# Production AST nodes full definition.
-# This file was generated by SableCC (http://www.sablecc.org/).
+# This file was generated by SableCC (http://www.sablecc.org/).
package parser_prod
import lexer
intrude import parser_nodes
+private import tables
-redef class PNode
+redef class ANode
# Parent of the node in the AST
- readable writable var _parent: nullable PNode
+ readable writable var _parent: nullable ANode
# Remove a child from the AST
- fun remove_child(child: PNode)
+ fun remove_child(child: ANode)
do
replace_child(child, null)
end
# Replace a child with an other node in the AST
- fun replace_child(old_child: PNode, new_child: nullable PNode) is abstract
+ fun replace_child(old_child: ANode, new_child: nullable ANode) is abstract
# Replace itself with an other node in the AST
- fun replace_with(node: PNode)
+ fun replace_with(node: ANode)
do
if (_parent != null) then
_parent.replace_child(self, node)
# Visit all nodes in order.
# Thus, call "v.visit(e)" for each node e
fun visit_all(v: Visitor) is abstract
-
- # Visit all nodes in reverse order.
- # Thus, call "v.visit(e)" for each node e starting from the last child
- fun visit_all_reverse(v: Visitor) is abstract
-
- # Give a human readable location of the node.
- fun locate: String is abstract
-
- # Return only the line number of the node
- fun line_number: Int is abstract
-
- # Debug method: output a message prefixed with the location.
- fun printl(str: String)
- do
- print("{locate}: {str}\n")
- end
end
redef class Token
redef fun visit_all(v: Visitor) do end
- redef fun visit_all_reverse(v: Visitor) do end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode) do end
-
- redef fun locate: String
- do
- return "{filename}:{line},{pos}"
- end
-
- redef fun line_number do return line
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode) do end
end
redef class Prod
- # The first token of the production node
- readable writable var _first_token: nullable Token
-
- # The last token of the production node
- readable writable var _last_token: nullable Token
-
- redef fun locate: String
- do
- if first_token == null then
- return "????"
- end
- if last_token == null then
- return "{first_token.locate}--????"
- end
- var lastpos = last_token.pos + last_token.text.length - 1
- if first_token.line == last_token.line then
- return "{first_token.locate}--{lastpos}"
- else
- return "{first_token.locate}--{last_token.line}:{lastpos}"
- end
- end
-
- redef fun replace_with(n: PNode)
+ redef fun replace_with(n: ANode)
do
super
assert n isa Prod
- n.first_token = first_token
- n.last_token = last_token
+ n.location = location
end
-
- redef fun line_number
- do
- if first_token != null then
- return first_token.line
- else
- return 0
- end
- end
end
# Abstract standard visitor
class Visitor
+ # What the visitor do when a node is visited
+ # Concrete visitors should redefine this method.
+ protected fun visit(e: nullable ANode) is abstract
+
# Ask the visitor to visit a given node.
# Usually automatically called by visit_all* methods.
- # Concrete visitors should redefine this method.
