoundingRect(block).topLeft() # Check if the position of the block is out side of the visible # area. if position.y() > page_bottom: break # Draw the line number right justified at the y position of the # line. 3 is a magic padding number. drawText(x, y, text). painter.drawText(-5 + self.width() - font_metrics.width(str(line_count)) - 3, round(position.y()) - contents_y + font_metrics.ascent(), str(line_count)) block = block.next() self.highest_line = line_count painter.end() QWidget.paintEvent(self, event)
def do_paged_render(self, outpath): from PyQt4.Qt import QSize, QPainter if self.paged_js is None: from calibre.utils.resources import compiled_coffeescript self.paged_js = compiled_coffeescript('ebooks.oeb.display.utils') self.paged_js += compiled_coffeescript('ebooks.oeb.display.paged') printer = get_pdf_printer(self.opts, output_file_name=outpath) painter = QPainter(printer) zoomx = printer.logicalDpiX()/self.view.logicalDpiX() zoomy = printer.logicalDpiY()/self.view.logicalDpiY() painter.scale(zoomx, zoomy) pr = printer.pageRect() evaljs = self.view.page().mainFrame().evaluateJavaScript evaljs(self.paged_js) self.view.page().setViewportSize(QSize(pr.width()/zoomx, pr.height()/zoomy)) evaljs(''' document.body.style.backgroundColor = "white"; paged_display.set_geometry(1, 0, 0, 0); paged_display.layout(); paged_display.fit_images(); ''') mf = self.view.page().mainFrame() while True: mf.render(painter) nsl = evaljs('paged_display.next_screen_location()').toInt() if not nsl[1] or nsl[0] <= 0: break evaljs('window.scrollTo(%d, 0)'%nsl[0]) printer.newPage() painter.end() printer.abort()
def paintEvent(self, event): canvas_size = self.rect() width = self.current_pixmap_size.width() extrax = canvas_size.width() - width if extrax < 0: extrax = 0 x = int(extrax / 2.) height = self.current_pixmap_size.height() extray = canvas_size.height() - height if extray < 0: extray = 0 y = int(extray / 2.) target = QRect(x, y, width, height) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap( target, self.pixmap.scaled(target.size(), Qt.KeepAspectRatio, Qt.SmoothTransformation)) if gprefs['bd_overlay_cover_size']: sztgt = target.adjusted(0, 0, 0, -4) f = p.font() f.setBold(True) p.setFont(f) sz = u'\u00a0%d x %d\u00a0' % (self.pixmap.width(), self.pixmap.height()) flags = Qt.AlignBottom | Qt.AlignRight | Qt.TextSingleLine szrect = p.boundingRect(sztgt, flags, sz) p.fillRect(szrect.adjusted(0, 0, 0, 4), QColor(0, 0, 0, 200)) p.setPen(QPen(QColor(255, 255, 255))) p.drawText(sztgt, flags, sz) p.end()
def do_paged_render(self, outpath): from PyQt4.Qt import QSize, QPainter if self.paged_js is None: from calibre.utils.resources import compiled_coffeescript self.paged_js = compiled_coffeescript('ebooks.oeb.display.utils') self.paged_js += compiled_coffeescript('ebooks.oeb.display.paged') printer = get_pdf_printer(self.opts, output_file_name=outpath) painter = QPainter(printer) zoomx = printer.logicalDpiX() / self.view.logicalDpiX() zoomy = printer.logicalDpiY() / self.view.logicalDpiY() painter.scale(zoomx, zoomy) pr = printer.pageRect() evaljs = self.view.page().mainFrame().evaluateJavaScript evaljs(self.paged_js) self.view.page().setViewportSize( QSize(pr.width() / zoomx, pr.height() / zoomy)) evaljs(''' document.body.style.backgroundColor = "white"; paged_display.set_geometry(1, 0, 0, 0); paged_display.layout(); paged_display.fit_images(); ''') mf = self.view.page().mainFrame() while True: mf.render(painter) nsl = evaljs('paged_display.next_screen_location()').toInt() if not nsl[1] or nsl[0] <= 0: break evaljs('window.scrollTo(%d, 0)' % nsl[0]) printer.newPage() painter.end() printer.abort()
