intrude import literal
intrude import parser
intrude import semantize::scope
+intrude import modelbuilder_base
+intrude import modelize_property
# General factory to build semantic nodes in the AST of expressions
class ASTBuilder
end
# Make a new method
- fun make_method(n_visibility: nullable APublicVisibility,
+ fun make_method(n_visibility: nullable AVisibility,
tk_redef: nullable TKwredef,
- mmethoddef: MMethodDef,
+ mmethoddef: nullable MMethodDef,
n_signature: nullable ASignature,
n_annotations: nullable AAnnotations,
n_extern_calls: nullable AExternCalls,
n_extern_code_block: nullable AExternCodeBlock,
- n_block: AExpr): AMethPropdef
+ n_block: nullable AExpr): AMethPropdef
do
return new AMethPropdef.make(n_visibility, tk_redef, mmethoddef, n_signature, n_annotations, n_extern_calls, n_extern_code_block, n_block)
end
do
return new AReturnExpr.make(expr)
end
+
+ # Make a new not
+ fun make_not(expr: AExpr): ANotExpr
+ do
+ return new ANotExpr.make(expr)
+ end
+
+ # Make a new attribute
+ fun make_attribute(name: String,
+ n_type: nullable AType,
+ n_visibility: nullable AVisibility,
+ initial_value: nullable AExpr,
+ n_block: nullable AExpr,
+ m_attributedef: nullable MAttributeDef,
+ m_setterdef: nullable MMethodDef,
+ m_getterdef: nullable MMethodDef): AAttrPropdef
+ do
+ return new AAttrPropdef.make(name, n_type, n_visibility, initial_value, n_block, m_attributedef, m_setterdef, m_getterdef)
+ end
+
+ # Make a new class (AStdClassdef)
+ fun make_class(mclassdef: nullable MClassDef,
+ n_visibility: nullable AVisibility,
+ n_formaldefs : Collection[AFormaldef],
+ n_extern_code_block : nullable AExternCodeBlock,
+ n_propdefs : Collection[APropdef],
+ n_classkind: nullable AClasskind): AStdClassdef
+ do
+ return new AStdClassdef.make(mclassdef, n_visibility, n_formaldefs, n_extern_code_block, n_propdefs, n_classkind)
+ end
+
+ fun make_var(variable: Variable, mtype: MType): AVarExpr
+ do
+ return new AVarExpr.make(variable, mtype)
+ end
+
+ # Make a call assignment i.e `a = 10`
+ fun make_call_assign(recv: AExpr, callsite: CallSite, n_args: nullable Collection[AExpr], n_value: AExpr): ACallAssignExpr
+ do
+ return new ACallAssignExpr.make(recv, callsite, n_args, n_value)
+ end
+
+ # Build a callsite to call the `mproperty` in the current method `caller_method`.
+ # `is_self_call` indicate if the method caller is a property of `self`
+ fun create_callsite(modelbuilder: ModelBuilder, caller_property: APropdef, mproperty: MMethod, is_self_call: Bool): CallSite
+ do
+ # FIXME It's not the better solution to call `TypeVisitor` here to build a model entity, but some make need to have a callsite
+ var type_visitor = new TypeVisitor(modelbuilder, caller_property.mpropdef.as(not null))
+ var callsite = type_visitor.build_callsite_by_property(caller_property, mproperty.intro_mclassdef.bound_mtype, mproperty, is_self_call)
+ assert callsite != null
+ return callsite
+ end
end
redef class AExpr
end
end
+redef class ACallAssignExpr
+ private init make(recv: AExpr, callsite: CallSite, args: nullable Collection[AExpr], n_value: AExpr)
+ do
+ _callsite = callsite
+ _mtype = callsite.recv
+ _is_typed = true
+ var n_args = new AListExprs
+ if args != null then
+ n_args.n_exprs.add_all(args)
+ end
+ var n_qid = new AQid
+ n_qid.n_id = new TId
+ n_qid.n_id.text = callsite.mproperty.name
+ init_acallassignexpr(recv, n_qid, n_args, new TAssign, n_value)
+ end
+end
+
+redef class AStdClassdef
+ private init make(mclassdef: nullable MClassDef,
