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ruby--ruby/ext/tk/lib/multi-tk.rb
nagai b535e9b004 * ext/tk/lib/multi-tk.rb: fix en-bugged part in the last commit.
git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@8830 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2005-07-25 05:11:19 +00:00

2657 lines
65 KiB
Ruby

#
# multi-tk.rb - supports multi Tk interpreters
# by Hidetoshi NAGAI <nagai@ai.kyutech.ac.jp>
require 'tcltklib'
require 'tkutil'
require 'thread'
if defined? Tk
fail RuntimeError,"'multi-tk' library must be required before requiring 'tk'"
end
################################################
# ignore exception on the mainloop?
TclTkLib.mainloop_abort_on_exception = true
# TclTkLib.mainloop_abort_on_exception = false
# TclTkLib.mainloop_abort_on_exception = nil
################################################
# add ThreadGroup check to TclTkIp.new
class << TclTkIp
alias __new__ new
private :__new__
def new(*args)
if Thread.current.group != ThreadGroup::Default
raise SecurityError, 'only ThreadGroup::Default can call TclTkIp.new'
end
__new__(*args)
end
end
################################################
# exceptiopn to treat the return value from IP
class MultiTkIp_OK < Exception
def self.send(thread, ret=nil)
thread.raise self.new(ret)
end
def initialize(ret=nil)
super('succeed')
@return_value = ret
end
attr_reader :return_value
alias value return_value
end
MultiTkIp_OK.freeze
################################################
# methods for construction
class MultiTkIp
@@SLAVE_IP_ID = ['slave'.freeze, '0'.taint].freeze
@@IP_TABLE = {}.taint unless defined?(@@IP_TABLE)
@@INIT_IP_ENV = [].taint unless defined?(@@INIT_IP_ENV) # table of Procs
@@ADD_TK_PROCS = [].taint unless defined?(@@ADD_TK_PROCS) # table of [name, args, body]
@@TK_TABLE_LIST = [].taint unless defined?(@@TK_TABLE_LIST)
@@TK_CMD_TBL = {}.taint unless defined?(@@TK_CMD_TBL)
######################################
@@CB_ENTRY_CLASS = Class.new(TkCallbackEntry){|c|
def initialize(ip, cmd)
@ip = ip
@cmd = cmd
freeze
end
attr_reader :ip, :cmd
def inspect
cmd.inspect
end
def call(*args)
unless @ip.deleted?
current = Thread.current
backup_ip = current['callback_ip']
current['callback_ip'] = @ip
begin
@ip.cb_eval(@cmd, *args)
rescue TkCallbackBreak, TkCallbackContinue => e
fail e
rescue SecurityError => e
# in 'exit', 'exit!', and 'abort' : security error --> delete IP
if e.backtrace[0] =~ /^(.+?):(\d+):in `(exit|exit!|abort)'/
@ip.delete
elsif @ip.safe?
if @ip.respond_to?(:cb_error)
@ip.cb_error(e)
else
nil # ignore
end
else
fail e
end
rescue Exception => e
if @ip.safe?
if @ip.respond_to?(:cb_error)
@ip.cb_error(e)
else
nil # ignore
end
else
fail e
end
ensure
current['callback_ip'] = backup_ip
end
end
end
}.freeze
######################################
def _keys2opts(src_keys)
return nil if src_keys == nil
keys = {}; src_keys.each{|k, v| keys[k.to_s] = v}
#keys.collect{|k,v| "-#{k} #{v}"}.join(' ')
keys.collect{|k,v| "-#{k} #{TclTkLib._conv_listelement(TkComm::_get_eval_string(v))}"}.join(' ')
end
private :_keys2opts
def _check_and_return(thread, exception, wait=0)
unless thread
unless exception.kind_of?(MultiTkIp_OK)
msg = "#{exception.class}: #{exception.message}"
if @interp.deleted?
warn("Warning (#{self}): " + msg)
return nil
end
if safe?
warn("Warning (#{self}): " + msg) if $DEBUG
return nil
end
begin
@interp._eval_without_enc(@interp._merge_tklist('bgerror', msg))
rescue Exception => e
warn("Warning (#{self}): " + msg)
end
end
return nil
end
if wait == 0
# no wait
Thread.pass
if thread.stop?
thread.raise exception
end
return thread
end
# wait to stop the caller thread
wait.times{
if thread.stop?
# ready to send exception
thread.raise exception
return thread
end
# wait
Thread.pass
}
# unexpected error
thread.raise RuntimeError, "the thread may not wait for the return value"
return thread
end
######################################
def set_cb_error(cmd = Proc.new)
@cb_error_proc[0] = cmd
end
def cb_error(e)
if @cb_error_proc[0].respond_to?(:call)
@cb_error_proc[0].call(e)
end
end
######################################
def set_safe_level(safe)
if safe > @safe_level[0]
@safe_level[0] = safe
@cmd_queue.enq([@system, 'set_safe_level', safe])
end
@safe_level[0]
end
def safe_level=(safe)
set_safe_level(safe)
end
def self.set_safe_level(safe)
__getip.set_safe_level(safe)
end
def self.safe_level=(safe)
self.set_safe_level(safe)
end
def safe_level
@safe_level[0]
end
def self.safe_level
__getip.safe_level
end
def wait_on_mainloop?
@wait_on_mainloop[0]
end
def wait_on_mainloop=(bool)
@wait_on_mainloop[0] = bool
end
def running_mainloop?
@wait_on_mainloop[1] > 0
end
def _destroy_slaves_of_slaveIP(ip)
unless ip.deleted?
# ip._split_tklist(ip._invoke('interp', 'slaves')).each{|name|
ip._split_tklist(ip._invoke_without_enc('interp', 'slaves')).each{|name|
name = _fromUTF8(name)
begin
# ip._eval_without_enc("#{name} eval {foreach i [after info] {after cancel $i}}")
after_ids = ip._eval_without_enc("#{name} eval {after info}")
ip._eval_without_enc("#{name} eval {foreach i {#{after_ids}} {after cancel $i}}")
rescue Exception
end
begin
# ip._invoke('interp', 'eval', name, 'destroy', '.')
ip._invoke(name, 'eval', 'destroy', '.')
rescue Exception
end
# safe_base?
if ip._eval_without_enc("catch {::safe::interpConfigure #{name}}") == '0'
begin
ip._eval_without_enc("::safe::interpDelete #{name}")
rescue Exception
end
end
=begin
if ip._invoke('interp', 'exists', name) == '1'
begin
ip._invoke(name, 'eval', 'exit')
rescue Exception
end
end
=end
unless ip.deleted?
if ip._invoke('interp', 'exists', name) == '1'
begin
ip._invoke('interp', 'delete', name)
rescue Exception
end
end
end
}
end
end
def _receiver_eval_proc_core(safe_level, thread, cmd, *args)
begin
#ret = proc{$SAFE = safe_level; cmd.call(*args)}.call
#ret = cmd.call(safe_level, *args)
normal_ret = false
ret = catch(:IRB_EXIT) do # IRB hack
retval = cmd.call(safe_level, *args)
normal_ret = true
retval
end
unless normal_ret
# catch IRB_EXIT
exit(ret)
end
ret
rescue SystemExit => e
# delete IP
unless @interp.deleted?
@slave_ip_tbl.each{|name, subip|
_destroy_slaves_of_slaveIP(subip)
begin
# subip._eval_without_enc("foreach i [after info] {after cancel $i}")
after_ids = subip._eval_without_enc("after info")
subip._eval_without_enc("foreach i {#{after_ids}} {after cancel $i}")
rescue Exception
end
=begin
begin
subip._invoke('destroy', '.') unless subip.deleted?
rescue Exception
end
=end
# safe_base?
if @interp._eval_without_enc("catch {::safe::interpConfigure #{name}}") == '0'
begin
@interp._eval_without_enc("::safe::interpDelete #{name}")
rescue Exception
else
next if subip.deleted?
end
end
if subip.respond_to?(:safe_base?) && subip.safe_base? &&
!subip.deleted?
