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ruby--ruby/ext/tk/lib/tkextlib/blt/component.rb
nagai 3024ffdc3a * ext/tk/*: full update Ruby/Tk to support Ruby(1.9|1.8) and Tc/Tk8.5.
* ext/tk/lib/tkextlib/tile.rb: [incompatible] remove TileWidgets' 
  instate/state/identify method to avoid the conflict with standard
  widget options. Those methods are renamed to ttk_instate/ttk_state/
  ttk_identify (tile_instate/tile_state/tile_identify are available 
  too). Although I don't recommend, if you realy need old methods, 
  please define "Tk::USE_OBSOLETE_TILE_STATE_METHOD = true" before 
  "require 'tkextlib/tile'".

* ext/tk/lib/tkextlib/tile.rb: "Tk::Tile::__Import_Tile_Widgets__!"
  is obsolete. It outputs warning. To control default widget set, 
  use "Tk.default_widget_set = :Ttk".

* ext/tk/lib/tk.rb: __IGNORE_UNKNOWN_CONFIGURE_OPTION__ method and 
  __set_IGNORE_UNKNOWN_CONFIGURE_OPTION__!(mode) method are defind 
  as module methods of TkConfigMethod. It may help users to wrap old 
  Ruby/Tk scripts (use standard widgets) to force to use Ttk widgets.
  Ttk widgets don't have some options of standard widgets which are 
  control the view of widgets. When set ignore-mode true, configure 
  method tries to ignoure such unknown options with no exception. 
  Of course, it may raise other troubles on the GUI design. 
  So, those are a little danger methods. 

* ext/tk/lib/tk/itemconfig.rb: __IGNORE_UNKNOWN_CONFIGURE_OPTION__ 
  method and __set_IGNORE_UNKNOWN_CONFIGURE_OPTION__!(mode) method 
  are defind as module methods of TkItemConfigMethod as the same 
  purpose as TkConfigMethod's ones.

* ext/tk/sample/ttk_wrapper.rb: A new example. This is a tool for 
  wrapping old Ruby/Tk scripts (which use standard widgets) to use 
  Ttk (Tile) widgets as default.

* ext/tk/sample/tkextlib/tile/demo.rb: use ttk_instate/ttk_state 
  method instead of instate/state method.

* ext/tk/lib/tk/root, ext/tk/lib/tk/namespace.rb,
  ext/tk/lib/tk/text.rb, ext/tk/lib/tkextlib/*: some 'instance_eval's  
  are replaced to "instance_exec(self)".

* ext/tk/lib/tk/event.rb: bug fix on KEY_TBL and PROC_TBL (?x is not 
  a character code on Ruby1.9).

* ext/tk/lib/tk/variable.rb: support new style of operation argument 
  on Tcl/Tk's 'trace' command for variables. 

* ext/tk/sample/demos-jp/widget, ext/tk/sample/demos-en/widget: bug fix

* ext/tk/sammple/demos-jp/textpeer.rb, 
  ext/tk/sammple/demos-en/textpeer.rb: new widget demo.

* ext/tk/tcltklib.c: decrase SEGV troubles (probably)

* ext/tk/lib/tk.rb: remove Thread.critical access if Ruby1.9

* ext/tk/lib/tk/multi-tk.rb: support Ruby1.9 (probably)

* ext/tk/lib/tkextlib/tile.rb: add method to define Tcl/Tk command 
  to make Tcl/Tk theme sources (based on different version of Tile 
  extension) available. 
  (Tk::Tile::__define_LoadImages_proc_for_comaptibility__)

* ext/tk/lib/tk.rb, ext/tk/lib/tk/wm.rb: support dockable frames
  (Tcl/Tk8.5 feature). 'wm' command can treat many kinds of widgets 
  as toplevel widgets.

* ext/tk/lib/tkextlib/tile/style.rb: ditto.
  (Tk::Tile::Style.__define_wrapper_proc_for_compatibility__)

* ext/tk/lib/tk/font.rb: add actual_hash and metrics_hash to get 
  properties as a hash. metrics_hash method returns a boolean value 
  for 'fixed' option. But metrics method returns numeric value 
  (0 or 1) for 'fixed' option, because of backward compatibility. 

* ext/tk/lib/tk/timer.rb: somtimes fail to set callback procedure.

* ext/tk/lib/tk.rb: add Tk.sleep and Tk.wakeup method. Tk.sleep 
  doesn't block the eventloop. It will be better to use the method 
  in event callbacks.

* ext/tk/sample/tksleep_sample.rb: sample script about Tk.sleep.


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@15848 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2008-03-29 05:25:12 +00:00