+ n_visibility: nullable AVisibility,
+ n_formaldefs : Collection[Object],
+ n_extern_code_block : nullable AExternCodeBlock,
+ n_propdefs : Collection[Object],
+ n_classkind: nullable AClasskind)
+ do
+ if n_visibility == null then n_visibility = new APublicVisibility
+ if n_classkind == null then n_classkind = new AConcreteClasskind.init_aconcreteclasskind(new TKwclass)
+ var n_qid = new AQclassid.init_aqclassid(null, new TClassid)
+ init_astdclassdef(null, null, n_visibility, n_classkind, n_qid, null, n_formaldefs, null, n_extern_code_block, n_propdefs, new TKwend)
+ _mclassdef = mclassdef
+ _mclass = mclassdef.mclass
+ end
+end
+
+redef class AAttrPropdef
+
+ # Create a new `AAttrPropdef`
+ # Note: By default if the `AVisibility` is not given the visibility is set to public
+ private init make(name: String,
+ n_type: nullable AType,
+ n_visibility: nullable AVisibility,
+ initial_value: nullable AExpr,
+ n_block: nullable AExpr,
+ m_attributedef: nullable MAttributeDef,
+ m_setterdef: nullable MMethodDef,
+ m_getterdef: nullable MMethodDef)
+ do
+ # Set the model type
+ if n_type != null then mtype = n_type.mtype
+ # Define the visibility default is public
+ if n_visibility == null then n_visibility = new APublicVisibility
+ init_aattrpropdef(null, null, n_visibility, new TKwvar, new TId, n_type, null, initial_value, null, null , n_block, null)
+ # Set the name of the attribute
+ _n_id2.text = name
+ _mpropdef = m_attributedef
+ _mreadpropdef = m_getterdef
+ _mwritepropdef = m_setterdef
+ if initial_value != null or n_block != null then has_value = true
+ if m_attributedef != null then self.location = m_attributedef.location
+ end
+end
+
+redef class ANotExpr
+ private init make(expr: AExpr)
+ do
+ self.init_anotexpr(new TKwnot, expr)
+ end
+end
+
redef class AReturnExpr
private init make(expr: nullable AExpr)
do
end
redef class ASuperExpr
- private init make(args: nullable Array[AExpr], n_qualified: nullable AQualified)
+ private init make(args: nullable Array[AExpr], n_qualified: nullable AQualified, mpropdef: nullable MMethodDef)
do
var n_args = new AListExprs
if args != null then
n_args.n_exprs.add_all(args)
end
+ _mpropdef = mpropdef
self.init_asuperexpr(n_qualified, new TKwsuper, n_args)
end
end
-redef class AParExpr
- private init make(expr: AExpr, annotations: nullable AAnnotations)
- do
- self.location = expr.location
- self.init_aparexpr(new TOpar, expr, new TCpar, annotations)
- end
-end
-
redef class AOrExpr
private init make(right_expr: AExpr, left_expr: AExpr)
do
end
redef class AMethPropdef
- private init make(n_visibility: nullable APublicVisibility,
+ private init make(n_visibility: nullable AVisibility,
tk_redef: nullable TKwredef,
- mmethoddef: MMethodDef,
+ mmethoddef: nullable MMethodDef,
n_signature: nullable ASignature,
n_annotations: nullable AAnnotations,
n_extern_calls: nullable AExternCalls,
n_block: nullable AExpr)
do
var n_tid = new TId
- n_tid.text = mmethoddef.name
var n_methid = new AIdMethid.init_aidmethid(n_tid)
if n_signature == null then n_signature = new ASignature
if n_visibility == null then n_visibility = new APublicVisibility
self.init_amethpropdef(null,tk_redef,n_visibility,new TKwmeth,null,null,null,n_methid,n_signature,n_annotations,n_extern_calls,n_extern_code_block,new TKwdo,n_block,new TKwend)
self.mpropdef = mmethoddef
+ if mpropdef != null then self.location = mmethoddef.location
+ end
+
+ # Execute all method verification scope flow and typing.
