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esphome/esphomeyaml/cpp_generator.py
Otto Winter 22fd4ec722
Make compatible with python 3 (#281) 
* Make compatible with python 3

* Update travis

* Env

* Fix typo

* Fix install correct platformio

* Lint

* Fix build flags

* Lint

* Upgrade pylint

* Lint
2019-01-02 14:11:11 +01:00

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from collections import OrderedDict
from esphomeyaml.core import CORE, HexInt, Lambda, TimePeriod, TimePeriodMicroseconds, \
TimePeriodMilliseconds, TimePeriodSeconds
from esphomeyaml.helpers import cpp_string_escape, indent_all_but_first_and_last
# pylint: disable=unused-import, wrong-import-order
from typing import Any, Generator, List, Optional, Tuple, Union # noqa
from esphomeyaml.core import ID # noqa
from esphomeyaml.py_compat import text_type, string_types, integer_types
class Expression(object):
def __init__(self):
self.requires = []
self.required = False
def __str__(self):
raise NotImplementedError
def require(self):
self.required = True
for require in self.requires:
if require.required:
continue
require.require()
def has_side_effects(self):
return self.required
SafeExpType = Union[Expression, bool, str, text_type, int, float, TimePeriod]
class RawExpression(Expression):
def __init__(self, text): # type: (Union[str, unicode]) -> None
super(RawExpression, self).__init__()
self.text = text
def __str__(self):
return str(self.text)
# pylint: disable=redefined-builtin
class AssignmentExpression(Expression):
def __init__(self, type, modifier, name, rhs, obj):
super(AssignmentExpression, self).__init__()
self.type = type
self.modifier = modifier
self.name = name
self.rhs = safe_exp(rhs)
self.requires.append(self.rhs)
self.obj = obj
def __str__(self):
type_ = self.type
return u"{} {}{} = {}".format(type_, self.modifier, self.name, self.rhs)
def has_side_effects(self):
return self.rhs.has_side_effects()
class ExpressionList(Expression):
def __init__(self, *args):
super(ExpressionList, self).__init__()
# Remove every None on end
args = list(args)
while args and args[-1] is None:
args.pop()
self.args = []
for arg in args:
exp = safe_exp(arg)
self.requires.append(exp)
self.args.append(exp)
def __str__(self):
text = u", ".join(text_type(x) for x in self.args)
return indent_all_but_first_and_last(text)
class TemplateArguments(Expression):
def __init__(self, *args): # type: (*SafeExpType) -> None
super(TemplateArguments, self).__init__()
self.args = ExpressionList(*args)
self.requires.append(self.args)
def __str__(self):
return u'<{}>'.format(self.args)
class CallExpression(Expression):
def __init__(self, base, *args): # type: (Expression, *SafeExpType) -> None
super(CallExpression, self).__init__()
self.base = base
if args and isinstance(args[0], TemplateArguments):
self.template_args = args[0]
self.requires.append(self.template_args)
args = args[1:]
else:
self.template_args = None
self.args = ExpressionList(*args)
self.requires.append(self.args)
def __str__(self):
if self.template_args is not None:
return u'{}{}({})'.format(self.base, self.template_args, self.args)
return u'{}({})'.format(self.base, self.args)
class StructInitializer(Expression):
def __init__(self, base, *args): # type: (Expression, *Tuple[str, SafeExpType]) -> None
super(StructInitializer, self).__init__()
self.base = base
if isinstance(base, Expression):
self.requires.append(base)
if not isinstance(args, OrderedDict):
args = OrderedDict(args)
self.args = OrderedDict()
for key, value in args.items():
if value is None:
continue
exp = safe_exp(value)
self.args[key] = exp
self.requires.append(exp)
def __str__(self):
cpp = u'{}{{\n'.format(self.base)
for key, value in self.args.items():
cpp += u' .{} = {},\n'.format(key, value)
cpp += u'}'
return cpp
class ArrayInitializer(Expression):
def __init__(self, *args, **kwargs): # type: (*Any, **Any) -> None
super(ArrayInitializer, self).__init__()
self.multiline = kwargs.get('multiline', True)
self.args = []
for arg in args:
if arg is None:
continue
exp = safe_exp(arg)
self.args.append(exp)
self.requires.append(exp)
def __str__(self):
if not self.args:
return u'{}'
if self.multiline:
cpp = u'{\n'
for arg in self.args:
cpp += u' {},\n'.format(arg)
cpp += u'}'
else:
cpp = u'{' + u', '.join(str(arg) for arg in self.args) + u'}'
return cpp
class ParameterExpression(Expression):
def __init__(self, type, id):
super(ParameterExpression, self).__init__()
self.type = type
self.id = id
def __str__(self):
return u"{} {}".format(self.type, self.id)
class ParameterListExpression(Expression):
def __init__(self, *parameters):
super(ParameterListExpression, self).__init__()
self.parameters = []
for parameter in parameters:
if not isinstance(parameter, ParameterExpression):