2050 lines
55 KiB
Ruby

#
# tkextlib/blt/component.rb
# by Hidetoshi NAGAI (nagai@ai.kyutech.ac.jp)
#
require 'tk'
require 'tkextlib/blt.rb'
module Tk::BLT
module PlotComponent
include TkItemConfigMethod
module OptKeys
def __item_font_optkeys(id)
['font', 'tickfont', 'titlefont']
end
private :__item_font_optkeys
def __item_numstrval_optkeys(id)
['xoffset', 'yoffset']
end
private :__item_numstrval_optkeys
def __item_boolval_optkeys(id)
['hide', 'under', 'descending', 'logscale', 'loose', 'showticks',
'titlealternate', 'scalesymbols', 'minor', 'raised',
'center', 'decoration', 'landscape', 'maxpect']
end
private :__item_boolval_optkeys
def __item_strval_optkeys(id)
['text', 'label', 'limits', 'title',
'show', 'file', 'maskdata', 'maskfile',
'color', 'titlecolor', 'fill', 'outline', 'offdash']
end
private :__item_strval_optkeys
def __item_listval_optkeys(id)
['bindtags']
end
private :__item_listval_optkeys
def __item_numlistval_optkeys(id)
['dashes', 'majorticks', 'minorticks']
end
private :__item_numlistval_optkeys
def __item_tkvariable_optkeys(id)
['variable', 'textvariable', 'colormap', 'fontmap']
end
private :__item_tkvariable_optkeys
end
include OptKeys
def __item_cget_cmd(id)
if id.kind_of?(Array)
# id := [ type, name ]
[self.path, id[0], 'cget', id[1]]
else
[self.path, id, 'cget']
end
end
private :__item_cget_cmd
def __item_config_cmd(id)
if id.kind_of?(Array)
# id := [ type, name, ... ]
type, *names = id
[self.path, type, 'configure'].concat(names)
else
[self.path, id, 'configure']
end
end
private :__item_config_cmd
def __item_pathname(id)
if id.kind_of?(Array)
id = tagid(id[1])
end
[self.path, id].join(';')
end
private :__item_pathname
def axis_cget(id, option)
ret = itemcget(['axis', tagid(id)], option)
end
def axis_configure(*args)
slot = args.pop
if slot.kind_of?(Hash)
value = None
slot = _symbolkey2str(slot)
if cmd = slot.delete('command')
slot['command'] = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
else
value = slot
slot = args.pop
if slot == :command || slot == 'command'
cmd = value
value = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
end
id_list = args.flatten.collect!{|id| tagid(id)}.unshift('axis')
itemconfigure(id_list, slot, value)
end
def axis_configinfo(id, slot=nil)
itemconfiginfo(['axis', tagid(id)], slot)
end
def current_axis_configinfo(id, slot=nil)
current_itemconfiginfo(['axis', tagid(id)], slot)
end
def crosshairs_cget(option)
itemcget('crosshairs', option)
end
def crosshairs_configure(slot, value=None)
itemconfigure('crosshairs', slot, value)
end
def crosshairs_configinfo(slot=nil)
itemconfiginfo('crosshairs', slot)
end
def current_crosshairs_configinfo(slot=nil)
current_itemconfiginfo('crosshairs', slot)
end
def element_cget(id, option)
itemcget(['element', tagid(id)], option)
end
def element_configure(*args)
slot = args.pop
if slot.kind_of?(Hash)
value = None
else
value = slot
slot = args.pop
end
id_list = args.flatten.collect!{|id| tagid(id)}.unshift('element')
itemconfigure(id_list, slot, value)
end
def element_configinfo(id, slot=nil)
itemconfiginfo(['element', tagid(id)], slot)
end
def current_element_configinfo(id, slot=nil)
current_itemconfiginfo(['element', tagid(id)], slot)
end
def bar_cget(id, option)
itemcget(['bar', tagid(id)], option)
end
def bar_configure(*args)
slot = args.pop
if slot.kind_of?(Hash)
value = None
else
value = slot
slot = args.pop
end
id_list = args.flatten.collect!{|id| tagid(id)}.unshift('bar')
itemconfigure(id_list, slot, value)
end
def bar_configinfo(id, slot=nil)
itemconfiginfo(['bar', tagid(id)], slot)
end
def current_bar_configinfo(id, slot=nil)
current_itemconfiginfo(['bar', tagid(id)], slot)
end
def line_cget(id, option)
itemcget(['line', tagid(id)], option)
end
def line_configure(*args)
slot = args.pop
if slot.kind_of?(Hash)
value = None
else
value = slot
slot = args.pop
end
id_list = args.flatten.collect!{|id| tagid(id)}.unshift('line')
itemconfigure(id_list, slot, value)
end
def line_configinfo(id, slot=nil)
itemconfiginfo(['line', tagid(id)], slot)
end
def current_line_configinfo(id, slot=nil)
current_itemconfiginfo(['line', tagid(id)], slot)
end
def gridline_cget(option)
itemcget('grid', option)
end
def gridline_configure(slot, value=None)
itemconfigure('grid', slot, value)
end
def gridline_configinfo(slot=nil)
itemconfiginfo('grid', slot)
end
def current_gridline_configinfo(slot=nil)
current_itemconfiginfo('grid', slot)
end
def legend_cget(option)
itemcget('legend', option)
end
def legend_configure(slot, value=None)
itemconfigure('legend', slot, value)
end
def legend_configinfo(slot=nil)
itemconfiginfo('legend', slot)
end
def current_legend_configinfo(slot=nil)
current_itemconfiginfo('legend', slot)
end
def pen_cget(id, option)
itemcget(['pen', tagid(id)], option)
end
def pen_configure(*args)
slot = args.pop
if slot.kind_of?(Hash)
value = None
else
value = slot
slot = args.pop
end
id_list = args.flatten.collect!{|id| tagid(id)}.unshift('pen')
itemconfigure(id_list, slot, value)
end
def pen_configinfo(id, slot=nil)
itemconfiginfo(['pen', tagid(id)], slot)
end
def current_pen_configinfo(id, slot=nil)
current_itemconfiginfo(['pen', tagid(id)], slot)
end
def postscript_cget(option)
itemcget('postscript', option)
end
def postscript_configure(slot, value=None)
itemconfigure('postscript', slot, value)
end
def postscript_configinfo(slot=nil)
itemconfiginfo('postscript', slot)
end
def current_postscript_configinfo(slot=nil)
current_itemconfiginfo('postscript', slot)
end
def marker_cget(id, option)
itemcget(['marker', tagid(id)], option)
end
def marker_configure(*args)
slot = args.pop
if slot.kind_of?(Hash)
value = None
else
value = slot
slot = args.pop
end
id_list = args.flatten.collect!{|id| tagid(id)}.unshift('marker')
itemconfigure(id_list, slot, value)
end
def marker_configinfo(id, slot=nil)
itemconfiginfo(['marker', tagid(id)], slot)
end
def current_marker_configinfo(id, slot=nil)
current_itemconfiginfo(['marker', tagid(id)], slot)
