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-rwxr-xr-xrapid/dropshadow.py183
1 files changed, 0 insertions, 183 deletions
diff --git a/rapid/dropshadow.py b/rapid/dropshadow.py
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--- a/rapid/dropshadow.py
+++ /dev/null
@@ -1,183 +0,0 @@
-#!/usr/bin/python
-
-
-import StringIO
-import gtk
-from PIL import Image, ImageFilter
-
-def image_to_pixbuf(image):
- # this one handles transparency, unlike the default example in the pygtk FAQ
- # this is also from the pygtk FAQ
- IS_RGBA = image.mode=='RGBA'
- return gtk.gdk.pixbuf_new_from_data(
- image.tostring(), # data
- gtk.gdk.COLORSPACE_RGB, # color mode
- IS_RGBA, # has alpha
- 8, # bits
- image.size[0], # width
- image.size[1], # height
- (IS_RGBA and 4 or 3) * image.size[0] # rowstride
- )
-
-
-def image_to_pixbuf_no_transparency(image):
- fd = StringIO.StringIO()
- image.save(fd, "ppm")
- contents = fd.getvalue()
- fd.close()
- loader = gtk.gdk.PixbufLoader("pnm")
- loader.write(contents, len(contents))
- pixbuf = loader.get_pixbuf()
- loader.close()
- return pixbuf
-
-def pixbuf_to_image(pb):
- assert(pb.get_colorspace() == gtk.gdk.COLORSPACE_RGB)
- dimensions = pb.get_width(), pb.get_height()
- stride = pb.get_rowstride()
- pixels = pb.get_pixels()
-
- mode = pb.get_has_alpha() and "RGBA" or "RGB"
- image = Image.frombuffer(mode, dimensions, pixels,
- "raw", mode, stride, 1)
-
- if mode == "RGB":
- # convert to having an alpha value, so that the image can
- # act as a mask in the drop shadow paste
- image = image.convert("RGBA")
-
- return image
-
-
-class DropShadow():
- """
- Adds a gaussian blur drop shadow to a PIL image.
-
- Caches backgrounds of particular sizes for improved performance.
-
- Backgrounds can be made transparent.
-
- Modification of code from Kevin Schluff and Matimus
- License: Python license
- See:
- http://code.activestate.com/recipes/474116/ (r2)
- http://bytes.com/topic/python/answers/606952-pil-paste-image-top-other-dropshadow
-
- """
-
- def __init__(self, offset=(5,5), background_color=0xffffff, shadow = (0x44, 0x44, 0x44, 0xff),
- border=8, iterations=3, trim_border=False):
- """
- offset - Offset of the shadow from the image as an (x,y) tuple. Can be
- positive or negative.
- background_color - Background colour behind the image.
- shadow - Shadow colour (darkness).
- border - Width of the border around the image. This must be wide
- enough to account for the blurring of the shadow.
- trim_border - If true, the border will only be created on the
- sides it needs to be (i.e. only on two sides)
- iterations - Number of times to apply the filter. More iterations
- produce a more blurred shadow, but increase processing time.
-
- To make backgrounds transparent, ensure the alpha value of the shadow color is the
- same as the background color, e.g. if background_color is 0xffffff, shadow's alpha should be 0xff
-
- The image must be in RGBA format.
- """
- self.backgrounds = {}
- self.offset = offset
- self.background_color = background_color
- self.shadow = shadow
- self.border = border
- self.trim_border = trim_border
- self.iterations = iterations
-
- if self.offset[0] < 0 or not self.trim_border:
- self.left_spacing = self.border
- else:
- self.left_spacing = 0
-
- if self.offset[1] < 0 or not self.trim_border:
- self.top_spacing = self.border
- else:
- self.top_spacing = 0
-
- def dropShadow(self, image):
- """
- image - The image to overlay on top of the shadow.
- """
- dimensions = (image.size[0], image.size[1])
- if not dimensions in self.backgrounds:
-
- # Create the backdrop image -- a box in the background colour with a
- # shadow on it.
-
- if self.trim_border:
- totalWidth = image.size[0] + abs(self.offset[0]) + self.border
- totalHeight = image.size[1] + abs(self.offset[1]) + self.border
- else:
- totalWidth = image.size[0] + abs(self.offset[0]) + 2 * self.border
- totalHeight = image.size[1] + abs(self.offset[1]) + 2 * self.border
-
- back = Image.new("RGBA", (totalWidth, totalHeight), self.background_color)
-
- # Place the shadow, taking into account the offset from the image
- if self.offset[0] > 0 and self.trim_border:
- shadowLeft = max(self.offset[0], 0)
- else:
- shadowLeft = self.border + max(self.offset[0], 0)
- if self.offset[1] > 0 and self.trim_border:
- shadowTop = max(self.offset[1], 0)
- else:
- shadowTop = self.border + max(self.offset[1], 0)
-
- back.paste(self.shadow, [shadowLeft, shadowTop, shadowLeft + image.size[0],
- shadowTop + image.size[1]] )
-
- # Apply the filter to blur the edges of the shadow. Since a small kernel
- # is used, the filter must be applied repeatedly to get a decent blur.
- n = 0
- while n < self.iterations:
- back = back.filter(ImageFilter.BLUR)
- n += 1
-
- self.backgrounds[dimensions] = back
-
- # Paste the input image onto the shadow backdrop
- imageLeft = self.left_spacing - min(self.offset[0], 0)
- imageTop = self.top_spacing - min(self.offset[1], 0)
-
- back = self.backgrounds[dimensions].copy()
- back.paste(image, (imageLeft, imageTop), image)
-
- return back
-
-
-
-if __name__ == "__main__":
- import sys
- import os
- import common
-
-
- # create another file with a drop shadow
- f = sys.argv[1]
-
- image = Image.open(f)
- image.thumbnail((60,36), Image.ANTIALIAS)
- image2 = image.copy()
-
- path, name = os.path.split(f)
- name, ext = os.path.splitext(name)
-
- #image = dropShadow(image, shadow = (0x44, 0x44, 0x44, 0xff))
- dropShadow = DropShadow(offset=(3,3), shadow = (0x34, 0x34, 0x34, 0xff), border=6)
- image = dropShadow.dropShadow(image)
- image2 = dropShadow.dropShadow(image2)
-
- nf = os.path.join(path, "%s_small_shadow%s" % (name, ext))
- nf2 = os.path.join(path, "%s_small_shadow2%s" % (name, ext))
- image.save(nf)
- image2.save(nf2)
- print "wrote %s , %s" % (nf, nf2)
-