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https://github.com/m-labs/artiq.git
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397 lines
11 KiB
Python
397 lines
11 KiB
Python
"""
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The :mod:`types` module contains the classes describing the types
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in :mod:`asttyped`.
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"""
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import string
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from collections import OrderedDict
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def genalnum():
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ident = ["a"]
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while True:
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yield "".join(ident)
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pos = len(ident) - 1
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while pos >= 0:
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cur_n = string.ascii_lowercase.index(ident[pos])
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if cur_n < 25:
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ident[pos] = string.ascii_lowercase[cur_n + 1]
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break
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else:
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ident[pos] = "a"
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pos -= 1
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if pos < 0:
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ident = ["a"] + ident
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class UnificationError(Exception):
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def __init__(self, typea, typeb):
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self.typea, self.typeb = typea, typeb
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def _map_find(elts):
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if isinstance(elts, list):
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return [x.find() for x in elts]
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elif isinstance(elts, dict):
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return {k: elts[k].find() for k in elts}
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else:
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assert False
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class Type(object):
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pass
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class TVar(Type):
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"""
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A type variable.
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In effect, the classic union-find data structure is intrusively
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folded into this class.
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"""
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def __init__(self):
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self.parent = self
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def find(self):
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if self.parent is self:
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return self
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else:
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root = self.parent.find()
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self.parent = root # path compression
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return root
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def unify(self, other):
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other = other.find()
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if self.parent is self:
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self.parent = other
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else:
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self.find().unify(other)
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def fold(self, accum, fn):
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if self.parent is self:
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return fn(accum, self)
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else:
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return self.find().fold(accum, fn)
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def __repr__(self):
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if self.parent is self:
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return "<py2llvm.types.TVar %d>" % id(self)
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else:
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return repr(self.find())
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# __eq__ and __hash__ are not overridden and default to
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# comparison by identity. Use .find() explicitly before
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# any lookups or comparisons.
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class TMono(Type):
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"""
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A monomorphic type, possibly parametric.
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:class:`TMono` is supposed to be subclassed by builtin types,
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unlike all other :class:`Type` descendants. Similarly,
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instances of :class:`TMono` should never be allocated directly,
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as that will break the type-sniffing code in :mod:`builtins`.
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"""
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attributes = OrderedDict()
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def __init__(self, name, params={}):
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self.name, self.params = name, params
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def find(self):
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return self
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def unify(self, other):
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if isinstance(other, TMono) and self.name == other.name:
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assert self.params.keys() == other.params.keys()
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for param in self.params:
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self.params[param].unify(other.params[param])
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elif isinstance(other, TVar):
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other.unify(self)
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else:
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raise UnificationError(self, other)
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def fold(self, accum, fn):
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for param in self.params:
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accum = self.params[param].fold(accum, fn)
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return fn(accum, self)
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def __repr__(self):
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return "py2llvm.types.TMono(%s, %s)" % (repr(self.name), repr(self.params))
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def __getitem__(self, param):
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return self.params[param]
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def __eq__(self, other):
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return isinstance(other, TMono) and \
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self.name == other.name and \
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_map_find(self.params) == _map_find(other.params)
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def __ne__(self, other):
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return not (self == other)
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class TTuple(Type):
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"""
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A tuple type.
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:ivar elts: (list of :class:`Type`) elements
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"""
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attributes = OrderedDict()
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def __init__(self, elts=[]):
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self.elts = elts
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def find(self):
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return self
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def unify(self, other):
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if isinstance(other, TTuple) and len(self.elts) == len(other.elts):
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for selfelt, otherelt in zip(self.elts, other.elts):
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selfelt.unify(otherelt)
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elif isinstance(other, TVar):
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other.unify(self)
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else:
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raise UnificationError(self, other)
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def fold(self, accum, fn):
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for elt in self.elts:
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accum = elt.fold(accum, fn)
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return fn(accum, self)
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def __repr__(self):
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return "py2llvm.types.TTuple(%s)" % repr(self.elts)
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def __eq__(self, other):
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return isinstance(other, TTuple) and \
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_map_find(self.elts) == _map_find(other.elts)
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def __ne__(self, other):
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return not (self == other)
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class TFunction(Type):
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"""
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A function type.
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:ivar args: (:class:`collections.OrderedDict` of string to :class:`Type`)
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mandatory arguments
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:ivar optargs: (:class:`collections.OrderedDict` of string to :class:`Type`)
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optional arguments
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:ivar ret: (:class:`Type`)
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return type
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"""
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attributes = OrderedDict()
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def __init__(self, args, optargs, ret):
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self.args, self.optargs, self.ret = args, optargs, ret
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def arity(self):
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return len(self.args) + len(self.optargs)
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def find(self):
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return self
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def unify(self, other):
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if isinstance(other, TFunction) and \
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self.args.keys() == other.args.keys() and \
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self.optargs.keys() == other.optargs.keys():
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for selfarg, otherarg in zip(list(self.args.values()) + list(self.optargs.values()),
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list(other.args.values()) + list(other.optargs.values())):
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selfarg.unify(otherarg)
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self.ret.unify(other.ret)
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elif isinstance(other, TVar):
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other.unify(self)
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else:
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raise UnificationError(self, other)
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def fold(self, accum, fn):
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for arg in self.args:
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accum = self.args[arg].fold(accum, fn)
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for optarg in self.optargs:
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accum = self.optargs[optarg].fold(accum, fn)
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accum = self.ret.fold(accum, fn)
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return fn(accum, self)
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def __repr__(self):
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return "py2llvm.types.TFunction({}, {}, {})".format(
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repr(self.args), repr(self.optargs), repr(self.ret))
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def __eq__(self, other):
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return isinstance(other, TFunction) and \
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_map_find(self.args) == _map_find(other.args) and \
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_map_find(self.optargs) == _map_find(other.optargs)
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def __ne__(self, other):
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return not (self == other)
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class TBuiltin(Type):
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"""
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An instance of builtin type. Every instance of a builtin
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type is treated specially according to its name.
