def __init__(self,
bot,
text,
x=0,
y=0,
width=None,
height=None,
outline=False,
ctx=None,
enableRendering=True,
**kwargs):
Grob.__init__(self, bot)
ColorMixin.__init__(self, **kwargs)
canvas = bot._canvas
###self._transform = canvas.transform # TODO remove - this is in grob
self._ctx = ctx
self._pang_ctx = None
self._doRender = enableRendering
self.text = unicode(text)
self.x = x
self.y = y
self.width = width
self.height = height
self._outline = outline
self._fontfile = kwargs.get('font', canvas.fontfile)
self._fontsize = kwargs.get('fontsize', canvas.fontsize)
self._lineheight = kwargs.get('lineheight', canvas.lineheight)
self._align = kwargs.get('align', canvas.align)
self._indent = kwargs.get("indent")
# we use the pango parser instead of trying this by hand
self._fontface = pango.FontDescription(self._fontfile)
# then we set fontsize (multiplied by pango.SCALE)
self._fontface.set_absolute_size(self._fontsize * pango.SCALE)
# missing styles?
if kwargs.has_key("style"):
if "italic" in kwargs["style"] or "oblique" in kwargs["style"]:
self._style = pango.STYLE_ITALIC
self._fontface.set_style(self._style)
#we need to pre-render some stuff to enable metrics sizing
self._pre_render()
if (self._doRender
): #this way we do not render if we only need to create metrics
if bool(ctx):
self._render(self._ctx)
else:
# Normal rendering, can be deferred
self._deferred_render()
def __init__(
self,
bot,
text,
x=0,
y=0,
width=None,
height=None,
outline=False,
ctx=None,
enableRendering=True,
**kwargs
):
self._canvas = canvas = bot._canvas
Grob.__init__(self, bot)
ColorMixin.__init__(self, **kwargs)
self.text = str(text)
self.x = x
self.y = y
self.width = width
self.height = height
self.outline = outline
self.font = kwargs.get("font", canvas.fontfile)
self.fontsize = kwargs.get("fontsize", canvas.fontsize)
self.style = kwargs.get("style", "normal")
self.weight = kwargs.get("weight", "normal")
self.align = kwargs.get("align", canvas.align)
self.indent = kwargs.get("indent")
self.lineheight = kwargs.get("lineheight", canvas.lineheight)
# Setup hidden vars for Cairo / Pango specific bits:
self._ctx = ctx
self._pangocairo_ctx = None
self._pango_fontface = Pango.FontDescription.from_string(self.font)
# then we set fontsize (multiplied by Pango.SCALE)
self._pango_fontface.set_absolute_size(self.fontsize * Pango.SCALE)
self._pango_fontface.set_style(_style_name_to_pango(self.style))
self._pango_fontface.set_weight(_weight_name_to_pango(self.weight))
# Pre-render some stuff to enable metrics sizing
self._pre_render()
if (
enableRendering
): # this way we do not render if we only need to create metrics
if bool(ctx):
self._render(self._ctx)
else:
# Normal rendering, can be deferred
self._deferred_render()
self._prerendered = enableRendering
def __init__(self, bot, text, x=0, y=0, width=None, height=None, outline=False, ctx=None, enableRendering=True, **kwargs):
self._canvas = canvas = bot._canvas
Grob.__init__(self, bot)
ColorMixin.__init__(self, **kwargs)
###self._transform = canvas.transform # TODO remove - this is in grob
self._ctx = ctx
self._pang_ctx = None
self._doRender = enableRendering
self.text = unicode(text)
self.x = x
self.y = y
self.width = width
self.height = height
self._outline = outline
self._fontfile = kwargs.get('font', canvas.fontfile)
self._fontsize = kwargs.get('fontsize', canvas.fontsize)
self._lineheight = kwargs.get('lineheight', canvas.lineheight)
self._align = kwargs.get('align', canvas.align)
self._indent = kwargs.get("indent")
# we use the pango parser instead of trying this by hand
self._fontface = pango.FontDescription(self._fontfile)
# then we set fontsize (multiplied by pango.SCALE)
self._fontface.set_absolute_size(self._fontsize*pango.SCALE)
# the style
self._style = pango.STYLE_NORMAL
if kwargs.has_key("style"):
if kwargs["style"]=="italic" or kwargs["style"]=="oblique":
self._style = pango.STYLE_ITALIC
self._fontface.set_style(self._style)
#we need to pre-render some stuff to enable metrics sizing
self._pre_render()
if (self._doRender): #this way we do not render if we only need to create metrics
if bool(ctx):
self._render(self._ctx)
else:
# Normal rendering, can be deferred
self._deferred_render()
def __init__(self, bot, path = None, x = 0, y = 0, width=None, height=None, alpha=1.0, data=None, pathmode=CORNER, **kwargs):
Grob.__init__(self, bot)
ColorMixin.__init__(self, **kwargs)
self.x = x
self.y = y
