def python_statement(l, loc):
hide = False
early = False
store = 'store'
if l.keyword('early'):
early = True
if l.keyword('hide'):
hide = True
if l.keyword('in'):
store = "store." + l.require(l.name)
l.require(':')
l.expect_block('python block')
python_code = l.python_block()
l.advance()
if early:
return ast.EarlyPython(loc, python_code, hide, store=store)
else:
return ast.Python(loc, python_code, hide, store=store)
def init_statement(l, loc):
p = l.integer()
if p:
priority = int(p)
else:
priority = 0
if l.keyword('python'):
hide = False
if l.keyword('hide'):
hide = True
l.require(':')
l.expect_block('python block')
python_code = l.python_block()
l.advance()
block = [ ast.Python(loc, python_code, hide) ]
else:
l.require(':')
l.expect_eol()
l.expect_block('init statement')
block = parse_block(l.subblock_lexer(True))
l.advance()
return ast.Init(loc, block, priority)
def python_statement(l, loc):
hide = False
early = False
if l.keyword('early'):
early = True
if l.keyword('hide'):
hide = True
l.require(':')
l.expect_block('python block')
python_code = l.python_block()
l.advance()
if early:
return ast.EarlyPython(loc, python_code, hide)
else:
return ast.Python(loc, python_code, hide)
def parse_statement(l):
"""
This parses a Ren'Py statement. l is expected to be a Ren'Py lexer
that has been advanced to a logical line. This function will
advance l beyond the last logical line making up the current
statement, and will return an AST object representing this
statement, or a list of AST objects representing this statement.
"""
# Store the current location.
loc = l.get_location()
### If statement
if l.keyword('if'):
entries = []
condition = l.require(l.python_expression)
l.require(':')
l.expect_eol()
l.expect_block('if statement')
block = parse_block(l.subblock_lexer())
entries.append((condition, block))
l.advance()
while l.keyword('elif'):
condition = l.require(l.python_expression)
l.require(':')
l.expect_eol()
l.expect_block('elif clause')
block = parse_block(l.subblock_lexer())
entries.append((condition, block))
l.advance()
if l.keyword('else'):
l.require(':')
l.expect_eol()
l.expect_block('else clause')
block = parse_block(l.subblock_lexer())
entries.append(('True', block))
l.advance()
return ast.If(loc, entries)
if l.keyword('elif'):
l.error('elif clause must be associated with an if statement.')
if l.keyword('else'):
l.error('else clause must be associated with an if statement.')
### While statement
if l.keyword('while'):
condition = l.require(l.python_expression)
l.require(':')
l.expect_eol()
l.expect_block('while statement')
block = parse_block(l.subblock_lexer())
l.advance()
return ast.While(loc, condition, block)
### Pass statement
if l.keyword('pass'):
l.expect_noblock('pass statement')
l.expect_eol()
l.advance()
return ast.Pass(loc)
### Menu statement.
if l.keyword('menu'):
l.expect_block('menu statement')
label = l.name()
l.require(':')
l.expect_eol()
menu = parse_menu(l, loc)
l.advance()
rv = []
if label:
rv.append(ast.Label(loc, label, [], None))
rv.extend(menu)
return rv
### Return statement.
if l.keyword('return'):
l.expect_noblock('return statement')
rest = l.rest()
if not rest:
rest = None
l.expect_eol()
l.advance()
return ast.Return(loc, rest)
### Jump statement
if l.keyword('jump'):
l.expect_noblock('jump statement')
if l.keyword('expression'):
expression = True
target = l.require(l.simple_expression)
else:
expression = False
target = l.require(l.name)
l.expect_eol()
l.advance()
return ast.Jump(loc, target, expression)
### Call/From statement.
if l.keyword('call'):
l.expect_noblock('call statment')
if l.keyword('expression'):
expression = True
target = l.require(l.simple_expression)
else:
expression = False
target = l.require(l.name)
# Optional pass, to let someone write:
# call expression foo pass (bar, baz)
l.keyword('pass')
arguments = parse_arguments(l)
rv = [ast.Call(loc, target, expression, arguments)]
if l.keyword('from'):
name = l.require(l.name)
rv.append(ast.Label(loc, name, [], None))
else:
rv.append(ast.Pass(loc))
l.expect_eol()
l.advance()
return rv
### Scene statement.
if l.keyword('scene'):
if l.keyword('onlayer'):
layer = l.require(l.name)
else:
layer = "master"
# Empty.
if l.eol():
l.advance()
return ast.Scene(loc, None, layer)
imspec = parse_image_specifier(l)
stmt = ast.Scene(loc, imspec, imspec[4])
rv = parse_with(l, stmt)
if l.match(':'):
stmt.atl = renpy.atl.parse_atl(l.subblock_lexer())
else:
l.expect_noblock('scene statement')
l.expect_eol()
l.advance()