end
alias __itemcget itemcget
alias __itemconfiginfo itemconfiginfo
alias __current_itemconfiginfo current_itemconfiginfo
private :__itemcget, :__itemconfiginfo, :__current_itemconfiginfo
def itemcget(tagOrId, option)
ret = __itemcget(tagid(tagOrId), option)
if option == 'bindtags' || option == :bindtags
ret.collect{|tag| TkBindTag.id2obj(tag)}
else
ret
end
end
def itemconfiginfo(tagOrId, slot = nil)
ret = __itemconfiginfo(tagid(tagOrId), slot)
if TkComm::GET_CONFIGINFO_AS_ARRAY
if slot
if slot == 'bindtags' || slot == :bindtags
ret[-2] = ret[-2].collect{|tag| TkBindTag.id2obj(tag)}
ret[-1] = ret[-1].collect{|tag| TkBindTag.id2obj(tag)}
end
else
if (inf = ret.assoc('bindtags'))
inf[-2] = inf[-2].collect{|tag| TkBindTag.id2obj(tag)}
inf[-1] = inf[-1].collect{|tag| TkBindTag.id2obj(tag)}
end
end
else # ! TkComm::GET_CONFIGINFO_AS_ARRAY
if (inf = ret['bindtags'])
inf[-2] = inf[-2].collect{|tag| TkBindTag.id2obj(tag)}
inf[-1] = inf[-1].collect{|tag| TkBindTag.id2obj(tag)}
ret['bindtags'] = inf
end
end
ret
end
def current_itemconfiginfo(tagOrId, slot = nil)
ret = __current_itemconfiginfo(tagid(tagOrId), slot)
if (val = ret['bindtags'])
ret['bindtags'] = val.collect{|tag| TkBindTag.id2obj(tag)}
end
ret
end
private :itemcget, :itemconfigure
private :itemconfiginfo, :current_itemconfiginfo
#################
class Axis < TkObject
(OBJ_ID = ['blt_chart_axis'.freeze, '00000'.taint]).instance_eval{
@mutex = Mutex.new
def mutex; @mutex; end
freeze
}
AxisID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
AxisID_TBL.mutex.synchronize{ AxisID_TBL.clear }
}
def self.id2obj(chart, id)
cpath = chart.path
AxisID_TBL.mutex.synchronize{
return id unless AxisID_TBL[cpath]
AxisID_TBL[cpath][id]? AxisID_TBL[cpath][id]: id
}
end
def self.new(chart, axis=nil, keys={})
if axis.kind_of?(Hash)
keys = axis
axis = nil
end
if keys
keys = _symbolkey2str(keys)
not_create = keys.delete('without_creating')
else
not_create = false
end
obj = nil
AxisID_TBL.mutex.synchronize{
chart_path = chart.path
AxisID_TBL[chart_path] ||= {}
if axis && AxisID_TBL[chart_path][axis]
obj = AxisID_TBL[chart_path][axis]
else
(obj = self.allocate).instance_eval{
if axis
@axis = @id = axis.to_s
else
OBJ_ID.mutex.synchronize{
@axis = @id = OBJ_ID.join(TkCore::INTERP._ip_id_).freeze
OBJ_ID[1].succ!
}
end
@path = @id
@parent = @chart = chart
@cpath = @chart.path
Axis::AxisID_TBL[@cpath][@axis] = self
unless not_create
tk_call(@chart, 'axis', 'create', @axis, keys)
return obj
end
}
end
}
obj.configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, axis=nil, keys={})
# dummy:: not called by 'new' method
if axis.kind_of?(Hash)
keys = axis
axis = nil
end
if axis
@axis = @id = axis.to_s
else
OBJ_ID.mutex.synchronize{
@axis = @id = OBJ_ID.join(TkCore::INTERP._ip_id_).freeze
OBJ_ID[1].succ!
}
end
@path = @id
@parent = @chart = chart
@cpath = @chart.path
# Axis::AxisID_TBL[@cpath][@axis] = self
keys = _symbolkey2str(keys)
unless keys.delete('without_creating')
# @chart.axis_create(@axis, keys)
tk_call(@chart, 'axis', 'create', @axis, keys)
end
end
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.axis_cget(@id, option)
end
def configure(key, value=None)
@chart.axis_configure(@id, key, value)
self
end
def configinfo(key=nil)
@chart.axis_configinfo(@id, key)
end
def current_configinfo(key=nil)
@chart.current_axis_configinfo(@id, key)
end
def command(cmd=nil, &b)
if cmd
configure('command', cmd)
elsif b
configure('command', Proc.new(&b))
else
cget('command')
end
end
def delete
@chart.axis_delete(@id)
self
end
def invtransform(val)
@chart.axis_invtransform(@id, val)
end
def limits
@chart.axis_limits(@id)
end
def name
@axis
end
def transform(val)
@chart.axis_transform(@id, val)
end
def view
@chart.axis_view(@id)
self
end
def use(name=None) # if @id == xaxis | x2axis | yaxis | y2axis
@chart.axis_use(@id, name)
end
def use_as(axis) # axis := xaxis | x2axis | yaxis | y2axis
@chart.axis_use(axis, @id)
end
end
#################
class Crosshairs < TkObject
CrosshairsID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
CrosshairsID_TBL.mutex.synchronize{ CrosshairsID_TBL.clear }
}
def self.new(chart, keys={})
obj = nil
CrosshairsID_TBL.mutex.synchronize{
unless (obj = CrosshairsID_TBL[chart.path])
(obj = self.allocate).instance_eval{
@parent = @chart = chart
@cpath = @chart.path
@path = @id = 'crosshairs'
Crosshairs::CrosshairsID_TBL[@cpath] = self
}
end
}
chart.crosshair_configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, keys={})
# dummy:: not called by 'new' method
@parent = @chart = chart
@cpath = @chart.path
# Crosshairs::CrosshairsID_TBL[@cpath] = self
@chart.crosshair_configure(keys) unless keys.empty?
@path = @id = 'crosshairs'
end
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.crosshair_cget(option)
end
def configure(key, value=None)
@chart.crosshair_configure(key, value)
self
end
def configinfo(key=nil)
@chart.crosshair_configinfo(key)
end
def current_configinfo(key=nil)
@chart.current_crosshair_configinfo(key)
end
def off
@chart.crosshair_off
self
end
def on
@chart.crosshair_on
self
end
def toggle
@chart.crosshair_toggle
self
end
end
#################
class Element < TkObject
extend Tk
extend TkItemFontOptkeys
extend TkItemConfigOptkeys
extend Tk::BLT::PlotComponent::OptKeys
ElementTypeName = 'element'
ElementTypeToClass = { ElementTypeName=>self }
ElementID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
ElementID_TBL.mutex.synchronize{ ElementID_TBL.clear }
}
(OBJ_ID = ['blt_chart_element'.freeze, '00000'.taint]).instance_eval{
@mutex = Mutex.new
def mutex; @mutex; end
freeze
}
def Element.type2class(type)
ElementTypeToClass[type]
end
def Element.id2obj(chart, id)
cpath = chart.path
ElementID_TBL.mutex.synchronize{
return id unless ElementID_TBL[cpath]
ElementID_TBL[cpath][id]? ElementID_TBL[cpath][id]: id
}
end
def self.new(chart, element=nil, keys={})
if element.kind_of?(Hash)
keys = element
element = nil