# do 'exit' to call the delete_hook procedure
begin
subip._eval_without_enc('exit')
rescue Exception
end
else
begin
subip.delete unless subip.deleted?
rescue Exception
end
end
}
begin
# @interp._eval_without_enc("foreach i [after info] {after cancel $i}")
after_ids = @interp._eval_without_enc("after info")
@interp._eval_without_enc("foreach i {#{after_ids}} {after cancel $i}")
rescue Exception
end
begin
@interp._invoke('destroy', '.') unless @interp.deleted?
rescue Exception
end
if @safe_base && !@interp.deleted?
# do 'exit' to call the delete_hook procedure
@interp._eval_without_enc('exit')
else
@interp.delete unless @interp.deleted?
end
end
if e.backtrace[0] =~ /^(.+?):(\d+):in `(exit|exit!|abort)'/
_check_and_return(thread, MultiTkIp_OK.new($3 == 'exit'))
else
_check_and_return(thread, MultiTkIp_OK.new(nil))
end
# if master? && !safe? && allow_ruby_exit?
if !@interp.deleted? && master? && !safe? && allow_ruby_exit?
=begin
ObjectSpace.each_object(TclTkIp){|obj|
obj.delete unless obj.deleted?
}
=end
#exit(e.status)
fail e
end
# break
rescue SecurityError => e
# in 'exit', 'exit!', and 'abort' : security error --> delete IP
if e.backtrace[0] =~ /^(.+?):(\d+):in `(exit|exit!|abort)'/
ret = ($3 == 'exit')
unless @interp.deleted?
@slave_ip_tbl.each{|name, subip|
_destroy_slaves_of_slaveIP(subip)
begin
# subip._eval_without_enc("foreach i [after info] {after cancel $i}")
after_ids = subip._eval_without_enc("after info")
subip._eval_without_enc("foreach i {#{after_ids}} {after cancel $i}")
rescue Exception
end
=begin
begin
subip._invoke('destroy', '.') unless subip.deleted?
rescue Exception
end
=end
# safe_base?
if @interp._eval_without_enc("catch {::safe::interpConfigure #{name}}") == '0'
begin
@interp._eval_without_enc("::safe::interpDelete #{name}")
rescue Exception
else
next if subip.deleted?
end
end
if subip.respond_to?(:safe_base?) && subip.safe_base? &&
!subip.deleted?
# do 'exit' to call the delete_hook procedure
begin
subip._eval_without_enc('exit')
rescue Exception
end
else
begin
subip.delete unless subip.deleted?
rescue Exception
end
end
}
begin
# @interp._eval_without_enc("foreach i [after info] {after cancel $i}")
after_ids = @interp._eval_without_enc("after info")
@interp._eval_without_enc("foreach i {#{after_ids}} {after cancel $i}")
rescue Exception
end
=begin
begin
@interp._invoke('destroy', '.') unless @interp.deleted?
rescue Exception
end
=end
if @safe_base && !@interp.deleted?
# do 'exit' to call the delete_hook procedure
@interp._eval_without_enc('exit')
else
@interp.delete unless @interp.deleted?
end
end
_check_and_return(thread, MultiTkIp_OK.new(ret))
# break
else
# raise security error
_check_and_return(thread, e)
end
rescue Exception => e
# raise exception
begin
bt = _toUTF8(e.backtrace.join("\n"))
bt.instance_variable_set(:@encoding, 'utf-8')
rescue Exception
bt = e.backtrace.join("\n")
end
begin
@interp._set_global_var('errorInfo', bt)
rescue Exception
end
_check_and_return(thread, e)
else
# no exception
_check_and_return(thread, MultiTkIp_OK.new(ret))
end
end
def _receiver_eval_proc(last_thread, safe_level, thread, cmd, *args)
if thread
Thread.new{
last_thread.join if last_thread
unless @interp.deleted?
_receiver_eval_proc_core(safe_level, thread, cmd, *args)
end
}
else
Thread.new{
unless @interp.deleted?
_receiver_eval_proc_core(safe_level, thread, cmd, *args)
end
}
last_thread
end
end
private :_receiver_eval_proc, :_receiver_eval_proc_core
def _receiver_mainloop(check_root)
if @evloop_thread[0] && @evloop_thread[0].alive?
@evloop_thread[0]
else
@evloop_thread[0] = Thread.new{
while !@interp.deleted?
#if check_root
# inf = @interp._invoke_without_enc('info', 'command', '.')
# break if !inf.kind_of?(String) || inf != '.'
#end
break if check_root && !@interp.has_mainwindow?
sleep 0.5
end
}
@evloop_thread[0]
end
end
def _create_receiver_and_watchdog(lvl = $SAFE)
lvl = $SAFE if lvl < $SAFE
# command-procedures receiver
receiver = Thread.new(lvl){|safe_level|
last_thread = {}
loop do
break if @interp.deleted?
thread, cmd, *args = @cmd_queue.deq
if thread == @system
# control command
case cmd
when 'set_safe_level'
begin
safe_level = args[0] if safe_level < args[0]
rescue Exception
end
when 'call_mainloop'
thread = args.shift
_check_and_return(thread,
MultiTkIp_OK.new(_receiver_mainloop(*args)))
else
# ignore
end
else
# procedure
last_thread[thread] = _receiver_eval_proc(last_thread[thread],
safe_level, thread,
cmd, *args)
end
end
}
# watchdog of receiver
watchdog = Thread.new{
begin
loop do
sleep 1
break unless receiver.alive?
end
rescue Exception
# ignore all kind of Exception
end
# receiver is dead
loop do
thread, cmd, *args = @cmd_queue.deq
next unless thread
if thread.alive?
if @interp.deleted?
thread.raise RuntimeError, 'the interpreter is already deleted'
else
thread.raise RuntimeError,
'the interpreter no longer receives command procedures'
end
end
end
}
# return threads
[receiver, watchdog]
end
private :_check_and_return, :_create_receiver_and_watchdog
######################################
if self.const_defined? :DEFAULT_MASTER_NAME
name = DEFAULT_MASTER_NAME.to_s
else
name = nil
end
if self.const_defined?(:DEFAULT_MASTER_OPTS) &&
DEFAULT_MASTER_OPTS.kind_of?(Hash)
keys = DEFAULT_MASTER_OPTS
else
keys = {}
end
@@DEFAULT_MASTER = self.allocate
@@DEFAULT_MASTER.instance_eval{
@tk_windows = {}.taint
@tk_table_list = [].taint
@slave_ip_tbl = {}.taint
@slave_ip_top = {}.taint
@evloop_thread = [].taint
unless keys.kind_of? Hash
fail ArgumentError, "expecting a Hash object for the 2nd argument"
end
@interp = TclTkIp.new(name, _keys2opts(keys))
@ip_name = nil
@system = Object.new
@wait_on_mainloop = [true, 0].taint
@threadgroup = Thread.current.group
@safe_base = false
@safe_level = [$SAFE]
@cmd_queue = Queue.new
@cmd_receiver, @receiver_watchdog = _create_receiver_and_watchdog(@safe_level[0])
@threadgroup.add @cmd_receiver
@threadgroup.add @receiver_watchdog
# NOT enclose @threadgroup for @@DEFAULT_MASTER
@@IP_TABLE[ThreadGroup::Default] = self
@@IP_TABLE[@threadgroup] = self
#################################
@assign_request = Class.new(Exception){
def self.new(target, ret)
obj = super()
obj.target = target
obj.ret = ret
obj
end
attr_accessor :target, :ret
}
@assign_thread = Thread.new{
loop do
begin
Thread.stop
rescue @assign_request=>req
begin
req.ret[0] = req.target.instance_eval{
@cmd_receiver, @receiver_watchdog =
_create_receiver_and_watchdog(@safe_level[0])
@threadgroup.add @cmd_receiver
@threadgroup.add @receiver_watchdog
@threadgroup.enclose
true
}
rescue Exception=>e
begin
req.ret[0] = e
rescue Exception
# ignore
end
end
rescue Exception
# ignore
end
end
}
def self.assign_receiver_and_watchdog(target)
ret = [nil]
@assign_thread.raise(@assign_request.new(target, ret))
while ret[0] == nil
unless @assign_thread.alive?