- fun visit(e: nullable PNode) is abstract
+ # This methos should not be redefined
+ fun enter_visit(e: nullable ANode)
+ do
+ var old = _current_node
+ _current_node = e
+ visit(e)
+ _current_node = old
+ end
+
+ # The current visited node
+ readable var _current_node: nullable ANode = null
end
redef class AModule
- redef fun n_packagedecl=(n)
- do
- _n_packagedecl = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_amodule (
- n_packagedecl: nullable PPackagedecl ,
- n_imports: Collection[Object] , # Should be Collection[PImport]
- n_classdefs: Collection[Object] # Should be Collection[PClassdef]
+ n_moduledecl: nullable AModuledecl,
+ n_imports: Collection[Object], # Should be Collection[AImport]
+ n_classdefs: Collection[Object] # Should be Collection[AClassdef]
)
do
empty_init
- _n_packagedecl = n_packagedecl
- if n_packagedecl != null then
- n_packagedecl.parent = self
+ _n_moduledecl = n_moduledecl
+ if n_moduledecl != null then
+ n_moduledecl.parent = self
end
for n in n_imports do
- assert n isa PImport
+ assert n isa AImport
_n_imports.add(n)
n.parent = self
end
for n in n_classdefs do
- assert n isa PClassdef
+ assert n isa AClassdef
_n_classdefs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_packagedecl == old_child then
+ if _n_moduledecl == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PPackagedecl
- _n_packagedecl = new_child
+ assert new_child isa AModuledecl
+ _n_moduledecl = new_child
else
- _n_packagedecl = null
+ _n_moduledecl = null
end
return
end
for i in [0.._n_imports.length[ do
if _n_imports[i] == old_child then
if new_child != null then
- assert new_child isa PImport
+ assert new_child isa AImport
_n_imports[i] = new_child
new_child.parent = self
else
for i in [0.._n_classdefs.length[ do
if _n_classdefs[i] == old_child then
if new_child != null then
- assert new_child isa PClassdef
+ assert new_child isa AClassdef
_n_classdefs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
- if _n_packagedecl != null then
- v.visit(_n_packagedecl.as(not null))
+ if _n_moduledecl != null then
+ v.enter_visit(_n_moduledecl.as(not null))
end
for n in _n_imports do
- v.visit(n)
+ v.enter_visit(n)
end
for n in _n_classdefs do
- v.visit(n)
+ v.enter_visit(n)
end
end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_packagedecl != null then
- v.visit(_n_packagedecl.as(not null))
- end
- do
- var i = _n_imports.length
- while i >= 0 do
- v.visit(_n_imports[i])
- i = i - 1
- end
- end
- do
- var i = _n_classdefs.length
- while i >= 0 do
- v.visit(_n_classdefs[i])
- i = i - 1
- end
- end
- end
end
-redef class APackagedecl
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwpackage=(n)
- do
- _n_kwpackage = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
+redef class AModuledecl
private init empty_init do end
- init init_apackagedecl (
- n_doc: nullable PDoc ,
- n_kwpackage: nullable TKwpackage ,
- n_id: nullable TId
+ init init_amoduledecl (
+ n_doc: nullable ADoc,
+ n_kwmodule: nullable TKwmodule,
+ n_id: nullable TId
)
do
empty_init
if n_doc != null then
n_doc.parent = self
end
- _n_kwpackage = n_kwpackage.as(not null)
- n_kwpackage.parent = self
+ _n_kwmodule = n_kwmodule.as(not null)
+ n_kwmodule.parent = self
_n_id = n_id.as(not null)
n_id.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
end
return
end
- if _n_kwpackage == old_child then
+ if _n_kwmodule == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa TKwpackage
- _n_kwpackage = new_child
+ assert new_child isa TKwmodule
+ _n_kwmodule = new_child
else
abort
end
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- v.visit(_n_kwpackage)
- v.visit(_n_id)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
- v.visit(_n_kwpackage)
- v.visit(_n_id)
+ v.enter_visit(_n_kwmodule)
+ v.enter_visit(_n_id)
end
end
-redef class AImport
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwimport=(n)
- do
- _n_kwimport = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
+redef class AStdImport
private init empty_init do end
- init init_aimport (
- n_visibility: nullable PVisibility ,
- n_kwimport: nullable TKwimport ,
- n_id: nullable TId
+ init init_astdimport (
+ n_visibility: nullable AVisibility,
+ n_kwimport: nullable TKwimport,
+ n_id: nullable TId
)
do
empty_init
n_id.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_visibility)
- v.visit(_n_kwimport)
- v.visit(_n_id)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_visibility)
- v.visit(_n_kwimport)