end
if keys
keys = _symbolkey2str(keys)
not_create = keys.delete('without_creating')
else
not_create = false
end
obj = nil
ElementID_TBL.mutex.synchronize{
chart_path = chart.path
ElementID_TBL[chart_path] ||= {}
if element && ElementID_TBL[chart_path][element]
obj = ElementID_TBL[chart_path][element]
else
(obj = self.allocate).instance_eval{
if element
@element = @id = element.to_s
else
OBJ_ID.mutex.synchronize{
@element = @id = OBJ_ID.join(TkCore::INTERP._ip_id_).freeze
OBJ_ID[1].succ!
}
end
@path = @id
@parent = @chart = chart
@cpath = @chart.path
@typename = self.class::ElementTypeName
Element::ElementID_TBL[@cpath][@element] = self
unless not_create
tk_call(@chart, @typename, 'create', @element, keys)
return obj
end
}
end
}
obj.configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, element=nil, keys={})
# dummy:: not called by 'new' method
if element.kind_of?(Hash)
keys = element
element = nil
end
if element
@element = @id = element.to_s
else
OBJ_ID.mutex.synchronize{
@element = @id = OBJ_ID.join(TkCore::INTERP._ip_id_).freeze
OBJ_ID[1].succ!
}
end
@path = @id
@parent = @chart = chart
@cpath = @chart.path
@typename = self.class::ElementTypeName
# Element::ElementID_TBL[@cpath][@element] = self
keys = _symbolkey2str(keys)
unless keys.delete('without_creating')
# @chart.element_create(@element, keys)
tk_call(@chart, @typename, 'create', @element, keys)
end
end
def id
@id
end
def to_eval
@id
end
def cget(option)
# @chart.element_cget(@id, option)
@chart.__send__(@typename + '_cget', @id, option)
end
def configure(key, value=None)
# @chart.element_configure(@id, key, value)
@chart.__send__(@typename + '_configure', @id, key, value)
self
end
def configinfo(key=nil)
# @chart.element_configinfo(@id, key)
@chart.__send__(@typename + '_configinfo', @id, key)
end
def current_configinfo(key=nil)
# @chart.current_element_configinfo(@id, key)
@chart.__send__('current_' << @typename << '_configinfo', @id, key)
end
def activate(*args)
@chart.element_activate(@id, *args)
end
def closest(x, y, var, keys={})
# @chart.element_closest(x, y, var, @id, keys)
@chart.__send__(@typename + '_closest', x, y, var, @id, keys)
end
def deactivate
@chart.element_deactivate(@id)
self
end
def delete
@chart.element_delete(@id)
self
end
def exist?
@chart.element_exist?(@id)
end
def name
@element
end
def type
@chart.element_type(@id)
end
end
class Bar < Element
ElementTypeName = 'bar'.freeze
ElementTypeToClass[ElementTypeName] = self
end
class Line < Element
ElementTypeName = 'line'.freeze
ElementTypeToClass[ElementTypeName] = self
end
#################
class GridLine < TkObject
GridLineID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
GridLineID_TBL.mutex.synchronize{ GridLineID_TBL.clear }
}
def self.new(chart, keys={})
obj = nil
GridLineID_TBL.mutex.synchronize{
unless (obj = GridLineID_TBL[chart.path])
(obj = self.allocate).instance_eval{
@parent = @chart = chart
@cpath = @chart.path
@path = @id = 'grid'
GridLine::GridLineID_TBL[@cpath] = self
}
end
}
chart.gridline_configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, keys={})
# dummy:: not called by 'new' method
@parent = @chart = chart
@cpath = @chart.path
# GridLine::GridLineID_TBL[@cpath] = self
@chart.gridline_configure(keys) unless keys.empty?
@path = @id = 'grid'
end
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.gridline_cget(option)
end
def configure(key, value=None)
@chart.gridline_configure(key, value)
self
end
def configinfo(key=nil)
@chart.gridline_configinfo(key)
end
def current_configinfo(key=nil)
@chart.current_gridline_configinfo(key)
end
def off
@chart.gridline_off
self
end
def on
@chart.gridline_on
self
end
def toggle
@chart.gridline_toggle
self
end
end
#################
class Legend < TkObject
LegendID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
LegendID_TBL.mutex.synchronize{ LegendID_TBL.clear }
}
def self.new(chart, keys={})
obj = nil
LegenedID_TBL.mutex.synchronize{
unless (obj = LegenedID_TBL[chart.path])
(obj = self.allocate).instance_eval{
@parent = @chart = chart
@cpath = @chart.path
@path = @id = 'crosshairs'
Legend::LegenedID_TBL[@cpath] = self
}
end
}
chart.legend_configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, keys={})
# dummy:: not called by 'new' method
@parent = @chart = chart
@cpath = @chart.path
# Legend::LegendID_TBL[@cpath] = self
@chart.legend_configure(keys) unless keys.empty?
@path = @id = 'legend'
end
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.legend_cget(option)
end
def configure(key, value=None)
@chart.legend_configure(key, value)
self
end
def configinfo(key=nil)
@chart.legend_configinfo(key)
end
def current_configinfo(key=nil)
@chart.current_legend_configinfo(key)
end
def activate(*args)
@chart.legend_activate(*args)
end
def deactivate(*args)
@chart.legend_deactivate(*args)
end
def get(pos, y=nil)
@chart.legend_get(pos, y)
end
end
#################
class Pen < TkObject
(OBJ_ID = ['blt_chart_pen'.freeze, '00000'.taint]).instance_eval{
@mutex = Mutex.new
def mutex; @mutex; end
freeze
}
PenID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
PenID_TBL.mutex.synchronize{ PenID_TBL.clear }
}
def self.id2obj(chart, id)
cpath = chart.path
PenID_TBL.mutex.synchronize{
return id unless PenID_TBL[cpath]
PenID_TBL[cpath][id]? PenID_TBL[cpath][id]: id
}
end
def self.new(chart, pen=nil, keys={})
if pen.kind_of?(Hash)
keys = pen
pen = nil
end
if keys
keys = _symbolkey2str(keys)
not_create = keys.delete('without_creating')
else
not_create = false
end
obj = nil
PenID_TBL.mutex.synchronize{
chart_path = chart.path
PenID_TBL[chart_path] ||= {}
if pen && PenID_TBL[chart_path][pen]
obj = PenID_TBL[chart_path][pen]
else
(obj = self.allocate).instance_eval{
if pen
@pen = @id = pen.to_s
else
OBJ_ID.mutex.synchronize{
@pen = @id = OBJ_ID.join(TkCore::INTERP._ip_id_).freeze
OBJ_ID[1].succ!
}
end
@path = @id
@parent = @chart = chart
@cpath = @chart.path
Pen::PenID_TBL[@cpath][@pen] = self
