/usr/lib/ruby/1.9.1/tk/image.rb is in libtcltk-ruby1.9.1 1.9.3.484-2ubuntu1.
This file is owned by root:root, with mode 0o644.
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# tk/image.rb : treat Tk image objects
#
require 'tk'
class TkImage<TkObject
include Tk
TkCommandNames = ['image'.freeze].freeze
Tk_IMGTBL = TkCore::INTERP.create_table
(Tk_Image_ID = ['i'.freeze, TkUtil.untrust('00000')]).instance_eval{
@mutex = Mutex.new
def mutex; @mutex; end
freeze
}
TkCore::INTERP.init_ip_env{
Tk_IMGTBL.mutex.synchronize{ Tk_IMGTBL.clear }
}
def self.new(keys=nil)
if keys.kind_of?(Hash)
name = nil
if keys.key?(:imagename)
name = keys[:imagename]
elsif keys.key?('imagename')
name = keys['imagename']
end
if name
if name.kind_of?(TkImage)
obj = name
else
name = _get_eval_string(name)
obj = nil
Tk_IMGTBL.mutex.synchronize{
obj = Tk_IMGTBL[name]
}
end
if obj
if !(keys[:without_creating] || keys['without_creating'])
keys = _symbolkey2str(keys)
keys.delete('imagename')
keys.delete('without_creating')
obj.instance_eval{
tk_call_without_enc('image', 'create',
@type, @path, *hash_kv(keys, true))
}
end
return obj
end
end
end
(obj = self.allocate).instance_eval{
Tk_IMGTBL.mutex.synchronize{
initialize(keys)
Tk_IMGTBL[@path] = self
}
}
obj
end
def initialize(keys=nil)
@path = nil
without_creating = false
if keys.kind_of?(Hash)
keys = _symbolkey2str(keys)
@path = keys.delete('imagename')
without_creating = keys.delete('without_creating')
end
unless @path
Tk_Image_ID.mutex.synchronize{
@path = Tk_Image_ID.join(TkCore::INTERP._ip_id_)
Tk_Image_ID[1].succ!
}
end
unless without_creating
tk_call_without_enc('image', 'create',
@type, @path, *hash_kv(keys, true))
end
end
def delete
Tk_IMGTBL.mutex.synchronize{
Tk_IMGTBL.delete(@id) if @id
}
tk_call_without_enc('image', 'delete', @path)
self
end
def height
number(tk_call_without_enc('image', 'height', @path))
end
def inuse
bool(tk_call_without_enc('image', 'inuse', @path))
end
def itemtype
tk_call_without_enc('image', 'type', @path)
end
def width
number(tk_call_without_enc('image', 'width', @path))
end
def TkImage.names
Tk_IMGTBL.mutex.synchronize{
Tk.tk_call_without_enc('image', 'names').split.collect!{|id|
(Tk_IMGTBL[id])? Tk_IMGTBL[id] : id
}
}
end
def TkImage.types
Tk.tk_call_without_enc('image', 'types').split
end
end
class TkBitmapImage<TkImage
def __strval_optkeys
super() + ['maskdata', 'maskfile']
end
private :__strval_optkeys
def initialize(*args)
@type = 'bitmap'
super(*args)
end
end
# A photo is an image whose pixels can display any color or be transparent.
# At present, only GIF and PPM/PGM formats are supported, but an interface
# exists to allow additional image file formats to be added easily.
#
# This class documentation is a copy from the original Tcl/Tk at
# http://www.tcl.tk/man/tcl8.5/TkCmd/photo.htm with some rewrited parts.
class TkPhotoImage<TkImage
NullArgOptionKeys = [ "shrink", "grayscale" ]
def _photo_hash_kv(keys)
keys = _symbolkey2str(keys)
NullArgOptionKeys.collect{|opt|
if keys[opt]
keys[opt] = None
else
keys.delete(opt)
end
}
keys.collect{|k,v|
['-' << k, v]
