ruby--ruby/ext/tk/lib/tk.rb

2828 lines
65 KiB
Ruby

#
# tk.rb - Tk interface module using tcltklib
# $Date$
# by Yukihiro Matsumoto <matz@netlab.jp>
# use Shigehiro's tcltklib
require 'tcltklib'
require 'tkutil'
# autoload
require 'tk/autoload'
class TclTkIp
# backup original (without encoding) _eval and _invoke
alias _eval_without_enc _eval
alias _invoke_without_enc _invoke
end
# define TkComm module (step 1: basic functions)
module TkComm
include TkUtil
extend TkUtil
WidgetClassNames = {}.taint
# None = Object.new ### --> definition is moved to TkUtil module
# def None.to_s
# 'None'
# end
# None.freeze
#Tk_CMDTBL = {}
#Tk_WINDOWS = {}
Tk_IDs = ["00000".taint, "00000".taint].freeze # [0]-cmdid, [1]-winid
# for backward compatibility
Tk_CMDTBL = Object.new
def Tk_CMDTBL.method_missing(id, *args)
TkCore::INTERP.tk_cmd_tbl.send(id, *args)
end
Tk_CMDTBL.freeze
Tk_WINDOWS = Object.new
def Tk_WINDOWS.method_missing(id, *args)
TkCore::INTERP.tk_windows.send(id, *args)
end
Tk_WINDOWS.freeze
self.instance_eval{
@cmdtbl = [].taint
}
unless const_defined?(:GET_CONFIGINFO_AS_ARRAY)
# GET_CONFIGINFO_AS_ARRAY = false => returns a Hash { opt =>val, ... }
# true => returns an Array [[opt,val], ... ]
# val is a list which includes resource info.
GET_CONFIGINFO_AS_ARRAY = true
end
unless const_defined?(:GET_CONFIGINFOwoRES_AS_ARRAY)
# for configinfo without resource info; list of [opt, value] pair
# false => returns a Hash { opt=>val, ... }
# true => returns an Array [[opt,val], ... ]
GET_CONFIGINFOwoRES_AS_ARRAY = true
end
# *** ATTENTION ***
# 'current_configinfo' method always returns a Hash under all cases of above.
def error_at
frames = caller()
frames.delete_if do |c|
c =~ %r!/tk(|core|thcore|canvas|text|entry|scrollbox)\.rb:\d+!
end
frames
end
private :error_at
def _genobj_for_tkwidget(path)
return TkRoot.new if path == '.'
begin
#tk_class = TkCore::INTERP._invoke('winfo', 'class', path)
tk_class = Tk.ip_invoke_without_enc('winfo', 'class', path)
rescue
return path
end
if ruby_class = WidgetClassNames[tk_class]
ruby_class_name = ruby_class.name
# gen_class_name = ruby_class_name + 'GeneratedOnTk'
gen_class_name = ruby_class_name
classname_def = ''
elsif Object.const_defined?('Tk' + tk_class)
ruby_class_name = 'Tk' + tk_class
# gen_class_name = ruby_class_name + 'GeneratedOnTk'
gen_class_name = ruby_class_name
classname_def = ''
else
ruby_class_name = 'TkWindow'
# gen_class_name = ruby_class_name + tk_class + 'GeneratedOnTk'
gen_class_name = 'TkWidget_' + tk_class
classname_def = "WidgetClassName = '#{tk_class}'.freeze"
end
unless Object.const_defined? gen_class_name
Object.class_eval "class #{gen_class_name}<#{ruby_class_name}
#{classname_def}
end"
end
Object.class_eval "#{gen_class_name}.new('widgetname'=>'#{path}',
'without_creating'=>true)"
end
private :_genobj_for_tkwidget
module_function :_genobj_for_tkwidget
def tk_tcl2ruby(val, enc_mode = nil)
if val =~ /^rb_out (c\d+)/
#return Tk_CMDTBL[$1]
return TkCore::INTERP.tk_cmd_tbl[$1]
#cmd_obj = TkCore::INTERP.tk_cmd_tbl[$1]
#if cmd_obj.kind_of?(Proc) || cmd_obj.kind_of?(Method)
# cmd_obj
#else
# cmd_obj.cmd
#end
end
#if val.include? ?\s
# return val.split.collect{|v| tk_tcl2ruby(v)}
#end
case val
when /^@font/
TkFont.get_obj(val)
when /^-?\d+$/
val.to_i
when /^\./
#Tk_WINDOWS[val] ? Tk_WINDOWS[val] : _genobj_for_tkwidget(val)
TkCore::INTERP.tk_windows[val]?
TkCore::INTERP.tk_windows[val] : _genobj_for_tkwidget(val)
when /^i\d+$/
TkImage::Tk_IMGTBL[val]? TkImage::Tk_IMGTBL[val] : val
when /^-?\d+\.?\d*(e[-+]?\d+)?$/
val.to_f
when /[^\\] /
tk_split_escstr(val).collect{|elt|
tk_tcl2ruby(elt)
}
when /\\ /
val.gsub(/\\ /, ' ')
else
if enc_mode
_fromUTF8(val)
else
val
end
end
end
private :tk_tcl2ruby
unless const_defined?(:USE_TCLs_LIST_FUNCTIONS)
USE_TCLs_LIST_FUNCTIONS = true
end
if USE_TCLs_LIST_FUNCTIONS
###########################################################################
# use Tcl function version of split_list
###########################################################################
def tk_split_escstr(str)
TkCore::INTERP._split_tklist(str)
end
def tk_split_sublist(str)
return [] if str == ""
list = TkCore::INTERP._split_tklist(str)
if list.size == 1
tk_tcl2ruby(list[0])
else
list.collect{|token| tk_split_sublist(token)}
end
end
def tk_split_list(str)
return [] if str == ""
TkCore::INTERP._split_tklist(str).collect{|token| tk_split_sublist(token)}
end
def tk_split_simplelist(str)
#lst = TkCore::INTERP._split_tklist(str)
#if (lst.size == 1 && lst =~ /^\{.*\}$/)
# TkCore::INTERP._split_tklist(str[1..-2])
#else
# lst
#end
TkCore::INTERP._split_tklist(str)
end
def array2tk_list(ary)
return "" if ary.size == 0
dst = ary.collect{|e|
if e.kind_of? Array
array2tk_list(e)
elsif e.kind_of? Hash
tmp_ary = []
e.each{|k,v| tmp_ary << k << v }
array2tk_list(tmp_ary)
else
_get_eval_string(e)
end
}
TkCore::INTERP._merge_tklist(*dst)
end
else
###########################################################################
# use Ruby script version of split_list (traditional methods)
###########################################################################
def tk_split_escstr(str)
return [] if str == ""
list = []
token = nil
escape = false
brace = 0
str.split('').each {|c|
brace += 1 if c == '{' && !escape
brace -= 1 if c == '}' && !escape
if brace == 0 && c == ' ' && !escape
list << token.gsub(/^\{(.*)\}$/, '\1') if token
token = nil
else
token = (token || "") << c
end
escape = (c == '\\' && !escape)
}
list << token.gsub(/^\{(.*)\}$/, '\1') if token
list
end
def tk_split_sublist(str)
return [] if str == ""
return [tk_split_sublist(str[1..-2])] if str =~ /^\{.*\}$/
list = tk_split_escstr(str)
if list.size == 1
tk_tcl2ruby(list[0])
else
list.collect{|token| tk_split_sublist(token)}
end
end
def tk_split_list(str)
return [] if str == ""
tk_split_escstr(str).collect{|token| tk_split_sublist(token)}
end
=begin
def tk_split_list(str)
return [] if str == ""
idx = str.index('{')
while idx and idx > 0 and str[idx-1] == ?\\
idx = str.index('{', idx+1)
end
unless idx
list = tk_tcl2ruby(str)
unless Array === list
list = [list]
end
return list
end
list = tk_tcl2ruby(str[0,idx])
list = [] if list == ""
str = str[idx+1..-1]
i = -1
escape = false
brace = 1
str.each_byte {|c|
i += 1
brace += 1 if c == ?{ && !escape
brace -= 1 if c == ?} && !escape
escape = (c == ?\\)
break if brace == 0
}
if str.size == i + 1
return tk_split_list(str[0, i])
end
if str[0, i] == ' '
list.push ' '
else
list.push tk_split_list(str[0, i])
end
list += tk_split_list(str[i+1..-1])
list
end
=end
def tk_split_simplelist(str)
return [] if str == ""
list = []
token = nil
escape = false
brace = 0
str.split('').each {|c|
if c == '\\' && !escape
escape = true
token = (token || "") << c if brace > 0
next
end
brace += 1 if c == '{' && !escape
brace -= 1 if c == '}' && !escape
if brace == 0 && c == ' ' && !escape
list << token.gsub(/^\{(.*)\}$/, '\1') if token
token = nil
else
token = (token || "") << c
end
escape = false
}
list << token.gsub(/^\{(.*)\}$/, '\1') if token
list
end
def array2tk_list(ary)
ary.collect{|e|
if e.kind_of? Array
"{#{array2tk_list(e)}}"
elsif e.kind_of? Hash
"{#{e.to_a.collect{|ee| array2tk_list(ee)}.join(' ')}}"
else
s = _get_eval_string(e)
(s.index(/\s/) || s.size == 0)? "{#{s}}": s
end
}.join(" ")
end
end
private :tk_split_escstr, :tk_split_sublist
private :tk_split_list, :tk_split_simplelist
private :array2tk_list
module_function :tk_split_escstr, :tk_split_sublist
module_function :tk_split_list, :tk_split_simplelist
module_function :array2tk_list
private_class_method :tk_split_escstr, :tk_split_sublist
private_class_method :tk_split_list, :tk_split_simplelist
private_class_method :array2tk_list
=begin
### --> definition is moved to TkUtil module
def _symbolkey2str(keys)
h = {}
keys.each{|key,value| h[key.to_s] = value}
h
end
private :_symbolkey2str
module_function :_symbolkey2str
=end
=begin
### --> definition is moved to TkUtil module
# def hash_kv(keys, enc_mode = nil, conf = [], flat = false)
def hash_kv(keys, enc_mode = nil, conf = nil)
# Hash {key=>val, key=>val, ... } or Array [ [key, val], [key, val], ... ]
# ==> Array ['-key', val, '-key', val, ... ]
dst = []
if keys and keys != None
keys.each{|k, v|
#dst.push("-#{k}")
dst.push('-' + k.to_s)
if v != None
# v = _get_eval_string(v, enc_mode) if (enc_mode || flat)
v = _get_eval_string(v, enc_mode) if enc_mode
dst.push(v)
end
}
end
if conf
conf + dst
else
dst
end
end
private :hash_kv
module_function :hash_kv
=end
=begin
### --> definition is moved to TkUtil module
def bool(val)
case val
when "1", 1, 'yes', 'true'
true
else
false
end
end
def number(val)
case val
when /^-?\d+$/
val.to_i
when /^-?\d+\.?\d*(e[-+]?\d+)?$/
val.to_f
else
fail(ArgumentError, "invalid value for Number:'#{val}'")
end
end
def string(val)
if val == "{}"
''
elsif val[0] == ?{ && val[-1] == ?}
val[1..-2]
else
val
end
end
def num_or_str(val)
begin
number(val)
rescue ArgumentError
string(val)
end
end
=end
def list(val)
tk_split_list(val)
end
def simplelist(val)
tk_split_simplelist(val)
end
def window(val)
if val =~ /^\./
#Tk_WINDOWS[val]? Tk_WINDOWS[val] : _genobj_for_tkwidget(val)
TkCore::INTERP.tk_windows[val]?