- v.visit(_n_id)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwimport)
+ v.enter_visit(_n_id)
end
end
redef class ANoImport
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwimport=(n)
- do
- _n_kwimport = n
- n.parent = self
- end
- redef fun n_kwend=(n)
- do
- _n_kwend = n
- n.parent = self
- end
-
private init empty_init do end
init init_anoimport (
- n_visibility: nullable PVisibility ,
- n_kwimport: nullable TKwimport ,
- n_kwend: nullable TKwend
+ n_visibility: nullable AVisibility,
+ n_kwimport: nullable TKwimport,
+ n_kwend: nullable TKwend
)
do
empty_init
n_kwend.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_visibility)
- v.visit(_n_kwimport)
- v.visit(_n_kwend)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_visibility)
- v.visit(_n_kwimport)
- v.visit(_n_kwend)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwimport)
+ v.enter_visit(_n_kwend)
end
end
redef class APublicVisibility
-
private init empty_init do end
init init_apublicvisibility
empty_init
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
end
redef fun visit_all(v: Visitor)
do
end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- end
end
redef class APrivateVisibility
- redef fun n_kwprivate=(n)
- do
- _n_kwprivate = n
- n.parent = self
- end
-
private init empty_init do end
init init_aprivatevisibility (
- n_kwprivate: nullable TKwprivate
+ n_kwprivate: nullable TKwprivate
)
do
empty_init
n_kwprivate.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwprivate == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwprivate)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwprivate)
+ v.enter_visit(_n_kwprivate)
end
end
redef class AProtectedVisibility
- redef fun n_kwprotected=(n)
- do
- _n_kwprotected = n
- n.parent = self
- end
-
private init empty_init do end
init init_aprotectedvisibility (
- n_kwprotected: nullable TKwprotected
+ n_kwprotected: nullable TKwprotected
)
do
empty_init
n_kwprotected.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwprotected == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwprotected)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwprotected)
+ v.enter_visit(_n_kwprotected)
end
end
redef class AIntrudeVisibility
- redef fun n_kwintrude=(n)
- do
- _n_kwintrude = n
- n.parent = self
- end
-
private init empty_init do end
init init_aintrudevisibility (
- n_kwintrude: nullable TKwintrude
+ n_kwintrude: nullable TKwintrude
)
do
empty_init
n_kwintrude.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwintrude == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwintrude)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwintrude)
+ v.enter_visit(_n_kwintrude)
end
end
-redef class AClassdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_classkind=(n)
- do
- _n_classkind = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- if n != null then
- n.parent = self
- end
- end
-
+redef class AStdClassdef
private init empty_init do end
- init init_aclassdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_classkind: nullable PClasskind ,
- n_id: nullable TClassid ,
- n_formaldefs: Collection[Object] , # Should be Collection[PFormaldef]
- n_superclasses: Collection[Object] , # Should be Collection[PSuperclass]
- n_propdefs: Collection[Object] # Should be Collection[PPropdef]
+ init init_astdclassdef (
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_classkind: nullable AClasskind,
+ n_id: nullable TClassid,
+ n_formaldefs: Collection[Object], # Should be Collection[AFormaldef]
+ n_superclasses: Collection[Object], # Should be Collection[ASuperclass]
+ n_propdefs: Collection[Object] # Should be Collection[APropdef]
)
do
empty_init
n_id.parent = self
end
for n in n_formaldefs do
- assert n isa PFormaldef
+ assert n isa AFormaldef
_n_formaldefs.add(n)
n.parent = self
end
for n in n_superclasses do
- assert n isa PSuperclass
+ assert n isa ASuperclass
_n_superclasses.add(n)
n.parent = self
end
for n in n_propdefs do
- assert n isa PPropdef
+ assert n isa APropdef
_n_propdefs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_classkind == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PClasskind
+ assert new_child isa AClasskind
_n_classkind = new_child
else
abort
for i in [0.._n_formaldefs.length[ do
if _n_formaldefs[i] == old_child then
if new_child != null then
- assert new_child isa PFormaldef
+ assert new_child isa AFormaldef
_n_formaldefs[i] = new_child
new_child.parent = self
