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# Copyright 2004-2010 PyTom <pytom@bishoujo.us>
#
# Permission is hereby granted, free of charge, to any person
# obtaining a copy of this software and associated documentation files
# (the "Software"), to deal in the Software without restriction,
# including without limitation the rights to use, copy, modify, merge,
# publish, distribute, sublicense, and/or sell copies of the Software,
# and to permit persons to whom the Software is furnished to do so,
# subject to the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
# This module contains code to support user-defined statements.
import renpy
# The statement registry. It's a map from tuples giving the prefixes of
# statements to dictionaries giving the methods used for that statement.
registry = { }
def register(name, parse=None, lint=None, execute=None, predict=None, next=None, scry=None):
if name == "":
name = ()
else:
name = tuple(name.split())
registry[name] = dict(parse=parse,
lint=lint,
execute=execute,
predict=predict,
next=next,
scry=scry)
while True:
name = name[:-1]
if not name:
break
if name not in registry:
registry[name] = None
def parse(node, line):
block = [ (node.filename, node.linenumber, line, [ ]) ]
l = renpy.parser.Lexer(block)
l.advance()
name = ()
while True:
cpt = l.checkpoint()
word = l.word()
if word is None:
break
newname = name + (word,)
if newname not in registry:
break
name = newname
l.revert(cpt)
if registry[name] is None:
return None
return ( name, registry[name]["parse"](l) )
def call(method, parsed, *args, **kwargs):
name, parsed = parsed
method = registry[name].get(method)
if method is None:
return None
return method(parsed, *args, **kwargs)
# Music play - The example of a full statement.
def parse_play_music(l):
file = l.simple_expression()
if not file:
renpy.error("play requires a file")
fadeout = "None"
fadein = "0"
channel = None
loop = None
if_changed = False
while True:
if l.eol():
break
if l.keyword('fadeout'):
fadeout = l.simple_expression()
if fadeout is None:
renpy.error('expected simple expression')
continue
if l.keyword('fadein'):
fadein = l.simple_expression()
if fadein is None:
renpy.error('expected simple expression')
continue
if l.keyword('channel'):
channel = l.simple_expression()
if channel is None:
renpy.error('expected simple expression')
continue
if l.keyword('loop'):
loop = True
continue
if l.keyword('noloop'):
loop = False
continue
if l.keyword('if_changed'):
if_changed = True
continue
renpy.error('could not parse statement.')
return dict(file=file,
fadeout=fadeout,
fadein=fadein,
channel=channel,
loop=loop,
if_changed=if_changed)
def execute_play_music(p):
if p["channel"] is not None:
channel = eval(p["channel"])
else:
channel = "music"
renpy.music.play(eval(p["file"]),
fadeout=eval(p["fadeout"]),
fadein=eval(p["fadein"]),
channel=channel,
loop=p.get("loop", None),
if_changed=p.get("if_changed", False))
def predict_play_music(p):
return [ ]
def lint_play_music(p, channel="music"):
file = _try_eval(p["file"], 'filename')
if p["channel"] is not None:
channel = _try_eval(p["channel"], 'channel')
if not isinstance(file, list):
file = [ file ]
for fn in file:
if isinstance(fn, basestring):
try:
if not renpy.music.playable(fn, channel):
renpy.error("%r is not loadable" % fn)
except:
pass
register('play music',
parse=parse_play_music,
execute=execute_play_music,
predict=predict_play_music,
lint=lint_play_music)
# From here on, we'll steal bits of other statements when defining other
# statements.
def parse_queue_music(l):
file = l.simple_expression()
if not file:
renpy.error("queue requires a file")
channel = None
loop = None
while not l.eol():
if l.keyword('channel'):
channel = l.simple_expression()
if channel is None:
renpy.error('expected simple expression')
if l.keyword('loop'):
loop = True
continue
if l.keyword('noloop'):
loop = False
continue
renpy.error('expected end of line')
return dict(file=file, channel=channel, loop=loop)
def execute_queue_music(p):
if p["channel"] is not None:
channel = eval(p["channel"])
else:
channel = "music"
renpy.music.queue(
eval(p["file"]),
channel=channel,
loop=p.get("loop", None))
register('queue music',
parse=parse_queue_music,
execute=execute_queue_music,
lint=lint_play_music)
def parse_stop_music(l):
fadeout = "None"
if l.keyword("fadeout"):
fadeout = l.simple_expression()
channel = None
if l.keyword('channel'):
channel = l.simple_expression()
if channel is None:
renpy.error('expected simple expression')
if not l.eol():
renpy.error('expected end of line')
if fadeout is None:
renpy.error('expected simple expression')
return dict(fadeout=fadeout, channel=channel)
def execute_stop_music(p):
if p["channel"] is not None:
channel = eval(p["channel"])
else:
channel = "music"
renpy.music.stop(fadeout=eval(p["fadeout"]), channel=channel)
register('stop music',
parse=parse_stop_music,
execute=execute_stop_music)