TkCore::INTERP.tk_windows[val] : _genobj_for_tkwidget(val)
else
nil
end
end
def image_obj(val)
if val =~ /^i\d+$/
TkImage::Tk_IMGTBL[val]? TkImage::Tk_IMGTBL[val] : val
else
val
end
end
def procedure(val)
if val =~ /^rb_out (c\d+)/
#Tk_CMDTBL[$1]
#TkCore::INTERP.tk_cmd_tbl[$1]
TkCore::INTERP.tk_cmd_tbl[$1].cmd
else
#nil
val
end
end
private :bool, :number, :string, :list, :simplelist, :window, :procedure
module_function :bool, :number, :num_or_str, :string, :list, :simplelist
module_function :window, :image_obj, :procedure
def _toUTF8(str, encoding = nil)
TkCore::INTERP._toUTF8(str, encoding)
end
def _fromUTF8(str, encoding = nil)
TkCore::INTERP._fromUTF8(str, encoding)
end
private :_toUTF8, :_fromUTF8
module_function :_toUTF8, :_fromUTF8
=begin
### --> definition is moved to TkUtil module
def _get_eval_string(str, enc_mode = nil)
return nil if str == None
if str.kind_of?(TkObject)
str = str.path
elsif str.kind_of?(String)
str = _toUTF8(str) if enc_mode
elsif str.kind_of?(Symbol)
str = str.id2name
str = _toUTF8(str) if enc_mode
elsif str.kind_of?(Hash)
str = hash_kv(str, enc_mode).join(" ")
elsif str.kind_of?(Array)
str = array2tk_list(str)
str = _toUTF8(str) if enc_mode
elsif str.kind_of?(Proc)
str = install_cmd(str)
elsif str == nil
str = ""
elsif str == false
str = "0"
elsif str == true
str = "1"
elsif (str.respond_to?(:to_eval))
str = str.to_eval()
str = _toUTF8(str) if enc_mode
else
str = str.to_s() || ''
unless str.kind_of? String
fail RuntimeError, "fail to convert the object to a string"
end
str = _toUTF8(str) if enc_mode
end
return str
end
=end
=begin
def _get_eval_string(obj, enc_mode = nil)
case obj
when Numeric
obj.to_s
when String
(enc_mode)? _toUTF8(obj): obj
when Symbol
(enc_mode)? _toUTF8(obj.id2name): obj.id2name
when TkObject
obj.path
when Hash
hash_kv(obj, enc_mode).join(' ')
when Array
(enc_mode)? _toUTF8(array2tk_list(obj)): array2tk_list(obj)
when Proc, Method, TkCallbackEntry
install_cmd(obj)
when false
'0'
when true
'1'
when nil
''
when None
nil
else
if (obj.respond_to?(:to_eval))
(enc_mode)? _toUTF8(obj.to_eval): obj.to_eval
else
begin
obj = obj.to_s || ''
rescue
fail RuntimeError, "fail to convert object '#{obj}' to string"
end
(enc_mode)? _toUTF8(obj): obj
end
end
end
private :_get_eval_string
module_function :_get_eval_string
=end
=begin
### --> definition is moved to TkUtil module
def _get_eval_enc_str(obj)
return obj if obj == None
_get_eval_string(obj, true)
end
private :_get_eval_enc_str
module_function :_get_eval_enc_str
=end
=begin
### --> obsolete
def ruby2tcl(v, enc_mode = nil)
if v.kind_of?(Hash)
v = hash_kv(v)
v.flatten!
v.collect{|e|ruby2tcl(e, enc_mode)}
else
_get_eval_string(v, enc_mode)
end
end
private :ruby2tcl
=end
=begin
### --> definition is moved to TkUtil module
def _conv_args(args, enc_mode, *src_args)
conv_args = []
src_args.each{|arg|
conv_args << _get_eval_string(arg, enc_mode) unless arg == None
# if arg.kind_of?(Hash)
# arg.each{|k, v|
# args << '-' + k.to_s
# args << _get_eval_string(v, enc_mode)
# }
# elsif arg != None
# args << _get_eval_string(arg, enc_mode)
# end
}
args + conv_args
end
private :_conv_args
=end
def _curr_cmd_id
#id = format("c%.4d", Tk_IDs[0])
id = "c" + TkComm::Tk_IDs[0]
end
def _next_cmd_id
id = _curr_cmd_id
#Tk_IDs[0] += 1
TkComm::Tk_IDs[0].succ!
id
end
private :_curr_cmd_id, :_next_cmd_id
module_function :_curr_cmd_id, :_next_cmd_id
def install_cmd(cmd)
return '' if cmd == ''
id = _next_cmd_id
#Tk_CMDTBL[id] = cmd
if cmd.kind_of?(TkCallbackEntry)
TkCore::INTERP.tk_cmd_tbl[id] = cmd
else
TkCore::INTERP.tk_cmd_tbl[id] = TkCore::INTERP.get_cb_entry(cmd)
end
@cmdtbl = [] unless defined? @cmdtbl
@cmdtbl.taint unless @cmdtbl.tainted?
@cmdtbl.push id
#return Kernel.format("rb_out %s", id);
return 'rb_out ' + id
end
def uninstall_cmd(id)
id = $1 if /rb_out (c\d+)/ =~ id
#Tk_CMDTBL.delete(id)
TkCore::INTERP.tk_cmd_tbl.delete(id)
end
# private :install_cmd, :uninstall_cmd
module_function :install_cmd, :uninstall_cmd
=begin
def install_win(ppath,name=nil)
if !name or name == ''
#name = format("w%.4d", Tk_IDs[1])
#Tk_IDs[1] += 1
name = "w" + Tk_IDs[1]
Tk_IDs[1].succ!
end
if name[0] == ?.
@path = name.dup
elsif !ppath or ppath == "."
@path = Kernel.format(".%s", name);
else
@path = Kernel.format("%s.%s", ppath, name)
end
#Tk_WINDOWS[@path] = self
TkCore::INTERP.tk_windows[@path] = self
end
=end
def install_win(ppath,name=nil)
if name
if name == ''
raise ArgumentError, "invalid wiget-name '#{name}'"
end
if name[0] == ?.
@path = '' + name
@path.freeze
return TkCore::INTERP.tk_windows[@path] = self
end
else
name = "w" + Tk_IDs[1]
Tk_IDs[1].succ!
end
if !ppath or ppath == '.'
