forked from M-Labs/artiq
Separate inference and asttyped transformation.
This allows to run inference several times on the same tree, as would be necessary when coercion nodes are added.
This commit is contained in:
whitequark
parent
e18ea0daae
commit
df686136f1
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@ -166,6 +166,22 @@ class Inferencer(algorithm.Transformer):
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loca, highlights, notes)
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self.engine.process(diag)
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# makenotes for the case where types of multiple elements are unified
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# with the type of parent expression
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def _makenotes_elts(self, elts, kind):
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def makenotes(printer, typea, typeb, loca, locb):
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return [
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diagnostic.Diagnostic("note",
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"{kind} of type {typea}",
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{"kind": kind, "typea": printer.name(elts[0].type)},
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elts[0].loc),
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diagnostic.Diagnostic("note",
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"{kind} of type {typeb}",
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{"kind": kind, "typeb": printer.name(typeb)},
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locb)
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]
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return makenotes
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def _find_name(self, name, loc):
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for typing_env in reversed(self.env_stack):
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if name in typing_env:
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@ -212,26 +228,6 @@ class Inferencer(algorithm.Transformer):
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return node
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def visit_Return(self, node):
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node = self.generic_visit(node)
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def makenotes(printer, typea, typeb, loca, locb):
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return [
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diagnostic.Diagnostic("note",
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"function with return type {typea}",
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{"typea": printer.name(typea)},
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self.function.name_loc),
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diagnostic.Diagnostic("note",
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"a statement returning {typeb}",
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{"typeb": printer.name(typeb)},
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node.loc)
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]
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if node.value is None:
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self._unify(self.function.return_type, types.TNone(),
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self.function.name_loc, node.loc, makenotes)
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else:
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self._unify(self.function.return_type, node.value.type,
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self.function.name_loc, node.value.loc, makenotes)
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def visit_Num(self, node):
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if isinstance(node.n, int):
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typ = types.TInt()
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@ -265,63 +261,55 @@ class Inferencer(algorithm.Transformer):
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node = self.generic_visit(node)
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node = asttyped.ListT(type=types.TList(),
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elts=node.elts, ctx=node.ctx, loc=node.loc)
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def makenotes(printer, typea, typeb, loca, locb):
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return [
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diagnostic.Diagnostic("note",
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"a list element of type {typea}",
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{"typea": printer.name(node.elts[0].type)},
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node.elts[0].loc),
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diagnostic.Diagnostic("note",
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"a list element of type {typeb}",
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{"typeb": printer.name(typeb)},
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locb)
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]
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for elt in node.elts:
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self._unify(node.type["elt"], elt.type,
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node.loc, elt.loc, makenotes)
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return node
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return self.visit(node)
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def visit_Subscript(self, node):
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node = self.generic_visit(node)
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node = asttyped.SubscriptT(type=types.TVar(),
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value=node.value, slice=node.slice, ctx=node.ctx,
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loc=node.loc)
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# TODO: support more than just lists
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self._unify(types.TList(node.type), node.value.type,
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node.loc, node.value.loc)
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return node
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return self.visit(node)
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def visit_IfExp(self, node):
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node = self.generic_visit(node)
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self._unify(node.body.type, node.orelse.type,
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node.body.loc, node.orelse.loc)
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return asttyped.IfExpT(type=node.body.type,
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node = asttyped.IfExpT(type=types.TVar(),
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test=node.test, body=node.body, orelse=node.orelse,
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if_loc=node.if_loc, else_loc=node.else_loc, loc=node.loc)
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return self.visit(node)
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def visit_BoolOp(self, node):
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node = self.generic_visit(node)
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node = asttyped.BoolOpT(type=types.TVar(),
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op=node.op, values=node.values,
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op_locs=node.op_locs, loc=node.loc)
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def makenotes(printer, typea, typeb, loca, locb):
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return [
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diagnostic.Diagnostic("note",
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"an operand of type {typea}",
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{"typea": printer.name(node.values[0].type)},
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node.values[0].loc),
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diagnostic.Diagnostic("note",
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"an operand of type {typeb}",
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{"typeb": printer.name(typeb)},
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locb)
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]
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for value in node.values:
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self._unify(node.type, value.type,
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node.loc, value.loc, makenotes)
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return node
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return self.visit(node)
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# Visitors that just unify types
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#
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def visit_ListT(self, node):
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for elt in node.elts:
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self._unify(node.type["elt"], elt.type,
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node.loc, elt.loc, self._makenotes_elts(node.elts, "a list element"))
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return node
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def visit_SubscriptT(self, node):
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# TODO: support more than just lists
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self._unify(types.TList(node.type), node.value.type,
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node.loc, node.value.loc)
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return node
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def visit_IfExpT(self, node):
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self._unify(node.body.type, node.orelse.type,
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node.body.loc, node.orelse.loc)
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node.type = node.body.type
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return node
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def visit_BoolOpT(self, node):
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for value in node.values:
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self._unify(node.type, value.type,
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node.loc, value.loc, self._makenotes_elts(node.values, "an operand"))
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return node
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def visit_Assign(self, node):
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node = self.generic_visit(node)
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if len(node.targets) > 1:
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@ -345,6 +333,26 @@ class Inferencer(algorithm.Transformer):
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node.target.loc, node.iter.loc)
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return node
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def visit_Return(self, node):
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node = self.generic_visit(node)
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def makenotes(printer, typea, typeb, loca, locb):
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return [
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diagnostic.Diagnostic("note",
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"function with return type {typea}",
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{"typea": printer.name(typea)},
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self.function.name_loc),
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diagnostic.Diagnostic("note",
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"a statement returning {typeb}",
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{"typeb": printer.name(typeb)},
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node.loc)
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]
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if node.value is None:
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self._unify(self.function.return_type, types.TNone(),
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self.function.name_loc, node.loc, makenotes)
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else:
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self._unify(self.function.return_type, node.value.type,
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self.function.name_loc, node.value.loc, makenotes)
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# Unsupported visitors
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#
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def visit_unsupported(self, node):
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