# Sound statements. They share alot with the equivalent music
# statements.
def execute_play_sound(p):
if p["channel"] is not None:
channel = eval(p["channel"])
else:
channel = "sound"
fadeout = eval(p["fadeout"]) or 0
renpy.sound.play(eval(p["file"]),
fadeout=fadeout,
fadein=eval(p["fadein"]),
channel=channel)
def lint_play_sound(p, lint_play_music=lint_play_music):
return lint_play_music(p, channel="sound")
register('play sound',
parse=parse_play_music,
execute=execute_play_sound,
lint=lint_play_sound)
def execute_queue_sound(p):
if p["channel"] is not None:
channel = eval(p["channel"])
else:
channel = "sound"
renpy.sound.queue(eval(p["file"]), channel=channel)
register('queue sound',
parse=parse_queue_music,
execute=execute_queue_sound,
lint=lint_play_music)
def execute_stop_sound(p):
if p["channel"] is not None:
channel = eval(p["channel"])
else:
channel = "sound"
fadeout = eval(p["fadeout"]) or 0
renpy.sound.stop(fadeout=fadeout, channel=channel)
register('stop sound',
parse=parse_stop_music,
execute=execute_stop_sound)
# Generic play/queue/stop statements. These take a channel name as
# the second thing.
def parse_play_generic(l, parse_play_music=parse_play_music):
channel = l.name()
if channel is None:
renpy.error('play requires a channel')
rv = parse_play_music(l)
if rv["channel"] is None:
rv["channel"] = repr(channel)
return rv
def parse_queue_generic(l, parse_queue_music=parse_queue_music):
channel = l.name()
if channel is None:
renpy.error('queue requires a channel')
rv = parse_queue_music(l)
if rv["channel"] is None:
rv["channel"] = repr(channel)
return rv
def parse_stop_generic(l, parse_stop_music=parse_stop_music):
channel = l.name()
if channel is None:
renpy.error('stop requires a channel')
rv = parse_stop_music(l)
if rv["channel"] is None:
rv["channel"] = repr(channel)
return rv
def lint_play_generic(p, lint_play_music=lint_play_music):
channel = eval(p["channel"])
if not renpy.music.channel_defined(channel):
renpy.error("channel %r is not defined" % channel)
lint_play_music(p, channel)
def lint_stop_generic(p):
channel = eval(p["channel"])
if not renpy.music.channel_defined(channel):
renpy.error("channel %r is not defined" % channel)
register('play',
parse=parse_play_generic,
execute=execute_play_music,
predict=predict_play_music,
lint=lint_play_generic)
register('queue',
parse=parse_queue_generic,
execute=execute_queue_music,
lint=lint_play_generic)
register('stop',
parse=parse_stop_generic,
execute=execute_stop_music,
lint=lint_stop_generic)
##########################################################################
# "window show" and "window hide" statements.
def parse_window(l):
p = l.simple_expression()
if not l.eol():
renpy.error('expected end of line')
return p
def lint_window(p):
if p is not None:
_try_eval(p, 'window transition')
def execute_window_show(p):
if store._window:
return
if p is not None:
trans = eval(p)
renpy.with_statement(None)
store._window = True
renpy.with_statement(trans)
def execute_window_hide(p):
if not _window:
return
if p is not None:
trans = eval(p)
renpy.with_statement(None)
store._window = False
renpy.with_statement(trans)
register('window show',
parse=parse_window,
execute=execute_window_show,
lint=lint_window)
register('window hide',
parse=parse_window,
execute=execute_window_hide,
lint=lint_window)
##########################################################################
# Pause statement.
def parse_pause(l):
delay = l.simple_expression()
if not l.eol():
renpy.error("expected end of line.")