def render_html(self, ok): try: if not ok: return cwidth, cheight = self.page.mainFrame().contentsSize().width( ), self.page.mainFrame().contentsSize().height() self.page.setViewportSize(QSize(cwidth, cheight)) factor = float(self.width) / cwidth if cwidth > self.width else 1 cutoff_height = int(self.height / factor) - 3 image = QImage(self.page.viewportSize(), QImage.Format_ARGB32) image.setDotsPerMeterX(self.dpi * (100 / 2.54)) image.setDotsPerMeterY(self.dpi * (100 / 2.54)) painter = QPainter(image) self.page.mainFrame().render(painter) painter.end() cheight = image.height() cwidth = image.width() pos = 0 while pos < cheight: img = image.copy(0, pos, cwidth, min(cheight - pos, cutoff_height)) pos += cutoff_height - 20 if cwidth > self.width: img = img.scaledToWidth(self.width, Qt.SmoothTransform) f = os.path.join(self.tdir, '%d.png' % pos) img.save(f) self.images.append((f, img.width(), img.height())) finally: QApplication.quit()
def event(self, e): if e.type() == e.Paint: p = QPainter(self) # Without this the viewport margin is rendered in QPalette::Window # instead of QPalette::Base p.fillRect(0, 0, self.padding_left+2, self.height(), self.palette().color(QPalette.Base)) p.end() return QListView.event(self, e)
def event(self, e): if e.type() == e.Paint: p = QPainter(self) # Without this the viewport margin is rendered in QPalette::Window # instead of QPalette::Base p.fillRect(0, 0, self.padding_left + 2, self.height(), self.palette().color(QPalette.Base)) p.end() return QListView.event(self, e)
def current_page_image(self, overlap=-1): if overlap < 0: overlap = self.height() img = QImage(self.width(), overlap, QImage.Format_ARGB32_Premultiplied) painter = QPainter(img) painter.setRenderHints(self.renderHints()) self.document.mainFrame().render(painter, QRegion(0, 0, self.width(), overlap)) painter.end() return img
def add_image(self, img, cache_key): ref = self.get_image(cache_key) if ref is not None: return ref fmt = img.format() image = QImage(img) if (image.depth() == 1 and img.colorTable().size() == 2 and img.colorTable().at(0) == QColor(Qt.black).rgba() and img.colorTable().at(1) == QColor(Qt.white).rgba()): if fmt == QImage.Format_MonoLSB: image = image.convertToFormat(QImage.Format_Mono) fmt = QImage.Format_Mono else: if (fmt != QImage.Format_RGB32 and fmt != QImage.Format_ARGB32): image = image.convertToFormat(QImage.Format_ARGB32) fmt = QImage.Format_ARGB32 w = image.width() h = image.height() d = image.depth() if fmt == QImage.Format_Mono: bytes_per_line = (w + 7) >> 3 data = image.constBits().asstring(bytes_per_line * h) return self.write_image(data, w, h, d, cache_key=cache_key) has_alpha = False soft_mask = None if fmt == QImage.Format_ARGB32: tmask = image.constBits().asstring(4*w*h)[self.alpha_bit::4] sdata = bytearray(tmask) vals = set(sdata) vals.discard(255) # discard opaque pixels has_alpha = bool(vals) if has_alpha: # Blend image onto a white background as otherwise Qt will render # transparent pixels as black background = QImage(image.size(), QImage.Format_ARGB32_Premultiplied) background.fill(Qt.white) painter = QPainter(background) painter.drawImage(0, 0, image) painter.end() image = background ba = QByteArray() buf = QBuffer(ba) image.save(buf, 'jpeg', 94) data = bytes(ba.data()) if has_alpha: soft_mask = self.write_image(tmask, w, h, 8) return self.write_image(data, w, h, 32, dct=True, soft_mask=soft_mask, cache_key=cache_key)
def __call__(self, canvas): if canvas.has_selection and canvas.selection_state.rect is not None: pimg = self.after_image img = self.after_image = QImage(canvas.current_image) rect = QRectF(*get_selection_rect(img, canvas.selection_state.rect, canvas.target)) p = QPainter(img) p.setRenderHint(p.SmoothPixmapTransform, True) p.drawImage(rect, pimg, QRectF(pimg.rect())) p.end() return self.after_image
