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 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 __init__(self, stream, page_size, compress=False, mark_links=False,
debug=print):
self.stream = HashingStream(stream)
self.compress = compress
self.write_line(PDFVER)
self.write_line(b'%íì¦"')
creator = ('%s %s [http://calibre-ebook.com]'%(__appname__,
__version__))
self.write_line('%% Created by %s'%creator)
self.objects = IndirectObjects()
self.objects.add(PageTree(page_size))
self.objects.add(Catalog(self.page_tree))
self.current_page = Page(self.page_tree, compress=self.compress)
self.info = Dictionary({
'Creator':String(creator),
'Producer':String(creator),
'CreationDate': utcnow(),
})
self.stroke_opacities, self.fill_opacities = {}, {}
self.font_manager = FontManager(self.objects, self.compress)
self.image_cache = {}
self.pattern_cache, self.shader_cache = {}, {}
self.debug = debug
self.links = Links(self, mark_links, page_size)
i = QImage(1, 1, QImage.Format_ARGB32)
i.fill(qRgba(0, 0, 0, 255))
self.alpha_bit = i.constBits().asstring(4).find(b'\xff')
def __init__(self, stream, page_size, compress=False, mark_links=False,
debug=print):
self.stream = HashingStream(stream)
self.compress = compress
self.write_line(PDFVER)
self.write_line(b'%íì¦"')
creator = ('%s %s [http://calibre-ebook.com]'%(__appname__,
__version__))
self.write_line('%% Created by %s'%creator)
self.objects = IndirectObjects()
self.objects.add(PageTree(page_size))
self.objects.add(Catalog(self.page_tree))
self.current_page = Page(self.page_tree, compress=self.compress)
self.info = Dictionary({
'Creator':String(creator),
'Producer':String(creator),
'CreationDate': utcnow(),
})
self.stroke_opacities, self.fill_opacities = {}, {}
self.font_manager = FontManager(self.objects, self.compress)
self.image_cache = {}
self.pattern_cache, self.shader_cache = {}, {}
self.debug = debug
self.links = Links(self, mark_links, page_size)
i = QImage(1, 1, QImage.Format_ARGB32)
i.fill(qRgba(0, 0, 0, 255))
self.alpha_bit = i.constBits().asstring(4).find(b'\xff')
def get_pixel_map():
' Get the order of pixels in QImage (RGBA or BGRA usually) '
global _qimage_pixel_map
if _qimage_pixel_map is None:
i = QImage(1, 1, QImage.Format_ARGB32)
i.fill(QColor(0, 1, 2, 3))
raw = bytearray(i.constBits().asstring(4))
_qimage_pixel_map = {c:raw.index(x) for c, x in zip('RGBA', b'\x00\x01\x02\x03')}
_qimage_pixel_map = ''.join(sorted(_qimage_pixel_map, key=_qimage_pixel_map.get))
return _qimage_pixel_map
def get_pixel_map():
' Get the order of pixels in QImage (RGBA or BGRA usually) '
global _qimage_pixel_map
if _qimage_pixel_map is None:
i = QImage(1, 1, QImage.Format_ARGB32)
i.fill(QColor(0, 1, 2, 3))
raw = bytearray(i.constBits().asstring(4))
_qimage_pixel_map = {c:raw.index(x) for c, x in zip('RGBA', b'\x00\x01\x02\x03')}
_qimage_pixel_map = ''.join(sorted(_qimage_pixel_map, key=_qimage_pixel_map.get))
return _qimage_pixel_map
def __init__(
self,
file_object,
page_width,
page_height,
left_margin,
top_margin,
right_margin,
bottom_margin,
width,
height,
errors=print,
debug=print,
compress=True,
):
QPaintEngine.__init__(self, self.features)