unless not_create
tk_call(@chart, 'pen', 'create', @pen, keys)
return obj
end
}
end
}
obj.configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, pen=nil, keys={})
if pen.kind_of?(Hash)
keys = pen
pen = nil
end
if pen
@pen = @id = pen.to_s
else
OBJ_ID.mutex.synchronize{
@pen = @id = OBJ_ID.join(TkCore::INTERP._ip_id_).freeze
OBJ_ID[1].succ!
}
end
@path = @id
@parent = @chart = chart
@cpath = @chart.path
Pen::PenID_TBL[@cpath][@pen] = self
keys = _symbolkey2str(keys)
unless keys.delete('without_creating')
# @chart.pen_create(@pen, keys)
tk_call(@chart, 'pen', 'create', @pen, keys)
end
end
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.pen_cget(@id, option)
end
def configure(key, value=None)
@chart.pen_configure(@id, key, value)
self
end
def configinfo(key=nil)
@chart.pen_configinfo(@id, key)
end
def current_configinfo(key=nil)
@chart.current_pen_configinfo(@id, key)
end
def delete
@chart.pen_delete(@id)
self
end
def name
@pen
end
end
#################
class Postscript < TkObject
PostscriptID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
PostscriptID_TBL.mutex.synchronize{ PostscriptID_TBL.clear }
}
def self.new(chart, keys={})
obj = nil
PostscriptID_TBL.mutex.synchronize{
unless (obj = PostscriptID_TBL[chart.path])
(obj = self.allocate).instance_eval{
@parent = @chart = chart
@cpath = @chart.path
@path = @id = 'postscript'
Postscript::PostscriptID_TBL[@cpath] = self
}
end
}
chart.postscript_configure(keys) if obj && ! keys.empty?
obj
end
def initialize(chart, keys={})
# dummy:: not called by 'new' method
@parent = @chart = chart
@cpath = @chart.path
# Postscript::PostscriptID_TBL[@cpath] = self
@chart.postscript_configure(keys) unless keys.empty?
@path = @id = 'postscript'
end
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.postscript_cget(option)
end
def configure(key, value=None)
@chart.postscript_configure(key, value)
self
end
def configinfo(key=nil)
@chart.postscript_configinfo(key)
end
def current_configinfo(key=nil)
@chart.current_postscript_configinfo(key)
end
def output(file=nil, keys={})
if file.kind_of?(Hash)
keys = file
file = nil
end
ret = @chart.postscript_output(file, keys)
if file
self
else
ret
end
end
end
#################
class Marker < TkObject
extend Tk
extend TkItemFontOptkeys
extend TkItemConfigOptkeys
extend Tk::BLT::PlotComponent::OptKeys
MarkerTypeName = nil
MarkerTypeToClass = {}
MarkerID_TBL = TkCore::INTERP.create_table
TkCore::INTERP.init_ip_env{
MarkerID_TBL.mutex.synchronize{ MarkerID_TBL.clear }
}
def Marker.type2class(type)
MarkerTypeToClass[type]
end
def Marker.id2obj(chart, id)
cpath = chart.path
MarkerID_TBL.mutex.synchronize{
if MarkerID_TBL[cpath]
MarkerID_TBL[cpath][id]? MarkerID_TBL[cpath][id]: id
else
id
end
}
end
def self._parse_create_args(keys)
fontkeys = {}
methodkeys = {}
if keys.kind_of? Hash
keys = _symbolkey2str(keys)
__item_font_optkeys(nil).each{|key|
fkey = key.to_s
fontkeys[fkey] = keys.delete(fkey) if keys.key?(fkey)
fkey = "kanji#{key}"
fontkeys[fkey] = keys.delete(fkey) if keys.key?(fkey)
fkey = "latin#{key}"
fontkeys[fkey] = keys.delete(fkey) if keys.key?(fkey)
fkey = "ascii#{key}"
fontkeys[fkey] = keys.delete(fkey) if keys.key?(fkey)
}
__item_methodcall_optkeys(nil).each{|key|
key = key.to_s
methodkeys[key] = keys.delete(key) if keys.key?(key)
}
__item_ruby2val_optkeys(nil).each{|key, method|
key = key.to_s
keys[key] = method.call(keys[key]) if keys.has_key?(key)
}
args = itemconfig_hash_kv(nil, keys)
else
args = []
end
[args, fontkeys]
end
private_class_method :_parse_create_args
def self.create(chart, keys={})
unless self::MarkerTypeName
fail RuntimeError, "#{self} is an abstract class"
end
args, fontkeys = _parse_create_args(keys)
idnum = tk_call_without_enc(chart.path, 'marker', 'create',
self::MarkerTypeName, *args)
chart.marker_configure(idnum, fontkeys) unless fontkeys.empty?
idnum.to_i # 'item id' is an integer number
end
def self.create_type(chart, type, keys={})
args, fontkeys = _parse_create_args(keys)
idnum = tk_call_without_enc(chart.path, 'marker', 'create',
type, *args)
chart.marker_configure(idnum, fontkeys) unless fontkeys.empty?
id = idnum.to_i # 'item id' is an integer number
obj = self.allocate
obj.instance_eval{
@parent = @chart = chart
@cpath = chart.path
@id = id
Tk::BLT::PlotComponent::Marker::MarkerID_TBL.mutex.synchronize{
Tk::BLT::PlotComponent::Marker::MarkerID_TBL[@cpath] ||= {}
Tk::BLT::PlotComponent::Marker::MarkerID_TBL[@cpath][@id] = self
}
}
obj
end
def initialize(parent, *args)
@parent = @chart = parent
@cpath = parent.path
@path = @id = create_self(*args) # an integer number as 'item id'
Tk::BLT::PlotComponent::Marker::MarkerID_TBL.mutex.synchronize{
Tk::BLT::PlotComponent::Marker::MarkerID_TBL[@cpath] ||= {}
Tk::BLT::PlotComponent::Marker::MarkerID_TBL[@cpath][@id] = self
}
end
def create_self(*args)
self.class.create(@chart, *args) # return an integer as 'item id'
end
private :create_self
def id
@id
end
def to_eval
@id
end
def cget(option)
@chart.marker_cget(@id, option)
end
def configure(key, value=None)
@chart.marker_configure(@id, key, value)
self
end
def configinfo(key=nil)
@chart.marker_configinfo(@id, key)
end
def current_configinfo(key=nil)
@chart.current_marker_configinfo(@id, key)
end
def after(target=None)
@chart.marker_after(@id, target)
end
def before(target=None)
@chart.marker_before(@id, target)
end
def delete
@chart.marker_delete(@id)
end
def exist?
@chart.marker_exist(@id)
end
def type
@chart.marker_type(@id)
end
end
class TextMarker < Marker
MarkerTypeName = 'text'.freeze
MarkerTypeToClass[MarkerTypeName] = self
end
class LineMarker < Marker
MarkerTypeName = 'line'.freeze
MarkerTypeToClass[MarkerTypeName] = self
end
class BitmapMarker < Marker
MarkerTypeName = 'bitmap'.freeze
MarkerTypeToClass[MarkerTypeName] = self
end
class ImageMarker < Marker
MarkerTypeName = 'image'.freeze
MarkerTypeToClass[MarkerTypeName] = self
end
class PolygonMarker < Marker