def paintEvent(self, event): w = self.viewport().rect().width() painter = QPainter(self.viewport()) painter.setClipRect(event.rect()) floor = event.rect().bottom() ceiling = event.rect().top() fv = self.firstVisibleBlock().blockNumber() origin = self.contentOffset() doc = self.document() lines = [] for num, text in self.headers: top, bot = num, num + 3 if bot < fv: continue y_top = self.blockBoundingGeometry(doc.findBlockByNumber(top)).translated(origin).y() y_bot = self.blockBoundingGeometry(doc.findBlockByNumber(bot)).translated(origin).y() if max(y_top, y_bot) < ceiling: continue if min(y_top, y_bot) > floor: break painter.setFont(self.heading_font) br = painter.drawText(3, y_top, w, y_bot - y_top - 5, Qt.TextSingleLine, text) painter.setPen(QPen(self.palette().text(), 2)) painter.drawLine(0, br.bottom()+3, w, br.bottom()+3) for top, bot, kind in self.changes: if bot < fv: continue y_top = self.blockBoundingGeometry(doc.findBlockByNumber(top)).translated(origin).y() y_bot = self.blockBoundingGeometry(doc.findBlockByNumber(bot)).translated(origin).y() if max(y_top, y_bot) < ceiling: continue if min(y_top, y_bot) > floor: break if y_top != y_bot: painter.fillRect(0, y_top, w, y_bot - y_top, self.diff_backgrounds[kind]) lines.append((y_top, y_bot, kind)) if top in self.images: img, maxw = self.images[top][:2] if bot > top + 1 and not img.isNull(): y_top = self.blockBoundingGeometry(doc.findBlockByNumber(top+1)).translated(origin).y() + 3 y_bot -= 3 scaled, imgw, imgh = fit_image(img.width(), img.height(), w - 3, y_bot - y_top) painter.setRenderHint(QPainter.SmoothPixmapTransform, True) painter.drawPixmap(QRect(3, y_top, imgw, imgh), img) painter.end() PlainTextEdit.paintEvent(self, event) painter = QPainter(self.viewport()) painter.setClipRect(event.rect()) for top, bottom, kind in sorted(lines, key=lambda (t, b, k):{'replace':0}.get(k, 1)): painter.setPen(QPen(self.diff_foregrounds[kind], 1)) painter.drawLine(0, top, w, top) painter.drawLine(0, bottom - 1, w, bottom - 1)
def makeQPixmap(self, width, height): data = numpy.zeros((width, height), float) data[...] = (numpy.arange(width) / (width - 1.))[:, numpy.newaxis] # make brush image -- diag background, with colormap on top img = QPixmap(width, height) painter = QPainter(img) painter.fillRect(0, 0, width, height, QBrush(QColor("white"))) painter.fillRect(0, 0, width, height, QBrush(Qt.BDiagPattern)) painter.drawImage(0, 0, self.colorize(data)) painter.end() return img
def paintEvent(self, ev): p = QPainter(self) p.setClipRect(ev.rect()) bg = self.palette().color(QPalette.AlternateBase) if self.hovering: bg = bg.lighter(115) p.fillRect(self.rect(), bg) try: p.drawText(self.rect(), Qt.AlignLeft|Qt.AlignVCenter|Qt.TextSingleLine, self.rendered_text) finally: p.end()
def run(dev, func): p = QPainter(dev) if isinstance(dev, PdfDevice): dev.init_page() xmax, ymax = p.viewport().width(), p.viewport().height() try: func(p, xmax, ymax) finally: p.end() if isinstance(dev, PdfDevice): if dev.engine.errors_occurred: raise SystemExit(1)
def paintEvent(self, event): contents_y = self.edit.verticalScrollBar().value() page_bottom = contents_y + self.edit.viewport().height() font_metrics = self.fontMetrics() current_block = self.edit.document().findBlock( self.edit.textCursor().position()) painter = QPainter(self) line_count = 0 # Iterate over all text blocks in the document. block = self.edit.document().begin() while block.isValid(): line_count += 1 # The top left position of the block in the document position = self.edit.document().documentLayout( ).blockBoundingRect(block).topLeft() # Check if the position of the block is out side of the visible # area. if position.y() > page_bottom: break # We want the line number for the selected line to be bold. bold = False if block == current_block: bold = True font = painter.font() font.setBold(True) painter.setFont(font) # Draw the line number right justified at the y position of the # line. 3 is a magic padding number. drawText(x, y, text). painter.drawText( self.width() - font_metrics.width(str(line_count)) - 3, round(position.y()) - contents_y + font_metrics.ascent(), str(line_count)) # Remove the bold style if it was set previously. if bold: font = painter.font() font.setBold(False) painter.setFont(font) block = block.next() self.highest_line = line_count painter.end() QWidget.paintEvent(self, event)