+ # It also execute an ast validation to define all parents and all locations
+ fun do_all(toolcontext: ToolContext)
+ do
+ self.validate
+ # FIXME: The `do_` usage it is maybe to much (verification...). Solution: Cut the `do_` methods into simpler parts
+ self.do_scope(toolcontext)
+ self.do_flow(toolcontext)
+ self.do_typing(toolcontext.modelbuilder)
end
end
end
end
-redef class ABlockExpr
- private init make
- do
- self.is_typed = true
- end
-
- redef fun add(expr)
- do
- n_expr.add expr
- end
-end
-
redef class ALoopExpr
private init make
do
_n_kwelse = new TKwelse
_n_else = new ABlockExpr.make
self.mtype = mtype
- self.is_typed = true
+ if mtype != null then self.is_typed = true
end
end
redef class AType
- private init make
+
+ private init make(t: nullable MType)
do
var n_id = new TClassid
var n_qid = new AQclassid
n_qid.n_id = n_id
_n_qid = n_qid
+ _mtype = t
+ end
+
+ redef fun clone: SELF
+ do
+ return new AType.make(mtype)
end
end
+# Primitive type
+
redef class AIntegerExpr
- private init make(value: Int, t: MType)
+
+ private init make(value: nullable Numeric, t: nullable MType)
+ do
+ _mtype = t
+ if t != null then self.is_typed = true
+ _value = value
+ _n_integer = new TInteger # dummy
+ end
+
+ redef fun clone: SELF
+ do
+ return new AIntegerExpr.make(value, mtype)
+ end
+end
+
+redef class AFloatExpr
+
+ private init make(value: nullable Float, t: nullable MType)
+ do
+ _mtype = t
+ if t != null then self.is_typed = true
+ _value = value
+ _n_float = new TFloat # dummy
+ end
+
+ redef fun clone: SELF
+ do
+ return new AFloatExpr.make(value, mtype)
+ end
+end
+
+redef class ATrueExpr
+
+ private init make(t: nullable MType)
+ do
+ init_atrueexpr(new TKwtrue, null)
+ _mtype = t
+ if t != null then self.is_typed = true
+ end
+
+ redef fun clone: SELF
+ do
+ return new ATrueExpr.make(mtype)
+ end
+end
+
+redef class AFalseExpr
+
+ private init make(t: nullable MType)
+ do
+ init_afalseexpr(new TKwfalse, null)
+ _mtype = t
+ if t != null then self.is_typed = true
+ end
+
+ redef fun clone: SELF
+ do
+ return new AFalseExpr.make(mtype)
+ end
+end
+
+redef class ACharExpr
+
+ # `token_text` represent the real value as it's present in a file not only the char.
+ # `token_text` is needed if you want to use some methods (for exemple: `prefix`, `suffix` or `is_code_point methods`)
+ private init make(value: nullable Char, t: nullable MType, token_text: nullable String)
+ do
+ _value = value
+ _mtype = t
+ _n_char = new TChar
+ if token_text != null then n_char.text = token_text
+ if t != null then self.is_typed = true
+ end
+
+ redef fun clone: SELF
do
- self.value = value
- self._n_integer = new TInteger # dummy
- self.mtype = t
+ var self_clone = new ACharExpr.make(self.value, mtype, n_char.text)
+ return self_clone
end
end
end
redef class ACallExpr
- private init make(recv: AExpr, callsite: CallSite, args: nullable Array[AExpr])
+ private init make(recv: AExpr, callsite: nullable CallSite, args: nullable Array[AExpr])
do
self._n_expr = recv
_n_args = new AListExprs
if args != null then
self.n_args.n_exprs.add_all(args)
end
- self.callsite = callsite
- self.mtype = callsite.msignature.return_mtype
- self.is_typed = true
+
+ if callsite != null then
+ self.callsite = callsite
+ self.mtype = callsite.msignature.return_mtype
+ self.is_typed = true
+ end
+ end
+end
+
+redef class AAsNotnullExpr
+ private init make(n_expr: AExpr, t: nullable MType)
+ do
+ init_aasnotnullexpr(n_expr, new TKwas, null, new TKwnot, new TKwnull, null)
+ _mtype = t