raise RuntimeError, 'lost the thread to assign a receiver and a watchdog thread'
end
end
if ret[0].kind_of?(Exception)
raise ret[0]
else
ret[0]
end
end
#################################
class << self
undef :instance_eval
end
}
@@DEFAULT_MASTER.freeze # defend against modification
######################################
def self.inherited(subclass)
# trust if on ThreadGroup::Default or @@DEFAULT_MASTER's ThreadGroup
if @@IP_TABLE[Thread.current.group] == @@DEFAULT_MASTER
begin
class << subclass
self.methods.each{|m|
begin
unless m == '__id__' || m == '__send__' || m == 'freeze'
undef_method(m)
end
rescue Exception
# ignore all exceptions
end
}
end
ensure
subclass.freeze
fail SecurityError,
"cannot create subclass of MultiTkIp on a untrusted ThreadGroup"
end
end
end
######################################
@@SAFE_OPT_LIST = [
'accessPath'.freeze,
'statics'.freeze,
'nested'.freeze,
'deleteHook'.freeze
].freeze
def _parse_slaveopts(keys)
name = nil
safe = false
safe_opts = {}
tk_opts = {}
keys.each{|k,v|
k_str = k.to_s
if k_str == 'name'
name = v
elsif k_str == 'safe'
safe = v
elsif @@SAFE_OPT_LIST.member?(k_str)
safe_opts[k_str] = v
else
tk_opts[k_str] = v
end
}
if keys['without_tk'] || keys[:without_tk]
[name, safe, safe_opts, nil]
else
[name, safe, safe_opts, tk_opts]
end
end
private :_parse_slaveopts
def _create_slave_ip_name
name = @@SLAVE_IP_ID.join('')
@@SLAVE_IP_ID[1].succ!
name
end
private :_create_slave_ip_name
######################################
def __check_safetk_optkeys(optkeys)
# based on 'safetk.tcl'
new_keys = {}
optkeys.each{|k,v| new_keys[k.to_s] = v}
# check 'display'
if !new_keys.key?('display')
begin
#new_keys['display'] = @interp._invoke('winfo screen .')
new_keys['display'] = @interp._invoke('winfo', 'screen', '.')
rescue
if ENV[DISPLAY]
new_keys['display'] = ENV[DISPLAY]
elsif !new_keys.key?('use')
warn "Warning: no screen info or ENV[DISPLAY], so use ':0.0'"
new_keys['display'] = ':0.0'
end
end
end
# check 'use'
if new_keys.key?('use')
# given 'use'
case new_keys['use']
when TkWindow
new_keys['use'] = TkWinfo.id(new_keys['use'])
#assoc_display = @interp._eval('winfo screen .')
assoc_display = @interp._invoke('winfo', 'screen', '.')
when /^\..*/
new_keys['use'] = @interp._invoke('winfo', 'id', new_keys['use'])
assoc_display = @interp._invoke('winfo', 'screen', new_keys['use'])
else
begin
pathname = @interp._invoke('winfo', 'pathname', new_keys['use'])
assoc_display = @interp._invoke('winfo', 'screen', pathname)
rescue
assoc_display = new_keys['display']
end
end
# match display?
if assoc_display != new_keys['display']
if optkeys.key?(:display) || optkeys.key?('display')
fail RuntimeError,
"conflicting 'display'=>#{new_keys['display']} " +
"and display '#{assoc_display}' on 'use'=>#{new_keys['use']}"
else
new_keys['display'] = assoc_display
end
end
end
# return
new_keys
end
private :__check_safetk_optkeys
def __create_safetk_frame(slave_ip, slave_name, app_name, keys)
# display option is used by ::safe::loadTk
loadTk_keys = {}
loadTk_keys['display'] = keys['display']
dup_keys = keys.dup
# keys for toplevel : allow followings
toplevel_keys = {}
['height', 'width', 'background', 'menu'].each{|k|
toplevel_keys[k] = dup_keys.delete(k) if dup_keys.key?(k)
}
toplevel_keys['classname'] = 'SafeTk'
toplevel_keys['screen'] = dup_keys.delete('display')
# other keys used by pack option of container frame
# create toplevel widget
begin
top = TkToplevel.new(toplevel_keys)
rescue NameError => e
fail e unless @interp.safe?
fail SecurityError, "unable create toplevel on the safe interpreter"
end
msg = "Untrusted Ruby/Tk applet (#{slave_name})"
if app_name.kind_of?(String)
top.title "#{app_name} (#{slave_name})"
else
top.title msg
end
# procedure to delete slave interpreter
slave_delete_proc = proc{
unless slave_ip.deleted?
#if slave_ip._invoke('info', 'command', '.') != ""
# slave_ip._invoke('destroy', '.')
#end
#slave_ip.delete
slave_ip._eval_without_enc('exit')
end
begin
top.destroy if top.winfo_exist?
rescue
# ignore
end
}
tag = TkBindTag.new.bind('Destroy', slave_delete_proc)
top.bindtags = top.bindtags.unshift(tag)
# create control frame
TkFrame.new(top, :bg=>'red', :borderwidth=>3, :relief=>'ridge') {|fc|
fc.bindtags = fc.bindtags.unshift(tag)
TkFrame.new(fc, :bd=>0){|f|
TkButton.new(f,
:text=>'Delete', :bd=>1, :padx=>2, :pady=>0,
:highlightthickness=>0, :command=>slave_delete_proc
).pack(:side=>:right, :fill=>:both)
f.pack(:side=>:right, :fill=>:both, :expand=>true)
}
TkLabel.new(fc, :text=>msg, :padx=>2, :pady=>0,
:anchor=>:w).pack(:side=>:left, :fill=>:both, :expand=>true)
fc.pack(:side=>:bottom, :fill=>:x)
}
# container frame for slave interpreter
dup_keys['fill'] = :both unless dup_keys.key?('fill')
dup_keys['expand'] = true unless dup_keys.key?('expand')
c = TkFrame.new(top, :container=>true).pack(dup_keys)
# return keys
loadTk_keys['use'] = TkWinfo.id(c)
[loadTk_keys, top.path]
end
private :__create_safetk_frame
def __create_safe_slave_obj(safe_opts, app_name, tk_opts)
# safe interpreter
ip_name = _create_slave_ip_name
slave_ip = @interp.create_slave(ip_name, true)
@slave_ip_tbl[ip_name] = slave_ip
def slave_ip.safe_base?
true
end
@interp._eval("::safe::interpInit #{ip_name}")
slave_ip._invoke('set', 'argv0', app_name) if app_name.kind_of?(String)
if tk_opts
tk_opts = __check_safetk_optkeys(tk_opts)
if tk_opts.key?('use')
@slave_ip_top[ip_name] = ''
else
tk_opts, top_path = __create_safetk_frame(slave_ip, ip_name, app_name,
tk_opts)
@slave_ip_top[ip_name] = top_path
end
@interp._eval("::safe::loadTk #{ip_name} #{_keys2opts(tk_opts)}")
else
@slave_ip_top[ip_name] = nil
end
if safe_opts.key?('deleteHook') || safe_opts.key?(:deleteHook)
@interp._eval("::safe::interpConfigure #{ip_name} " +
_keys2opts(safe_opts))
else
@interp._eval("::safe::interpConfigure #{ip_name} " +
_keys2opts(safe_opts) + '-deleteHook {' +
TkComm._get_eval_string(proc{|slave|
self._default_delete_hook(slave)
}) + '}')
end
[slave_ip, ip_name]
end
def __create_trusted_slave_obj(name, keys)
ip_name = _create_slave_ip_name
slave_ip = @interp.create_slave(ip_name, false)
slave_ip._invoke('set', 'argv0', name) if name.kind_of?(String)
slave_ip._invoke('set', 'argv', _keys2opts(keys))
@interp._invoke('load', '', 'Tk', ip_name)
@slave_ip_tbl[ip_name] = slave_ip
[slave_ip, ip_name]
end
######################################
def _create_slave_object(keys={})
ip = MultiTkIp.new_slave(self, keys={})
@slave_ip_tbl[ip.name] = ip
end
######################################
def initialize(master, safeip=true, keys={})
if $SAFE >= 4
fail SecurityError, "cannot create a new interpreter at level #{$SAFE}"
end
if safeip == nil && $SAFE >= 2
fail SecurityError, "cannot create a master-ip at level #{$SAFE}"
end
if master.deleted? && safeip == nil
fail RuntimeError, "cannot create a slave of a deleted interpreter"
end
if !master.deleted? && !master.master? && master.safe?
fail SecurityError, "safe-slave-ip cannot create a new interpreter"
end
if safeip == nil && !master.master?
fail SecurityError, "slave-ip cannot create a master-ip"
end
unless keys.kind_of? Hash
fail ArgumentError, "expecting a Hash object for the 2nd argument"
end
@tk_windows = {}
@tk_table_list = []
@slave_ip_tbl = {}
@slave_ip_top = {}
@cb_error_proc = []
@evloop_thread = []
@tk_windows.taint unless @tk_windows.tainted?