}.flatten
end
private :_photo_hash_kv
# Create a new image with the given options.
# == Examples of use :
# === Create an empty image of 300x200 pixels
#
# image = TkPhotoImage.new(:height => 200, :width => 300)
#
# === Create an image from a file
#
# image = TkPhotoImage.new(:file: => 'my_image.gif')
#
# == Options
# Photos support the following options:
# * :data
# Specifies the contents of the image as a string.
# * :format
# Specifies the name of the file format for the data.
# * :file
# Gives the name of a file that is to be read to supply data for the image.
# * :gamma
# Specifies that the colors allocated for displaying this image in a window
# should be corrected for a non-linear display with the specified gamma
# exponent value.
# * height
# Specifies the height of the image, in pixels. This option is useful
# primarily in situations where the user wishes to build up the contents of
# the image piece by piece. A value of zero (the default) allows the image
# to expand or shrink vertically to fit the data stored in it.
# * palette
# Specifies the resolution of the color cube to be allocated for displaying
# this image.
# * width
# Specifies the width of the image, in pixels. This option is useful
# primarily in situations where the user wishes to build up the contents of
# the image piece by piece. A value of zero (the default) allows the image
# to expand or shrink horizontally to fit the data stored in it.
def initialize(*args)
@type = 'photo'
super(*args)
end
# Blank the image; that is, set the entire image to have no data, so it will
# be displayed as transparent, and the background of whatever window it is
# displayed in will show through.
def blank
tk_send_without_enc('blank')
self
end
def cget_strict(option)
case option.to_s
when 'data', 'file'
tk_send 'cget', '-' << option.to_s
else
tk_tcl2ruby(tk_send('cget', '-' << option.to_s))
end
end
# Returns the current value of the configuration option given by option.
# Example, display name of the file from which <tt>image</tt> was created:
# puts image.cget :file
def cget(option)
unless TkConfigMethod.__IGNORE_UNKNOWN_CONFIGURE_OPTION__
cget_strict(option)
else
begin
cget_strict(option)
rescue => e
if current_configinfo.has_key?(option.to_s)