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"""
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def __init__(self, name):
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self.name = name
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self.attributes = OrderedDict()
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def find(self):
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return self
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def unify(self, other):
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if self != other:
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raise UnificationError(self, other)
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def fold(self, accum, fn):
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return fn(accum, self)
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def __repr__(self):
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return "py2llvm.types.TBuiltin(%s)" % repr(self.name)
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def __eq__(self, other):
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return isinstance(other, TBuiltin) and \
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self.name == other.name
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def __ne__(self, other):
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return not (self == other)
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class TBuiltinFunction(TBuiltin):
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"""
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A type of a builtin function.
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"""
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class TConstructor(TBuiltin):
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"""
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A type of a constructor of a builtin class, e.g. ``list``.
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Note that this is not the same as the type of an instance of
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the class, which is ``TMono("list", ...)``.
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"""
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class TExceptionConstructor(TBuiltin):
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"""
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A type of a constructor of a builtin exception, e.g. ``Exception``.
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Note that this is not the same as the type of an instance of
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the class, which is ``TMono("Exception", ...)``.
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"""
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class TValue(Type):
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"""
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A type-level value (such as the integer denoting width of
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a generic integer type.
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"""
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def __init__(self, value):
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self.value = value
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def find(self):
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return self
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def unify(self, other):
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if isinstance(other, TVar):
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other.unify(self)
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elif self != other:
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raise UnificationError(self, other)
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def fold(self, accum, fn):
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return fn(accum, self)
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def __repr__(self):
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return "py2llvm.types.TValue(%s)" % repr(self.value)
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def __eq__(self, other):
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return isinstance(other, TValue) and \
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self.value == other.value
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def __ne__(self, other):
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return not (self == other)
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def is_var(typ):
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return isinstance(typ.find(), TVar)
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def is_mono(typ, name=None, **params):
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typ = typ.find()
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params_match = True
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for param in params:
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params_match = params_match and \
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typ.params[param].find() == params[param].find()
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return isinstance(typ, TMono) and \
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(name is None or (typ.name == name and params_match))
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def is_polymorphic(typ):
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return typ.fold(False, lambda accum, typ: accum or is_var(typ))
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def is_tuple(typ, elts=None):
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typ = typ.find()
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if elts:
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return isinstance(typ, TTuple) and \
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elts == typ.elts
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else:
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return isinstance(typ, TTuple)
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def is_function(typ):
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return isinstance(typ.find(), TFunction)
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def is_builtin(typ, name=None):
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typ = typ.find()
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if name is None:
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return isinstance(typ, TBuiltin)
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else:
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return isinstance(typ, TBuiltin) and \
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typ.name == name
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def is_exn_constructor(typ, name=None):
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typ = typ.find()
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if name is not None:
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return isinstance(typ, TExceptionConstructor) and \
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typ.name == name
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else:
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return isinstance(typ, TExceptionConstructor)
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def get_value(typ):
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typ = typ.find()
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if isinstance(typ, TVar):
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return None
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elif isinstance(typ, TValue):
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return typ.value
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else:
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assert False
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class TypePrinter(object):
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"""
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A class that prints types using Python-like syntax and gives
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type variables sequential alphabetic names.
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"""
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def __init__(self):
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self.gen = genalnum()
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self.map = {}
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def name(self, typ):
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typ = typ.find()
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if isinstance(typ, TVar):
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if typ not in self.map:
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self.map[typ] = "'%s" % next(self.gen)
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return self.map[typ]
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elif isinstance(typ, TMono):
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if typ.params == {}:
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return typ.name
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else:
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return "%s(%s)" % (typ.name, ", ".join(
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["%s=%s" % (k, self.name(typ.params[k])) for k in typ.params]))
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elif isinstance(typ, TTuple):
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if len(typ.elts) == 1:
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return "(%s,)" % self.name(typ.elts[0])
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else:
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return "(%s)" % ", ".join(list(map(self.name, typ.elts)))
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elif isinstance(typ, TFunction):
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args = []
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args += [ "%s:%s" % (arg, self.name(typ.args[arg])) for arg in typ.args]
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args += ["?%s:%s" % (arg, self.name(typ.optargs[arg])) for arg in typ.optargs]
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return "(%s)->%s" % (", ".join(args), self.name(typ.ret))
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elif isinstance(typ, TBuiltinFunction):
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return "<function %s>" % typ.name
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elif isinstance(typ, (TConstructor, TExceptionConstructor)):
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return "<constructor %s>" % typ.name
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elif isinstance(typ, TValue):
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return repr(typ.value)
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else:
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assert False
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