return rv
### Show statement.
if l.keyword('show'):
imspec = parse_image_specifier(l)
stmt = ast.Show(loc, imspec)
rv = parse_with(l, stmt)
if l.match(':'):
stmt.atl = renpy.atl.parse_atl(l.subblock_lexer())
else:
l.expect_noblock('show statement')
l.expect_eol()
l.advance()
return rv
### Hide statement.
if l.keyword('hide'):
imspec = parse_image_specifier(l)
rv = parse_with(l, ast.Hide(loc, imspec))
l.expect_eol()
l.expect_noblock('hide statement')
l.advance()
return rv
### With statement.
if l.keyword('with'):
expr = l.require(l.simple_expression)
l.expect_eol()
l.expect_noblock('with statement')
l.advance()
return ast.With(loc, expr)
### Image statement.
if l.keyword('image'):
name = parse_image_name(l)
if l.match(':'):
l.expect_eol()
expr = None
atl = renpy.atl.parse_atl(l.subblock_lexer())
else:
l.require('=')
expr = l.rest()
atl = None
l.expect_noblock('image statement')
rv = ast.Image(loc, name, expr, atl)
if not l.init:
rv = ast.Init(loc, [rv], 990)
l.advance()
return rv
### Define statement.
if l.keyword('define'):
priority = l.integer()
if priority:
priority = int(priority)
else:
priority = 0
name = l.require(l.name)
l.require('=')
expr = l.rest()
l.expect_noblock('define statement')
rv = ast.Define(loc, name, expr)
if not l.init:
rv = ast.Init(loc, [rv], priority)
l.advance()
return rv
### Transform statement.
if l.keyword('transform'):
priority = l.integer()
if priority:
priority = int(priority)
else:
priority = 0
name = l.require(l.name)
parameters = parse_parameters(l)
if parameters and (parameters.extrakw or parameters.extrapos):
l.error(
'transform statement does not take a variable number of parameters'
)
l.require(':')
l.expect_eol()
atl = renpy.atl.parse_atl(l.subblock_lexer())
rv = ast.Transform(loc, name, atl, parameters)
if not l.init:
rv = ast.Init(loc, [rv], priority)
l.advance()
return rv
### One-line python statement.
if l.match(r'\$'):
python_code = l.rest()
l.expect_noblock('one-line python statement')
l.advance()
return ast.Python(loc, python_code)
### Python block.
if l.keyword('python'):
hide = False
early = False
if l.keyword('early'):
early = True
if l.keyword('hide'):
hide = True
l.require(':')
l.expect_block('python block')
python_code = l.python_block()
l.advance()
if early:
return ast.EarlyPython(loc, python_code, hide)
else:
return ast.Python(loc, python_code, hide)
### Label Statement
if l.keyword('label'):
name = l.require(l.name)
parameters = parse_parameters(l)
l.require(':')
l.expect_eol()
# Optional block here. It's empty if no block is associated with
# this statement.
block = parse_block(l.subblock_lexer())
l.advance()
return ast.Label(loc, name, block, parameters)
### Init Statement
if l.keyword('init'):
p = l.integer()
if p:
priority = int(p)
else:
priority = 0
if l.keyword('python'):
hide = False
if l.keyword('hide'):
hide = True
l.require(':')
l.expect_block('python block')
python_code = l.python_block()
l.advance()
block = [ast.Python(loc, python_code, hide)]
else:
l.require(':')
l.expect_eol()
l.expect_block('init statement')
block = parse_block(l.subblock_lexer(True))
l.advance()
return ast.Init(loc, block, priority)
# Try parsing as a user-statement. If that doesn't work, revert and
# try as a say.
state = l.checkpoint()
word = l.word()
if (word, ) in renpy.statements.registry:
text = l.text
l.expect_noblock(word + ' statement')
l.advance()
renpy.exports.push_error_handler(l.error)
try:
rv = ast.UserStatement(loc, text)
finally:
renpy.exports.pop_error_handler()
return rv
l.revert(state)
# Try parsing as the default statement.
if () in renpy.statements.registry:
text = l.text
l.expect_noblock('default statement')
l.advance()
renpy.exports.push_error_handler(l.error)
try:
rv = ast.UserStatement(loc, text)
finally:
renpy.exports.pop_error_handler()
return rv
# The one and two arguement say statements are ambiguous in terms
# of lookahead. So we first try parsing as a one-argument, then a
# two-argument.
# We're using the checkpoint from above.
what = l.string()
if l.keyword('with'):
with_ = l.require(l.simple_expression)
else:
with_ = None
if what is not None and l.eol():
# We have a one-argument say statement.
l.expect_noblock('say statement')
l.advance()
return ast.Say(loc, None, what, with_)
l.revert(state)
# Try for a two-argument say statement.
who = l.simple_expression()
what = l.string()
if l.keyword('with'):
with_ = l.require(l.simple_expression)
else:
with_ = None
if who and what is not None:
l.expect_eol()
l.expect_noblock('say statement')
l.advance()
return ast.Say(loc, who, what, with_)
l.error('expected statement.')
def one_line_python(l, loc):
python_code = l.rest()
l.expect_noblock('one-line python statement')
l.advance()
return ast.Python(loc, python_code, store="store")