@tk_table_list.taint unless @tk_table_list.tainted?
@slave_ip_tbl.taint unless @slave_ip_tbl.tainted?
@slave_ip_top.taint unless @slave_ip_top.tainted?
@cb_error_proc.taint unless @cb_error_proc.tainted?
@evloop_thread.taint unless @evloop_thread.tainted?
name, safe, safe_opts, tk_opts = _parse_slaveopts(keys)
safe = 4 if safe && !safe.kind_of?(Fixnum)
@safe_base = false
if safeip == nil
# create master-ip
@interp = TclTkIp.new(name, _keys2opts(tk_opts))
@ip_name = nil
if safe
safe = $SAFE if safe < $SAFE
@safe_level = [safe]
else
@safe_level = [$SAFE]
end
else
# create slave-ip
if safeip || master.safe?
@safe_base = true
@interp, @ip_name = master.__create_safe_slave_obj(safe_opts,
name, tk_opts)
if safe
safe = master.safe_level if safe < master.safe_level
@safe_level = [safe]
else
@safe_level = [4]
end
else
@interp, @ip_name = master.__create_trusted_slave_obj(name, tk_opts)
if safe
safe = master.safe_level if safe < master.safe_level
@safe_level = [safe]
else
@safe_level = [master.safe_level]
end
end
@set_alias_proc = proc{|name|
master._invoke('interp', 'alias', @ip_name, name, '', name)
}.freeze
end
@system = Object.new
@wait_on_mainloop = [true, 0].taint
# @wait_on_mainloop = [false, 0].taint
@threadgroup = ThreadGroup.new
@cmd_queue = Queue.new
=begin
@cmd_receiver, @receiver_watchdog = _create_receiver_and_watchdog(@safe_level[0])
@threadgroup.add @cmd_receiver
@threadgroup.add @receiver_watchdog
@threadgroup.enclose
=end
@@DEFAULT_MASTER.assign_receiver_and_watchdog(self)
@@IP_TABLE[@threadgroup] = self
_init_ip_internal(@@INIT_IP_ENV, @@ADD_TK_PROCS)
@@TK_TABLE_LIST.size.times{
(tbl = {}).tainted? || tbl.taint
@tk_table_list << tbl
}
class << self
undef :instance_eval
end
# dummy call for initialization
self.eval_proc{ Tk.tk_call('set', 'tcl_patchLevel') }
self.freeze # defend against modification
end
######################################
def _default_delete_hook(slave)
@slave_ip_tbl.delete(slave)
top = @slave_ip_top.delete(slave)
if top.kind_of?(String)
# call default hook of safetk.tcl (ignore exceptions)
if top == ''
begin
@interp._eval("::safe::disallowTk #{slave}")
rescue
warn("Waring: fail to call '::safe::disallowTk'") if $DEBUG
end
else # toplevel path
begin
@interp._eval("::safe::tkDelete {} #{top} #{slave}")
rescue
warn("Waring: fail to call '::safe::tkDelete'") if $DEBUG
begin
@interp._eval("destroy #{top}")
rescue
warn("Waring: fail to destroy toplevel") if $DEBUG
end
end
end
end
end
end
# get target IP
class MultiTkIp
def self._ip_id_
__getip._ip_id_
end
def _ip_id_
''
end
def self.__getip
current = Thread.current
if TclTkLib.mainloop_thread? != false && current['callback_ip']
return current['callback_ip']
end
if current.group == ThreadGroup::Default
@@DEFAULT_MASTER
else
ip = @@IP_TABLE[current.group]
unless ip
fail SecurityError,
"cannot call Tk methods on #{Thread.current.inspect}"
end
ip
end
end
end
# aliases of constructor
class << MultiTkIp
alias __new new
private :__new
def new_master(safe=nil, keys={})
if safe.kind_of?(Hash)
keys = safe
elsif safe.kind_of?(Integer)
raise ArgumentError, "unexpected argument(s)" unless keys.kind_of?(Hash)
if !keys.key?(:safe) && !keys.key?('safe')
keys[:safe] = safe
end
elsif safe == nil
# do nothing
else
raise ArgumentError, "unexpected argument(s)"
end
ip = __new(__getip, nil, keys)
#ip.eval_proc(proc{$SAFE=ip.safe_level; Proc.new}.call) if block_given?
if block_given?
Thread.new{ip.eval_proc(proc{$SAFE=ip.safe_level; Proc.new}.call)}
end
ip
end
alias new new_master
def new_slave(safe=nil, keys={})
if safe.kind_of?(Hash)
keys = safe
elsif safe.kind_of?(Integer)
raise ArgumentError, "unexpected argument(s)" unless keys.kind_of?(Hash)
if !keys.key?(:safe) && !keys.key?('safe')
keys[:safe] = safe
end
elsif safe == nil
# do nothing
else
raise ArgumentError, "unexpected argument(s)"
end
ip = __new(__getip, false, keys)
# ip.eval_proc(proc{$SAFE=ip.safe_level; Proc.new}.call) if block_given?
if block_given?
Thread.new{ip.eval_proc(proc{$SAFE=ip.safe_level; Proc.new}.call)}
end
ip
end
alias new_trusted_slave new_slave
def new_safe_slave(safe=4, keys={})
if safe.kind_of?(Hash)
keys = safe
elsif safe.kind_of?(Integer)
raise ArgumentError, "unexpected argument(s)" unless keys.kind_of?(Hash)
if !keys.key?(:safe) && !keys.key?('safe')
keys[:safe] = safe
end
else
raise ArgumentError, "unexpected argument(s)"
end
ip = __new(__getip, true, keys)
# ip.eval_proc(proc{$SAFE=ip.safe_level; Proc.new}.call) if block_given?
if block_given?
Thread.new{ip.eval_proc(proc{$SAFE=ip.safe_level; Proc.new}.call)}
end
ip
end
alias new_safeTk new_safe_slave
end
# get info
class MultiTkIp
def inspect
s = self.to_s.chop!
if master?
if @interp.deleted?
s << ':deleted-master'
else
s << ':master'
end
else
if @interp.deleted?
s << ':deleted-slave'
elsif @interp.safe?
s << ':safe-slave'
else
s << ':trusted-slave'
end
end
s << '>'
end
def master?
if @ip_name
false
else
true
end
end
def self.master?
__getip.master?
end
def slave?
not master?
end
def self.slave?
not self.master?
end
def alive?
begin
return false unless @cmd_receiver.alive?
return false if @interp.deleted?
return false if @interp._invoke('interp', 'exists', '') == '0'
rescue Exception
return false
end
true
end
def self.alive?
__getip.alive?
end
def path
@ip_name || ''
end
def self.path
__getip.path
end
def ip_name
@ip_name || ''
end
def self.ip_name
__getip.ip_name
end
def to_eval
@ip_name || ''
end
def self.to_eval
__getip.to_eval
end
def slaves(all = false)
@interp._invoke('interp','slaves').split.map!{|name|
if @slave_ip_tbl.key?(name)
@slave_ip_tbl[name]
elsif all
name
else
nil
end
}.compact!
end
def self.slaves(all = false)
__getip.slaves(all)
end
end
# instance methods to treat tables
class MultiTkIp
def _tk_cmd_tbl
tbl = {}
MultiTkIp.tk_cmd_tbl.each{|id, ent| tbl[id] = ent if ent.ip == self }
tbl
end
def _tk_windows
@tk_windows
end
def _tk_table_list
@tk_table_list
end
def _add_new_tables
(@@TK_TABLE_LIST.size - @tk_table_list.size).times{
(tbl = {}).tainted? || tbl.taint
@tk_table_list << tbl
}
end
def _init_ip_env(script)
script.call(self)
end
def _add_tk_procs(name, args, body)
return if slave?