else
for i in [0.._n_superclasses.length[ do
if _n_superclasses[i] == old_child then
if new_child != null then
- assert new_child isa PSuperclass
+ assert new_child isa ASuperclass
_n_superclasses[i] = new_child
new_child.parent = self
else
for i in [0.._n_propdefs.length[ do
if _n_propdefs[i] == old_child then
if new_child != null then
- assert new_child isa PPropdef
+ assert new_child isa APropdef
_n_propdefs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_classkind)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_classkind)
if _n_id != null then
- v.visit(_n_id.as(not null))
+ v.enter_visit(_n_id.as(not null))
end
for n in _n_formaldefs do
- v.visit(n)
+ v.enter_visit(n)
end
for n in _n_superclasses do
- v.visit(n)
+ v.enter_visit(n)
end
for n in _n_propdefs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_classkind)
- if _n_id != null then
- v.visit(_n_id.as(not null))
- end
- do
- var i = _n_formaldefs.length
- while i >= 0 do
- v.visit(_n_formaldefs[i])
- i = i - 1
- end
- end
- do
- var i = _n_superclasses.length
- while i >= 0 do
- v.visit(_n_superclasses[i])
- i = i - 1
- end
- end
- do
- var i = _n_propdefs.length
- while i >= 0 do
- v.visit(_n_propdefs[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class ATopClassdef
-
private init empty_init do end
init init_atopclassdef (
- n_propdefs: Collection[Object] # Should be Collection[PPropdef]
+ n_propdefs: Collection[Object] # Should be Collection[APropdef]
)
do
empty_init
for n in n_propdefs do
- assert n isa PPropdef
+ assert n isa APropdef
_n_propdefs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_propdefs.length[ do
if _n_propdefs[i] == old_child then
if new_child != null then
- assert new_child isa PPropdef
+ assert new_child isa APropdef
_n_propdefs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
for n in _n_propdefs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_propdefs.length
- while i >= 0 do
- v.visit(_n_propdefs[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AMainClassdef
-
private init empty_init do end
init init_amainclassdef (
- n_propdefs: Collection[Object] # Should be Collection[PPropdef]
+ n_propdefs: Collection[Object] # Should be Collection[APropdef]
)
do
empty_init
for n in n_propdefs do
- assert n isa PPropdef
+ assert n isa APropdef
_n_propdefs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_propdefs.length[ do
if _n_propdefs[i] == old_child then
if new_child != null then
- assert new_child isa PPropdef
+ assert new_child isa APropdef
_n_propdefs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
for n in _n_propdefs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_propdefs.length
- while i >= 0 do
- v.visit(_n_propdefs[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AConcreteClasskind
- redef fun n_kwclass=(n)
- do
- _n_kwclass = n
- n.parent = self
- end
-
private init empty_init do end
init init_aconcreteclasskind (
- n_kwclass: nullable TKwclass
+ n_kwclass: nullable TKwclass
)
do
empty_init
n_kwclass.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwclass == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwclass)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwclass)
+ v.enter_visit(_n_kwclass)
end
end
redef class AAbstractClasskind
- redef fun n_kwabstract=(n)
- do
- _n_kwabstract = n
- n.parent = self
- end
- redef fun n_kwclass=(n)
- do
- _n_kwclass = n
- n.parent = self
- end
-
private init empty_init do end
init init_aabstractclasskind (
- n_kwabstract: nullable TKwabstract ,
- n_kwclass: nullable TKwclass
+ n_kwabstract: nullable TKwabstract,
+ n_kwclass: nullable TKwclass
)
do
empty_init
n_kwclass.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwabstract == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwabstract)
- v.visit(_n_kwclass)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwabstract)
- v.visit(_n_kwclass)
+ v.enter_visit(_n_kwabstract)
+ v.enter_visit(_n_kwclass)
end
end
redef class AInterfaceClasskind
- redef fun n_kwinterface=(n)
- do
- _n_kwinterface = n
- n.parent = self
- end
-
private init empty_init do end
init init_ainterfaceclasskind (
- n_kwinterface: nullable TKwinterface
+ n_kwinterface: nullable TKwinterface
)
do
empty_init
n_kwinterface.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwinterface == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwinterface)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwinterface)
+ v.enter_visit(_n_kwinterface)