@path = '.' + name
else
@path = ppath + '.' + name
end
@path.freeze
TkCore::INTERP.tk_windows[@path] = self
end
def uninstall_win()
#Tk_WINDOWS.delete(@path)
TkCore::INTERP.tk_windows.delete(@path)
end
private :install_win, :uninstall_win
def _epath(win)
if win.kind_of?(TkObject)
win.epath
elsif win.respond_to?(:epath)
win.epath
else
win
end
end
private :_epath
end
# define TkComm module (step 2: event binding)
module TkComm
include TkEvent
extend TkEvent
def tk_event_sequence(context)
if context.kind_of? TkVirtualEvent
context = context.path
end
if context.kind_of? Array
context = context.collect{|ev|
if ev.kind_of? TkVirtualEvent
ev.path
else
ev
end
}.join("><")
end
if /,/ =~ context
context = context.split(/\s*,\s*/).join("><")
else
context
end
end
def _bind_core(mode, what, context, cmd, args=nil)
id = install_bind(cmd, args) if cmd
begin
tk_call_without_enc(*(what + ["<#{tk_event_sequence(context)}>",
mode + id]))
rescue
uninstall_cmd(id) if cmd
fail
end
end
def _bind(what, context, cmd, args=nil)
_bind_core('', what, context, cmd, args)
end
def _bind_append(what, context, cmd, args=nil)
_bind_core('+', what, context, cmd, args)
end
def _bind_remove(what, context)
tk_call_without_enc(*(what + ["<#{tk_event_sequence(context)}>", '']))
end
def _bindinfo(what, context=nil)
if context
tk_call_without_enc(*what+["<#{tk_event_sequence(context)}>"]) .collect {|cmdline|
if cmdline =~ /^rb_out (c\d+)\s+(.*)$/
#[Tk_CMDTBL[$1], $2]
[TkCore::INTERP.tk_cmd_tbl[$1], $2]
else
cmdline
end
}
else
tk_split_simplelist(tk_call_without_enc(*what)).collect!{|seq|
l = seq.scan(/<*[^<>]+>*/).collect!{|subseq|
case (subseq)
when /^<<[^<>]+>>$/
TkVirtualEvent.getobj(subseq[1..-2])
when /^<[^<>]+>$/
subseq[1..-2]
else
subseq.split('')
end
}.flatten
(l.size == 1) ? l[0] : l
}
end
end
private :install_bind, :tk_event_sequence,
:_bind_core, :_bind, :_bind_append, :_bind_remove, :_bindinfo
def bind(tagOrClass, context, cmd=Proc.new, args=nil)
_bind(["bind", tagOrClass], context, cmd, args)
tagOrClass
end
def bind_append(tagOrClass, context, cmd=Proc.new, args=nil)
_bind_append(["bind", tagOrClass], context, cmd, args)
tagOrClass
end
def bind_remove(tagOrClass, context)
_bind_remove(['bind', tagOrClass], context)
tagOrClass
end
def bindinfo(tagOrClass, context=nil)
_bindinfo(['bind', tagOrClass], context)
end
def bind_all(context, cmd=Proc.new, args=nil)
_bind(['bind', 'all'], context, cmd, args)
TkBindTag::ALL
end
def bind_append_all(context, cmd=Proc.new, args=nil)
_bind_append(['bind', 'all'], context, cmd, args)
TkBindTag::ALL
end
def bind_remove_all(context)
_bind_remove(['bind', 'all'], context)
TkBindTag::ALL
end
def bindinfo_all(context=nil)
_bindinfo(['bind', 'all'], context)
end
end
module TkCore
include TkComm
extend TkComm
unless self.const_defined? :INTERP
if self.const_defined? :IP_NAME
name = IP_NAME.to_s
else
#name = nil
name = $0
end
if self.const_defined? :IP_OPTS
if IP_OPTS.kind_of?(Hash)
opts = hash_kv(IP_OPTS).join(' ')
else
opts = IP_OPTS.to_s
end
else
opts = ''
end
INTERP = TclTkIp.new(name, opts)
def INTERP.__getip
self
end
INTERP.instance_eval{
@tk_cmd_tbl = {}.taint
@tk_windows = {}.taint
@tk_table_list = [].taint
@init_ip_env = [].taint # table of Procs
@add_tk_procs = [].taint # table of [name, args, body]
@cb_entry_class = Class.new(TkCallbackEntry){|c|
class << c
def inspect
sprintf("#<Class(TkCallbackEntry):%0x>", self.__id__)
end
alias to_s inspect
end
def initialize(ip, cmd)
@ip = ip
@cmd = cmd
end
attr_reader :ip, :cmd
def call(*args)
@ip.cb_eval(@cmd, *args)
end
def inspect
sprintf("#<cb_entry:%0x>", self.__id__)
end
alias to_s inspect
}.freeze
}
def INTERP.cb_entry_class
@cb_entry_class
end
def INTERP.tk_cmd_tbl
@tk_cmd_tbl
end
def INTERP.tk_windows
@tk_windows
end
class Tk_OBJECT_TABLE
def initialize(id)
@id = id
end
def method_missing(m, *args, &b)
TkCore::INTERP.tk_object_table(@id).send(m, *args, &b)
end
end
def INTERP.tk_object_table(id)
@tk_table_list[id]
end
def INTERP.create_table
id = @tk_table_list.size
(tbl = {}).tainted? || tbl.taint
@tk_table_list << tbl
# obj = Object.new
# obj.instance_eval <<-EOD
# def self.method_missing(m, *args)
# TkCore::INTERP.tk_object_table(#{id}).send(m, *args)
# end
# EOD
# return obj
Tk_OBJECT_TABLE.new(id)
end
def INTERP.get_cb_entry(cmd)
@cb_entry_class.new(__getip, cmd).freeze
end
def INTERP.cb_eval(cmd, *args)
TkUtil._get_eval_string(TkUtil.eval_cmd(cmd, *args))
end
def INTERP.init_ip_env(script = Proc.new)
@init_ip_env << script
script.call(self)
end
def INTERP.add_tk_procs(name, args = nil, body = nil)
@add_tk_procs << [name, args, body]
self._invoke('proc', name, args, body) if args && body
end
def INTERP.init_ip_internal
ip = self
@init_ip_env.each{|script| script.call(ip)}
@add_tk_procs.each{|name,args,body| ip._invoke('proc',name,args,body)}
end
end
WIDGET_DESTROY_HOOK = '<WIDGET_DESTROY_HOOK>'
INTERP._invoke_without_enc('event', 'add',
"<#{WIDGET_DESTROY_HOOK}>", 'Destroy')
INTERP._invoke_without_enc('bind', 'all', "<#{WIDGET_DESTROY_HOOK}>",
install_bind(proc{|xpath|
path = xpath[1..-1]
unless TkCore::INTERP.deleted?
