module typing
import flow
-import modelbuilder
+import modelize_property
+import phase
+import local_var_init
+
+redef class ToolContext
+ var typing_phase: Phase = new TypingPhase(self, [flow_phase, modelize_property_phase, local_var_init_phase])
+end
+
+private class TypingPhase
+ super Phase
+ redef fun process_npropdef(npropdef) do npropdef.do_typing(toolcontext.modelbuilder)
+end
private class TypeVisitor
var modelbuilder: ModelBuilder
return res
end
- # Retrieve the signature of a MMethodDef resolved for a specific call.
+ # Retrieve the signature of a `MMethodDef` resolved for a specific call.
# This method is an helper to symplify the query on the model.
#
# Note: `for_self` indicates if the reciever is self or not.
# Check that `sub` is a subtype of `sup`.
# If `sub` is not a valud suptype, then display an error on `node` an return null.
# If `sub` is a safe subtype of `sup` then return `sub`.
- # If `sun` is an insafe subtype (ie an imlicit cast is required), then return `sup`.
+ # If `sub` is an insafe subtype (ie an imlicit cast is required), then return `sup`.
#
# The point of the return type is to determinate the usable type on an expression:
# If the suptype is safe, then the return type is the one on the expression typed by `sub`.
# Return the type of the expression
# Display an error and return null if:
# * the type cannot be determined or
- # * `nexpr' is a statement
+ # * `nexpr` is a statement
fun visit_expr(nexpr: AExpr): nullable MType
do
nexpr.accept_typing(self)
return null
end
- # Visit an expression and expect its static type is a least a `sup'
- # Return the type of the expression
+ # Visit an expression and expect its static type is a least a `sup`
+ # Return the type of the expression or null if
# * the type cannot be determined or
- # * `nexpr' is a statement
- # * `nexpt' is not a `sup'
+ # * `nexpr` is a statement or
+ # * `nexpr` is not a `sup`
fun visit_expr_subtype(nexpr: AExpr, sup: nullable MType): nullable MType
do
var sub = visit_expr(nexpr)
return res
end
- # Visit an expression and expect its static type is a bool
- # Return the type of the expression
+ # Visit an expression and expect its static type is a `Bool`
+ # Return the type of the expression or null if
# * the type cannot be determined or
- # * `nexpr' is a statement
- # * `nexpt' is not a `sup'
+ # * `nexpr` is a statement or
+ # * `nexpr` is not a `Bool`
fun visit_expr_bool(nexpr: AExpr): nullable MType
do
return self.visit_expr_subtype(nexpr, self.type_bool(nexpr))
var mtype: nullable MType = null
# Is the statement correctly typed?
- # Used to distinguish errors and statements when `mtype' == null
+ # Used to distinguish errors and statements when `mtype == null`
var is_typed: Bool = false
- # If required, the following implicit cast ".as(XXX)"
+ # If required, the following implicit cast `.as(XXX)`
# Such a cast may by required after evaluating the expression when
# a unsafe operation is detected (silently accepted by the Nit language).
# The attribute is computed by `check_subtype`
for e in self.n_expr do v.visit_stmt(e)
self.is_typed = true
end
+
+ # The type of a blockexpr is the one of the last expression (or null if empty)
+ redef fun mtype
+ do
+ if self.n_expr.is_empty then return null
+ return self.n_expr.last.mtype
+ end
end
redef class AVardeclExpr
end
end
- if mtype == null then
- mtype = v.get_mclass(self, "Object").mclass_type.as_nullable
+ var decltype = mtype
+ if mtype == null or mtype isa MNullType then
+ decltype = v.get_mclass(self, "Object").mclass_type.as_nullable
+ if mtype == null then mtype = decltype
end
- variable.declared_type = mtype
+ variable.declared_type = decltype
v.set_variable(self, variable, mtype)
#debug("var {variable}: {mtype}")
var read_type: nullable MType = null
- # Determine the `reassign_property'
- # `readtype' is the type of the reading of the left value.
- # `writetype' is the type of the writing of the left value.
- # (Because of ACallReassignExpr, both can be different.
+ # Determine the `reassign_property`
+ # `readtype` is the type of the reading of the left value.
+ # `writetype` is the type of the writing of the left value.
+ # (Because of `ACallReassignExpr`, both can be different.
# Return the static type of the value to store.
private fun resolve_reassignment(v: TypeVisitor, readtype, writetype: MType): nullable MType
do
redef class AIsaExpr
# The static type to cast to.
- # (different from the static type of the expression that is Bool).
+ # (different from the static type of the expression that is `Bool`).
var cast_type: nullable MType
redef fun accept_typing(v)
do
end
v.error(self, "Error: No super method to call for {mproperty}.")
return
- else if superprops.length > 1 then
- v.modelbuilder.warning(self, "Warning: NOT YET IMPLEMENTED: Conflicting super method to call for {mproperty}: {superprops.join(", ")}.")
- return
end
+ # FIXME: covariance of return type in linear extension?
var superprop = superprops.first
assert superprop isa MMethodDef
v.check_signature(self, args, mproperty.name, msignature)
end
self.mtype = msignature.return_mtype
+ self.is_typed = true
end
private fun process_superinit(v: TypeVisitor)
var umtype = v.anchor_to(mtype)
v.modelbuilder.warning(self, "Found type {expr} (-> {unsafe}), expected {mtype} (-> {umtype})")
end
+ self.is_typed = true
end
end