+ if t != null then _is_typed = true
end
end
+redef class ANullExpr
+
+ private init make(t: nullable MType)
+ do
+ init_anullexpr(new TKwnull, null)
+ _mtype = t
+ if t != null then self.is_typed = true
+ end
+end
+
+redef class ASelfExpr
+
+ private init make(v: nullable Variable, t: nullable MType)
+ do
+ init_aselfexpr(new TKwself, null)
+ _mtype = t
+ if t != null then is_typed =true
+ end
+
+ redef fun clone: SELF
+ do
+ return new ASelfExpr.make(self.variable, self.mtype)
+ end
+end
+
+redef class AImplicitSelfExpr
+
+ redef fun clone: SELF
+ do
+ var self_clone = new AImplicitSelfExpr.make(variable, mtype)
+ self_clone.is_sys = is_sys
+ return self_clone
+ end
+end
+
+
redef class AAttrExpr
- private init make(recv: AExpr, attribute: MAttribute, t: MType)
+ private init make(recv: AExpr, attribute: nullable MAttribute, t: nullable MType)
do
_n_expr = recv
recv.parent = self
_n_id = new TAttrid
- mproperty = attribute
- mtype = t
+ _mproperty = attribute
+ _mtype = t
+ if t != null then _is_typed = true
end
end
redef class AAttrAssignExpr
- private init make(recv: AExpr, attribute: MAttribute, value: AExpr)
+ private init make(recv: AExpr, attribute: nullable MAttribute, value: AExpr)
do
_n_expr = recv
recv.parent = self
_n_value = value
value.parent = self
_n_assign = new TAssign
- mproperty = attribute
- mtype = value.mtype
+ _mproperty = attribute
+ _mtype = value.mtype
end
end
redef class AVarExpr
- private init make(v: Variable, mtype: MType)
+ private init make(v: nullable Variable, t: nullable MType)
do
_n_id = new TId
- variable = v
- self.mtype = mtype
+ if v != null then _n_id.text = v.name
+ _variable = v
+ _mtype = t
+ if t != null then is_typed = true
end
end
redef class AVarAssignExpr
- private init make(v: Variable, value: AExpr)
+ private init make(v: nullable Variable, value: AExpr)
do
_n_id = new TId
+ if v != null then _n_id.text = v.name
_n_value = value
value.parent = self
_n_assign = new TAssign
- variable = v
- mtype = value.mtype
+ _variable = v
+ _mtype = value.mtype
+ if _mtype != null then _is_typed = true
+ end
+end
+
+redef class ASignature
+
+ init make_from_msignature(msignature: MSignature)
+ do
+ var nparams = new Array[AParam]
+ for mparam in msignature.mparameters do
+ var variable = new Variable(mparam.name)
+ variable.declared_type = mparam.mtype
+ n_params.add(new AParam.make(variable, new AType.make(mparam.mtype)))
+ end
+ var return_type = null
+ if msignature.return_mtype != null then return_type = new AType.make(msignature.return_mtype)
+ init_asignature(null, nparams, null, return_type)
+ end
+
+ redef fun clone: SELF
+ do
+ var ntype = n_type
+ if ntype != null then ntype = n_type.clone
+ return new ASignature.init_asignature(null, n_params.clone, null, ntype)
+ end
+end
+
+redef class AParam
+
+ private init make(v: nullable Variable, t: nullable AType)
+ do
+ _n_id = new TId
+ if v != null then _n_id.text = v.name
+ _variable = v
+ _n_type = t
+ end
+
+ redef fun clone: SELF
+ do
+ var ntype = n_type
+ if ntype != null then ntype = n_type.clone
+ return new AParam.make(variable, ntype)
+ end
+end
+
+redef class AFormaldef
+
+ private init make(mparameter: MParameterType, t: AType)
+ do
+ _n_id = new TClassid
+ _n_id.text = mparameter.name
+ _n_type = t
+ _mtype = mparameter
+ end
+end
+
+redef class ABlockExpr
+ private init make(t: nullable MType)
+ do
+ if t != null then
+ _mtype = t
+ _is_typed = true
+ end
+ end
+
+ redef fun add(expr)
+ do
+ n_expr.add expr
+ expr.parent = self