if (widget = TkCore::INTERP.tk_windows[path])
if widget.respond_to?(:__destroy_hook__)
begin
widget.__destroy_hook__
rescue Exception
end
end
end
end
}, 'x%W'))
INTERP.add_tk_procs(TclTkLib::FINALIZE_PROC_NAME, '',
"bind all <#{WIDGET_DESTROY_HOOK}> {}")
INTERP.add_tk_procs('rb_out', 'args', <<-'EOL')
if {[set st [catch {eval {ruby_cmd TkCore callback} $args} ret]] != 0} {
#return -code $st $ret
set idx [string first "\n\n" $ret]
if {$idx > 0} {
return -code $st \
-errorinfo [string range $ret [expr $idx + 2] \
[string length $ret]] \
[string range $ret 0 [expr $idx - 1]]
} else {
return -code $st $ret
}
} else {
return $ret
}
EOL
=begin
INTERP.add_tk_procs('rb_out', 'args', <<-'EOL')
#regsub -all {\\} $args {\\\\} args
#regsub -all {!} $args {\\!} args
#regsub -all "{" $args "\\{" args
regsub -all {(\\|!|\{|\})} $args {\\\1} args
if {[set st [catch {ruby [format "TkCore.callback %%Q!%s!" $args]} ret]] != 0} {
#return -code $st $ret
set idx [string first "\n\n" $ret]
if {$idx > 0} {
return -code $st \
-errorinfo [string range $ret [expr $idx + 2] \
[string length $ret]] \
[string range $ret 0 [expr $idx - 1]]
} else {
return -code $st $ret
}
} else {
return $ret
}
EOL
=end
EventFlag = TclTkLib::EventFlag
def callback_break
fail TkCallbackBreak, "Tk callback returns 'break' status"
end
def callback_continue
fail TkCallbackContinue, "Tk callback returns 'continue' status"
end
def TkCore.callback(*arg)
begin
TkCore::INTERP.tk_cmd_tbl[arg.shift].call(*arg)
rescue Exception => e
begin
msg = _toUTF8(e.class.inspect) + ': ' +
_toUTF8(e.message) + "\n" +
"\n---< backtrace of Ruby side >-----\n" +
_toUTF8(e.backtrace.join("\n")) +
"\n---< backtrace of Tk side >-------"
msg.instance_variable_set(:@encoding, 'utf-8')
rescue Exception
msg = e.class.inspect + ': ' + e.message + "\n" +
"\n---< backtrace of Ruby side >-----\n" +
e.backtrace.join("\n") +
"\n---< backtrace of Tk side >-------"
end
fail(e, msg)
end
end
=begin
def TkCore.callback(arg_str)
# arg = tk_split_list(arg_str)
arg = tk_split_simplelist(arg_str)
#_get_eval_string(TkUtil.eval_cmd(Tk_CMDTBL[arg.shift], *arg))
#_get_eval_string(TkUtil.eval_cmd(TkCore::INTERP.tk_cmd_tbl[arg.shift],
# *arg))
# TkCore::INTERP.tk_cmd_tbl[arg.shift].call(*arg)
begin
TkCore::INTERP.tk_cmd_tbl[arg.shift].call(*arg)
rescue Exception => e
raise(e, e.class.inspect + ': ' + e.message + "\n" +
"\n---< backtrace of Ruby side >-----\n" +
e.backtrace.join("\n") +
"\n---< backtrace of Tk side >-------")
end
#=begin
# cb_obj = TkCore::INTERP.tk_cmd_tbl[arg.shift]
# unless $DEBUG
# cb_obj.call(*arg)
# else
# begin
# raise 'check backtrace'
# rescue
# # ignore backtrace before 'callback'
# pos = -($!.backtrace.size)
# end
# begin
# cb_obj.call(*arg)
# rescue
# trace = $!.backtrace
# raise $!, "\n#{trace[0]}: #{$!.message} (#{$!.class})\n" +
# "\tfrom #{trace[1..pos].join("\n\tfrom ")}"
# end
# end
#=end
end
=end
def load_cmd_on_ip(tk_cmd)
bool(tk_call('auto_load', tk_cmd))
end
def after(ms, cmd=Proc.new)
myid = _curr_cmd_id
cmdid = install_cmd(cmd)
tk_call_without_enc("after",ms,cmdid) # return id
# return
# if false #defined? Thread
# Thread.start do
# ms = Float(ms)/1000
# ms = 10 if ms == 0
# sleep ms/1000
# cmd.call
# end
# else
# cmdid = install_cmd(cmd)
# tk_call("after",ms,cmdid)
# end
end
def after_idle(cmd=Proc.new)
myid = _curr_cmd_id
cmdid = install_cmd(cmd)
tk_call_without_enc('after','idle',cmdid)
end
def windowingsystem
tk_call_without_enc('tk', 'windowingsystem')
end
def scaling(scale=nil)
if scale
tk_call_without_enc('tk', 'scaling', scale)
else
Float(number(tk_call_without_enc('tk', 'scaling')))
end
end
def scaling_displayof(win, scale=nil)
if scale
tk_call_without_enc('tk', 'scaling', '-displayof', win, scale)
else
Float(number(tk_call_without_enc('tk', '-displayof', win, 'scaling')))
end
end
def appname(name=None)
tk_call('tk', 'appname', name)
end
def appsend(interp, async, *args)
if async
tk_call('send', '-async', '--', interp, *args)
else
tk_call('send', '--', interp, *args)
end
end
def rb_appsend(interp, async, *args)
#args = args.collect!{|c| _get_eval_string(c).gsub(/[\[\]$"]/, '\\\\\&')}
args = args.collect!{|c| _get_eval_string(c).gsub(/[\[\]$"\\]/, '\\\\\&')}
args.push(').to_s"')
appsend(interp, async, 'ruby "(', *args)
end
def appsend_displayof(interp, win, async, *args)
win = '.' if win == nil
if async
tk_call('send', '-async', '-displayof', win, '--', interp, *args)
else
tk_call('send', '-displayor', win, '--', interp, *args)
end
end
def rb_appsend_displayof(interp, win, async, *args)
#args = args.collect!{|c| _get_eval_string(c).gsub(/[\[\]$"]/, '\\\\\&')}
args = args.collect!{|c| _get_eval_string(c).gsub(/[\[\]$"\\]/, '\\\\\&')}
args.push(').to_s"')
appsend_displayof(interp, win, async, 'ruby "(', *args)
end
def info(*args)
tk_call('info', *args)
end
def mainloop(check_root = true)
TclTkLib.mainloop(check_root)
end
def mainloop_watchdog(check_root = true)
# watchdog restarts mainloop when mainloop is dead
TclTkLib.mainloop_watchdog(check_root)
end
def do_one_event(flag = TclTkLib::EventFlag::ALL)
TclTkLib.do_one_event(flag)
end
def set_eventloop_tick(timer_tick)
TclTkLib.set_eventloop_tick(timer_tick)
end
def get_eventloop_tick()
TclTkLib.get_eventloop_tick
end
def set_no_event_wait(wait)
TclTkLib.set_no_even_wait(wait)
end
def get_no_event_wait()
TclTkLib.get_no_eventloop_wait
end
def set_eventloop_weight(loop_max, no_event_tick)
TclTkLib.set_eventloop_weight(loop_max, no_event_tick)
end
def get_eventloop_weight()
TclTkLib.get_eventloop_weight
end
def restart(app_name = nil, keys = {})
TkCore::INTERP.init_ip_internal
tk_call('set', 'argv0', app_name) if app_name
if keys.kind_of?(Hash)
# tk_call('set', 'argc', keys.size * 2)
tk_call('set', 'argv', hash_kv(keys).join(' '))
end
INTERP.restart
nil
end
def event_generate(window, context, keys=nil)
#window = window.path if window.kind_of?(TkObject)
if keys
tk_call_without_enc('event', 'generate', window,
"<#{tk_event_sequence(context)}>",
*hash_kv(keys, true))
else
tk_call_without_enc('event', 'generate', window,
"<#{tk_event_sequence(context)}>")
end
nil
end
def messageBox(keys)
tk_call('tk_messageBox', *hash_kv(keys))
end
def getOpenFile(keys = nil)
tk_call('tk_getOpenFile', *hash_kv(keys))
end
def getSaveFile(keys = nil)
tk_call('tk_getSaveFile', *hash_kv(keys))
end
def chooseColor(keys = nil)
tk_call('tk_chooseColor', *hash_kv(keys))
end
def chooseDirectory(keys = nil)
tk_call('tk_chooseDirectory', *hash_kv(keys))
end
def _ip_eval_core(enc_mode, cmd_string)
case enc_mode
when nil
res = INTERP._eval(cmd_string)
when false
res = INTERP._eval_without_enc(cmd_string)
when true
res = INTERP._eval_with_enc(cmd_string)
end
if INTERP._return_value() != 0
fail RuntimeError, res, error_at
end
return res
end
private :_ip_eval_core
def ip_eval(cmd_string)
_ip_eval_core(nil, cmd_string)
end
def ip_eval_without_enc(cmd_string)
_ip_eval_core(false, cmd_string)
end
def ip_eval_with_enc(cmd_string)
_ip_eval_core(true, cmd_string)
end
def _ip_invoke_core(enc_mode, *args)
case enc_mode
when false
res = INTERP._invoke_without_enc(*args)
when nil
res = INTERP._invoke(*args)
when true
res = INTERP._invoke_with_enc(*args)
end
if INTERP._return_value() != 0
fail RuntimeError, res, error_at
end
return res
end
private :_ip_invoke_core
def ip_invoke(*args)
_ip_invoke_core(nil, *args)
end
def ip_invoke_without_enc(*args)
_ip_invoke_core(false, *args)
end
def ip_invoke_with_enc(*args)
_ip_invoke_core(true, *args)
end
def _tk_call_core(enc_mode, *args)
### puts args.inspect if $DEBUG
#args.collect! {|x|ruby2tcl(x, enc_mode)}
#args.compact!
#args.flatten!
args = _conv_args([], enc_mode, *args)
puts 'invoke args => ' + args.inspect if $DEBUG
### print "=> ", args.join(" ").inspect, "\n" if $DEBUG
begin
# res = INTERP._invoke(*args).taint
# res = INTERP._invoke(enc_mode, *args)
res = _ip_invoke_core(enc_mode, *args)