def paintEvent(self, ev): br = ev.region().boundingRect() QWidget.paintEvent(self, ev) p = QPainter(self) p.setClipRect(br) f = p.font() f.setBold(True) f.setPointSize(20) p.setFont(f) p.setPen(Qt.SolidLine) r = QRect(0, self.dummy.geometry().top() + 10, self.geometry().width(), 150) p.drawText(r, Qt.AlignHCenter | Qt.AlignTop | Qt.TextSingleLine, self.text) p.end()
def insert_cover(self): if self.cover_data is None: return item_path = os.path.join(self.tmp_path, 'cover.pdf') printer = get_pdf_printer(self.opts, output_file_name=item_path) self.combine_queue.insert(0, item_path) p = QPixmap() p.loadFromData(self.cover_data) if not p.isNull(): painter = QPainter(printer) draw_image_page(printer, painter, p, preserve_aspect_ratio=self.opts.preserve_cover_aspect_ratio) painter.end() printer.abort()
def insert_cover(self): if not isinstance(self.cover_data, bytes): return item_path = os.path.join(self.tmp_path, "cover.pdf") printer = get_pdf_printer(self.opts, output_file_name=item_path, for_comic=True) self.combine_queue.insert(0, item_path) p = QPixmap() p.loadFromData(self.cover_data) if not p.isNull(): painter = QPainter(printer) draw_image_page(printer, painter, p, preserve_aspect_ratio=self.opts.preserve_cover_aspect_ratio) painter.end() self.append_doc(item_path) printer.abort()
def create_icon(text, palette=None, sz=32, divider=2): if palette is None: palette = QApplication.palette() img = QImage(sz, sz, QImage.Format_ARGB32) img.fill(Qt.transparent) p = QPainter(img) p.setRenderHints(p.TextAntialiasing | p.Antialiasing) qDrawShadeRect(p, img.rect(), palette, fill=QColor('#ffffff'), lineWidth=1, midLineWidth=1) f = p.font() f.setFamily('Liberation Sans'), f.setPixelSize(sz // divider), f.setBold(True) p.setFont(f), p.setPen(Qt.black) p.drawText(img.rect().adjusted(2, 2, -2, -2), Qt.AlignCenter, text) p.end() return QIcon(QPixmap.fromImage(img))
def numberbarPaint(self, number_bar, event): """ Pain the line numbers """ font_metrics = self.fontMetrics() current_line = self.document().findBlock( self.textCursor().position()).blockNumber() + 1 block = self.firstVisibleBlock() line_count = block.blockNumber() painter = QPainter(number_bar) fg_pen = QtGui.QPen(QtGui.QColor("gray")) painter.setFont(self.font) painter.setPen(fg_pen) painter.fillRect(event.rect(), self.palette().base()) # Iterate over all visible text blocks in the document. while block.isValid(): line_count += 1 block_top = self.blockBoundingGeometry(block).translated( self.contentOffset()).top() # Check if the position of the block is out side of the visible # area. if not block.isVisible() or block_top >= event.rect().bottom(): break # We want the line number for the selected line to be bold. if line_count == current_line: font = painter.font() font.setBold(True) painter.setFont(font) else: font = painter.font() font.setBold(False) painter.setFont(font) # Draw the line number right justified at the position of the line. paint_rect = QRect(0, block_top, number_bar.width(), font_metrics.height()) painter.drawText(paint_rect, Qt.AlignRight, unicode("x%.4d" % line_count)) block = block.next() painter.end()