end
end
-redef class AUniversalClasskind
- redef fun n_kwuniversal=(n)
- do
- _n_kwuniversal = n
- n.parent = self
- end
-
+redef class AEnumClasskind
private init empty_init do end
- init init_auniversalclasskind (
- n_kwuniversal: nullable TKwuniversal
+ init init_aenumclasskind (
+ n_kwenum: nullable TKwenum
)
do
empty_init
- _n_kwuniversal = n_kwuniversal.as(not null)
- n_kwuniversal.parent = self
+ _n_kwenum = n_kwenum.as(not null)
+ n_kwenum.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_kwuniversal == old_child then
+ if _n_kwenum == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa TKwuniversal
- _n_kwuniversal = new_child
+ assert new_child isa TKwenum
+ _n_kwenum = new_child
else
abort
end
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwuniversal)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwuniversal)
+ v.enter_visit(_n_kwenum)
end
end
redef class AFormaldef
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aformaldef (
- n_id: nullable TClassid ,
- n_type: nullable PType
+ n_id: nullable TClassid,
+ n_type: nullable AType
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
_n_type = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- if _n_type != null then
- v.visit(_n_type.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
+ v.enter_visit(_n_id)
if _n_type != null then
- v.visit(_n_type.as(not null))
+ v.enter_visit(_n_type.as(not null))
end
end
end
redef class ASuperclass
- redef fun n_kwspecial=(n)
- do
- _n_kwspecial = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- n.parent = self
- end
-
private init empty_init do end
init init_asuperclass (
- n_kwspecial: nullable TKwspecial ,
- n_type: nullable PType
+ n_kwspecial: nullable TKwspecial,
+ n_kwsuper: nullable TKwsuper,
+ n_type: nullable AType
)
do
empty_init
- _n_kwspecial = n_kwspecial.as(not null)
- n_kwspecial.parent = self
+ _n_kwspecial = n_kwspecial
+ if n_kwspecial != null then
+ n_kwspecial.parent = self
+ end
+ _n_kwsuper = n_kwsuper
+ if n_kwsuper != null then
+ n_kwsuper.parent = self
+ end
_n_type = n_type.as(not null)
n_type.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwspecial == old_child then
if new_child != null then
assert new_child isa TKwspecial
_n_kwspecial = new_child
else
- abort
+ _n_kwspecial = null
+ end
+ return
+ end
+ if _n_kwsuper == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TKwsuper
+ _n_kwsuper = new_child
+ else
+ _n_kwsuper = null
end
return
end
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwspecial)
- v.visit(_n_type)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwspecial)
- v.visit(_n_type)
- end
-end
-redef class AAttrPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_readable=(n)
- do
- _n_readable = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_writable=(n)
- do
- _n_writable = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwattr=(n)
- do
- _n_kwattr = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwvar=(n)
- do
- _n_kwvar = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- if n != null then
- n.parent = self
+ if _n_kwspecial != null then
+ v.enter_visit(_n_kwspecial.as(not null))
end
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
+ if _n_kwsuper != null then
+ v.enter_visit(_n_kwsuper.as(not null))
end
+ v.enter_visit(_n_type)
end
-
+end
+redef class AAttrPropdef
private init empty_init do end
init init_aattrpropdef (
- n_doc: nullable PDoc ,
- n_readable: nullable PAble ,
- n_writable: nullable PAble ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwattr: nullable TKwattr ,
- n_kwvar: nullable TKwvar ,
- n_id: nullable TAttrid ,
- n_type: nullable PType ,
- n_expr: nullable PExpr
+ n_doc: nullable ADoc,
+ n_readable: nullable AAble,
+ n_writable: nullable AAble,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwvar: nullable TKwvar,
+ n_id: nullable TAttrid,
+ n_id2: nullable TId,
+ n_type: nullable AType,
+ n_expr: nullable AExpr
)
do
empty_init
end
_n_visibility = n_visibility.as(not null)
n_visibility.parent = self
- _n_kwattr = n_kwattr
- if n_kwattr != null then
- n_kwattr.parent = self
+ _n_kwvar = n_kwvar.as(not null)
+ n_kwvar.parent = self
+ _n_id = n_id
+ if n_id != null then
+ n_id.parent = self
end
- _n_kwvar = n_kwvar
- if n_kwvar != null then
- n_kwvar.parent = self
+ _n_id2 = n_id2
+ if n_id2 != null then
+ n_id2.parent = self
end
- _n_id = n_id.as(not null)
- n_id.parent = self
_n_type = n_type