self.width = width
self.height = height
self.alpha = alpha
self.path = path
self.data = data
self._pathmode = pathmode
sh = sw = None # Surface Height and Width
if isinstance(self.data, cairo.ImageSurface):
sw = self.data.get_width()
sh = self.data.get_height()
self._imagesurface = self.data
else:
# checks if image data is passed in command call, in this case it wraps
# the data in a StringIO oject in order to use it as a file
# the data itself must contain an entire image, not just pixel data
# it can be useful for example to retrieve images from the web without
# writing temp files (e.g. using nodebox's web library, see example 1 of the library)
# if no data is passed the path is used to open a local file
if self.data is None:
surfaceref = self._surface_cache.get(path)
if surfaceref:
imagesurface = surfaceref.surface
sw = imagesurface.get_width()
sh = imagesurface.get_height()
elif os.path.splitext(path)[1].lower() == '.svg' and rsvg is not None:
handle = rsvg.Handle(path)
sw, sh = handle.get_dimension_data()[:2]
imagesurface = cairo.RecordingSurface(cairo.CONTENT_COLOR_ALPHA, 0, 0, sw, sh)
ctx = cairo.Context(imagesurface)
handle.render_cairo(ctx)
elif os.path.splitext(path)[1].lower() == '.png':
imagesurface = cairo.ImageSurface.create_from_png(path)
sw = imagesurface.get_width()
sh = imagesurface.get_height()
elif Gtk is not None:
pixbuf = GdkPixbuf.Pixbuf.new_from_file(path)
sw = pixbuf.get_width()
sh = pixbuf.get_height()
''' create a new cairo surface to place the image on '''
surface = cairo.ImageSurface(0, sw, sh)
''' create a context to the new surface '''
ct = cairo.Context(surface)
''' create a GDK formatted Cairo context to the new Cairo native context '''
ct2 = Gdk.CairoContext(ct)
''' draw from the pixbuf to the new surface '''
ct2.set_source_pixbuf(pixbuf, 0, 0)
ct2.paint()
''' surface now contains the image in a Cairo surface '''
imagesurface = ct2.get_target()
else:
img = PILImage.open(path)
if img.mode != 'RGBA':
img = img.convert("RGBA")
sw, sh = img.size
# Would be nice to not have to do some of these conversions :-\
bgra_data = img.tostring('raw', 'BGRA', 0, 1)
bgra_array = array.array('B', bgra_data)
imagesurface = cairo.ImageSurface.create_for_data(bgra_array, cairo.FORMAT_ARGB32, sw, sh, sw*4)
self._surface_cache[path] = SurfaceRef(imagesurface)
else:
img = PILImage.open(StringIO(self.data))
if img.mode != 'RGBA':
img = img.convert("RGBA")
sw, sh = img.size
# Would be nice to not have to do some of these conversions :-\
bgra_data = img.tostring('raw', 'BGRA', 0, 1)
bgra_array = array.array('B', bgra_data)
imagesurface = cairo.ImageSurface.create_for_data(bgra_array, cairo.FORMAT_ARGB32, sw, sh, sw*4)
if width is not None or height is not None:
if width:
wscale = float(width) / sw
else:
wscale = 1.0
if height:
hscale = float(height) / sh
else:
if width:
hscale = wscale
else:
hscale = 1.0
self._transform.scale(wscale, hscale)
self.width = width or sw
self.height = height or sh
self._imagesurface = imagesurface
self._deferred_render()
def __init__(self,
bot,
path=None,
x=0,
y=0,
width=None,
height=None,
alpha=1.0,
data=None,
pathmode=CORNER,
**kwargs):
Grob.__init__(self, bot)
ColorMixin.__init__(self, **kwargs)
self.x = x
self.y = y
self.width = width
self.height = height
self.alpha = alpha
self.path = path
self.data = data
self._pathmode = pathmode
sh = sw = None # Surface Height and Width
if isinstance(self.data, cairo.ImageSurface):
sw = self.data.get_width()
sh = self.data.get_height()
self._surface = self.data
else:
# checks if image data is passed in command call, in this case it wraps
# the data in a StringIO oject in order to use it as a file
# the data itself must contain an entire image, not just pixel data
# it can be useful for example to retrieve images from the web without
# writing temp files (e.g. using nodebox's web library, see example 1 of the library)
# if no data is passed the path is used to open a local file
if self.data is None:
surfaceref = self._surface_cache.get(path)
if surfaceref:
surface = surfaceref.surface
if isinstance(surface, cairo.RecordingSurface):
extents = surface.get_extents()
# extents has x, y which we dont use right now
sw = extents.width
sh = extents.height
else:
sw = surface.get_width()
sh = surface.get_height()
elif os.path.splitext(
path)[1].lower() == ".svg" and Rsvg is not None:
handle = Rsvg.Handle()
svg = handle.new_from_file(path)