self.file_object = file_object
self.compress = compress
self.page_height, self.page_width = page_height, page_width
self.left_margin, self.top_margin = left_margin, top_margin
self.right_margin, self.bottom_margin = right_margin, bottom_margin
self.pixel_width, self.pixel_height = width, height
# Setup a co-ordinate transform that allows us to use co-ords
# from Qt's pixel based co-ordinate system with its origin at the top
# left corner. PDF's co-ordinate system is based on pts and has its
# origin in the bottom left corner. We also have to implement the page
# margins. Therefore, we need to translate, scale and reflect about the
# x-axis.
dy = self.page_height - self.top_margin
dx = self.left_margin
sx = (self.page_width - self.left_margin - self.right_margin) / self.pixel_width
sy = (self.page_height - self.top_margin - self.bottom_margin) / self.pixel_height
self.pdf_system = QTransform(sx, 0, 0, -sy, dx, dy)
self.do_stroke = True
self.do_fill = False
self.scale = sqrt(sy ** 2 + sx ** 2)
self.xscale, self.yscale = sx, sy
self.graphics_state = GraphicsState()
self.errors_occurred = False
self.errors, self.debug = errors, debug
self.text_option = QTextOption()
self.text_option.setWrapMode(QTextOption.NoWrap)
self.fonts = {}
i = QImage(1, 1, QImage.Format_ARGB32)
i.fill(qRgba(0, 0, 0, 255))
self.alpha_bit = i.constBits().asstring(4).find(b"\xff")
self.current_page_num = 1
self.current_page_inited = False
def qimage_to_magick(img):
ans = Image()
fmt = get_pixel_map()
if not img.hasAlphaChannel():
if img.format() != img.Format_RGB32:
img = QImage(img)
img.setFormat(QImage.Format_RGB32)
fmt = fmt.replace('A', 'P')
else:
if img.format() != img.Format_ARGB32:
img = QImage(img)
img.setFormat(img.Format_ARGB32)
raw = img.constBits().ascapsule()
ans.constitute(img.width(), img.height(), fmt, raw)
return ans
def qimage_to_magick(img):
ans = Image()
if isosx:
# For some reson, on OSX MagickConstituteImage fails, and I can't be
# bothered figuring out why. Dumping to uncompressed PNG is reasonably
# fast.
raw = pixmap_to_data(img, 'PNG', quality=100)
ans.load(raw)
return ans
fmt = get_pixel_map()
if not img.hasAlphaChannel():
if img.format() != img.Format_RGB32:
img = QImage(img)
img.setFormat(QImage.Format_RGB32)
fmt = fmt.replace('A', 'P')
else:
if img.format() != img.Format_ARGB32:
img = QImage(img)
img.setFormat(img.Format_ARGB32)
raw = img.constBits().ascapsule()
ans.constitute(img.width(), img.height(), fmt, raw)
return ans
def qimage_to_magick(img):
ans = Image()
if isosx:
# For some reson, on OSX MagickConstituteImage fails, and I can't be
# bothered figuring out why. Dumping to uncompressed PNG is reasonably
# fast.
raw = pixmap_to_data(img, 'PNG', quality=100)
ans.load(raw)
return ans
fmt = get_pixel_map()
if not img.hasAlphaChannel():
if img.format() != img.Format_RGB32:
img = QImage(img)
img.setFormat(QImage.Format_RGB32)
fmt = fmt.replace('A', 'P')
else:
if img.format() != img.Format_ARGB32:
img = QImage(img)
img.setFormat(img.Format_ARGB32)
raw = img.constBits().ascapsule()
ans.constitute(img.width(), img.height(), fmt, raw)
return ans
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)
ba = QByteArray()
buf = QBuffer(ba)
image.save(buf, 'jpeg', 94)
data = bytes(ba.data())
has_alpha = has_mask = False
soft_mask = 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)
has_mask = bool(vals)
vals.discard(0)
has_alpha = bool(vals)
if has_alpha:
soft_mask = self.write_image(tmask, w, h, 8)
elif has_mask:
# dither the soft mask to 1bit and add it. This also helps PDF
# viewers without transparency support
bytes_per_line = (w + 7) >> 3
mdata = bytearray(0 for i in xrange(bytes_per_line * h))
spos = mpos = 0
for y in xrange(h):
for x in xrange(w):
if sdata[spos]:
mdata[mpos + x>>3] |= (0x80 >> (x&7))
spos += 1
mpos += bytes_per_line
mdata = bytes(mdata)
mask = self.write_image(mdata, w, h, 1)
return self.write_image(data, w, h, 32, mask=mask, dct=True,
soft_mask=soft_mask, cache_key=cache_key)
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)
ba = QByteArray()
buf = QBuffer(ba)
image.save(buf, 'jpeg', 94)
data = bytes(ba.data())
has_alpha = has_mask = False
soft_mask = 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)
has_mask = bool(vals)
vals.discard(0)
has_alpha = bool(vals)
if has_alpha:
soft_mask = self.write_image(tmask, w, h, 8)
elif has_mask:
# dither the soft mask to 1bit and add it. This also helps PDF
# viewers without transparency support
bytes_per_line = (w + 7) >> 3
mdata = bytearray(0 for i in xrange(bytes_per_line * h))
spos = mpos = 0
for y in xrange(h):
for x in xrange(w):
if sdata[spos]:
mdata[mpos + x >> 3] |= (0x80 >> (x & 7))
spos += 1
mpos += bytes_per_line
mdata = bytes(mdata)
mask = self.write_image(mdata, w, h, 1)
return self.write_image(data,
w,
h,
32,
mask=mask,
dct=True,
soft_mask=soft_mask,
cache_key=cache_key)