+ end
+
+ fun add_all(exprs: Array[AExpr])
+ do
+ for expr in exprs do
+ add(expr)
+ end
+ end
+
+ redef fun clone: SELF
+ do
+ var clone = new ABlockExpr.make(mtype)
+ for expr in self.n_expr do
+ clone.add(expr.clone)
+ end
+ return clone
+ end
+end
+
+redef class AQclassid
+ redef fun clone: SELF
+ do
+ return new AQclassid.init_aqclassid(n_qualified.clone, n_id)
+ end
+end
+
+redef class AQualified
+ redef fun clone: SELF
+ do
+ return new AQualified.init_aqualified(n_id.clone, n_classid)
+ end
+end
+
+redef class AQid
+ redef fun clone: SELF
+ do
+ var clone_n_qualified = n_qualified
+ if n_qualified != null then clone_n_qualified = n_qualified.clone
+ return new AQid.init_aqid(clone_n_qualified, n_id.clone)
+ end
+end
+
+redef class TId
+ redef fun clone: SELF
+ do
+ return new TId.init_tk(location)
+ end
+end
+
+redef class AParExpr
+ private init make(expr: AExpr, annotations: nullable AAnnotations)
+ do
+ self.init_aparexpr(new TOpar, expr, new TCpar, annotations)
end
end
private var seen = new HashSet[ANode]
end
+redef class ANodes
+ super Cloneable
+
+ redef fun clone: SELF
+ do
+ var clone_anodes = new ANodes[E](self.parent)
+ for node in self do
+ clone_anodes.add(node.clone)
+ end
+ return clone_anodes
+ end
+end
+
redef class ANode
+ super Cloneable
+
+ redef fun clone: SELF
+ do
+ # By default the clone abort to avoid surprises
+ print "The clone method is not implemented for the `{self.class_name}` class"
+ abort
+ end
# Recursively validate a AST node.
# This ensure that location and parenting are defined and coherent.
#
end
redef class AAnnotation
+
redef fun accept_ast_validation(v)
do
# Do not enter in annotations
end
+
+ private init make(n_args : ANodes[AExpr])
+ do
+ _n_visibility = new APublicVisibility
+ _n_args = n_args
+ end
+end
+
+redef class MEntity
+ # Build a ANode from `self`
+ #
+ # Allows the creation of an AST node from a model entity.
+ fun create_ast_representation(astbuilder: nullable ASTBuilder): ANode is abstract
+end
+
+redef class MPropDef
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): APropdef is abstract
+end
+
+redef class MClassDef
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): AStdClassdef do
+ if astbuilder == null then astbuilder = new ASTBuilder(mmodule)
+ var n_propdefs = new Array[APropdef]
+ for mpropdef in self.mpropdefs do
+ n_propdefs.add(mpropdef.create_ast_representation(astbuilder))
+ end
+ var n_formaldefs = new Array[AFormaldef]
+ for mparameter in self.mclass.mparameters do n_formaldefs.add(mparameter.create_ast_representation(astbuilder))
+
+ return astbuilder.make_class(self, visibility.create_ast_representation(astbuilder), n_formaldefs, null, n_propdefs, null)
+ end
+end
+
+redef class MAttributeDef
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): AAttrPropdef do
+ if astbuilder == null then astbuilder = new ASTBuilder(mclassdef.mmodule)
+ var ntype = null
+ if self.static_mtype != null then ntype = static_mtype.create_ast_representation(astbuilder)
+ return astbuilder.make_attribute("_" + self.name, ntype, self.visibility.create_ast_representation(astbuilder), null, null, self, null, null)
+ end
+end
+
+redef class MMethodDef
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): AMethPropdef do
+ if astbuilder == null then astbuilder = new ASTBuilder(mclassdef.mmodule)
+ var tk_redef = null
+ if self.mproperty.intro != self then tk_redef = new TKwredef
+ var n_signature = if self.msignature == null then new ASignature else self.msignature.create_ast_representation(astbuilder)
