nmodule.inits_to_retype.clear
# collect all classes
- var auto_serializable_nclassdefs = new Array[AStdClassdef]
- for nclassdef in nmodule.n_classdefs do
- if nclassdef isa AStdClassdef and nclassdef.how_serialize != null then
- auto_serializable_nclassdefs.add nclassdef
- end
- end
-
+ var auto_serializable_nclassdefs = nmodule.auto_serializable_nclassdefs
if not auto_serializable_nclassdefs.is_empty then
generate_deserialization_method(nmodule, auto_serializable_nclassdefs)
end
end
+ # Implement `core_serialize_to` on `nclassdef`
+ #
+ # Are attributes serialized on demand `per_attribute` with `serialize`?
+ # Otherwise they are serialized by default, and we check instead for `noserialize`.
fun generate_serialization_method(nclassdef: AClassdef, per_attribute: Bool)
do
var npropdefs = nclassdef.n_propdefs
+ # Do not insert a `core_serialize_to` if it already exists
+ for npropdef in npropdefs do
+ if npropdef isa AMethPropdef then
+ var methid = npropdef.n_methid
+ if methid != null and methid.collect_text == "core_serialize_to" then
+ return
+ end
+ end
+ end
+
var code = new Array[String]
code.add "redef fun core_serialize_to(v)"
code.add "do"
nclassdef.parent.as(AModule).inits_to_retype.add npropdef
end
- # Added to the abstract serialization service
+ # Add an empty `Deserializer::deserialize_class_intern`
+ #
+ # Will be filled by `SerializationPhasePostModel`.
fun generate_deserialization_method(nmodule: AModule, nclassdefs: Array[AStdClassdef])
do
var code = new Array[String]
if deserializer_npropdef == null then
# create the property
- code.add " redef fun deserialize_class_intern(name)"
- code.add " do"
+ code.add " redef fun deserialize_class_intern(name) do abort"
else
toolcontext.error(deserializer_npropdef.location, "Error: `Deserializer::deserialize_class_intern` is generated and must not be defined, use `deserialize_class` instead.")
return
end
- for nclassdef in nclassdefs do
- var n_qid = nclassdef.n_qid
- if n_qid == null then continue
- var name = n_qid.n_id.text
- if nclassdef.n_formaldefs.is_empty and
- nclassdef.n_classkind isa AConcreteClasskind then
-
- code.add " if name == \"{name}\" then return new {name}.from_deserializer(self)"
- end
- end
-
- code.add " return super"
- code.add " end"
-
if deserializer_nclassdef == null then
code.add "end"
nmodule.n_classdefs.add toolcontext.parse_classdef(code.join("\n"))
private class SerializationPhasePostModel
super Phase
+ # Fill the deserialization init `from_deserializer` and `Deserializer.deserialize_class_intern`
redef fun process_nmodule(nmodule)
do
for npropdef in nmodule.inits_to_retype do
var per_attribute = not serialize_by_default
fill_deserialization_init(nclassdef, npropdef, per_attribute)
end
+
+ # collect all classes
+ var auto_serializable_nclassdefs = nmodule.auto_serializable_nclassdefs
+ if not auto_serializable_nclassdefs.is_empty then
+ fill_deserialization_method(nmodule, auto_serializable_nclassdefs)
+ end
end
# Fill the constructor to the generated `init_npropdef` of `nclassdef`
var type_name = mtype.to_s
var name = attribute.name
+ var resolved_type_name = type_name
+ var mclassdef = nclassdef.mclassdef
+ if mclassdef != null then
+ var bound_mtype = mclassdef.bound_mtype
+ var resolved_mtype = mtype.resolve_for(bound_mtype, bound_mtype, mclassdef.mmodule, true)
+ resolved_type_name = resolved_mtype.name
+
+ # TODO Use something like `V.class_name` to get the precise runtime type of virtual types.
+ # We currently use the upper bound of virtual types as static type in generated code
+ # for type suggestion and to prevent loading unexected types.
+ # This leaves a security issue when, for example, `DefaultMap::default_value`
+ # is bound to `nullable Object` and would allow any object to be loaded.
+ end
+
if type_name == "nullable Object" then
# Don't type check
code.add """
- var {{{name}}} = v.deserialize_attribute("{{{attribute.serialize_name}}}", "{{{type_name}}}")
+ self.{{{name}}} = v.deserialize_attribute("{{{attribute.serialize_name}}}", "{{{resolved_type_name}}}")
"""
- else code.add """
- var {{{name}}} = v.deserialize_attribute("{{{attribute.serialize_name}}}", "{{{type_name}}}")
- if not {{{name}}} isa {{{type_name}}} then
- # Check if it was a subjectent error
- v.errors.add new AttributeTypeError(self, "{{{attribute.serialize_name}}}", {{{name}}}, "{{{type_name}}}")
+ else
+ code.add """
+ var {{{name}}} = v.deserialize_attribute("{{{attribute.serialize_name}}}", "{{{resolved_type_name}}}")
+ if v.deserialize_attribute_missing then
+"""
+ # What to do when an attribute is missing?