@interp._invoke('proc', name, args, body) if args && body
@interp._invoke('interp', 'slaves').split.each{|slave|
@interp._invoke('interp', 'alias', slave, name, '', name)
}
end
def _init_ip_internal(init_ip_env, add_tk_procs)
init_ip_env.each{|script| script.call(self)}
add_tk_procs.each{|name, args, body|
if master?
@interp._invoke('proc', name, args, body) if args && body
else
@set_alias_proc.call(name)
end
}
end
end
# class methods to treat tables
class MultiTkIp
def self.tk_cmd_tbl
@@TK_CMD_TBL
end
def self.tk_windows
__getip._tk_windows
end
def self.tk_object_table(id)
__getip._tk_table_list[id]
end
def self.create_table
#if __getip.slave?
# raise SecurityError, "slave-IP has no permission creating a new table"
#end
id = @@TK_TABLE_LIST.size
obj = Object.new
@@TK_TABLE_LIST << obj
obj.instance_eval <<-EOD
def self.method_missing(m, *args)
MultiTkIp.tk_object_table(#{id}).__send__(m, *args)
end
EOD
obj.freeze
@@IP_TABLE.each{|tg, ip| ip._add_new_tables }
return obj
end
def self.init_ip_env(script = Proc.new)
@@INIT_IP_ENV << script
@@IP_TABLE.each{|tg, ip|
ip._init_ip_env(script)
}
end
def self.add_tk_procs(name, args=nil, body=nil)
@@ADD_TK_PROCS << [name, args, body]
@@IP_TABLE.each{|tg, ip|
ip._add_tk_procs(name, args, body)
}
end
def self.init_ip_internal
__getip._init_ip_internal(@@INIT_IP_ENV, @@ADD_TK_PROCS)
end
end
# for callback operation
class MultiTkIp
def self.cb_entry_class
@@CB_ENTRY_CLASS
end
def self.get_cb_entry(cmd)
@@CB_ENTRY_CLASS.new(__getip, cmd).freeze
end
def cb_eval(cmd, *args)
#self.eval_callback{ TkComm._get_eval_string(TkUtil.eval_cmd(cmd, *args)) }
#ret = self.eval_callback{ TkComm._get_eval_string(TkUtil.eval_cmd(cmd, *args)) }
ret = self.eval_callback(*args){|safe, *params|
$SAFE=safe if $SAFE < safe
TkComm._get_eval_string(TkUtil.eval_cmd(cmd, *params))
}
if ret.kind_of?(Exception)
raise ret
end
ret
end
end
# evaluate a procedure on the proper interpreter
class MultiTkIp
# instance method
def eval_proc_core(req_val, cmd, *args)
# check
unless cmd.kind_of?(Proc) || cmd.kind_of?(Method)
raise RuntimeError, "A Proc/Method object is expected for the 'cmd' argument"
end
# on IP thread
if @cmd_receiver == Thread.current ||
(!req_val && TclTkLib.mainloop_thread? != false) # callback
begin
ret = cmd.call(safe_level, *args)
rescue SystemExit => e
# exit IP
warn("Warning: "+ $! + " on " + self.inspect) if $DEBUG
begin
self._eval_without_enc('exit')
rescue Exception
end
self.delete
ret = nil
rescue Exception => e
if $DEBUG
warn("Warning: " + e.class.inspect +
((e.message.length > 0)? ' "' + e.message + '"': '') +
" on " + self.inspect)
end
=begin
begin
bt = _toUTF8(e.backtrace.join("\n"))
bt.instance_variable_set(:@encoding, 'utf-8')
rescue Exception
bt = e.backtrace.join("\n")
end
begin
@interp._set_global_var('errorInfo', bt)
rescue Exception
end
=end
ret = e
end
return ret
end
# send cmd to the proc-queue
unless req_val
begin
@cmd_queue.enq([nil, cmd, *args])
rescue Exception => e
# ignore
if $DEBUG
warn("Warning: " + e.class.inspect +
((e.message.length > 0)? ' "' + e.message + '"': '') +
" on " + self.inspect)
end
return e
end
return nil
end
# send and get return value by exception
begin
@cmd_queue.enq([Thread.current, cmd, *args])
Thread.stop
rescue MultiTkIp_OK => ret
# return value
return ret.value
rescue SystemExit => e
# exit IP
warn("Warning: " + $! + " on " + self.inspect) if $DEBUG
begin
self._eval_without_enc('exit')
rescue Exception
end
if !self.deleted? && !safe? && allow_ruby_exit?
self.delete
fail e
else
self.delete
end
rescue Exception => e
if $DEBUG
warn("Warning: " + e.class.inspect +
((e.message.length > 0)? ' "' + e.message + '"': '') +
" on " + self.inspect)
end
return e
end
return nil
end
private :eval_proc_core
def eval_callback(*args)
if block_given?
cmd = Proc.new
else
cmd = args.shift
end
current = Thread.current
backup_ip = current['callback_ip']
current['callback_ip'] = self
begin
eval_proc_core(false, cmd, *args)
ensure
current['callback_ip'] = backup_ip
end
end
def eval_proc(*args)
# The scope of the eval-block of 'eval_proc' method is different from
# the external. If you want to pass local values to the eval-block,
# use arguments of eval_proc method. They are passed to block-arguments.
if block_given?
cmd = Proc.new
else
unless (cmd = args.shift)
fail ArgumentError, "A Proc or Method object is expected for 1st argument"
end
end
if TclTkLib.mainloop_thread? == true
# call from eventloop
current = Thread.current
backup_ip = current['callback_ip']
current['callback_ip'] = self
begin
eval_proc_core(false,
proc{|safe, *params|
$SAFE=safe if $SAFE < safe
cmd.call(*params)
}, *args)
ensure
current['callback_ip'] = backup_ip
end
else
eval_proc_core(true,
proc{|safe, *params|
$SAFE=safe if $SAFE < safe
Thread.new(*params, &cmd).value
},
*args)
end
end
alias call eval_proc
def bg_eval_proc(*args)
if block_given?
cmd = Proc.new
else
unless (cmd = args.shift)
fail ArgumentError, "A Proc or Method object is expected for 1st argument"
end
end
Thread.new{
eval_proc(cmd, *args)
=begin
eval_proc_core(false,
proc{|safe, *params|
$SAFE=safe if $SAFE < safe
Thread.new(*params, &cmd).value
},
safe_level, *args)
=end
}
end
alias background_eval_proc bg_eval_proc
alias thread_eval_proc bg_eval_proc
alias bg_call bg_eval_proc
alias background_call bg_eval_proc
def eval_string(cmd, *eval_args)
# cmd string ==> proc
unless cmd.kind_of?(String)
raise RuntimeError, "A String object is expected for the 'cmd' argument"
end
eval_proc_core(true,
proc{|safe|
$SAFE=safe if $SAFE < safe
Kernel.eval(cmd, *eval_args)
}, safe_level)
end
alias eval_str eval_string
def bg_eval_string(*args)
# cmd string ==> proc
unless cmd.kind_of?(String)
raise RuntimeError, "A String object is expected for the 'cmd' argument"
end
Thread.new{
eval_proc_core(true,
proc{|safe|
$SAFE=safe if $SAFE < safe
Kernel.eval(cmd, *eval_args)
}, safe_level)
}
end
alias background_eval_string bg_eval_string
alias bg_eval_str bg_eval_string
alias background_eval_str bg_eval_string
end
class << MultiTkIp
# class method
def eval_proc(*args, &blk)
# class ==> interp object
__getip.eval_proc(*args, &blk)
end
alias call eval_proc
alias eval_string eval_proc
end
# event loop
# all master/slave IPs are controled by only one event-loop
class << MultiTkIp
def mainloop(check_root = true)
__getip.mainloop(check_root)
end
def mainloop_watchdog(check_root = true)
__getip.mainloop_watchdog(check_root)
end
def do_one_event(flag = TclTkLib::EventFlag::ALL)
__getip.do_one_event(flag)
end
def mainloop_abort_on_exception
# __getip.mainloop_abort_on_exception
TclTkLib.mainloop_abort_on_exception
end
def mainloop_abort_on_exception=(mode)
# __getip.mainloop_abort_on_exception=(mode)
TclTkLib.mainloop_abort_on_exception=(mode)
end
def set_eventloop_tick(tick)
__getip.set_eventloop_tick(tick)
end
def get_eventloop_tick
__getip.get_eventloop_tick
end
def set_no_event_wait(tick)
__getip.set_no_event_wait(tick)
end
def get_no_event_wait
__getip.get_no_event_wait
end
def set_eventloop_weight(loop_max, no_event_tick)
__getip.set_eventloop_weight(loop_max, no_event_tick)
end
def get_eventloop_weight
__getip.get_eventloop_weight
end
end
# class methods to delegate to TclTkIp
class << MultiTkIp
def method_missing(id, *args)
__getip.__send__(id, *args)
end
def make_safe
__getip.make_safe
end
def safe?