parameter = ParameterExpression(*parameter)
self.parameters.append(parameter)
self.requires.append(parameter)
def __str__(self):
return u", ".join(text_type(x) for x in self.parameters)
class LambdaExpression(Expression):
def __init__(self, parts, parameters, capture='=', return_type=None):
super(LambdaExpression, self).__init__()
self.parts = parts
if not isinstance(parameters, ParameterListExpression):
parameters = ParameterListExpression(*parameters)
self.parameters = parameters
self.requires.append(self.parameters)
self.capture = capture
self.return_type = return_type
if return_type is not None:
self.requires.append(return_type)
for i in range(1, len(parts), 3):
self.requires.append(parts[i])
def __str__(self):
cpp = u'[{}]({})'.format(self.capture, self.parameters)
if self.return_type is not None:
cpp += u' -> {}'.format(self.return_type)
cpp += u' {{\n{}\n}}'.format(self.content)
return indent_all_but_first_and_last(cpp)
@property
def content(self):
return u''.join(text_type(part) for part in self.parts)
class Literal(Expression):
def __str__(self):
raise NotImplementedError
class StringLiteral(Literal):
def __init__(self, string): # type: (Union[str, unicode]) -> None
super(StringLiteral, self).__init__()
self.string = string
def __str__(self):
return u'{}'.format(cpp_string_escape(self.string))
class IntLiteral(Literal):
def __init__(self, i): # type: (Union[int, long]) -> None
super(IntLiteral, self).__init__()
self.i = i
def __str__(self):
if self.i > 4294967295:
return u'{}ULL'.format(self.i)
if self.i > 2147483647:
return u'{}UL'.format(self.i)
if self.i < -2147483648:
return u'{}LL'.format(self.i)
return text_type(self.i)
class BoolLiteral(Literal):
def __init__(self, binary): # type: (bool) -> None
super(BoolLiteral, self).__init__()
self.binary = binary
def __str__(self):
return u"true" if self.binary else u"false"
class HexIntLiteral(Literal):
def __init__(self, i): # type: (int) -> None
super(HexIntLiteral, self).__init__()
self.i = HexInt(i)
def __str__(self):
return str(self.i)
class FloatLiteral(Literal):
def __init__(self, value): # type: (float) -> None
super(FloatLiteral, self).__init__()
self.float_ = value
def __str__(self):
return u"{:f}f".format(self.float_)
# pylint: disable=bad-continuation
def safe_exp(obj # type: Union[Expression, bool, str, unicode, int, long, float, TimePeriod]
):
# type: (...) -> Expression
if isinstance(obj, Expression):
return obj
if isinstance(obj, bool):
return BoolLiteral(obj)
if isinstance(obj, string_types):
return StringLiteral(obj)
if isinstance(obj, HexInt):
return HexIntLiteral(obj)
if isinstance(obj, integer_types):
return IntLiteral(obj)
if isinstance(obj, float):
return FloatLiteral(obj)
if isinstance(obj, TimePeriodMicroseconds):
return IntLiteral(int(obj.total_microseconds))
if isinstance(obj, TimePeriodMilliseconds):
return IntLiteral(int(obj.total_milliseconds))
if isinstance(obj, TimePeriodSeconds):
return IntLiteral(int(obj.total_seconds))
raise ValueError(u"Object is not an expression", obj)
class Statement(object):
def __init__(self):
pass
def __str__(self):
raise NotImplementedError
class RawStatement(Statement):
def __init__(self, text):
super(RawStatement, self).__init__()
self.text = text
def __str__(self):
return self.text
class ExpressionStatement(Statement):
def __init__(self, expression):
super(ExpressionStatement, self).__init__()
self.expression = safe_exp(expression)
def __str__(self):
return u"{};".format(self.expression)
def statement(expression): # type: (Union[Expression, Statement]) -> Statement
if isinstance(expression, Statement):
return expression
return ExpressionStatement(expression)
def variable(id, # type: ID
rhs, # type: Expression
type=None # type: MockObj
):
# type: (...) -> MockObj
rhs = safe_exp(rhs)
obj = MockObj(id, u'.')
id.type = type or id.type
assignment = AssignmentExpression(id.type, '', id, rhs, obj)
CORE.add(assignment)
CORE.register_variable(id, obj)
obj.requires.append(assignment)
return obj
def Pvariable(id, # type: ID
rhs, # type: Expression
has_side_effects=True, # type: bool
type=None # type: MockObj
):
# type: (...) -> MockObj
rhs = safe_exp(rhs)
if not has_side_effects and hasattr(rhs, '_has_side_effects'):
# pylint: disable=attribute-defined-outside-init, protected-access
rhs._has_side_effects = False
obj = MockObj(id, u'->', has_side_effects=has_side_effects)
id.type = type or id.type
assignment = AssignmentExpression(id.type, '*', id, rhs, obj)
CORE.add(assignment)
CORE.register_variable(id, obj)
obj.requires.append(assignment)
return obj
def add(expression, # type: Union[Expression, Statement]
require=True # type: bool
):
# type: (...) -> None
CORE.add(expression, require=require)
def get_variable(id): # type: (ID) -> Generator[MockObj]