def paintEvent(self, event): contents_y = self.edit.verticalScrollBar().value() page_bottom = contents_y + self.edit.viewport().height() font_metrics = self.fontMetrics() current_block = self.edit.document().findBlock(self.edit.textCursor().position()) painter = QPainter(self) line_count = 0 # Iterate over all text blocks in the document. block = self.edit.document().begin() while block.isValid(): line_count += 1 # The top left position of the block in the document position = self.edit.document().documentLayout().blockBoundingRect(block).topLeft() # Check if the position of the block is out side of the visible # area. if position.y() > page_bottom: break # We want the line number for the selected line to be bold. bold = False if block == current_block: bold = True font = painter.font() font.setBold(True) painter.setFont(font) # Draw the line number right justified at the y position of the # line. 3 is a magic padding number. drawText(x, y, text). painter.drawText(self.width() - font_metrics.width(str(line_count)) - 3, round(position.y()) - contents_y + font_metrics.ascent()+3, str(line_count)) # Remove the bold style if it was set previously. if bold: font = painter.font() font.setBold(False) painter.setFont(font) block = block.next() self.highest_line = line_count painter.end() QWidget.paintEvent(self, event)
def paintEvent(self, event): QWidget.paintEvent(self, event) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) try: self.draw_background(p) if self.original_image_data is None: return if not self.is_valid: return self.draw_image_error(p) self.load_pixmap() self.draw_pixmap(p) if self.selection_state.rect is not None: self.draw_selection_rect(p) finally: p.end()
def paintEvent(self, event): canvas_size = self.rect() width = self.current_pixmap_size.width() extrax = canvas_size.width() - width if extrax < 0: extrax = 0 x = int(extrax/2.) height = self.current_pixmap_size.height() extray = canvas_size.height() - height if extray < 0: extray = 0 y = int(extray/2.) target = QRect(x, y, width, height) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap(target, self.pixmap.scaled(target.size(), Qt.KeepAspectRatio, Qt.SmoothTransformation)) p.end()
def paintEvent(self, event): h = self.size().height() w = self.size().width() contents_y = self.edit.verticalScrollBar().value() page_bottom = contents_y + self.edit.viewport().height() font_metrics = self.fontMetrics() painter = QPainter(self) painter.setBackgroundMode(QtCore.Qt.OpaqueMode) bgc = QtGui.QColor(0, 0, 0) painter.fillRect(0, 0, w, h, bgc) numbersborderc = QtGui.QColor(55, 75, 75) painter.setPen(numbersborderc) painter.drawLine(w - 1, 0, w - 1, h) bg = QtGui.QBrush(bgc) painter.setBackground(bg) textc = QtGui.QColor(55, 255, 255) painter.setPen(textc) fg = QtGui.QBrush(bgc) painter.setBrush(fg) line_count = 0 # Iterate over all text blocks in the document. block = self.edit.document().begin() while block.isValid(): line_count += 1 # The top left position of the block in the document position = self.edit.document().documentLayout().blockBoundingRect( block).topLeft() # Draw the line number right justified at the y position of the # line. 3 is a magic padding number. drawText(x, y, text). painter.drawText( self.width() - font_metrics.width(str(line_count)) - 8, round(position.y()) - contents_y + font_metrics.ascent(), str(line_count)) block = block.next() self.highest_line = line_count painter.end() QWidget.paintEvent(self, event)
def insert_cover(self): if self.cover_data is None: return item_path = os.path.join(self.tmp_path, 'cover.pdf') printer = get_pdf_printer(self.opts, output_file_name=item_path) self.combine_queue.insert(0, item_path) p = QPixmap() p.loadFromData(self.cover_data) if not p.isNull(): painter = QPainter(printer) draw_image_page( printer, painter, p, preserve_aspect_ratio=self.opts.preserve_cover_aspect_ratio) painter.end() printer.abort()