MarkerTypeName = 'polygon'.freeze
MarkerTypeToClass[MarkerTypeName] = self
end
class WindowMarker < Marker
MarkerTypeName = 'window'.freeze
MarkerTypeToClass[MarkerTypeName] = self
end
#################
def __destroy_hook__
Axis::AxisID_TBL.delete(@path)
Crosshairs::CrosshairsID_TBL.delete(@path)
Element::ElementID_TBL.delete(@path)
GridLine::GridLineID_TBL.delete(@path)
Legend::LegendID_TBL.delete(@path)
Pen::PenID_TBL.delete(@path)
Postscript::PostscriptID_TBL.delete(@path)
Marker::MarkerID_TBL.delete(@path)
super()
end
#################
def tagid(tag)
if tag.kind_of?(Axis) ||
tag.kind_of?(Crosshairs) ||
tag.kind_of?(Element) ||
tag.kind_of?(GridLine) ||
tag.kind_of?(Legend) ||
tag.kind_of?(Pen) ||
tag.kind_of?(Postscript) ||
tag.kind_of?(Marker)
tag.id
else
tag # maybe an Array of configure paramters
end
end
def _component_bind(target, tag, context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind([path, target, 'bind', tagid(tag)], context, cmd, *args)
self
end
def _component_bind_append(target, tag, context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind_append([path, target, 'bind', tagid(tag)], context, cmd, *args)
self
end
def _component_bind_remove(target, tag, context)
_bind_remove([path, target, 'bind', tagid(tag)], context)
self
end
def _component_bindinfo(target, tag, context=nil)
_bindinfo([path, target, 'bind', tagid(tag)], context)
end
private :_component_bind, :_component_bind_append
private :_component_bind_remove, :_component_bindinfo
def axis_bind(tag, context, *args)
_component_bind('axis', tag, context, *args)
end
def axis_bind_append(tag, context, *args)
_component_bind_append('axis', tag, context, *args)
end
def axis_bind_remove(tag, context)
_component_bind_remove('axis', tag, context)
end
def axis_bindinfo(tag, context=nil)
_component_bindinfo('axis', tag, context)
end
def element_bind(tag, context, *args)
_component_bind('element', tag, context, *args)
end
def element_bind_append(tag, context, *args)
_component_bind_append('element', tag, context, *args)
end
def element_bind_remove(tag, context)
_component_bind_remove('element', tag, context)
end
def element_bindinfo(tag, context=nil)
_component_bindinfo('element', tag, context)
end
def bar_bind(tag, context, *args)
_component_bind('bar', tag, context, *args)
end
def bar_bind_append(tag, context, *args)
_component_bind_append('bar', tag, context, *args)
end
def bar_bind_remove(tag, context)
_component_bind_remove('bar', tag, context)
end
def bar_bindinfo(tag, context=nil)
_component_bindinfo('bar', tag, context)
end
def line_bind(tag, context, *args)
_component_bind('line', tag, context, *args)
end
def line_bind_append(tag, context, *args)
_component_bind_append('line', tag, context, *args)
end
def line_bind_remove(tag, context)
_component_bind_remove('line', tag, context)
end
def line_bindinfo(tag, context=nil)
_component_bindinfo('line', tag, context)
end
def legend_bind(tag, context, *args)
_component_bind('legend', tag, context, *args)
end
def legend_bind_append(tag, context, *args)
_component_bind_append('legend', tag, context, *args)
end
def legend_bind_remove(tag, context)
_component_bind_remove('legend', tag, context)
end
def legend_bindinfo(tag, context=nil)
_component_bindinfo('legend', tag, context)
end
def marker_bind(tag, context, *args)
_component_bind('marker', tag, context, *args)
end
def marker_bind_append(tag, context, *args)
_component_bind_append('marker', tag, context, *args)
end
def marker_bind_remove(tag, context)
_component_bind_remove('marker', tag, context)
end
def marker_bindinfo(tag, context=nil)
_component_bindinfo('marker', tag, context)
end
###################
def axis_create(id=nil, keys={})
# tk_send('axis', 'create', tagid(id), keys)
Tk::BLT::PlotComponent::Axis.new(self, tagid(id), keys)
end
def axis_delete(*ids)
tk_send('axis', 'delete', *(ids.collect{|id| tagid(id)}))
self
end
def axis_invtransform(id, val)
list(tk_send('axis', 'invtransform', tagid(id), val))
end
def axis_limits(id)
list(tk_send('axis', 'limits', tagid(id)))
end
def axis_names(*pats)
simplelist(tk_send('axis', 'names',
*(pats.collect{|pat| tagid(pat)}))).collect{|axis|
Tk::BLT::PlotComponent::Axis.id2obj(self, axis)
}
end
def axis_transform(id, val)
list(tk_send('axis', 'transform', tagid(id), val))
end
def axis_view(id)
tk_send('axis', 'view', tagid(id))
self
end
def axis_use(id, target=nil)
if target
Tk::BLT::PlotComponent::Axis.id2obj(self,
tk_send('axis', 'use',
tagid(id), tagid(target)))
else
Tk::BLT::PlotComponent::Axis.id2obj(self,
tk_send('axis', 'use', tagid(id)))
end
end
###################
def crosshairs_off
tk_send_without_enc('crosshairs', 'off')
self
end
def crosshairs_on
tk_send_without_enc('crosshairs', 'on')
self
end
def crosshairs_toggle
tk_send_without_enc('crosshairs', 'toggle')
self
end
###################
def element_create(id=nil, keys={})
# tk_send('element', 'create', tagid(id), keys)
Tk::BLT::PlotComponent::Element.new(self, tagid(id), keys)
end
def element_activate(*args)
if args.empty?
list(tk_send('element', 'activate')).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
else
# id, *indices
id = args.shift
tk_send('element', 'activate', tagid(id), *args)
end
end
def element_closest(x, y, var, *args)
if args[-1].kind_of?(Hash)
keys = args.pop
bool(tk_send('element', 'closest', x, y, var,
*(hash_kv(keys).concat(args.collect{|id| tagid(id)}))))
else
bool(tk_send('element', 'closest', x, y, var,
*(args.collect{|id| tagid(id)})))
end
end
def element_deactivate(*ids)
tk_send('element', 'deactivate', *(ids.collect{|id| tagid(id)}))
self
end
def element_delete(*ids)
tk_send('element', 'delete', *(ids.collect{|id| tagid(id)}))
self
end
def element_exist?(id)
bool(tk_send('element', 'exists', tagid(id)))
end
def element_names(*pats)
simplelist(tk_send('element', 'names',
*(pats.collect{|pat| tagid(pat)}))).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
end
def element_show(*names)