for var in CORE.get_variable(id):
yield None
yield var
def process_lambda(value, # type: Lambda
parameters, # type: List[Tuple[Expression, str]]
capture='=', # type: str
return_type=None # type: Optional[Expression]
):
# type: (...) -> Generator[LambdaExpression]
from esphomeyaml.components.globals import GlobalVariableComponent
if value is None:
yield
return
parts = value.parts[:]
for i, id in enumerate(value.requires_ids):
for full_id, var in CORE.get_variable_with_full_id(id):
yield
if full_id is not None and isinstance(full_id.type, MockObjClass) and \
full_id.type.inherits_from(GlobalVariableComponent):
parts[i * 3 + 1] = var.value()
continue
if parts[i * 3 + 2] == '.':
parts[i * 3 + 1] = var._
else:
parts[i * 3 + 1] = var
parts[i * 3 + 2] = ''
yield LambdaExpression(parts, parameters, capture, return_type)
def templatable(value, # type: Any
input_type, # type: Expression
output_type # type: Optional[Expression]
):
if isinstance(value, Lambda):
lambda_ = None
for lambda_ in process_lambda(value, [(input_type, 'x')], return_type=output_type):
yield None
yield lambda_
else:
yield value
class MockObj(Expression):
def __init__(self, base, op=u'.', has_side_effects=True):
self.base = base
self.op = op
self._has_side_effects = has_side_effects
super(MockObj, self).__init__()
def __getattr__(self, attr): # type: (str) -> MockObj
if attr == u'_':
obj = MockObj(u'{}{}'.format(self.base, self.op))
obj.requires.append(self)
return obj
if attr == u'new':
obj = MockObj(u'new {}'.format(self.base), u'->')
obj.requires.append(self)
return obj
next_op = u'.'
if attr.startswith(u'P') and self.op not in ['::', '']:
attr = attr[1:]
next_op = u'->'
if attr.startswith(u'_'):
attr = attr[1:]
obj = MockObj(u'{}{}{}'.format(self.base, self.op, attr), next_op)
obj.requires.append(self)
return obj
def __call__(self, *args, **kwargs): # type: (*Any, **Any) -> MockObj
call = CallExpression(self.base, *args)
obj = MockObj(call, self.op)
obj.requires.append(self)
obj.requires.append(call)
return obj
def __str__(self): # type: () -> unicode
return text_type(self.base)
def require(self): # type: () -> None
self.required = True
for require in self.requires:
if require.required:
continue
require.require()
def template(self, args): # type: (Union[TemplateArguments, Expression]) -> MockObj
if not isinstance(args, TemplateArguments):
args = TemplateArguments(args)
obj = MockObj(u'{}{}'.format(self.base, args))
obj.requires.append(self)
obj.requires.append(args)
return obj
def namespace(self, name): # type: (str) -> MockObj
obj = MockObj(u'{}{}{}'.format(self.base, self.op, name), u'::')
obj.requires.append(self)
return obj
def class_(self, name, *parents): # type: (str, *MockObjClass) -> MockObjClass
op = '' if self.op == '' else '::'
obj = MockObjClass(u'{}{}{}'.format(self.base, op, name), u'.', parents=parents)
obj.requires.append(self)
return obj
def struct(self, name): # type: (str) -> MockObjClass
return self.class_(name)
def enum(self, name, is_class=False): # type: (str, bool) -> MockObj
if is_class:
return self.namespace(name)
return self
def operator(self, name): # type: (str) -> MockObj
if name == 'ref':
obj = MockObj(u'{} &'.format(self.base), u'')
obj.requires.append(self)
return obj
if name == 'ptr':
obj = MockObj(u'{} *'.format(self.base), u'')
obj.requires.append(self)
return obj
if name == "const":
obj = MockObj(u'const {}'.format(self.base), u'')
obj.requires.append(self)
return obj
raise NotImplementedError
def has_side_effects(self): # type: () -> bool
return self._has_side_effects
def __getitem__(self, item): # type: (Union[str, Expression]) -> MockObj
next_op = u'.'
if isinstance(item, str) and item.startswith(u'P'):
item = item[1:]
next_op = u'->'
obj = MockObj(u'{}[{}]'.format(self.base, item), next_op)
obj.requires.append(self)
if isinstance(item, Expression):
obj.requires.append(item)
return obj
class MockObjClass(MockObj):
def __init__(self, *args, **kwargs):
parens = kwargs.pop('parents')
MockObj.__init__(self, *args, **kwargs)
self._parents = []
for paren in parens:
if not isinstance(paren, MockObjClass):
raise ValueError
self._parents.append(paren)
# pylint: disable=protected-access
self._parents += paren._parents
def inherits_from(self, other): # type: (MockObjClass) -> bool
if self == other:
return True
for parent in self._parents:
if parent == other:
return True
return False
def template(self, args): # type: (Union[TemplateArguments, Expression]) -> MockObjClass
if not isinstance(args, TemplateArguments):
args = TemplateArguments(args)
new_parents = self._parents[:]
new_parents.append(self)
obj = MockObjClass(u'{}{}'.format(self.base, args), parents=new_parents)
obj.requires.append(self)
obj.requires.append(args)
return obj
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