forked from M-Labs/artiq
compiler: fix quoting of methods (fixes #423).
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whitequark
parent
4c78bb4950
commit
4e5d752951
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@ -105,13 +105,24 @@ class ASTSynthesizer:
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loc=begin_loc.join(end_loc))
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elif inspect.isfunction(value) or inspect.ismethod(value) or \
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isinstance(value, pytypes.BuiltinFunctionType):
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quote_loc = self._add('`')
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repr_loc = self._add(repr(value))
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unquote_loc = self._add('`')
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loc = quote_loc.join(unquote_loc)
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if inspect.ismethod(value):
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quoted_self = self.quote(value.__self__)
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function_type = self.quote_function(value.__func__, self.expanded_from)
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method_type = types.TMethod(quoted_self.type, function_type)
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function_type = self.quote_function(value, self.expanded_from)
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return asttyped.QuoteT(value=value, type=function_type, loc=loc)
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dot_loc = self._add('.')
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name_loc = self._add(value.__func__.__name__)
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loc = quoted_self.loc.join(name_loc)
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return asttyped.QuoteT(value=value, type=method_type,
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self_loc=quoted_self.loc, loc=loc)
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else:
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function_type = self.quote_function(value, self.expanded_from)
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quote_loc = self._add('`')
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repr_loc = self._add(repr(value))
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unquote_loc = self._add('`')
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loc = quote_loc.join(unquote_loc)
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return asttyped.QuoteT(value=value, type=function_type, loc=loc)
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else:
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quote_loc = self._add('`')
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repr_loc = self._add(repr(value))
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@ -476,6 +487,16 @@ class StitchingInferencer(Inferencer):
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super()._unify_attribute(result_type, value_node, attr_name, attr_loc, loc)
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def visit_QuoteT(self, node):
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if inspect.ismethod(node.value):
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if types.is_rpc(types.get_method_function(node.type)):
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return
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self._unify_method_self(method_type=node.type,
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attr_name=node.value.__func__.__name__,
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attr_loc=None,
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loc=node.loc,
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self_loc=node.self_loc)
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class TypedtreeHasher(algorithm.Visitor):
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def generic_visit(self, node):
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def freeze(obj):
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@ -770,8 +791,12 @@ class Stitcher:
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if isinstance(callee, pytypes.BuiltinFunctionType):
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pass
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elif isinstance(callee, pytypes.FunctionType):
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signature = inspect.signature(callee)
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elif isinstance(callee, pytypes.FunctionType) or isinstance(callee, pytypes.MethodType):
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if isinstance(callee, pytypes.FunctionType):
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signature = inspect.signature(callee)
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else:
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# inspect bug?
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signature = inspect.signature(callee.__func__)
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if signature.return_annotation is not inspect.Signature.empty:
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ret_type = self._extract_annot(callee, signature.return_annotation,
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"return type", loc, is_syscall=False)
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@ -92,6 +92,41 @@ class Inferencer(algorithm.Visitor):
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attr_name=node.attr, attr_loc=node.attr_loc,
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loc=node.loc)
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def _unify_method_self(self, method_type, attr_name, attr_loc, loc, self_loc):
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self_type = types.get_method_self(method_type)
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function_type = types.get_method_function(method_type)
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if len(function_type.args) < 1:
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diag = diagnostic.Diagnostic("error",
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"function '{attr}{type}' of class '{class}' cannot accept a self argument",
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{"attr": attr_name, "type": types.TypePrinter().name(function_type),
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"class": self_type.name},
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loc)
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self.engine.process(diag)
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else:
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def makenotes(printer, typea, typeb, loca, locb):
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if attr_loc is None:
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msgb = "reference to an instance with a method '{attr}{typeb}'"
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else:
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msgb = "reference to a method '{attr}{typeb}'"
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return [
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diagnostic.Diagnostic("note",
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"expression of type {typea}",
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{"typea": printer.name(typea)},
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loca),
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diagnostic.Diagnostic("note",
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msgb,
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{"attr": attr_name,
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"typeb": printer.name(function_type)},
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locb)
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]
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self._unify(self_type, list(function_type.args.values())[0],
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self_loc, loc,
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makenotes=makenotes,
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when=" while inferring the type for self argument")
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def _unify_attribute(self, result_type, value_node, attr_name, attr_loc, loc):
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object_type = value_node.type.find()
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if not types.is_var(object_type):
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@ -116,39 +151,8 @@ class Inferencer(algorithm.Visitor):
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attr_type = object_type.constructor.attributes[attr_name].find()
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if types.is_function(attr_type):
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# Convert to a method.