# >>>>> _invoke returns a TAINTED string <<<<<
rescue NameError => err
# err = $!
begin
args.unshift "unknown"
#res = INTERP._invoke(*args).taint
#res = INTERP._invoke(enc_mode, *args)
res = _ip_invoke_core(enc_mode, *args)
# >>>>> _invoke returns a TAINTED string <<<<<
rescue StandardError => err2
fail err2 unless /^invalid command/ =~ err2.message
fail err
end
end
if INTERP._return_value() != 0
fail RuntimeError, res, error_at
end
### print "==> ", res.inspect, "\n" if $DEBUG
return res
end
private :_tk_call_core
def tk_call(*args)
_tk_call_core(nil, *args)
end
def tk_call_without_enc(*args)
_tk_call_core(false, *args)
end
def tk_call_with_enc(*args)
_tk_call_core(true, *args)
end
end
module Tk
include TkCore
extend Tk
TCL_VERSION = INTERP._invoke_without_enc("info", "tclversion").freeze
TCL_PATCHLEVEL = INTERP._invoke_without_enc("info", "patchlevel").freeze
TK_VERSION = INTERP._invoke_without_enc("set", "tk_version").freeze
TK_PATCHLEVEL = INTERP._invoke_without_enc("set", "tk_patchLevel").freeze
JAPANIZED_TK = (INTERP._invoke_without_enc("info", "commands",
"kanji") != "").freeze
def Tk.const_missing(sym)
case(sym)
when :TCL_LIBRARY
INTERP._invoke("set", "tcl_library").freeze
when :TK_LIBRARY
INTERP._invoke("set", "tk_library").freeze
when :LIBRARY
INTERP._invoke("info", "library").freeze
#when :PKG_PATH, :PACKAGE_PATH, :TCL_PACKAGE_PATH
# tk_split_simplelist(INTERP._invoke('set', 'tcl_pkgPath'))
#when :LIB_PATH, :LIBRARY_PATH, :TCL_LIBRARY_PATH
# tk_split_simplelist(INTERP._invoke('set', 'tcl_libPath'))
when :PLATFORM, :TCL_PLATFORM
if $SAFE >= 4
fail SecurityError, "can't get #{sym} when $SAFE >= 4"
end
Hash[*tk_split_simplelist(INTERP._invoke_without_enc('array', 'get',
'tcl_platform'))]
when :ENV
Hash[*tk_split_simplelist(INTERP._invoke('array', 'get', 'env'))]
#when :AUTO_PATH #<===
# tk_split_simplelist(INTERP._invoke('set', 'auto_path'))
#when :AUTO_OLDPATH
# tk_split_simplelist(INTERP._invoke('set', 'auto_oldpath'))
when :AUTO_INDEX
Hash[*tk_split_simplelist(INTERP._invoke('array', 'get', 'auto_index'))]
when :PRIV, :PRIVATE, :TK_PRIV
priv = {}
if INTERP._invoke_without_enc('info', 'vars', 'tk::Priv') != ""
var_nam = 'tk::Priv'
else
var_nam = 'tkPriv'
end
Hash[*tk_split_simplelist(INTERP._invoke('array', 'get',
var_nam))].each{|k,v|
k.freeze
case v
when /^-?\d+$/
priv[k] = v.to_i
when /^-?\d+\.?\d*(e[-+]?\d+)?$/
priv[k] = v.to_f
else
priv[k] = v.freeze
end
}
priv
else
raise NameError, 'uninitialized constant Tk::' + sym.id2name
end
end
def root
TkRoot.new
end
def Tk.load_tclscript(file, enc=nil)
if enc
# TCL_VERSION >= 8.5
tk_call('source', '-encoding', enc, file)
else
tk_call('source', file)
end
end
def Tk.load_tcllibrary(file, pkg_name=None, interp=None)
tk_call('load', file, pkg_name, interp)
end
def Tk.unload_tcllibrary(*args)
if args[-1].kind_of?(Hash)
keys = _symbolkey2str(args.pop)
nocomp = (keys['nocomplain'])? '-nocomplain': None
keeplib = (keys['keeplibrary'])? '-keeplibrary': None
tk_call('unload', nocomp, keeplib, '--', *args)
else
tk_call('unload', *args)
end
end
def Tk.bell(nice = false)
if nice
tk_call_without_enc('bell', '-nice')
else
tk_call_without_enc('bell')
end
nil
end
def Tk.bell_on_display(win, nice = false)
if nice
tk_call_without_enc('bell', '-displayof', win, '-nice')
else
tk_call_without_enc('bell', '-displayof', win)
end
nil
end
def Tk.destroy(*wins)
tk_call_without_enc('destroy', *wins)
end
def Tk.exit
tk_call_without_enc('destroy', '.')
end
def Tk.pack(*args)
#TkPack.configure(*args)
TkPack(*args)
end
def Tk.grid(*args)
TkGrid.configure(*args)
end
def Tk.update(idle=nil)
if idle
tk_call_without_enc('update', 'idletasks')
else
tk_call_without_enc('update')
end
end
def Tk.update_idletasks
update(true)
end
=begin
# See tcltklib.c for the reason of why the following methods are disabled.
def Tk.thread_update(idle=nil)
if idle
tk_call_without_enc('thread_update', 'idletasks')
else
tk_call_without_enc('thread_update')
end
end
def Tk.thread_update_idletasks
thread_update(true)
end
=end
def Tk.current_grabs(win = nil)
if win
window(tk_call_without_enc('grab', 'current', win))
else
tk_split_list(tk_call_without_enc('grab', 'current'))
end
end
def Tk.focus(display=nil)
if display == nil
window(tk_call_without_enc('focus'))
else
window(tk_call_without_enc('focus', '-displayof', display))
end
end
def Tk.focus_to(win, force=false)
if force
tk_call_without_enc('focus', '-force', win)
else
tk_call_without_enc('focus', win)
end
end
def Tk.focus_lastfor(win)
window(tk_call_without_enc('focus', '-lastfor', win))
end
def Tk.focus_next(win)
TkManageFocus.next(win)
end
def Tk.focus_prev(win)
TkManageFocus.prev(win)
end
def Tk.strictMotif(bool=None)
bool(tk_call_without_enc('set', 'tk_strictMotif', bool))
end
def Tk.show_kinsoku(mode='both')
begin
if /^8\.*/ === TK_VERSION && JAPANIZED_TK
tk_split_simplelist(tk_call('kinsoku', 'show', mode))
end
rescue
end
end
def Tk.add_kinsoku(chars, mode='both')
begin
if /^8\.*/ === TK_VERSION && JAPANIZED_TK
tk_split_simplelist(tk_call('kinsoku', 'add', mode,
*(chars.split(''))))
else
[]
end
rescue
[]
end
end
def Tk.delete_kinsoku(chars, mode='both')
begin
if /^8\.*/ === TK_VERSION && JAPANIZED_TK
tk_split_simplelist(tk_call('kinsoku', 'delete', mode,
*(chars.split(''))))
end
rescue
end
end
def Tk.toUTF8(str, encoding = nil)
_toUTF8(str, encoding)
end
def Tk.fromUTF8(str, encoding = nil)
_fromUTF8(str, encoding)
end
end
###########################################
# string with Tcl's encoding
###########################################
module Tk
def Tk.subst_utf_backslash(str)
Tk::EncodedString.subst_utf_backslash(str)
end
def Tk.subst_tk_backslash(str)
Tk::EncodedString.subst_tk_backslash(str)
end
def Tk.utf_to_backslash_sequence(str)
Tk::EncodedString.utf_to_backslash_sequence(str)
end
def Tk.utf_to_backslash(str)
Tk::EncodedString.utf_to_backslash_sequence(str)
end
def Tk.to_backslash_sequence(str)
Tk::EncodedString.to_backslash_sequence(str)
end
end
###########################################
# convert kanji string to/from utf-8
###########################################
if (/^(8\.[1-9]|9\.|[1-9][0-9])/ =~ Tk::TCL_VERSION && !Tk::JAPANIZED_TK)
class TclTkIp
# from tkencoding.rb by ttate@jaist.ac.jp
attr_accessor :encoding
alias __eval _eval
alias __invoke _invoke
alias __toUTF8 _toUTF8
alias __fromUTF8 _fromUTF8
=begin
#### --> definition is moved to TclTkIp module
def _toUTF8(str, encoding = nil)
# decide encoding
if encoding
encoding = encoding.to_s
elsif str.kind_of?(Tk::EncodedString) && str.encoding != nil
encoding = str.encoding.to_s
elsif str.instance_variable_get(:@encoding)
encoding = str.instance_variable_get(:@encoding).to_s
elsif defined?(@encoding) && @encoding != nil
encoding = @encoding.to_s
else
encoding = __invoke('encoding', 'system')
end
# convert
case encoding
when 'utf-8', 'binary'
str
else
