def parse_call(expression, caller_context):
src = expression['src']
if caller_context.is_compact_ast:
attributes = expression
type_conversion = expression['kind'] == 'typeConversion'
type_return = attributes['typeDescriptions']['typeString']
else:
attributes = expression['attributes']
type_conversion = attributes['type_conversion']
type_return = attributes['type']
if type_conversion:
type_call = parse_type(UnknownType(type_return), caller_context)
if caller_context.is_compact_ast:
type_info = expression['expression']
assert len(expression['arguments']) == 1
expression_to_parse = expression['arguments'][0]
else:
children = expression['children']
assert len(children) == 2
type_info = children[0]
expression_to_parse = children[1]
assert type_info['name'] in [
'ElementaryTypenameExpression', 'ElementaryTypeNameExpression',
'Identifier', 'TupleExpression', 'IndexAccess', 'MemberAccess'
]
expression = parse_expression(expression_to_parse, caller_context)
t = TypeConversion(expression, type_call)
t.set_offset(src, caller_context.slither)
return t
if caller_context.is_compact_ast:
called = parse_expression(expression['expression'], caller_context)
arguments = []
if expression['arguments']:
arguments = [
parse_expression(a, caller_context)
for a in expression['arguments']
]
else:
children = expression['children']
called = parse_expression(children[0], caller_context)
arguments = [
parse_expression(a, caller_context) for a in children[1::]
]
if isinstance(called, SuperCallExpression):
sp = SuperCallExpression(called, arguments, type_return)
sp.set_offset(expression['src'], caller_context.slither)
return sp
call_expression = CallExpression(called, arguments, type_return)
call_expression.set_offset(src, caller_context.slither)
return call_expression
def parse_call(expression, caller_context):
src = expression['src']
if caller_context.is_compact_ast:
attributes = expression
type_conversion = expression['kind'] == 'typeConversion'
type_return = attributes['typeDescriptions']['typeString']
else:
attributes = expression['attributes']
type_conversion = attributes['type_conversion']
type_return = attributes['type']
if type_conversion:
type_call = parse_type(UnknownType(type_return), caller_context)
if caller_context.is_compact_ast:
assert len(expression['arguments']) == 1
expression_to_parse = expression['arguments'][0]
else:
children = expression['children']
assert len(children) == 2
type_info = children[0]
expression_to_parse = children[1]
assert type_info['name'] in [
'ElementaryTypenameExpression', 'ElementaryTypeNameExpression',
'Identifier', 'TupleExpression', 'IndexAccess', 'MemberAccess'
]
expression = parse_expression(expression_to_parse, caller_context)
t = TypeConversion(expression, type_call)
t.set_offset(src, caller_context.slither)
return t
call_gas = None
call_value = None
call_salt = None
if caller_context.is_compact_ast:
called = parse_expression(expression['expression'], caller_context)
# If the next expression is a FunctionCallOptions
# We can here the gas/value information
# This is only available if the syntax is {gas: , value: }
# For the .gas().value(), the member are considered as function call
# And converted later to the correct info (convert.py)
if expression['expression'][
caller_context.get_key()] == 'FunctionCallOptions':
call_with_options = expression['expression']
for idx, name in enumerate(call_with_options.get('names', [])):
option = parse_expression(call_with_options['options'][idx],
caller_context)
if name == 'value':
call_value = option
if name == 'gas':
call_gas = option
if name == 'salt':
call_salt = option
arguments = []
if expression['arguments']:
arguments = [
parse_expression(a, caller_context)
for a in expression['arguments']
]
else:
children = expression['children']
called = parse_expression(children[0], caller_context)
arguments = [
parse_expression(a, caller_context) for a in children[1::]
]
if isinstance(called, SuperCallExpression):
sp = SuperCallExpression(called, arguments, type_return)
sp.set_offset(expression['src'], caller_context.slither)
return sp
call_expression = CallExpression(called, arguments, type_return)
call_expression.set_offset(src, caller_context.slither)
# Only available if the syntax {gas:, value:} was used
call_expression.call_gas = call_gas
call_expression.call_value = call_value
call_expression.call_salt = call_salt
return call_expression
def parse_call(expression: Dict, caller_context): # pylint: disable=too-many-statements
src = expression["src"]
if caller_context.is_compact_ast:
attributes = expression
type_conversion = expression["kind"] == "typeConversion"
type_return = attributes["typeDescriptions"]["typeString"]
else:
attributes = expression["attributes"]
type_conversion = attributes["type_conversion"]
type_return = attributes["type"]
if type_conversion:
type_call = parse_type(UnknownType(type_return), caller_context)
if caller_context.is_compact_ast:
assert len(expression["arguments"]) == 1
expression_to_parse = expression["arguments"][0]
else:
children = expression["children"]
assert len(children) == 2
type_info = children[0]
expression_to_parse = children[1]
assert type_info["name"] in [
"ElementaryTypenameExpression",
"ElementaryTypeNameExpression",
"Identifier",
"TupleExpression",
"IndexAccess",
"MemberAccess",
]
expression = parse_expression(expression_to_parse, caller_context)
t = TypeConversion(expression, type_call)
t.set_offset(src, caller_context.slither)
return t
call_gas = None
call_value = None
call_salt = None
if caller_context.is_compact_ast:
called = parse_expression(expression["expression"], caller_context)
# If the next expression is a FunctionCallOptions
# We can here the gas/value information
# This is only available if the syntax is {gas: , value: }
# For the .gas().value(), the member are considered as function call
# And converted later to the correct info (convert.py)
if expression["expression"][caller_context.get_key()] == "FunctionCallOptions":
call_with_options = expression["expression"]
for idx, name in enumerate(call_with_options.get("names", [])):
option = parse_expression(call_with_options["options"][idx], caller_context)
if name == "value":
call_value = option
if name == "gas":
call_gas = option
if name == "salt":
call_salt = option
arguments = []
if expression["arguments"]:
arguments = [parse_expression(a, caller_context) for a in expression["arguments"]]
else:
children = expression["children"]
called = parse_expression(children[0], caller_context)
arguments = [parse_expression(a, caller_context) for a in children[1::]]
if isinstance(called, SuperCallExpression):
sp = SuperCallExpression(called, arguments, type_return)
sp.set_offset(expression["src"], caller_context.slither)
return sp
call_expression = CallExpression(called, arguments, type_return)
call_expression.set_offset(src, caller_context.slither)
# Only available if the syntax {gas:, value:} was used
call_expression.call_gas = call_gas
call_expression.call_value = call_value
call_expression.call_salt = call_salt
return call_expression