+ if attribute.has_value then
+ # Leave it to the default value
+ else if mtype isa MNullableType then
+ code.add """
+ self.{{{name}}} = null"""
+ else code.add """
+ v.errors.add new Error("Deserialization Error: attribute `{class_name}::{{{name}}}` missing from JSON object")"""
- # Clear subjacent error
+ code.add """
+ else if not {{{name}}} isa {{{type_name}}} then
+ v.errors.add new AttributeTypeError(self, "{{{attribute.serialize_name}}}", {{{name}}}, "{{{resolved_type_name}}}")
if v.keep_going == false then return
else
self.{{{name}}} = {{{name}}}
end
"""
+ end
end
code.add "end"
var v = new LiteralVisitor(toolcontext)
v.enter_visit(npropdef.n_block)
end
+
+ # Fill the abstract serialization service
+ fun fill_deserialization_method(nmodule: AModule, nclassdefs: Array[AStdClassdef])
+ do
+ var deserializer_nclassdef = nmodule.deserializer_nclassdef
+ if deserializer_nclassdef == null then return
+ var deserializer_npropdef = deserializer_nclassdef.deserializer_npropdef
+ if deserializer_npropdef == null then return
+
+ # Collect local types expected to be deserialized
+ var types_to_deserialize = new Set[String]
+
+ ## Local serializable standard class without parameters
+ for nclassdef in nclassdefs do
+ var mclass = nclassdef.mclass
+ if mclass == null then continue
+
+ if mclass.arity == 0 and mclass.kind == concrete_kind then
+ types_to_deserialize.add mclass.name
+ end
+ end
+
+ ## Static parametized types on serializable attributes
+ for nclassdef in nmodule.n_classdefs do
+ if not nclassdef isa AStdClassdef then continue
+
+ for attribute in nclassdef.n_propdefs do
+ if not attribute isa AAttrPropdef then continue
+
+ var serialize_by_default = nclassdef.how_serialize
+ if serialize_by_default == null then continue
+ var per_attribute = not serialize_by_default
+
+ # Is `attribute` to be skipped?
+ if (per_attribute and not attribute.is_serialize) or
+ attribute.is_noserialize then continue
+
+ var mtype = attribute.mtype
+ if mtype == null then continue
+ if mtype isa MNullableType then mtype = mtype.mtype
+
+ if mtype isa MClassType and mtype.mclass.arity > 0 and
+ mtype.mclass.kind == concrete_kind and not mtype.need_anchor then
+
+ # Check is a `Serializable`
+ var mmodule = nmodule.mmodule
+ if mmodule == null then continue
+
+ var greaters = mtype.mclass.in_hierarchy(mmodule).greaters
+ var is_serializable = false
+ for sup in greaters do if sup.name == "Serializable" then
+ is_serializable = true
+ break
+ end
+
+ if is_serializable then types_to_deserialize.add mtype.to_s
+ end
+ end
+ end
+
+ # Build implementation code
+ var code = new Array[String]
+ code.add "redef fun deserialize_class_intern(name)"
+ code.add "do"
+
+ for name in types_to_deserialize do
+ code.add " if name == \"{name}\" then return new {name}.from_deserializer(self)"
+ end
+
+ code.add " return super"
+ code.add "end"
+
+ # Replace the body of the constructor
+ var npropdef = toolcontext.parse_propdef(code.join("\n")).as(AMethPropdef)
+ deserializer_npropdef.n_block = npropdef.n_block
+
+ # Run the literal phase on the generated code
+ var v = new LiteralVisitor(toolcontext)
+ v.enter_visit(npropdef.n_block)
+ end
end
redef class AAttrPropdef
var n_moduledecl = n_moduledecl
return n_moduledecl != null and n_moduledecl.is_serialize
end
+
+ # `AStdClassdef` marked as serializable, itself or one of theur attribute
+ private var auto_serializable_nclassdefs: Array[AStdClassdef] is lazy do
+ var array = new Array[AStdClassdef]
+ for nclassdef in n_classdefs do
+ if nclassdef isa AStdClassdef and nclassdef.how_serialize != null then
+ array.add nclassdef
+ end
+ end
+ return array
+ end
end
redef class AStdClassdef