lbry-android-sdk/venv/lib/python3.8/site-packages/Cython/Compiler/UtilNodes.py

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2022-12-02 21:15:34 +01:00
#
# Nodes used as utilities and support for transforms etc.
# These often make up sets including both Nodes and ExprNodes
# so it is convenient to have them in a separate module.
#
from __future__ import absolute_import
from . import Nodes
from . import ExprNodes
from .Nodes import Node
from .ExprNodes import AtomicExprNode
from .PyrexTypes import c_ptr_type
class TempHandle(object):
# THIS IS DEPRECATED, USE LetRefNode instead
temp = None
needs_xdecref = False
def __init__(self, type, needs_cleanup=None):
self.type = type
if needs_cleanup is None:
self.needs_cleanup = type.is_pyobject
else:
self.needs_cleanup = needs_cleanup
def ref(self, pos):
return TempRefNode(pos, handle=self, type=self.type)
class TempRefNode(AtomicExprNode):
# THIS IS DEPRECATED, USE LetRefNode instead
# handle TempHandle
def analyse_types(self, env):
assert self.type == self.handle.type
return self
def analyse_target_types(self, env):
assert self.type == self.handle.type
return self
def analyse_target_declaration(self, env):
pass
def calculate_result_code(self):
result = self.handle.temp
if result is None: result = "<error>" # might be called and overwritten
return result
def generate_result_code(self, code):
pass
def generate_assignment_code(self, rhs, code, overloaded_assignment=False):
if self.type.is_pyobject:
rhs.make_owned_reference(code)
# TODO: analyse control flow to see if this is necessary
code.put_xdecref(self.result(), self.ctype())
code.putln('%s = %s;' % (
self.result(),
rhs.result() if overloaded_assignment else rhs.result_as(self.ctype()),
))
rhs.generate_post_assignment_code(code)
rhs.free_temps(code)
class TempsBlockNode(Node):
# THIS IS DEPRECATED, USE LetNode instead
"""
Creates a block which allocates temporary variables.
This is used by transforms to output constructs that need
to make use of a temporary variable. Simply pass the types
of the needed temporaries to the constructor.
The variables can be referred to using a TempRefNode
(which can be constructed by calling get_ref_node).
"""
# temps [TempHandle]
# body StatNode
child_attrs = ["body"]
def generate_execution_code(self, code):
for handle in self.temps:
handle.temp = code.funcstate.allocate_temp(
handle.type, manage_ref=handle.needs_cleanup)
self.body.generate_execution_code(code)
for handle in self.temps:
if handle.needs_cleanup:
if handle.needs_xdecref:
code.put_xdecref_clear(handle.temp, handle.type)
else:
code.put_decref_clear(handle.temp, handle.type)
code.funcstate.release_temp(handle.temp)
def analyse_declarations(self, env):
self.body.analyse_declarations(env)
def analyse_expressions(self, env):
self.body = self.body.analyse_expressions(env)
return self
def generate_function_definitions(self, env, code):
self.body.generate_function_definitions(env, code)
def annotate(self, code):
self.body.annotate(code)
class ResultRefNode(AtomicExprNode):
# A reference to the result of an expression. The result_code
# must be set externally (usually a temp name).
subexprs = []
lhs_of_first_assignment = False
def __init__(self, expression=None, pos=None, type=None, may_hold_none=True, is_temp=False):
self.expression = expression
self.pos = None
self.may_hold_none = may_hold_none
if expression is not None:
self.pos = expression.pos
if hasattr(expression, "type"):
self.type = expression.type
if pos is not None:
self.pos = pos
if type is not None:
self.type = type
if is_temp:
self.is_temp = True
assert self.pos is not None
def clone_node(self):
# nothing to do here
return self
def type_dependencies(self, env):
if self.expression:
return self.expression.type_dependencies(env)
else:
return ()
def update_expression(self, expression):
self.expression = expression
if hasattr(expression, "type"):
self.type = expression.type
def analyse_types(self, env):
if self.expression is not None:
if not self.expression.type:
self.expression = self.expression.analyse_types(env)
self.type = self.expression.type
return self
def infer_type(self, env):
if self.type is not None:
return self.type
if self.expression is not None:
if self.expression.type is not None:
return self.expression.type
return self.expression.infer_type(env)
assert False, "cannot infer type of ResultRefNode"
def may_be_none(self):
if not self.type.is_pyobject:
return False
return self.may_hold_none
def _DISABLED_may_be_none(self):
# not sure if this is safe - the expression may not be the
# only value that gets assigned
if self.expression is not None:
return self.expression.may_be_none()
if self.type is not None:
return self.type.is_pyobject
return True # play safe
def is_simple(self):
return True
def result(self):
try:
return self.result_code
except AttributeError:
if self.expression is not None:
self.result_code = self.expression.result()
return self.result_code
def generate_evaluation_code(self, code):
pass
def generate_result_code(self, code):
pass
def generate_disposal_code(self, code):
pass
def generate_assignment_code(self, rhs, code, overloaded_assignment=False):
if self.type.is_pyobject:
rhs.make_owned_reference(code)
if not self.lhs_of_first_assignment:
code.put_decref(self.result(), self.ctype())
code.putln('%s = %s;' % (
self.result(),
rhs.result() if overloaded_assignment else rhs.result_as(self.ctype()),
))
rhs.generate_post_assignment_code(code)
rhs.free_temps(code)
def allocate_temps(self, env):
pass
def release_temp(self, env):
pass
def free_temps(self, code):
pass
class LetNodeMixin:
def set_temp_expr(self, lazy_temp):
self.lazy_temp = lazy_temp
self.temp_expression = lazy_temp.expression
def setup_temp_expr(self, code):
self.temp_expression.generate_evaluation_code(code)
self.temp_type = self.temp_expression.type
if self.temp_type.is_array:
self.temp_type = c_ptr_type(self.temp_type.base_type)
self._result_in_temp = self.temp_expression.result_in_temp()
if self._result_in_temp:
self.temp = self.temp_expression.result()
else:
self.temp_expression.make_owned_reference(code)
self.temp = code.funcstate.allocate_temp(
self.temp_type, manage_ref=True)
code.putln("%s = %s;" % (self.temp, self.temp_expression.result()))
self.temp_expression.generate_disposal_code(code)
self.temp_expression.free_temps(code)
self.lazy_temp.result_code = self.temp
def teardown_temp_expr(self, code):
if self._result_in_temp:
self.temp_expression.generate_disposal_code(code)
self.temp_expression.free_temps(code)
else:
if self.temp_type.is_pyobject:
code.put_decref_clear(self.temp, self.temp_type)
code.funcstate.release_temp(self.temp)
class EvalWithTempExprNode(ExprNodes.ExprNode, LetNodeMixin):
# A wrapper around a subexpression that moves an expression into a
# temp variable and provides it to the subexpression.
subexprs = ['temp_expression', 'subexpression']
def __init__(self, lazy_temp, subexpression):
self.set_temp_expr(lazy_temp)
self.pos = subexpression.pos
self.subexpression = subexpression
# if called after type analysis, we already know the type here
self.type = self.subexpression.type
def infer_type(self, env):
return self.subexpression.infer_type(env)
def may_be_none(self):
return self.subexpression.may_be_none()
def result(self):
return self.subexpression.result()
def analyse_types(self, env):
self.temp_expression = self.temp_expression.analyse_types(env)
self.lazy_temp.update_expression(self.temp_expression) # overwrite in case it changed
self.subexpression = self.subexpression.analyse_types(env)
self.type = self.subexpression.type
return self
def free_subexpr_temps(self, code):
self.subexpression.free_temps(code)
def generate_subexpr_disposal_code(self, code):
self.subexpression.generate_disposal_code(code)
def generate_evaluation_code(self, code):
self.setup_temp_expr(code)
self.subexpression.generate_evaluation_code(code)
self.teardown_temp_expr(code)
LetRefNode = ResultRefNode
class LetNode(Nodes.StatNode, LetNodeMixin):
# Implements a local temporary variable scope. Imagine this
# syntax being present:
# let temp = VALUE:
# BLOCK (can modify temp)
# if temp is an object, decref
#
# Usually used after analysis phase, but forwards analysis methods
# to its children
child_attrs = ['temp_expression', 'body']
def __init__(self, lazy_temp, body):
self.set_temp_expr(lazy_temp)
self.pos = body.pos
self.body = body
def analyse_declarations(self, env):
self.temp_expression.analyse_declarations(env)
self.body.analyse_declarations(env)
def analyse_expressions(self, env):
self.temp_expression = self.temp_expression.analyse_expressions(env)
self.body = self.body.analyse_expressions(env)
return self
def generate_execution_code(self, code):
self.setup_temp_expr(code)
self.body.generate_execution_code(code)
self.teardown_temp_expr(code)
def generate_function_definitions(self, env, code):
self.temp_expression.generate_function_definitions(env, code)
self.body.generate_function_definitions(env, code)
class TempResultFromStatNode(ExprNodes.ExprNode):
# An ExprNode wrapper around a StatNode that executes the StatNode
# body. Requires a ResultRefNode that it sets up to refer to its
# own temp result. The StatNode must assign a value to the result
# node, which then becomes the result of this node.
subexprs = []
child_attrs = ['body']
def __init__(self, result_ref, body):
self.result_ref = result_ref
self.pos = body.pos
self.body = body
self.type = result_ref.type
self.is_temp = 1
def analyse_declarations(self, env):
self.body.analyse_declarations(env)
def analyse_types(self, env):
self.body = self.body.analyse_expressions(env)
return self
def generate_result_code(self, code):
self.result_ref.result_code = self.result()
self.body.generate_execution_code(code)