return { "delay" : delay }
def lint_pause(p):
if p["delay"]:
_try_eval(p["delay"], 'pause statement')
def execute_pause(p):
if p["delay"]:
delay = eval(p["delay"])
renpy.with_statement(Pause(delay))
else:
renpy.pause()
register('pause',
parse=parse_pause,
lint=lint_pause,
execute=execute_pause)
def _try_eval(e, what):
try:
return eval(e)
except:
renpy.error('unable to evaluate %s %r' % (what, e))
##############################################################################
# Screen-related statements.
def parse_show_call_screen(l):
# Parse a name.
name = l.require(l.name)
# Parse the list of arguments.
arguments = renpy.parser.parse_arguments(l)
l.expect_eol()
return dict(name=name, arguments=arguments)
def parse_hide_screen(l):
name = l.require(l.name)
l.expect_eol()
return dict(name=name)
def predict_screen(p):
if not p["arguments"]:
renpy.predict_screen(p["arguments"])
def execute_show_screen(p):
name = p["name"]
a = p["arguments"]
args = [ ]
kwargs = { }
if a is not None:
for k, v in a.arguments:
if k is not None:
kwargs[k] = eval(v)
else:
args.append(eval(v))
if a.extrapos is not None:
args.extend(eval(a.extrapos))
if a.extrakw is not None:
kwargs.update(eval(a.extrakw))
renpy.show_screen(name, *args, **kwargs)
def execute_call_screen(p):
name = p["name"]
a = p["arguments"]
args = [ ]
kwargs = { }
if a is not None:
for k, v in a.arguments:
if k is not None:
kwargs[k] = eval(v)
else:
args.append(eval(v))
if a.extrapos is not None:
args.extend(eval(a.extrapos))
if a.extrakw is not None:
kwargs.update(eval(a.extrakw))
store._return = renpy.call_screen(name, *args, **kwargs)
def execute_hide_screen(p):
name = p["name"]
renpy.hide_screen(name)
def lint_screen(p):
name = p["name"]
if not renpy.has_screen(name):
renpy.error("Screen %s does not exist." % name)
register("show screen",
parse=parse_show_call_screen,
execute=execute_show_screen,
predict=predict_screen,
lint=lint_screen)
register("call screen",
parse=parse_show_call_screen,
execute=execute_call_screen,
predict=predict_screen,
lint=lint_screen)
register("hide screen",
parse=parse_hide_screen,
execute=execute_hide_screen)
def parse_jump_in(l):
is_expr = False
firstword = l.word()
if firstword == "expression":
label = l.simple_expression()
is_expr = True
else:
label = firstword
if not label:
renpy.error("parse error when evaluating custom jump")
return dict(label=label,is_expr=is_expr)
def execute_jump_in(p):
global save_name, last_scene_label
if p["is_expr"]:
label = eval(p["label"])
else:
label = p["label"]
last_scene_label = label
save_name = label
scene_register(label)
renpy.jump(label)
def predict_jump_in(p):
return []
def next_jump_in(p):
return p["label"]
def lint_jump_in(p):
label = p["label"]
if not label:
renpy.error("no target given to custom jump statement.")
if not renpy.has_label(label) and not p["is_expr"]:
renpy.error("custom jump to nonexistent label.")
def execute_jump_out(p):
global playthroughflag, mycontext, ss_desc
nvl_clear()
if not playthroughflag:
replay_end()
execute_jump_in(p)
register('jump_in',
parse=parse_jump_in,
execute=execute_jump_in,
predict=predict_jump_in,
lint=lint_jump_in,
next=next_jump_in)
register('jump_out',
parse=parse_jump_in,
execute=execute_jump_out,
predict=predict_jump_in,
lint=lint_jump_in,
next=next_jump_in)
def parse_nvl_show_hide(l):
rv = l.simple_expression()
if rv is None:
renpy.error('expected simple expression')
if not l.eol():
renpy.error('expected end of line')
return rv
def lint_nvl_show_hide(trans):
_try_eval(trans, 'transition')
def execute_nvl_show(trans):
nvl_show(eval(trans))
def execute_nvl_hide(trans):
nvl_hide(eval(trans))
register("nvl show",
parse=parse_nvl_show_hide,
execute=execute_nvl_show,
lint=lint_nvl_show_hide)
register("nvl hide",
parse=parse_nvl_show_hide,
execute=execute_nvl_hide,
lint=lint_nvl_show_hide)
def parse_nvl_clear(l):
if not l.eol():
renpy.error('expected end of line')
return None
def execute_nvl_clear(parse):
nvl_clear()
def scry_nvl_clear(parse, scry):
scry.nvl_clear = True
register('nvl clear',
parse=parse_nvl_clear,
execute=execute_nvl_clear,
scry=scry_nvl_clear)
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