__toUTF8(str, encoding)
end
end
def _fromUTF8(str, encoding = nil)
unless encoding
if defined?(@encoding) && @encoding != nil
encoding = @encoding.to_s
else
encoding = __invoke('encoding', 'system')
end
end
if str.kind_of?(Tk::EncodedString)
if str.encoding == 'binary'
str
else
__fromUTF8(str, encoding)
end
elsif str.instance_variable_get(:@encoding).to_s == 'binary'
str
else
__fromUTF8(str, encoding)
end
end
=end
def _eval(cmd)
_fromUTF8(__eval(_toUTF8(cmd)))
end
def _invoke(*cmds)
_fromUTF8(__invoke(*(cmds.collect{|cmd| _toUTF8(cmd)})))
end
alias _eval_with_enc _eval
alias _invoke_with_enc _invoke
=begin
def _eval(cmd)
if defined?(@encoding) && @encoding != 'utf-8'
ret = if cmd.kind_of?(Tk::EncodedString)
case cmd.encoding
when 'utf-8', 'binary'
__eval(cmd)
else
__eval(_toUTF8(cmd, cmd.encoding))
end
elsif cmd.instance_variable_get(:@encoding) == 'binary'
__eval(cmd)
else
__eval(_toUTF8(cmd, @encoding))
end
if ret.kind_of?(String) && ret.instance_variable_get(:@encoding) == 'binary'
ret
else
_fromUTF8(ret, @encoding)
end
else
__eval(cmd)
end
end
def _invoke(*cmds)
if defined?(@encoding) && @encoding != 'utf-8'
cmds = cmds.collect{|cmd|
if cmd.kind_of?(Tk::EncodedString)
case cmd.encoding
when 'utf-8', 'binary'
cmd
else
_toUTF8(cmd, cmd.encoding)
end
elsif cmd.instance_variable_get(:@encoding) == 'binary'
cmd
else
_toUTF8(cmd, @encoding)
end
}
ret = __invoke(*cmds)
if ret.kind_of?(String) && ret.instance_variable_get(:@encoding) == 'binary'
ret
else
_fromUTF8(ret, @encoding)
end
else
__invoke(*cmds)
end
end
=end
end
module Tk
module Encoding
extend Encoding
TkCommandNames = ['encoding'.freeze].freeze
def encoding=(name)
TkCore::INTERP.encoding = name
end
def encoding
TkCore::INTERP.encoding
end
def encoding_names
tk_split_simplelist(tk_call('encoding', 'names'))
end
def encoding_system
tk_call('encoding', 'system')
end
def encoding_system=(enc)
tk_call('encoding', 'system', enc)
end
def encoding_convertfrom(str, enc=None)
TkCore::INTERP.__invoke('encoding', 'convertfrom', enc, str)
end
alias encoding_convert_from encoding_convertfrom
def encoding_convertto(str, enc=None)
TkCore::INTERP.__invoke('encoding', 'convertto', enc, str)
end
alias encoding_convert_to encoding_convertto
end
extend Encoding
end
# estimate encoding
case $KCODE
when /^e/i # EUC
Tk.encoding = 'euc-jp'
when /^s/i # SJIS
Tk.encoding = 'shiftjis'
when /^u/i # UTF8
Tk.encoding = 'utf-8'
else # NONE
begin
Tk.encoding = Tk.encoding_system
rescue StandardError, NameError
Tk.encoding = 'utf-8'
end
end
else
# dummy methods
class TclTkIp
alias __eval _eval
alias __invoke _invoke
alias _eval_with_enc _eval
alias _invoke_with_enc _invoke
end
module Tk
module Encoding
extend Encoding
def encoding=(name)
nil
end
def encoding
nil
end
def encoding_names
nil
end
def encoding_system
nil
end
def encoding_system=(enc)
nil
end
def encoding_convertfrom(str, enc=None)
str
end
alias encoding_convert_from encoding_convertfrom
def encoding_convertto(str, enc=None)
str
end
alias encoding_convert_to encoding_convertto
end
end
end
module TkTreatFont
def font_configinfo(name = nil)
ret = TkFont.used_on(self.path)
if ret == nil
=begin
if name
ret = name
else
ret = TkFont.init_widget_font(self.path, self.path, 'configure')
end
=end
ret = TkFont.init_widget_font(self.path, self.path, 'configure')
end
ret
end
alias fontobj font_configinfo
def font_configure(slot)
slot = _symbolkey2str(slot)
if slot.key?('font')
fnt = slot.delete('font')
if fnt.kind_of? TkFont
return fnt.call_font_configure(self.path, self.path,'configure',slot)
else
if fnt
if (slot.key?('kanjifont') ||
slot.key?('latinfont') ||
slot.key?('asciifont'))
fnt = TkFont.new(fnt)
lfnt = slot.delete('latinfont')
lfnt = slot.delete('asciifont') if slot.key?('asciifont')
kfnt = slot.delete('kanjifont')
fnt.latin_replace(lfnt) if lfnt
fnt.kanji_replace(kfnt) if kfnt
else
slot['font'] = fnt
tk_call(self.path, 'configure', *hash_kv(slot))
end
end
return self
end
end
lfnt = slot.delete('latinfont')
lfnt = slot.delete('asciifont') if slot.key?('asciifont')
kfnt = slot.delete('kanjifont')
if lfnt && kfnt
return TkFont.new(lfnt, kfnt).call_font_configure(self.path, self.path,
'configure', slot)
end
latinfont_configure(lfnt) if lfnt
kanjifont_configure(kfnt) if kfnt
tk_call(self.path, 'configure', *hash_kv(slot)) if slot != {}
self
end
def latinfont_configure(ltn, keys=nil)
if (fobj = TkFont.used_on(self.path))
fobj = TkFont.new(fobj) # create a new TkFont object
elsif Tk::JAPANIZED_TK
fobj = fontobj # create a new TkFont object
else
tk_call(self.path, 'configure', '-font', ltn)
return self
end
if fobj.kind_of?(TkFont)
if ltn.kind_of? TkFont
conf = {}
ltn.latin_configinfo.each{|key,val| conf[key] = val}
if keys
fobj.latin_configure(conf.update(keys))
else
fobj.latin_configure(conf)
end
else
fobj.latin_replace(ltn)
end
end
return fobj.call_font_configure(self.path, self.path, 'configure', {})
end
alias asciifont_configure latinfont_configure
def kanjifont_configure(knj, keys=nil)
if (fobj = TkFont.used_on(self.path))
fobj = TkFont.new(fobj) # create a new TkFont object
elsif Tk::JAPANIZED_TK
fobj = fontobj # create a new TkFont object
else
tk_call(self.path, 'configure', '-font', knj)
return self
end
if fobj.kind_of?(TkFont)
if knj.kind_of? TkFont
conf = {}
knj.kanji_configinfo.each{|key,val| conf[key] = val}
if keys
fobj.kanji_configure(conf.update(keys))
else
fobj.kanji_configure(conf)
end
else
fobj.kanji_replace(knj)
end
end
return fobj.call_font_configure(self.path, self.path, 'configure', {})
end
def font_copy(window, tag=nil)
if tag
fnt = window.tagfontobj(tag).dup
else
fnt = window.fontobj.dup
end
fnt.call_font_configure(self.path, self.path, 'configure', {})
self
end
def latinfont_copy(window, tag=nil)
fontobj.dup.call_font_configure(self.path, self.path, 'configure', {})
if tag
fontobj.latin_replace(window.tagfontobj(tag).latin_font_id)
else
fontobj.latin_replace(window.fontobj.latin_font_id)
end
self
end
alias asciifont_copy latinfont_copy
def kanjifont_copy(window, tag=nil)
fontobj.dup.call_font_configure(self.path, self.path, 'configure', {})
if tag
fontobj.kanji_replace(window.tagfontobj(tag).kanji_font_id)
else
fontobj.kanji_replace(window.fontobj.kanji_font_id)
end
self
end
end
module TkBindCore
def bind(context, cmd=Proc.new, args=nil)
Tk.bind(self, context, cmd, args)
end
def bind_append(context, cmd=Proc.new, args=nil)
Tk.bind_append(self, context, cmd, args)
end
def bind_remove(context)
Tk.bind_remove(self, context)
end
def bindinfo(context=nil)
Tk.bindinfo(self, context)
end
end
class TkObject<TkKernel
include Tk
include TkTreatFont
include TkBindCore
def path
@path
end
def epath
@path
end
def to_eval
@path
end
def tk_send(cmd, *rest)
tk_call(path, cmd, *rest)
end
def tk_send_without_enc(cmd, *rest)
tk_call_without_enc(path, cmd, *rest)
end
def tk_send_with_enc(cmd, *rest)