dimensions = svg.get_dimensions()
sw = dimensions.width
sh = dimensions.height
surface = cairo.RecordingSurface(cairo.CONTENT_COLOR_ALPHA,
(0, 0, sw, sh))
ctx = cairo.Context(surface)
pycairo_ctx = driver.ensure_pycairo_context(ctx)
svg.render_cairo(pycairo_ctx)
elif os.path.splitext(path)[1].lower() == ".png":
surface = cairo.ImageSurface.create_from_png(path)
sw = surface.get_width()
sh = surface.get_height()
else:
img = PILImage.open(path)
if img.mode != "RGBA":
img = img.convert("RGBA")
sw, sh = img.size
# Would be nice to not have to do some of these conversions :-\
bgra_data = img.tobytes("raw", "BGRA", 0, 1)
bgra_array = array.array("B", bgra_data)
surface = cairo.ImageSurface.create_for_data(
bgra_array, cairo.FORMAT_ARGB32, sw, sh, sw * 4)
self._surface_cache[path] = SurfaceRef(surface)
else:
img = PILImage.open(StringIO(self.data))
if img.mode != "RGBA":
img = img.convert("RGBA")
sw, sh = img.size
# Would be nice to not have to do some of these conversions :-\
bgra_data = img.tobytes("raw", "BGRA", 0, 1)
bgra_array = array.array("B", bgra_data)
surface = cairo.ImageSurface.create_for_data(
bgra_array, cairo.FORMAT_ARGB32, sw, sh, sw * 4)
if width is not None or height is not None:
if width:
wscale = float(width) / sw
else:
wscale = 1.0
if height:
hscale = float(height) / sh
else:
if width:
hscale = wscale
else:
hscale = 1.0
self._transform.scale(wscale, hscale)
self.width = width or sw
self.height = height or sh
self._surface = surface
self._deferred_render()
def __init__(self, bot, path = None, x = 0, y = 0, width=None, height=None, alpha=1.0, data=None, pathmode=CORNER, **kwargs):
Grob.__init__(self, bot)
ColorMixin.__init__(self, **kwargs)
self.x = x
self.y = y
self.width = width
self.height = height
self.alpha = alpha
self.path = path
self.data = data
self._pathmode = pathmode
sh = sw = None # Surface Height and Width
if isinstance(self.data, cairo.ImageSurface):
sw = self.data.get_width()
sh = self.data.get_height()
self._imagesurface = self.data
else:
# checks if image data is passed in command call, in this case it wraps
# the data in a StringIO oject in order to use it as a file
# the data itself must contain an entire image, not just pixel data
# it can be useful for example to retrieve images from the web without
# writing temp files (e.g. using nodebox's web library, see example 1 of the library)
# if no data is passed the path is used to open a local file
if self.data is None:
if os.path.splitext(path)[1].lower() == '.svg':
if path in self._surface_cache:
imagesurface = self._surface_cache[path]
sw = imagesurface.get_width()
sh = imagesurface.get_height()
else:
handle = rsvg.Handle(path)
sw, sh = handle.get_dimension_data()[:2]
imagesurface = RecordingSurface(sw, sh)
ctx = cairo.Context(imagesurface)
handle.render_cairo(ctx)
else:
if path in self._surface_cache:
imagesurface = self._surface_cache[path]
sw = imagesurface.get_width()
sh = imagesurface.get_height()
else:
if os.path.splitext(path)[1].lower() == '.png':
imagesurface = cairo.ImageSurface.create_from_png(path)
sw = imagesurface.get_width()
sh = imagesurface.get_height()
else:
pixbuf = gtk.gdk.pixbuf_new_from_file(path)
sw = pixbuf.get_width()
sh = pixbuf.get_height()
''' create a new cairo surface to place the image on '''
surface = cairo.ImageSurface(0, sw, sh)
''' create a context to the new surface '''
ct = cairo.Context(surface)
''' create a GDK formatted Cairo context to the new Cairo native context '''
ct2 = gtk.gdk.CairoContext(ct)
''' draw from the pixbuf to the new surface '''
ct2.set_source_pixbuf(pixbuf, 0, 0)
ct2.paint()
''' surface now contains the image in a Cairo surface '''
imagesurface = ct2.get_target()
self._surface_cache[path] = imagesurface
else:
img = PILImage.open(StringIO(self.data))
if img.mode != 'RGBA':
img = img.convert("RGBA")
sw, sh = img.size
# Would be nice to not have to do some of these conversions :-\
bgra_data = img.tostring('raw', 'BGRA', 0, 1)
bgra_array = array.array('B', bgra_data)
imagesurface = cairo.ImageSurface.create_for_data(bgra_array, cairo.FORMAT_ARGB32, sw, sh, sw*4)
if width is not None or height is not None:
if width:
wscale = float(width) / sw
else:
wscale = 1.0
if height:
hscale = float(height) / sh
else:
if width:
hscale = wscale
else:
hscale = 1.0
self._transform.scale(wscale, hscale)
self.width = width or sw
self.height = height or sh
self._imagesurface = imagesurface
self._deferred_render()