# error on known option
fail e
else
# unknown option
nil
end
end
end
end
# Copies a region from the image called source to the image called
# destination, possibly with pixel zooming and/or subsampling. If no options
# are specified, this method copies the whole of source into destination,
# starting at coordinates (0,0) in destination. The following options may be
# specified:
#
# * :from [x1, y1, x2, y2]
# Specifies a rectangular sub-region of the source image to be copied.
# (x1,y1) and (x2,y2) specify diagonally opposite corners of the rectangle.
# If x2 and y2 are not specified, the default value is the bottom-right
# corner of the source image. The pixels copied will include the left and
# top edges of the specified rectangle but not the bottom or right edges.
# If the :from option is not given, the default is the whole source image.
# * :to [x1, y1, x2, y2]
# Specifies a rectangular sub-region of the destination image to be
# affected. (x1,y1) and (x2,y2) specify diagonally opposite corners of the
# rectangle. If x2 and y2 are not specified, the default value is (x1,y1)
# plus the size of the source region (after subsampling and zooming, if
# specified). If x2 and y2 are specified, the source region will be
# replicated if necessary to fill the destination region in a tiled fashion.
# * :shrink
# Specifies that the size of the destination image should be reduced, if
# necessary, so that the region being copied into is at the bottom-right
# corner of the image. This option will not affect the width or height of
# the image if the user has specified a non-zero value for the :width or
# :height configuration option, respectively.
# * :zoom [x, y]
# Specifies that the source region should be magnified by a factor of x
# in the X direction and y in the Y direction. If y is not given, the
# default value is the same as x. With this option, each pixel in the
# source image will be expanded into a block of x x y pixels in the
# destination image, all the same color. x and y must be greater than 0.
# * :subsample [x, y]
# Specifies that the source image should be reduced in size by using only
# every xth pixel in the X direction and yth pixel in the Y direction.
# Negative values will cause the image to be flipped about the Y or X axes,
# respectively. If y is not given, the default value is the same as x.
# * :compositingrule rule
# Specifies how transparent pixels in the source image are combined with
# the destination image. When a compositing rule of <tt>overlay</tt> is set,
# the old contents of the destination image are visible, as if the source
# image were printed on a piece of transparent film and placed over the
# top of the destination. When a compositing rule of <tt>set</tt> is set,
# the old contents of the destination image are discarded and the source
# image is used as-is. The default compositing rule is <tt>overlay</tt>.
def copy(src, *opts)
if opts.size == 0
tk_send('copy', src)
elsif opts.size == 1 && opts[0].kind_of?(Hash)
tk_send('copy', src, *_photo_hash_kv(opts[0]))
else
# for backward compatibility
args = opts.collect{|term|
if term.kind_of?(String) && term.include?(?\s)
term.split
else
term
end
}.flatten
tk_send('copy', src, *args)
end
self
end
# Returns image data in the form of a string. The following options may be
# specified:
# * :background color
# If the color is specified, the data will not contain any transparency
# information. In all transparent pixels the color will be replaced by the
# specified color.
# * :format format-name
# Specifies the name of the image file format handler to be used.
# Specifically, this subcommand searches for the first handler whose name
# matches an initial substring of format-name and which has the capability
# to read this image data. If this option is not given, this subcommand
# uses the first handler that has the capability to read the image data.
# * :from [x1, y1, x2, y2]
# Specifies a rectangular region of imageName to be returned. If only x1
# and y1 are specified, the region extends from (x1,y1) to the bottom-right
# corner of imageName. If all four coordinates are given, they specify
# diagonally opposite corners of the rectangular region, including x1,y1
# and excluding x2,y2. The default, if this option is not given, is the
# whole image.
# * :grayscale
# If this options is specified, the data will not contain color information.
# All pixel data will be transformed into grayscale.
def data(keys={})
tk_split_list(tk_send('data', *_photo_hash_kv(keys)))
end
# Returns the color of the pixel at coordinates (x,y) in the image as a list
# of three integers between 0 and 255, representing the red, green and blue
# components respectively.
def get(x, y)
tk_send('get', x, y).split.collect{|n| n.to_i}
end
def put(data, *opts)
if opts.empty?
tk_send('put', data)
elsif opts.size == 1 && opts[0].kind_of?(Hash)
tk_send('put', data, *_photo_hash_kv(opts[0]))
else
# for backward compatibility
tk_send('put', data, '-to', *opts)
end
self
end
def read(file, *opts)
if opts.size == 0
tk_send('read', file)
elsif opts.size == 1 && opts[0].kind_of?(Hash)
tk_send('read', file, *_photo_hash_kv(opts[0]))
else
# for backward compatibility
args = opts.collect{|term|
if term.kind_of?(String) && term.include?(?\s)
term.split
else
term
end
}.flatten
tk_send('read', file, *args)
end
self
end
def redither
tk_send 'redither'
self
end
# Returns a boolean indicating if the pixel at (x,y) is transparent.
def get_transparency(x, y)
bool(tk_send('transparency', 'get', x, y))
end
# Makes the pixel at (x,y) transparent if <tt>state</tt> is true, and makes
# that pixel opaque otherwise.
def set_transparency(x, y, state)
tk_send('transparency', 'set', x, y, state)
self
end
def write(file, *opts)
if opts.size == 0
tk_send('write', file)
elsif opts.size == 1 && opts[0].kind_of?(Hash)
tk_send('write', file, *_photo_hash_kv(opts[0]))
else
# for backward compatibility
args = opts.collect{|term|
if term.kind_of?(String) && term.include?(?\s)
term.split
else
term
end
}.flatten
tk_send('write', file, *args)
end
self
end
end
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