def numberbarPaint(self, number_bar, event): """ Pain the line numbers """ font_metrics = self.fontMetrics() current_line = self.document().findBlock(self.textCursor().position()).blockNumber() + 1 block = self.firstVisibleBlock() line_count = block.blockNumber() painter = QPainter(number_bar) fg_pen = QtGui.QPen(QtGui.QColor("gray")) painter.setFont(self.font) painter.setPen(fg_pen) painter.fillRect(event.rect(), self.palette().base()) # Iterate over all visible text blocks in the document. while block.isValid(): line_count += 1 block_top = self.blockBoundingGeometry(block).translated(self.contentOffset()).top() # Check if the position of the block is out side of the visible # area. if not block.isVisible() or block_top >= event.rect().bottom(): break # We want the line number for the selected line to be bold. if line_count == current_line: font = painter.font() font.setBold(True) painter.setFont(font) else: font = painter.font() font.setBold(False) painter.setFont(font) # Draw the line number right justified at the position of the line. paint_rect = QRect(0, block_top, number_bar.width(), font_metrics.height()) painter.drawText(paint_rect, Qt.AlignRight, unicode("x%.4d" % line_count)) block = block.next() painter.end()
def render_images(self, outpath, mi, items): printer = get_pdf_printer(self.opts, for_comic=True, output_file_name=outpath) printer.setDocName(mi.title) painter = QPainter(printer) painter.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) for i, imgpath in enumerate(items): self.log("Rendering image:", i) p = QPixmap() p.load(imgpath) if not p.isNull(): if i > 0: printer.newPage() draw_image_page(printer, painter, p) else: self.log.warn("Failed to load image", i) painter.end()
def paintEvent(self, ev): p = QPainter(self) p.setClipRect(ev.rect()) palette = self.palette() p.setPen(palette.color(QPalette.WindowText)) if not self.is_first: p.drawLine(0, 0, self.width(), 0) try: for row in self.rows: for cell in row: p.save() try: cell.draw(p, self.width(), palette) finally: p.restore() finally: p.end()
def do_print(self, printer): painter = QPainter(printer) zoomx = printer.logicalDpiX() / self.view.logicalDpiX() zoomy = printer.logicalDpiY() / self.view.logicalDpiY() painter.scale(zoomx, zoomy) pr = printer.pageRect() self.view.page().setViewportSize( QSize(pr.width() / zoomx, pr.height() / zoomy)) evaljs = self.mf.evaluateJavaScript loop = QEventLoop(self) first = True for path in self.iterator.spine: self.loaded_ok = None load_html(path, self.view, codec=getattr(path, 'encoding', 'utf-8'), mime_type=getattr(path, 'mime_type', None)) while self.loaded_ok is None: loop.processEvents(loop.ExcludeUserInputEvents) if not self.loaded_ok: return error_dialog(self.parent(), _('Failed to render'), _('Failed to render document %s') % path, show=True) evaljs(self.paged_js) evaljs(''' document.body.style.backgroundColor = "white"; paged_display.set_geometry(1, 0, 0, 0); paged_display.layout(); paged_display.fit_images(); ''') while True: if not first: printer.newPage() first = False self.mf.render(painter) nsl = evaljs('paged_display.next_screen_location()').toInt() if not nsl[1] or nsl[0] <= 0: break evaljs('window.scrollTo(%d, 0)' % nsl[0]) painter.end()
def paintEvent(self, event): canvas_size = self.rect() width = self.current_pixmap_size.width() extrax = canvas_size.width() - width if extrax < 0: extrax = 0 x = int(extrax / 2.) height = self.current_pixmap_size.height() extray = canvas_size.height() - height if extray < 0: extray = 0 y = int(extray / 2.) target = QRect(x, y, width, height) p = QPainter(self) p.setRenderHints(QPainter.Antialiasing | QPainter.SmoothPixmapTransform) p.drawPixmap( target, self.pixmap.scaled(target.size(), Qt.KeepAspectRatio, Qt.SmoothTransformation)) p.end()
def failed_img(self): if self._failed_img is None: i = QImage(200, 150, QImage.Format_ARGB32) i.fill(Qt.white) p = QPainter(i) r = i.rect().adjusted(10, 10, -10, -10) n = QPen(Qt.DashLine) n.setColor(Qt.black) p.setPen(n) p.drawRect(r) p.setPen(Qt.black) f = self.font() f.setPixelSize(20) p.setFont(f) p.drawText(r.adjusted(10, 0, -10, 0), Qt.AlignCenter | Qt.TextWordWrap, _('Image could not be rendered')) p.end() self._failed_img = QPixmap.fromImage(i) return self._failed_img