tk_call_with_enc(path, cmd, *rest)
end
private :tk_send, :tk_send_without_enc, :tk_send_with_enc
def method_missing(id, *args)
name = id.id2name
case args.length
when 1
if name[-1] == ?=
configure name[0..-2], args[0]
else
configure name, args[0]
end
when 0
begin
cget(name)
rescue
fail NameError,
"undefined local variable or method `#{name}' for #{self.to_s}",
error_at
end
else
fail NameError, "undefined method `#{name}' for #{self.to_s}", error_at
end
end
def [](id)
cget(id)
end
def []=(id, val)
configure(id, val)
val
end
def cget(slot)
case slot.to_s
when 'text', 'label', 'show', 'data', 'file'
#tk_call(path, 'cget', "-#{slot}")
_fromUTF8(tk_call_without_enc(path, 'cget', "-#{slot}"))
when 'font', 'kanjifont'
#fnt = tk_tcl2ruby(tk_call(path, 'cget', "-#{slot}"))
#fnt = tk_tcl2ruby(tk_call(path, 'cget', "-font"))
fnt = tk_tcl2ruby(tk_call_without_enc(path, 'cget', "-font"), true)
unless fnt.kind_of?(TkFont)
fnt = fontobj(fnt)
end
if slot == 'kanjifont' && JAPANIZED_TK && TK_VERSION =~ /^4\.*/
# obsolete; just for compatibility
fnt.kanji_font
else
fnt
end
else
tk_tcl2ruby(tk_call_without_enc(path, 'cget', "-#{slot}"), true)
end
end
def configure(slot, value=None)
if slot.kind_of? Hash
if (slot['font'] || slot[:font] ||
slot['kanjifont'] || slot[:kanjifont] ||
slot['latinfont'] || slot[:latinfont] ||
slot['asciifont'] || slot[:asciifont] )
font_configure(slot)
elsif slot.size > 0
tk_call(path, 'configure', *hash_kv(slot))
end
else
if (slot == 'font' || slot == :font ||
slot == 'kanjifont' || slot == :kanjifont ||
slot == 'latinfont' || slot == :latinfont ||
slot == 'asciifont' || slot == :asciifont )
if value == None
fontobj
else
font_configure({slot=>value})
end
else
tk_call(path, 'configure', "-#{slot}", value)
end
end
self
end
def configure_cmd(slot, value)
configure(slot, install_cmd(value))
end
def configinfo(slot = nil)
if TkComm::GET_CONFIGINFO_AS_ARRAY
if slot == 'font' || slot == :font ||
slot == 'kanjifont' || slot == :kanjifont
conf = tk_split_simplelist(_fromUTF8(tk_send_without_enc('configure', "-#{slot}")))
conf[0] = conf[0][1..-1]
conf[4] = fontobj(conf[4])
conf
else
if slot
case slot.to_s
when 'text', 'label', 'show', 'data', 'file'
conf = tk_split_simplelist(_fromUTF8(tk_send_without_enc('configure', "-#{slot}")))
else
conf = tk_split_list(_fromUTF8(tk_send_without_enc('configure', "-#{slot}")))
end
conf[0] = conf[0][1..-1]
conf
else
ret = tk_split_simplelist(_fromUTF8(tk_send_without_enc('configure'))).collect{|conflist|
conf = tk_split_simplelist(conflist)
conf[0] = conf[0][1..-1]
case conf[0]
when 'text', 'label', 'show', 'data', 'file'
else
if conf[3]
if conf[3].index('{')
conf[3] = tk_split_list(conf[3])
else
conf[3] = tk_tcl2ruby(conf[3])
end
end
if conf[4]
if conf[4].index('{')
conf[4] = tk_split_list(conf[4])
else
conf[4] = tk_tcl2ruby(conf[4])
end
end
end
conf[1] = conf[1][1..-1] if conf.size == 2 # alias info
conf
}
fontconf = ret.assoc('font')
if fontconf
ret.delete_if{|item| item[0] == 'font' || item[0] == 'kanjifont'}
fontconf[4] = fontobj(fontconf[4])
ret.push(fontconf)
else
ret
end
end
end
else # ! TkComm::GET_CONFIGINFO_AS_ARRAY
if slot == 'font' || slot == :font ||
slot == 'kanjifont' || slot == :kanjifont
conf = tk_split_simplelist(_fromUTF8(tk_send_without_enc('configure', "-#{slot}")))
key = conf.shift[1..-1]
conf[3] = fontobj(conf[3])
{ key => conf }
else
if slot
case slot.to_s
when 'text', 'label', 'show', 'data', 'file'
conf = tk_split_simplelist(_fromUTF8(tk_send_without_enc('configure', "-#{slot}")))
else
conf = tk_split_list(_fromUTF8(tk_send_without_enc('configure', "-#{slot}")))
end
key = conf.shift[1..-1]
{ key => conf }
else
ret = {}
tk_split_simplelist(_fromUTF8(tk_send_without_enc('configure'))).each{|conflist|
conf = tk_split_simplelist(conflist)
key = conf.shift[1..-1]
case key
when 'text', 'label', 'show', 'data', 'file'
else
if conf[2]
if conf[2].index('{')
conf[2] = tk_split_list(conf[2])
else
conf[2] = tk_tcl2ruby(conf[2])
end
end
if conf[3]
if conf[3].index('{')
conf[3] = tk_split_list(conf[3])
else
conf[3] = tk_tcl2ruby(conf[3])
end
end
end
if conf.size == 1
ret[key] = conf[0][1..-1] # alias info
else
ret[key] = conf
end
}
fontconf = ret['font']
if fontconf
ret.delete('font')
ret.delete('kanjifont')
fontconf[3] = fontobj(fontconf[3])
ret['font'] = fontconf
end
ret
end
end
end
end
def current_configinfo(slot = nil)
if TkComm::GET_CONFIGINFO_AS_ARRAY
if slot
conf = configinfo(slot)
{conf[0] => conf[4]}
else
ret = {}
configinfo().each{|conf|
ret[conf[0]] = conf[4] if conf.size > 2
}
ret
end
else # ! TkComm::GET_CONFIGINFO_AS_ARRAY
ret = {}
configinfo(slot).each{|key, conf|
ret[key] = conf[-1] if conf.kind_of?(Array)
}
ret
end
end
def event_generate(context, keys=nil)
if keys
#tk_call('event', 'generate', path,
# "<#{tk_event_sequence(context)}>", *hash_kv(keys))
tk_call_without_enc('event', 'generate', path,
"<#{tk_event_sequence(context)}>",
*hash_kv(keys, true))
else
#tk_call('event', 'generate', path, "<#{tk_event_sequence(context)}>")
tk_call_without_enc('event', 'generate', path,
"<#{tk_event_sequence(context)}>")
end
end
def tk_trace_variable(v)
unless v.kind_of?(TkVariable)
fail(ArgumentError, "type error (#{v.class}); must be TkVariable object")
end
v
end
private :tk_trace_variable
def destroy
tk_call 'trace', 'vdelete', @tk_vn, 'w', @var_id if @var_id
end
end
class TkWindow<TkObject
include TkWinfo
extend TkBindCore
WidgetClassName = ''.freeze
def self.to_eval
self::WidgetClassName
end
def initialize(parent=nil, keys=nil)
if parent.kind_of? Hash
keys = _symbolkey2str(parent)
parent = keys.delete('parent')
widgetname = keys.delete('widgetname')
install_win(if parent then parent.path end, widgetname)
without_creating = keys.delete('without_creating')
if without_creating && !widgetname
fail ArgumentError,
"if set 'without_creating' to true, need to define 'widgetname'"
end
elsif keys
keys = _symbolkey2str(keys)
widgetname = keys.delete('widgetname')
install_win(if parent then parent.path end, widgetname)
without_creating = keys.delete('without_creating')
if without_creating && !widgetname
fail ArgumentError,
"if set 'without_creating' to true, need to define 'widgetname'"
end
else
install_win(if parent then parent.path end)
end
if self.method(:create_self).arity == 0
p 'create_self has no arg' if $DEBUG
create_self unless without_creating
if keys
# tk_call @path, 'configure', *hash_kv(keys)
configure(keys)
end
else
p 'create_self has args' if $DEBUG
fontkeys = {}
if keys
['font', 'kanjifont', 'latinfont', 'asciifont'].each{|key|
fontkeys[key] = keys.delete(key) if keys.key?(key)
}
end
if without_creating && keys
configure(keys)
else
create_self(keys)
end
font_configure(fontkeys) unless fontkeys.empty?
end
end
def create_self
fail RuntimeError, "TkWindow is an abstract class"
end
private :create_self
def exist?