if names.empty?
simplelist(tk_send('element', 'show'))
else
tk_send('element', 'show', *(names.collect{|n| tagid(n)}))
self
end
end
def element_type(id)
tk_send('element', 'type', tagid(id))
end
###################
def bar_create(id=nil, keys={})
# tk_send('bar', 'create', tagid(id), keys)
Tk::BLT::PlotComponent::Bar.new(self, tagid(id), keys)
end
alias bar bar_create
def bar_activate(*args)
if args.empty?
list(tk_send('bar', 'activate')).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
else
# id, *indices
id = args.shift
tk_send('bar', 'activate', tagid(id), *args)
end
end
def bar_closest(x, y, var, *args)
if args[-1].kind_of?(Hash)
keys = args.pop
bool(tk_send('bar', 'closest', x, y, var,
*(hash_kv(keys).concat(args.collect{|id| tagid(id)}))))
else
bool(tk_send('bar', 'closest', x, y, var,
*(args.collect{|id| tagid(id)})))
end
end
def bar_deactivate(*ids)
tk_send('bar', 'deactivate', *(ids.collect{|id| tagid(id)}))
self
end
def bar_delete(*ids)
tk_send('bar', 'delete', *(ids.collect{|id| tagid(id)}))
self
end
def bar_exist?(id)
bool(tk_send('bar', 'exists', tagid(id)))
end
def bar_names(*pats)
simplelist(tk_send('bar', 'names',
*(pats.collect{|pat| tagid(pat)}))).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
end
def bar_show(*names)
if names.empty?
simplelist(tk_send('bar', 'show'))
else
tk_send('bar', 'show', *(names.collect{|n| tagid(n)}))
self
end
end
def bar_type(id)
tk_send('bar', 'type', tagid(id))
end
###################
def line_create(id=nil, keys={})
# tk_send('line', 'create', tagid(id), keys)
Tk::BLT::PlotComponent::Line.new(self, tagid(id), keys)
end
alias bar line_create
def line_activate(*args)
if args.empty?
list(tk_send('line', 'activate')).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
else
# id, *indices
id = args.shift
tk_send('line', 'activate', tagid(id), *args)
end
end
def line_closest(x, y, var, *args)
if args[-1].kind_of?(Hash)
keys = args.pop
bool(tk_send('line', 'closest', x, y, var,
*(hash_kv(keys).concat(args.collect{|id| tagid(id)}))))
else
bool(tk_send('line', 'closest', x, y, var,
*(args.collect{|id| tagid(id)})))
end
end
def line_deactivate(*ids)
tk_send('line', 'deactivate', *(ids.collect{|id| tagid(id)}))
self
end
def line_delete(*ids)
tk_send('line', 'delete', *(ids.collect{|id| tagid(id)}))
self
end
def line_exist?(id)
bool(tk_send('line', 'exists', tagid(id)))
end
def line_names(*pats)
simplelist(tk_send('line', 'names',
*(pats.collect{|pat| tagid(pat)}))).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
end
def line_show(*names)
if names.empty?
simplelist(tk_send('line', 'show'))
else
tk_send('line', 'show', *(names.collect{|n| tagid(n)}))
self
end
end
def line_type(id)
tk_send('line', 'type', tagid(id))
end
###################
def gridline_off
tk_send_without_enc('grid', 'off')
self
end
def gridline_on
tk_send_without_enc('grid', 'on')
self
end
def gridline_toggle
tk_send_without_enc('grid', 'toggle')
self
end
###################
def legend_window_create(parent=nil, keys=nil)
if parent.kind_of?(Hash)
keys = _symbolkey2str(parent)
parent = keys.delete('parent')
widgetname = keys.delete('widgetname')
keys.delete('without_creating')
elsif keys
keys = _symbolkey2str(keys)
widgetname = keys.delete('widgetname')
keys.delete('without_creating')
end
legend = self.class.new(parent, :without_creating=>true,
:widgetname=>widgetname)
class << legend
def __destroy_hook__
TkCore::INTERP.tk_windows.delete(@path)
end
end
if keys
self.legend_configure(keys.update('position'=>legend))
else
self.legend_configure('position'=>legend)
end
legend
end
def legend_activate(*pats)
list(tk_send('legend', 'activate',
*(pats.collect{|pat| tagid(pat)}))).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
end
def legend_deactivate(*pats)
list(tk_send('legend', 'deactivate',
*(pats.collect{|pat| tagid(pat)}))).collect{|elem|
Tk::BLT::PlotComponent::Element.id2obj(self, elem)
}
end
def legend_get(pos, y=nil)
if y
Tk::BLT::PlotComponent::Element.id2obj(self,
tk_send('legend', 'get',
_at(pos, y)))
else
Tk::BLT::PlotComponent::Element.id2obj(self,
tk_send('legend', 'get', pos))
end
end
###################
def pen_create(id=nil, keys={})
# tk_send('pen', 'create', tagid(id), keys)
Tk::BLT::PlotComponent::Pen.new(self, tagid(id), keys)
end
def pen_delete(*ids)
tk_send('pen', 'delete', *(ids.collect{|id| tagid(id)}))
self
end
def pen_names(*pats)
simplelist(tk_send('pen', 'names',
*(pats.collect{|pat| tagid(pat)}))).collect{|pen|
Tk::BLT::PlotComponent::Pen.id2obj(self, pen)
}
end
###################
def postscript_output(file=nil, keys={})
if file.kind_of?(Hash)
keys = file
file = nil
end
if file
tk_send('postscript', 'output', file, keys)
self
else
tk_send('postscript', 'output', keys)
end
end
###################
def marker_create(type, keys={})
case type
when :text, 'text'
Tk::BLT::PlotComponent::TextMarker.new(self, keys)
when :line, 'line'
Tk::BLT::PlotComponent::LineMarker.new(self, keys)
when :bitmap, 'bitmap'
Tk::BLT::PlotComponent::BitmapMarker.new(self, keys)
when :image, 'image'
Tk::BLT::PlotComponent::ImageMarker.new(self, keys)
when :polygon, 'polygon'
Tk::BLT::PlotComponent::PolygonMarker.new(self, keys)
when :window, 'window'
Tk::BLT::PlotComponent::WindowMarker.new(self, keys)
else
if type.kind_of?(Tk::BLT::PlotComponent::Marker)
type.new(self, keys)
else
Tk::BLT::PlotComponent::Marker.create_type(self, type, keys)
end
end
end
def marker_after(id, target=nil)
if target
tk_send_without_enc('marker', 'after', tagid(id), tagid(target))
else
tk_send_without_enc('marker', 'after', tagid(id))
end
self
end
def marker_before(id, target=None)
if target
tk_send_without_enc('marker', 'before', tagid(id), tagid(target))
else
tk_send_without_enc('marker', 'before', tagid(id))
end
self
end
def marker_delete(*ids)
tk_send('marker', 'delete', *(ids.collect{|id| tagid(id)}))
self
end
def marker_exist?(id)
bool(tk_send('marker', 'exists', tagid(id)))
end