__getip.safe?
end
def safe_base?
begin
__getip.safe_base?
rescue
false
end
end
def allow_ruby_exit?
__getip.allow_ruby_exit?
end
def allow_ruby_exit= (mode)
__getip.allow_ruby_exit = mode
end
def delete
__getip.delete
end
def deleted?
__getip.deleted?
end
def has_mainwindow?
__getip.has_mainwindow?
end
def invalid_namespace?
__getip.invalid_namespace?
end
def abort(msg = nil)
__getip.abort(msg)
end
def exit(st = true)
__getip.exit(st)
end
def exit!(st = false)
__getip.exit!(st)
end
def restart(app_name = nil, keys = {})
init_ip_internal
__getip._invoke('set', 'argv0', app_name) if app_name
if keys.kind_of?(Hash)
__getip._invoke('set', 'argv', _keys2opts(keys))
end
__getip.restart
end
def _eval(str)
__getip._eval(str)
end
def _invoke(*args)
__getip._invoke(*args)
end
def _eval_without_enc(str)
__getip._eval_without_enc(str)
end
def _invoke_without_enc(*args)
__getip._invoke_without_enc(*args)
end
def _eval_with_enc(str)
__getip._eval_with_enc(str)
end
def _invoke_with_enc(*args)
__getip._invoke_with_enc(*args)
end
def _toUTF8(str, encoding=nil)
__getip._toUTF8(str, encoding)
end
def _fromUTF8(str, encoding=nil)
__getip._fromUTF8(str, encoding)
end
def _thread_vwait(var)
__getip._thread_vwait(var)
end
def _thread_tkwait(mode, target)
__getip._thread_tkwait(mode, target)
end
def _return_value
__getip._return_value
end
def _get_variable(var, flag)
__getip._get_variable(var, flag)
end
def _get_variable2(var, idx, flag)
__getip._get_variable2(var, idx, flag)
end
def _set_variable(var, value, flag)
__getip._set_variable(var, value, flag)
end
def _set_variable2(var, idx, value, flag)
__getip._set_variable2(var, idx, value, flag)
end
def _unset_variable(var, flag)
__getip._unset_variable(var, flag)
end
def _unset_variable2(var, idx, flag)
__getip._unset_variable2(var, idx, flag)
end
def _get_global_var(var)
__getip._get_global_var(var)
end
def _get_global_var2(var, idx)
__getip._get_global_var2(var, idx)
end
def _set_global_var(var, value)
__getip._set_global_var(var, value)
end
def _set_global_var2(var, idx, value)
__getip._set_global_var2(var, idx, value)
end
def _unset_global_var(var)
__getip._unset_global_var(var)
end
def _unset_global_var2(var, idx)
__getip._unset_global_var2(var, idx)
end
def _split_tklist(str)
__getip._split_tklist(str)
end
def _merge_tklist(*args)
__getip._merge_tklist(*args)
end
def _conv_listelement(arg)
__getip._conv_listelement(arg)
end
def _create_console
__getip._create_console
end
end
# wrap methods on TclTkLib : not permit calling TclTkLib module methods
class << TclTkLib
def mainloop(check_root = true)
MultiTkIp.mainloop(check_root)
end
def mainloop_watchdog(check_root = true)
MultiTkIp.mainloop_watchdog(check_root)
end
def do_one_event(flag = TclTkLib::EventFlag::ALL)
MultiTkIp.do_one_event(flag)
end
#def mainloop_abort_on_exception
# MultiTkIp.mainloop_abort_on_exception
#end
#def mainloop_abort_on_exception=(mode)
# MultiTkIp.mainloop_abort_on_exception=(mode)
#end
def set_eventloop_tick(tick)
MultiTkIp.set_eventloop_tick(tick)
end
def get_eventloop_tick
MultiTkIp.get_eventloop_tick
end
def set_no_event_wait(tick)
MultiTkIp.set_no_event_wait(tick)
end
def get_no_event_wait
MultiTkIp.get_no_event_wait
end
def set_eventloop_weight(loop_max, no_event_tick)
MultiTkIp.set_eventloop_weight(loop_max, no_event_tick)
end
def get_eventloop_weight
MultiTkIp.get_eventloop_weight
end
def restart(*args)
MultiTkIp.restart(*args)
end
def _merge_tklist(*args)
MultiTkIp._merge_tklist(*args)
end
def _conv_listelement(arg)
MultiTkIp._conv_listelement(arg)
end
end
# depend on TclTkIp
class MultiTkIp
def mainloop(check_root = true, restart_on_dead = true)
#return self if self.slave?
#return self if self != @@DEFAULT_MASTER
if self != @@DEFAULT_MASTER
if @wait_on_mainloop[0]
begin
@wait_on_mainloop[1] += 1
if $SAFE >= 4
_receiver_mainloop(check_root).join
else
@cmd_queue.enq([@system, 'call_mainloop',
Thread.current, check_root])
Thread.stop
end
rescue MultiTkIp_OK => ret
# return value
if ret.value.kind_of?(Thread)
return ret.value.value
else
return ret.value
end
rescue SystemExit => e
# exit IP
warn("Warning: " + $! + " on " + self.inspect) if $DEBUG
begin
self._eval_without_enc('exit')
rescue Exception
end
self.delete
rescue StandardError => e
if $DEBUG
warn("Warning: " + e.class.inspect +
((e.message.length > 0)? ' "' + e.message + '"': '') +
" on " + self.inspect)
end
return e
rescue Exception => e
return e
ensure
@wait_on_mainloop[1] -= 1
end
end
return
end
unless restart_on_dead
@wait_on_mainloop[1] += 1
=begin
begin
@interp.mainloop(check_root)
rescue StandardError => e
if $DEBUG
warn("Warning: " + e.class.inspect +
((e.message.length > 0)? ' "' + e.message + '"': '') +
" on " + self.inspect)
end
end
=end
begin
@interp.mainloop(check_root)
ensure
@wait_on_mainloop[1] -= 1
end
else
loop do
break unless self.alive?
if check_root
begin
break if TclTkLib.num_of_mainwindows == 0
rescue StandardError
break
end
end
break if @interp.deleted?
begin
@wait_on_mainloop[1] += 1
@interp.mainloop(check_root)
rescue StandardError => e
if TclTkLib.mainloop_abort_on_exception != nil
#STDERR.print("Warning: Tk mainloop receives ", $!.class.inspect,
# " exception (ignore) : ", $!.message, "\n");
if $DEBUG
warn("Warning: Tk mainloop receives " << e.class.inspect <<
" exception (ignore) : " << e.message);
end
end
#raise e
rescue Exception => e
=begin
if TclTkLib.mainloop_abort_on_exception != nil
#STDERR.print("Warning: Tk mainloop receives ", $!.class.inspect,
# " exception (ignore) : ", $!.message, "\n");
if $DEBUG
warn("Warning: Tk mainloop receives " << e.class.inspect <<
" exception (ignore) : " << e.message);
end
end
=end
raise e
ensure
@wait_on_mainloop[1] -= 1
Thread.pass # avoid eventloop conflict
end
end
end
self
end
def make_safe
@interp.make_safe
end
def safe?
@interp.safe?
end
def safe_base?
@safe_base
end
def allow_ruby_exit?