TkWinfo.exist?(self)
end
def bind_class
@db_class || self.class()
end
def database_classname
TkWinfo.classname(self)
end
def database_class
name = database_classname()
if WidgetClassNames[name]
WidgetClassNames[name]
else
TkDatabaseClass.new(name)
end
end
def self.database_classname
self::WidgetClassName
end
def self.database_class
WidgetClassNames[self::WidgetClassName]
end
def pack(keys = nil)
#tk_call_without_enc('pack', epath, *hash_kv(keys, true))
if keys
TkPack.configure(self, keys)
else
TkPack.configure(self)
end
self
end
def pack_in(target, keys = nil)
if keys
keys = keys.dup
keys['in'] = target
else
keys = {'in'=>target}
end
#tk_call 'pack', epath, *hash_kv(keys)
TkPack.configure(self, keys)
self
end
def pack_forget
#tk_call_without_enc('pack', 'forget', epath)
TkPack.forget(self)
self
end
alias unpack pack_forget
def pack_config(slot, value=None)
#if slot.kind_of? Hash
# tk_call 'pack', 'configure', epath, *hash_kv(slot)
#else
# tk_call 'pack', 'configure', epath, "-#{slot}", value
#end
if slot.kind_of? Hash
TkPack.configure(self, slot)
else
TkPack.configure(self, slot=>value)
end
end
def pack_info()
#ilist = list(tk_call('pack', 'info', epath))
#info = {}
#while key = ilist.shift
# info[key[1..-1]] = ilist.shift
#end
#return info
TkPack.info(self)
end
def pack_propagate(mode=None)
#if mode == None
# bool(tk_call('pack', 'propagate', epath))
#else
# tk_call('pack', 'propagate', epath, mode)
# self
#end
if mode == None
TkPack.propagate(self)
else
TkPack.propagate(self, mode)
self
end
end
def pack_slaves()
#list(tk_call('pack', 'slaves', epath))
TkPack.slaves(self)
end
def grid(keys = nil)
#tk_call 'grid', epath, *hash_kv(keys)
if keys
TkGrid.configure(self, keys)
else
TkGrid.configure(self)
end
self
end
def grid_in(target, keys = nil)
if keys
keys = keys.dup
keys['in'] = target
else
keys = {'in'=>target}
end
#tk_call 'grid', epath, *hash_kv(keys)
TkGrid.configure(self, keys)
self
end
def grid_forget
#tk_call('grid', 'forget', epath)
TkGrid.forget(self)
self
end
alias ungrid grid_forget
def grid_bbox(*args)
#list(tk_call('grid', 'bbox', epath, *args))
TkGrid.bbox(self, *args)
end
def grid_config(slot, value=None)
#if slot.kind_of? Hash
# tk_call 'grid', 'configure', epath, *hash_kv(slot)
#else
# tk_call 'grid', 'configure', epath, "-#{slot}", value
#end
if slot.kind_of? Hash
TkGrid.configure(self, slot)
else
TkGrid.configure(self, slot=>value)
end
end
def grid_columnconfig(index, keys)
#tk_call('grid', 'columnconfigure', epath, index, *hash_kv(keys))
TkGrid.columnconfigure(self, index, keys)
end
alias grid_columnconfigure grid_columnconfig
def grid_rowconfig(index, keys)
#tk_call('grid', 'rowconfigure', epath, index, *hash_kv(keys))
TkGrid.rowconfigure(self, index, keys)
end
alias grid_rowconfigure grid_rowconfig
def grid_columnconfiginfo(index, slot=nil)
#if slot
# tk_call('grid', 'columnconfigure', epath, index, "-#{slot}").to_i
#else
# ilist = list(tk_call('grid', 'columnconfigure', epath, index))
# info = {}
# while key = ilist.shift
# info[key[1..-1]] = ilist.shift
# end
# info
#end
TkGrid.columnconfiginfo(self, index, slot)
end
def grid_rowconfiginfo(index, slot=nil)
#if slot
# tk_call('grid', 'rowconfigure', epath, index, "-#{slot}").to_i
#else
# ilist = list(tk_call('grid', 'rowconfigure', epath, index))
# info = {}
# while key = ilist.shift
# info[key[1..-1]] = ilist.shift
# end
# info
#end
TkGrid.rowconfiginfo(self, index, slot)
end
def grid_info()
#list(tk_call('grid', 'info', epath))
TkGrid.info(self)
end
def grid_location(x, y)
#list(tk_call('grid', 'location', epath, x, y))
TkGrid.location(self, x, y)
end
def grid_propagate(mode=None)
#if mode == None
# bool(tk_call('grid', 'propagate', epath))
#else
# tk_call('grid', 'propagate', epath, mode)
# self
#end
if mode == None
TkGrid.propagete(self)
else
TkGrid.propagete(self, mode)
self
end
end
def grid_remove()
#tk_call 'grid', 'remove', epath
TkGrid.remove(self)
self
end
def grid_size()
#list(tk_call('grid', 'size', epath))
TkGrid.size(self)
end
def grid_slaves(args)
#list(tk_call('grid', 'slaves', epath, *hash_kv(args)))
TkGrid.slaves(self, args)
end
def place(keys)
#tk_call 'place', epath, *hash_kv(keys)
TkPlace.configure(self, keys)
self
end
def place_in(target, keys = nil)
if keys
keys = keys.dup
keys['in'] = target
else
keys = {'in'=>target}
end
#tk_call 'place', epath, *hash_kv(keys)
TkPlace.configure(self, keys)
self
end
def place_forget
#tk_call 'place', 'forget', epath
TkPlace.forget(self)
self
end
alias unplace place_forget
def place_config(slot, value=None)
#if slot.kind_of? Hash
# tk_call 'place', 'configure', epath, *hash_kv(slot)
#else
# tk_call 'place', 'configure', epath, "-#{slot}", value
#end
TkPlace.configure(self, slot, value)
end
def place_configinfo(slot = nil)
# for >= Tk8.4a2 ?
#if slot
# conf = tk_split_list(tk_call('place', 'configure', epath, "-#{slot}") )
# conf[0] = conf[0][1..-1]
# conf
#else
# tk_split_simplelist(tk_call('place',
# 'configure', epath)).collect{|conflist|
# conf = tk_split_simplelist(conflist)
# conf[0] = conf[0][1..-1]
# conf
# }
#end
TkPlace.configinfo(slot)
end
def place_info()
#ilist = list(tk_call('place', 'info', epath))
#info = {}
#while key = ilist.shift
# info[key[1..-1]] = ilist.shift
#end
#return info
TkPlace.info(self)
end
def place_slaves()
#list(tk_call('place', 'slaves', epath))
TkPlace.slaves(self)
end
def set_focus(force=false)
if force
tk_call_without_enc('focus', '-force', path)
else
tk_call_without_enc('focus', path)
end
self
end
alias focus set_focus
def grab(opt = nil)
unless opt
tk_call_without_enc('grab', 'set', path)
return self
end
case opt
when 'global', :global
#return(tk_call('grab', 'set', '-global', path))
tk_call_without_enc('grab', 'set', '-global', path)
return self
when 'release', :release
#return tk_call('grab', 'release', path)
tk_call_without_enc('grab', 'release', path)
return self
when 'current', :current
return window(tk_call_without_enc('grab', 'current', path))
when 'status', :status
return tk_call_without_enc('grab', 'status', path)
else
return tk_call_without_enc('grab', args[0], path)
end
end
def grab_current
grab('current')
end
def grab_release
grab('release')
end
def grab_set
grab('set')
end
def grab_set_global
grab('global')
end
def grab_status
grab('status')
end
def lower(below=None)
# below = below.epath if below.kind_of?(TkObject)
below = _epath(below)
tk_call 'lower', epath, below
self
end
def raise(above=None)
#above = above.epath if above.kind_of?(TkObject)
above = _epath(above)
tk_call 'raise', epath, above
self
end
def command(cmd=nil, &b)
if cmd
configure_cmd('command', cmd)
elsif b
configure_cmd('command', Proc.new(&b))
else
cget('command')
end
end
def colormodel(model=None)
tk_call('tk', 'colormodel', path, model)
self
end
def caret(keys=nil)
TkXIM.caret(path, keys)
end
def destroy
super
children = []
rexp = /^#{self.path}\.[^.]+$/
TkCore::INTERP.tk_windows.each{|path, obj|
children << [path, obj] if path =~ rexp
}
if defined?(@cmdtbl)
for id in @cmdtbl
uninstall_cmd id
end
end
children.each{|path, obj|
if defined?(@cmdtbl)
for id in @cmdtbl
uninstall_cmd id
end
end
TkCore::INTERP.tk_windows.delete(path)
}
begin
tk_call_without_enc('destroy', epath)
rescue
end
uninstall_win
end
def wait_visibility(on_thread = true)
if $SAFE >= 4
fail SecurityError, "can't wait visibility at $SAFE >= 4"
end
on_thread &= (Thread.list.size != 1)
if on_thread
INTERP._thread_tkwait('visibility', path)
else
INTERP._invoke('tkwait', 'visibility', path)
end
end
def eventloop_wait_visibility
wait_visibility(false)
end
def thread_wait_visibility
wait_visibility(true)
end
alias wait wait_visibility
alias tkwait wait_visibility
alias eventloop_wait eventloop_wait_visibility
alias eventloop_tkwait eventloop_wait_visibility
alias eventloop_tkwait_visibility eventloop_wait_visibility
alias thread_wait thread_wait_visibility
alias thread_tkwait thread_wait_visibility
alias thread_tkwait_visibility thread_wait_visibility
def wait_destroy(on_thread = true)
if $SAFE >= 4
fail SecurityError, "can't wait destroy at $SAFE >= 4"
end
on_thread &= (Thread.list.size != 1)
if on_thread
INTERP._thread_tkwait('window', epath)
else
INTERP._invoke('tkwait', 'window', epath)
end
end
def eventloop_wait_destroy
wait_destroy(false)
end
def thread_wait_destroy
wait_destroy(true)
end
alias tkwait_destroy wait_destroy
alias eventloop_tkwait_destroy eventloop_wait_destroy
alias thread_tkwait_destroy thread_wait_destroy
def bindtags(taglist=nil)
if taglist
fail ArgumentError, "taglist must be Array" unless taglist.kind_of? Array
tk_call('bindtags', path, taglist)
taglist
else
list(tk_call('bindtags', path)).collect{|tag|
if tag.kind_of?(String)
if cls = WidgetClassNames[tag]
cls
elsif btag = TkBindTag.id2obj(tag)
btag
else
tag
end
else
tag
end
}
end
end
def bindtags=(taglist)
bindtags(taglist)
taglist
end
def bindtags_shift
taglist = bindtags
tag = taglist.shift
bindtags(taglist)
tag
end
def bindtags_unshift(tag)
bindtags(bindtags().unshift(tag))
end
end
# freeze core modules
#TclTkLib.freeze
#TclTkIp.freeze
#TkUtil.freeze
#TkKernel.freeze
#TkComm.freeze
#TkComm::Event.freeze
#TkCore.freeze
#Tk.freeze
module Tk
autoload :AUTO_PATH, 'tk/variable'
autoload :TCL_PACKAGE_PATH, 'tk/variable'
autoload :PACKAGE_PATH, 'tk/variable'
autoload :TCL_LIBRARY_PATH, 'tk/variable'
autoload :LIBRARY_PATH, 'tk/variable'
autoload :TCL_PRECISION, 'tk/variable'
end