def marker_names(*pats)
simplelist(tk_send('marker', 'names',
*(pats.collect{|pat| tagid(pat)}))).collect{|id|
Tk::BLT::PlotComponent::Marker.id2obj(self, id)
}
end
def marker_type(id)
tk_send('marker', 'type', tagid(id))
end
###################
def xaxis_cget(option)
itemcget('xaxis', option)
end
def xaxis_configure(slot, value=None)
if slot.kind_of?(Hash)
slot = _symbolkey2str(slot)
if cmd = slot.delete('command')
slot['command'] = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
elsif slot == :command || slot == 'command'
cmd = value
value = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
itemconfigure('xaxis', slot, value)
end
def xaxis_configinfo(slot=nil)
itemconfiginfo('xaxis', slot)
end
def current_xaxis_configinfo(slot=nil)
current_itemconfiginfo('xaxis', slot)
end
def xaxis_bind(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind([path, 'xaxis', 'bind'], context, cmd, *args)
self
end
def xaxis_bind_append(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind_append([path, 'xaxis', 'bind'], context, cmd, *args)
self
end
def xaxis_bind_remove(context)
_bind_remove([path, 'xaxis', 'bind'], context)
self
end
def xaxis_bindinfo(context=nil)
_bindinfo([path, 'xaxis', 'bind'], context)
end
def xaxis_invtransform(val)
list(tk_send('xaxis', 'invtransform', val))
end
def xaxis_limits
list(tk_send('xaxis', 'limits'))
end
def xaxis_transform(val)
list(tk_send('xaxis', 'transform', val))
end
def xaxis_use(target=nil)
if target
Tk::BLT::PlotComponent::Axis.id2obj(self,
tk_send('xaxis', 'use',
tagid(target)))
else
Tk::BLT::PlotComponent::Axis.id2obj(self, tk_send('xaxis', 'use'))
end
end
def x2axis_cget(option)
itemcget('x2axis', option)
end
def x2axis_configure(slot, value=None)
if slot.kind_of?(Hash)
slot = _symbolkey2str(slot)
if cmd = slot.delete('command')
slot['command'] = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
elsif slot == :command || slot == 'command'
cmd = value
value = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
itemconfigure('x2axis', slot, value)
end
def x2axis_configinfo(slot=nil)
itemconfiginfo('x2axis', slot)
end
def current_x2axis_configinfo(slot=nil)
current_itemconfiginfo('x2axis', slot)
end
def x2axis_bind(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind([path, 'x2axis', 'bind'], context, cmd, *args)
self
end
def x2axis_bind_append(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind_append([path, 'x2axis', 'bind'], context, cmd, *args)
self
end
def x2axis_bind_remove(context)
_bind_remove([path, 'x2axis', 'bind'], context)
self
end
def x2axis_bindinfo(context=nil)
_bindinfo([path, 'x2axis', 'bind'], context)
end
def x2axis_invtransform(val)
list(tk_send('x2axis', 'invtransform', val))
end
def x2axis_limits
list(tk_send('x2axis', 'limits'))
end
def x2axis_transform(val)
list(tk_send('x2axis', 'transform', val))
end
def x2axis_use(target=nil)
if target
Tk::BLT::PlotComponent::Axis.id2obj(self,
tk_send('x2axis', 'use',
tagid(target)))
else
Tk::BLT::PlotComponent::Axis.id2obj(self, tk_send('x2axis', 'use'))
end
end
def yaxis_cget(option)
itemcget('yaxis', option)
end
def yaxis_configure(slot, value=None)
if slot.kind_of?(Hash)
slot = _symbolkey2str(slot)
if cmd = slot.delete('command')
slot['command'] = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
elsif slot == :command || slot == 'command'
cmd = value
value = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
itemconfigure('yaxis', slot, value)
end
def yaxis_configinfo(slot=nil)
itemconfiginfo('yaxis', slot)
end
def current_yaxis_configinfo(slot=nil)
current_itemconfiginfo('yaxis', slot)
end
def yaxis_bind(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind([path, 'yaxis', 'bind'], context, cmd, *args)
self
end
def yaxis_bind_append(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind_append([path, 'yaxis', 'bind'], context, cmd, *args)
self
end
def yaxis_bind_remove(context)
_bind_remove([path, 'yaxis', 'bind'], context)
self
end
def yaxis_bindinfo(context=nil)
_bindinfo([path, 'yaxis', 'bind'], context)
end
def yaxis_invtransform(val)
list(tk_send('yaxis', 'invtransform', val))
end
def yaxis_limits
list(tk_send('yaxis', 'limits'))
end
def yaxis_transform(val)
list(tk_send('yaxis', 'transform', val))
end
def yaxis_use(target=nil)
if target
Tk::BLT::PlotComponent::Axis.id2obj(self,
tk_send('yaxis', 'use',
tagid(target)))
else
Tk::BLT::PlotComponent::Axis.id2obj(self, tk_send('yaxis', 'use'))
end
end
def y2axis_cget(option)
itemcget('y2axis', option)
end
def y2axis_configure(slot, value=None)
if slot.kind_of?(Hash)
slot = _symbolkey2str(slot)
if cmd = slot.delete('command')
slot['command'] = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
elsif slot == :command || slot == 'command'
cmd = value
value = proc{|w, tick|
cmd.call(TkComm.window(w), TkComm.num_or_str(tick))
}
end
itemconfigure('y2axis', slot, value)
end
def y2axis_configinfo(slot=nil)
axis_configinfo('y2axis', slot)
end
def current_y2axis_configinfo(slot=nil)
current_itemconfiginfo('y2axis', slot)
end
def y2axis_bind(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind([path, 'y2axis', 'bind'], context, cmd, *args)
self
end
def y2axis_bind_append(context, *args)
if TkComm._callback_entry?(args[0]) || !block_given?
cmd = args.shift
else
cmd = Proc.new
end
_bind_append([path, 'y2axis', 'bind'], context, cmd, *args)
self
end
def y2axis_bind_remove(context)
_bind_remove([path, 'y2axis', 'bind'], context)
self
end
def y2axis_bindinfo(context=nil)
_bindinfo([path, 'y2axis', 'bind'], context)
end
def y2axis_invtransform(val)
list(tk_send('y2axis', 'invtransform', val))
end
def y2axis_limits
list(tk_send('y2axis', 'limits'))
end
def y2axis_transform(val)
list(tk_send('y2axis', 'transform', val))
end
def y2axis_use(target=nil)
if target
Tk::BLT::PlotComponent::Axis.id2obj(self,
tk_send('y2axis', 'use',
tagid(target)))
else
Tk::BLT::PlotComponent::Axis.id2obj(self, tk_send('y2axis', 'use'))
end
end
end
end