@interp.allow_ruby_exit?
end
def allow_ruby_exit= (mode)
@interp.allow_ruby_exit = mode
end
def delete
@slave_ip_tbl.each{|name, subip|
_destroy_slaves_of_slaveIP(subip)
=begin
begin
subip._invoke('destroy', '.') unless subip.deleted?
rescue Exception
end
=end
begin
# subip._eval_without_enc("foreach i [after info] {after cancel $i}")
unless subip.deleted?
after_ids = subip._eval_without_enc("after info")
subip._eval_without_enc("foreach i {#{after_ids}} {after cancel $i}")
end
rescue Exception
end
# safe_base?
if @interp._eval_without_enc("catch {::safe::interpConfigure #{name}}") == '0'
begin
@interp._eval_without_enc("::safe::interpDelete #{name}")
rescue Exception
else
next if subip.deleted?
end
end
if subip.respond_to?(:safe_base?) && subip.safe_base? &&
!subip.deleted?
# do 'exit' to call the delete_hook procedure
begin
subip._eval_without_enc('exit')
rescue Exception
end
else
begin
subip.delete unless subip.deleted?
rescue Exception
end
end
}
begin
# @interp._eval_without_enc("foreach i [after info] {after cancel $i}")
after_ids = @interp._eval_without_enc("after info")
@interp._eval_without_enc("foreach i {#{after_ids}} {after cancel $i}")
rescue Exception
end
begin
@interp._invoke('destroy', '.') unless @interp.deleted?
rescue Exception
end
if @safe_base && !@interp.deleted?
# do 'exit' to call the delete_hook procedure
@interp._eval_without_enc('exit')
end
@interp.delete
self
end
def deleted?
@interp.deleted?
end
def has_mainwindow?
@interp.has_mainwindow?
end
def invalid_namespace?
@interp.invalid_namespace?
end
def abort(msg = nil)
if master?
if msg
Kernel.abort(msg)
else
Kernel.abort
end
else
# ignore msg
delete
1
end
end
def exit(st = true)
if master?
Kernel.exit(st)
else
delete
st
end
end
def exit!(st = false)
if master? && !safe? && allow_ruby_exit?
Kernel.exit!(st)
else
delete
st
end
end
def restart(app_name = nil, keys = {})
_init_ip_internal(@@INIT_IP_ENV, @@ADD_TK_PROCS)
@interp._invoke('set', 'argv0', app_name) if app_name
if keys.kind_of?(Hash)
@interp._invoke('set', 'argv', _keys2opts(keys))
end
@interp.restart
end
def __eval(str)
@interp.__eval(str)
end
def __invoke(*args)
@interp.__invoke(*args)
end
def _eval(str)
@interp._eval(str)
end
def _invoke(*args)
@interp._invoke(*args)
end
def _eval_without_enc(str)
@interp._eval_without_enc(str)
end
def _invoke_without_enc(*args)
@interp._invoke_without_enc(*args)
end
def _eval_with_enc(str)
@interp._eval_with_enc(str)
end
def _invoke_with_enc(*args)
@interp._invoke_with_enc(*args)
end
def _toUTF8(str, encoding=nil)
@interp._toUTF8(str, encoding)
end
def _fromUTF8(str, encoding=nil)
@interp._fromUTF8(str, encoding)
end
def _thread_vwait(var)
@interp._thread_vwait(var)
end
def _thread_tkwait(mode, target)
@interp._thread_tkwait(mode, target)
end
def _return_value
@interp._return_value
end
def _get_variable(var, flag)
@interp._get_variable(var, flag)
end
def _get_variable2(var, idx, flag)
@interp._get_variable2(var, idx, flag)
end
def _set_variable(var, value, flag)
@interp._set_variable(var, value, flag)
end
def _set_variable2(var, idx, value, flag)
@interp._set_variable2(var, idx, value, flag)
end
def _unset_variable(var, flag)
@interp._unset_variable(var, flag)
end
def _unset_variable2(var, idx, flag)
@interp._unset_variable2(var, idx, flag)
end
def _get_global_var(var)
@interp._get_global_var(var)
end
def _get_global_var2(var, idx)
@interp._get_global_var2(var, idx)
end
def _set_global_var(var, value)
@interp._set_global_var(var, value)
end
def _set_global_var2(var, idx, value)
@interp._set_global_var2(var, idx, value)
end
def _unset_global_var(var)
@interp._unset_global_var(var)
end
def _unset_global_var2(var, idx)
@interp._unset_global_var2(var, idx)
end
def _split_tklist(str)
@interp._split_tklist(str)
end
def _merge_tklist(*args)
@interp._merge_tklist(*args)
end
def _conv_listelement(arg)
@interp._conv_listelement(arg)
end
end
# interp command support
class MultiTkIp
def _lst2ary(str)
return [] if str == ""
idx = str.index('{')
while idx and idx > 0 and str[idx-1] == ?\\
idx = str.index('{', idx+1)
end
return str.split unless idx
list = str[0,idx].split
str = str[idx+1..-1]
i = -1
brace = 1
str.each_byte {|c|
i += 1
brace += 1 if c == ?{
brace -= 1 if c == ?}
break if brace == 0
}
if i == 0
list.push ''
elsif str[0, i] == ' '
list.push ' '
else
list.push str[0..i-1]
end
#list += _lst2ary(str[i+1..-1])
list.concat(_lst2ary(str[i+1..-1]))
list
end
private :_lst2ary
def _slavearg(slave)
if slave.kind_of?(MultiTkIp)
slave.path
elsif slave.kind_of?(String)
slave
else
slave.to_s
end
end
private :_slavearg
def alias_info(slave, cmd_name)
_lst2ary(@interp._invoke('interp', 'alias', _slavearg(slave), cmd_name))
end
def self.alias_info(slave, cmd_name)
__getip.alias_info(slave, cmd_name)
end
def alias_delete(slave, cmd_name)
@interp._invoke('interp', 'alias', _slavearg(slave), cmd_name, '')
self
end
def self.alias_delete(slave, cmd_name)
__getip.alias_delete(slave, cmd_name)
self
end
def def_alias(slave, new_cmd, org_cmd, *args)
ret = @interp._invoke('interp', 'alias', _slavearg(slave), new_cmd,
'', org_cmd, *args)
(ret == new_cmd)? self: nil
end
def self.def_alias(slave, new_cmd, org_cmd, *args)
ret = __getip.def_alias(slave, new_cmd, org_cmd, *args)
(ret == new_cmd)? self: nil
end
def aliases(slave = '')
_lst2ary(@interp._invoke('interp', 'aliases', _slavearg(slave)))
end
def self.aliases(slave = '')
__getip.aliases(slave)
end
def delete_slaves(*args)
slaves = args.collect{|s| _slavearg(s)}
@interp._invoke('interp', 'delete', *slaves) if slaves.size > 0
self
end
def self.delete_slaves(*args)
__getip.delete_slaves(*args)
self
end
def exist?(slave = '')
ret = @interp._invoke('interp', 'exists', _slavearg(slave))
(ret == '1')? true: false
end
def self.exist?(slave = '')
__getip.exist?(slave)
end
def delete_cmd(slave, cmd)
slave_invoke = @interp._invoke('list', 'rename', cmd, '')
@interp._invoke('interp', 'eval', _slavearg(slave), slave_invoke)
self
end
def self.delete_cmd(slave, cmd)
__getip.delete_cmd(slave, cmd)
self
end
def expose_cmd(slave, cmd, aliasname = nil)
if aliasname
@interp._invoke('interp', 'expose', _slavearg(slave), cmd, aliasname)
else
@interp._invoke('interp', 'expose', _slavearg(slave), cmd)
end
self
end
def self.expose_cmd(slave, cmd, aliasname = nil)
__getip.expose_cmd(slave, cmd, aliasname)
self
end
def hide_cmd(slave, cmd, aliasname = nil)
if aliasname
@interp._invoke('interp', 'hide', _slavearg(slave), cmd, aliasname)
else
@interp._invoke('interp', 'hide', _slavearg(slave), cmd)
end
self
end
def self.hide_cmd(slave, cmd, aliasname = nil)
__getip.hide_cmd(slave, cmd, aliasname)
self
end
def hidden_cmds(slave = '')
_lst2ary(@interp._invoke('interp', 'hidden', _slavearg(slave)))