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if len(attr_type.args) < 1:
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diag = diagnostic.Diagnostic("error",
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"function '{attr}{type}' of class '{class}' cannot accept a self argument",
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{"attr": attr_name, "type": types.TypePrinter().name(attr_type),
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"class": object_type.name},
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loc)
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self.engine.process(diag)
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return
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else:
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def makenotes(printer, typea, typeb, loca, locb):
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if attr_loc is None:
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msgb = "reference to an instance with a method '{attr}{typeb}'"
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else:
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msgb = "reference to a method '{attr}{typeb}'"
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return [
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diagnostic.Diagnostic("note",
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"expression of type {typea}",
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{"typea": printer.name(typea)},
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loca),
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diagnostic.Diagnostic("note",
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msgb,
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{"attr": attr_name,
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"typeb": printer.name(attr_type)},
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locb)
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]
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self._unify(object_type, list(attr_type.args.values())[0],
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value_node.loc, loc,
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makenotes=makenotes,
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when=" while inferring the type for self argument")
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attr_type = types.TMethod(object_type, attr_type)
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self._unify_method_self(attr_type, attr_name, attr_loc, loc, value_node.loc)
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elif types.is_rpc(attr_type):
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# Convert to a method. We don't have to bother typechecking
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# the self argument, since for RPCs anything goes.
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@ -894,6 +898,8 @@ class Inferencer(algorithm.Visitor):
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self._unify(node.type, typ.ret,
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node.loc, None)
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return
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elif typ.arity() == 0:
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return # error elsewhere
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typ_arity = typ.arity() - 1
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typ_args = OrderedDict(list(typ.args.items())[1:])
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@ -1395,18 +1395,28 @@ class LLVMIRGenerator:
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lleltsptr = llglobal.bitcast(lleltsary.type.element.as_pointer())
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llconst = ll.Constant(llty, [ll.Constant(lli32, len(llelts)), lleltsptr])
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return llconst
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elif types.is_rpc(typ) or types.is_function(typ):
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elif types.is_rpc(typ) or types.is_c_function(typ):
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# RPC and C functions have no runtime representation.
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# We only get down this codepath for ARTIQ Python functions when they're
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# referenced from a constructor, and the value inside the constructor
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# is never used.
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return ll.Constant(llty, ll.Undefined)
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elif types.is_function(typ):
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llfun = self.get_function(typ, self.function_map[value])
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llclosure = ll.Constant(self.llty_of_type(typ), [
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ll.Constant(llptr, ll.Undefined),
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llfun
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])
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return llclosure
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elif types.is_method(typ):
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llclosure = self._quote(value.__func__, types.get_method_function(typ),
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lambda: path() + ['__func__'])
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llself = self._quote(value.__self__, types.get_method_self(typ),
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lambda: path() + ['__self__'])
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return ll.Constant(llty, [llclosure, llself])
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else:
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print(typ)
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assert False
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def process_Quote(self, insn):
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if insn.value in self.function_map:
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if insn.value in self.function_map and types.is_function(insn.type):
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llfun = self.get_function(insn.type.find(), self.function_map[insn.value])
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llclosure = ll.Constant(self.llty_of_type(insn.type), ll.Undefined)
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llclosure = self.llbuilder.insert_value(llclosure, llfun, 1, name=insn.name)
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@ -0,0 +1,19 @@
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# RUN: %python -m artiq.compiler.testbench.embedding +diag %s 2>%t
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# RUN: OutputCheck %s --file-to-check=%t
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from artiq.language.core import *
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from artiq.language.types import *
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class c:
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pass
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@kernel
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def f():
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pass
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c.f = f
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x = c().f
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@kernel
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def entrypoint():
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# CHECK-L: <synthesized>:1: error: function 'f()->NoneType delay('a)' of class 'testbench.c' cannot accept a self argument
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# CHECK-L: ${LINE:+1}: note: expanded from here
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x
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@ -0,0 +1,24 @@
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# RUN: %python -m artiq.compiler.testbench.embedding +diag %s 2>%t
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# RUN: OutputCheck %s --file-to-check=%t
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from artiq.language.core import *
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from artiq.language.types import *
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@kernel
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def f(self):
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core_log(self.x)
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class c:
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a = f
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x = 1
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class d:
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b = f
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x = 2
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xa = c().a
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xb = d().b
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@kernel
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def entrypoint():
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xa()
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# CHECK-L: <synthesized>:1: error: cannot unify <instance testbench.d> with <instance testbench.c
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# CHECK-L: ${LINE:+1}: note: expanded from here
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xb()
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