+ return astbuilder.make_method(visibility.create_ast_representation(astbuilder), tk_redef, self, n_signature)
+ end
+end
+
+redef class MVisibility
+ fun create_ast_representation(astbuilder: nullable ASTBuilder): AVisibility do
+ if self.to_s == "public" then
+ return new APublicVisibility
+ else if self.to_s == "private" then
+ return new APrivateVisibility
+ else if self.to_s == "protected" then
+ return new AProtectedVisibility
+ else
+ return new AIntrudeVisibility
+ end
+ end
+end
+
+redef class MSignature
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): ASignature do
+ var nparams = new Array[AParam]
+ for mparam in mparameters do nparams.add(mparam.create_ast_representation(astbuilder))
+ var return_type = null
+ if self.return_mtype != null then return_type = self.return_mtype.create_ast_representation(astbuilder)
+ return new ASignature.init_asignature(null, nparams, null, return_type)
+ end
+end
+
+redef class MParameter
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): AParam do
+ var variable = new Variable(self.name)
+ variable.declared_type = self.mtype
+ return new AParam.make(variable, self.mtype.create_ast_representation(astbuilder))
+ end
+end
+
+redef class MParameterType
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): AFormaldef do
+ var n_type = super
+ return new AFormaldef.make(self, n_type)
+ end
+end
+
+redef class MType
+ redef fun create_ast_representation(astbuilder: nullable ASTBuilder): AType do
+ return new AType.make(self)
+ end
+end
+
+redef class ModelBuilder
+ # Try to get MMethod property if exist in the given mclassdef. return new `MMethod` if not exist.
+ private fun get_mmethod(name: String, mclassdef: MClassDef, visibility: nullable MVisibility): MMethod do
+ visibility = visibility or else public_visibility
+ var mproperty = try_get_mproperty_by_name(null, mclassdef, name).as(nullable MMethod)
+ if mproperty == null then mproperty = new MMethod(mclassdef, name, mclassdef.location, visibility)
+ return mproperty
+ end
+
+ # Creation of a new method (AST and model representation) with the given name.
+ # See `create_method_from_property` for more information.
+ fun create_method_from_name(name: String, mclassdef: MClassDef, is_abstract: Bool, msignature: nullable MSignature, visibility: nullable MVisibility): AMethPropdef do
+ var mproperty = get_mmethod(name, mclassdef, visibility)
+ return create_method_from_property(mproperty, mclassdef, is_abstract, msignature)
+ end
+
+ # Creation of a new method (AST and model representation) with the given MMethod.
+ # Take care, if `is_abstract == false` the AMethPropdef returned has an empty body (potential error if the given signature has an return type).
+ fun create_method_from_property(mproperty: MMethod, mclassdef: MClassDef, is_abstract: Bool, msignature: nullable MSignature): AMethPropdef do
+ var m_def = new MMethodDef(mclassdef, mproperty, mclassdef.location)
+
+ if msignature == null then msignature = new MSignature(new Array[MParameter])
+
+ m_def.msignature = msignature
+ m_def.is_abstract = true
+ var n_def = m_def.create_ast_representation
+ # Association new npropdef to mpropdef
+ unsafe_add_mpropdef2npropdef(m_def,n_def)
+
+ if not is_abstract then
+ n_def.mpropdef.is_abstract = false
+ n_def.n_block = new ABlockExpr.make
+ end
+
+ return n_def
+ end
+
+ # Creation of a new attribute (AST and model representation) with the given name.
+ # See `create_attribute_from_property` for more information.