end
def self.hidden_cmds(slave = '')
__getip.hidden_cmds(slave)
end
def invoke_hidden(slave, cmd, *args)
if args[-1].kind_of?(Hash)
keys = _symbolkey2str(args.pop)
else
keys = []
end
if Tk::TCL_MAJOR_VERSION > 8 ||
(Tk::TCL_MAJOR_VERSION == 8 && Tk::TCL_MINOR_VERSION >= 5)
keys << '--'
end
keys << _slavearg(slave) << cmd
keys.concat(args)
@interp._invoke('interp', 'invokehidden', *keys)
end
def self.invoke_hidden(slave, cmd, *args)
__getip.invoke_hidden(slave, cmd, *args)
end
def invoke_hidden_on_global(slave, cmd, *args)
if args[-1].kind_of?(Hash)
keys = _symbolkey2str(args.pop)
else
keys = []
end
keys << '-global'
if Tk::TCL_MAJOR_VERSION > 8 ||
(Tk::TCL_MAJOR_VERSION == 8 && Tk::TCL_MINOR_VERSION >= 5)
keys << '--'
end
keys << _slavearg(slave) << cmd
keys.concat(args)
@interp._invoke('interp', 'invokehidden', *keys)
end
def self.invoke_hidden_on_global(slave, cmd, *args)
__getip.invoke_hidden_on_global(slave, cmd, *args)
end
def mark_trusted(slave = '')
@interp._invoke('interp', 'marktrusted', _slavearg(slave))
self
end
def self.mark_trusted(slave = '')
__getip.mark_trusted(slave)
self
end
def set_bgerror_handler(cmd = Proc.new, slave = nil, &b)
unless TkComm._callback_entry?(cmd)
if !slave && b
slave = cmd
cmd = Proc.new(&b)
end
end
slave = '' unless slave
@interp._invoke('interp', 'bgerror', _slavearg(slave), cmd)
end
def self.bgerror(cmd = Proc.new, slave = nil, &b)
__getip.bgerror(cmd, slave, &b)
end
def get_bgerror_handler(slave = '')
procedure(@interp._invoke('interp', 'bgerror', _slavearg(slave)))
end
def self.bgerror(slave = '')
__getip.bgerror(slave)
end
def set_limit(limit_type, slave = '', opts = {})
@interp._invoke('interp', 'limit', _slavearg(slave), limit_type, opts)
end
def self.set_limit(limit_type, slave = '', opts = {})
__getip.set_limit(limit_type, slave, opts)
end
def get_limit(limit_type, slave = '', slot = nil)
if slot
num_or_str(@interp._invoke('interp', 'limit', _slavearg(slave),
limit_type, slot))
else
l = @interp._split_tklist(@interp._invoke_without_enc('interp', 'limit',
_slavearg(slave),
limit_type))
l.map!{|s| _fromUTF8(s)}
r = {}
until l.empty?
key = l.shift[1..-1]
val = l.shift
val = num_or_str(val) if val
r[key] = val
end
r
end
end
def self.get_limit(limit_type, slave = '', slot = nil)
__getip.get_limit(limit_type, slave, slot)
end
def recursion_limit(slave = '', limit = None)
number(@interp._invoke('interp', 'recursionlimit',
_slavearg(slave), limit))
end
def self.recursion_limit(slave = '', limit = None)
__getip.recursion_limit(slave)
end
def alias_target(aliascmd, slave = '')
@interp._invoke('interp', 'target', _slavearg(slave), aliascmd)
end
def self.alias_target(aliascmd, slave = '')
__getip.alias_target(aliascmd, slave)
end
def share_stdin(dist, src = '')
@interp._invoke('interp', 'share', src, 'stdin', dist)
self
end
def self.share_stdin(dist, src = '')
__getip.share_stdin(dist, src)
self
end
def share_stdout(dist, src = '')
@interp._invoke('interp', 'share', src, 'stdout', dist)
self
end
def self.share_stdout(dist, src = '')
__getip.share_stdout(dist, src)
self
end
def share_stderr(dist, src = '')
@interp._invoke('interp', 'share', src, 'stderr', dist)
self
end
def self.share_stderr(dist, src = '')
__getip.share_stderr(dist, src)
self
end
def transfer_stdin(dist, src = '')
@interp._invoke('interp', 'transfer', src, 'stdin', dist)
self
end
def self.transfer_stdin(dist, src = '')
__getip.transfer_stdin(dist, src)
self
end
def transfer_stdout(dist, src = '')
@interp._invoke('interp', 'transfer', src, 'stdout', dist)
self
end
def self.transfer_stdout(dist, src = '')
__getip.transfer_stdout(dist, src)
self
end
def transfer_stderr(dist, src = '')
@interp._invoke('interp', 'transfer', src, 'stderr', dist)
self
end
def self.transfer_stderr(dist, src = '')
__getip.transfer_stderr(dist, src)
self
end
def share_stdio(dist, src = '')
@interp._invoke('interp', 'share', src, 'stdin', dist)
@interp._invoke('interp', 'share', src, 'stdout', dist)
@interp._invoke('interp', 'share', src, 'stderr', dist)
self
end
def self.share_stdio(dist, src = '')
__getip.share_stdio(dist, src)
self
end
def transfer_stdio(dist, src = '')
@interp._invoke('interp', 'transfer', src, 'stdin', dist)
@interp._invoke('interp', 'transfer', src, 'stdout', dist)
@interp._invoke('interp', 'transfer', src, 'stderr', dist)
self
end
def self.transfer_stdio(dist, src = '')
__getip.transfer_stdio(dist, src)
self
end
end
# Safe Base :: manipulating safe interpreter
class MultiTkIp
def safeip_configure(slot, value=None)
# use for '-noStatics' option ==> {statics=>false}
# for '-nestedLoadOk' option ==> {nested=>true}
if slot.kind_of?(Hash)
ip = MultiTkIp.__getip
ip._eval('::safe::interpConfigure ' + @ip_name + ' ' + _keys2opts(slot))
else
ip._eval('::safe::interpConfigure ' + @ip_name + ' ' +
"-#{slot} #{_get_eval_string(value)}")
end
self
end
def safeip_configinfo(slot = nil)
ip = MultiTkIp.__getip
ret = {}
if slot
conf = _lst2ary(ip._eval("::safe::interpConfigure " +
@ip_name + " -#{slot}"))
if conf[0] == '-deleteHook'
if conf[1] =~ /^rb_out\S* (c(_\d+_)?\d+)/
ret[conf[0][1..-1]] = MultiTkIp._tk_cmd_tbl[$1]
else
ret[conf[0][1..-1]] = conf[1]
end
else
ret[conf[0][1..-1]] = conf[1]
end
else
Hash[*_lst2ary(ip._eval("::safe::interpConfigure " +
@ip_name))].each{|k, v|
if k == '-deleteHook'
if v =~ /^rb_out\S* (c(_\d+_)?\d+)/
ret[k[1..-1]] = MultiTkIp._tk_cmd_tbl[$1]
else
ret[k[1..-1]] = v
end
else
ret[k[1..-1]] = v
end
}
end
ret
end
def safeip_delete
ip = MultiTkIp.__getip
ip._eval("::safe::interpDelete " + @ip_name)
end
def safeip_add_to_access_path(dir)
ip = MultiTkIp.__getip
ip._eval("::safe::interpAddToAccessPath #{@ip_name} #{dir}")
end
def safeip_find_in_access_path(dir)
ip = MultiTkIp.__getip
ip._eval("::safe::interpFindInAccessPath #{@ip_name} #{dir}")
end
def safeip_set_log_cmd(cmd = Proc.new)
ip = MultiTkIp.__getip
ip._eval("::safe::setLogCmd #{@ip_name} #{_get_eval_string(cmd)}")
end
end
# encoding convert
class MultiTkIp
def encoding
@interp.encoding
end
def encoding=(enc)
@interp.encoding = enc
end
def encoding_convertfrom(str, enc=None)
@interp.encoding_convertfrom(str, enc)
end
alias encoding_convert_from encoding_convertfrom
def encoding_convertto(str, enc=None)
@interp.encoding_convertto(str, enc)
end
alias encoding_convert_to encoding_convertto
end
# remove methods for security
class MultiTkIp
# undef_method :instance_eval
undef_method :instance_variable_get
undef_method :instance_variable_set
end
# end of MultiTkIp definition
# defend against modification
#MultiTkIp.freeze
#TclTkLib.freeze
########################################
# start Tk which depends on MultiTkIp
module TkCore
INTERP = MultiTkIp
end
require 'tk'