+ fun create_attribute_from_name(name: String, mclassdef: MClassDef, mtype: MType, visibility: nullable MVisibility): AAttrPropdef do
+ if visibility == null then visibility = public_visibility
+ var mattribute = try_get_mproperty_by_name(null, mclassdef, name)
+ if mattribute == null then mattribute = new MAttribute(mclassdef, name, mclassdef.location, visibility)
+ return create_attribute_from_property(mattribute.as(MAttribute), mclassdef, mtype)
+ end
+
+ # Creation of a new attribute (AST and model representation) with the given MAttribute.
+ # See `create_attribute_from_propdef` for more information.
+ fun create_attribute_from_property(mattribute: MAttribute, mclassdef: MClassDef, mtype: MType): AAttrPropdef do
+ var attribut_def = new MAttributeDef(mclassdef, mattribute, mclassdef.location)
+ attribut_def.static_mtype = mtype
+ return create_attribute_from_propdef(attribut_def)
+ end
+
+ # Creation of a new attribute (AST representation) with the given MAttributeDef.
+ fun create_attribute_from_propdef(mattribut_def: MAttributeDef): AAttrPropdef
+ is
+ expect(mclassdef2node(mattribut_def.mclassdef) != null)
+ do
+ var n_attribute = mattribut_def.create_ast_representation
+
+ var nclass = mclassdef2node(mattribut_def.mclassdef)
+
+ n_attribute.location = mattribut_def.location
+ n_attribute.validate
+
+ nclass.n_propdefs.unsafe_add_all([n_attribute])
+ nclass.validate
+
+ n_attribute.build_read_property(self, mattribut_def.mclassdef)
+ n_attribute.build_read_signature
+
+ mpropdef2npropdef[mattribut_def] = n_attribute
+ return n_attribute
+ end
+
+ # Creation of a new class (AST and model representation) with the given name.
+ # `visibility` : Define the visibility of the method. If it's `null` the default is `public_visibility`
+ # See `create_class_from_mclass` for more information.
+ fun create_class_from_name(name: String, super_type: Array[MClassType], mmodule: MModule, visibility: nullable MVisibility): AStdClassdef do
+ if visibility == null then visibility = public_visibility
+ var mclass = try_get_mclass_by_name(null, mmodule, name)
+ if mclass == null then mclass = new MClass(mmodule, name, mmodule.location, new Array[String], concrete_kind, visibility)
+ return create_class_from_mclass(mclass, super_type, mmodule)
+ end
+
+ # Creation of a new class (AST and model representation) with the given MClass.
+ # This method creates a new concrete class definition `MClassDef`, and adds it to the class hierarchy.
+ # See `create_class_from_mclassdef` for more information.
+ fun create_class_from_mclass(mclass: MClass, super_type: Array[MClassType], mmodule: MModule): AStdClassdef do
+ var mclassdef = new MClassDef(mmodule, mclass.mclass_type, mmodule.location)
+ mclassdef.set_supertypes(super_type)
+ mclassdef.add_in_hierarchy
+
+ return create_class_from_mclassdef(mclassdef, mmodule)
+ end
+
+ # Creation of a new class (AST representation) with the given MClassDef.
+ # Note all the properties of our MClassDef will also generate an AST representation.
+ # Make an error if the attribute already has a representation in the modelbuilder.
+ # This method also create the default constructor.
+ fun create_class_from_mclassdef(mclassdef: MClassDef, mmodule: MModule): AStdClassdef do
+ var n_classdef = mclassdef.create_ast_representation
+ n_classdef.location = mclassdef.location
+ n_classdef.validate
+
+ for n_propdef in n_classdef.n_propdefs do
+ var mpropdef = n_propdef.mpropdef
+ assert mpropdef != null
+
+ var p_npropdef = mpropdef2node(mpropdef)
+ if p_npropdef != null then error(null, "The property `{mpropdef.name}` already has a representation in the AST.")
+ unsafe_add_mpropdef2npropdef(mpropdef, n_propdef)
+ end
+
+ process_default_constructors(n_classdef)
+ unsafe_add_mclassdef2nclassdef(mclassdef, n_classdef)
+
+ return n_classdef
+ end
end