if n_type != null then
n_type.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_readable == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PAble
+ assert new_child isa AAble
_n_readable = new_child
else
_n_readable = null
if _n_writable == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PAble
+ assert new_child isa AAble
_n_writable = new_child
else
_n_writable = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
end
return
end
- if _n_kwattr == old_child then
- if new_child != null then
- new_child.parent = self
- assert new_child isa TKwattr
- _n_kwattr = new_child
- else
- _n_kwattr = null
- end
- return
- end
if _n_kwvar == old_child then
if new_child != null then
new_child.parent = self
assert new_child isa TKwvar
_n_kwvar = new_child
else
- _n_kwvar = null
+ abort
end
return
end
assert new_child isa TAttrid
_n_id = new_child
else
- abort
+ _n_id = null
+ end
+ return
+ end
+ if _n_id2 == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TId
+ _n_id2 = new_child
+ else
+ _n_id2 = null
end
return
end
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
_n_type = null
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_readable != null then
- v.visit(_n_readable.as(not null))
+ v.enter_visit(_n_readable.as(not null))
end
if _n_writable != null then
- v.visit(_n_writable.as(not null))
+ v.enter_visit(_n_writable.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- if _n_kwattr != null then
- v.visit(_n_kwattr.as(not null))
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwvar)
+ if _n_id != null then
+ v.enter_visit(_n_id.as(not null))
end
- if _n_kwvar != null then
- v.visit(_n_kwvar.as(not null))
+ if _n_id2 != null then
+ v.enter_visit(_n_id2.as(not null))
end
- v.visit(_n_id)
if _n_type != null then
- v.visit(_n_type.as(not null))
+ v.enter_visit(_n_type.as(not null))
end
if _n_expr != null then
- v.visit(_n_expr.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_readable != null then
- v.visit(_n_readable.as(not null))
- end
- if _n_writable != null then
- v.visit(_n_writable.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- if _n_kwattr != null then
- v.visit(_n_kwattr.as(not null))
- end
- if _n_kwvar != null then
- v.visit(_n_kwvar.as(not null))
- end
- v.visit(_n_id)
- if _n_type != null then
- v.visit(_n_type.as(not null))
- end
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
end
end
end
redef class AMethPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_methid=(n)
- do
- _n_methid = n
- n.parent = self
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
-
private init empty_init do end
init init_amethpropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_methid: nullable PMethid ,
- n_signature: nullable PSignature
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_methid: nullable AMethid,
+ n_signature: nullable ASignature
)
do
empty_init
n_signature.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_methid == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PMethid
+ assert new_child isa AMethid
_n_methid = new_child
else
abort
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_methid)
- v.visit(_n_signature)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_methid)
- v.visit(_n_signature)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_methid)
+ v.enter_visit(_n_signature)
end
end
redef class ADeferredMethPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwmeth=(n)
- do
- _n_kwmeth = n
- n.parent = self
- end
- redef fun n_methid=(n)
- do
- _n_methid = n
- n.parent = self
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
-
private init empty_init do end
init init_adeferredmethpropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwmeth: nullable TKwmeth ,
- n_methid: nullable PMethid ,
- n_signature: nullable PSignature
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwmeth: nullable TKwmeth,
+ n_methid: nullable AMethid,
+ n_signature: nullable ASignature
)
do
empty_init
n_signature.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_methid == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PMethid
+ assert new_child isa AMethid
_n_methid = new_child
else
abort
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwmeth)
+ v.enter_visit(_n_methid)
+ v.enter_visit(_n_signature)
end
end
redef class AInternMethPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwmeth=(n)
- do
- _n_kwmeth = n
- n.parent = self
- end
- redef fun n_methid=(n)
- do
- _n_methid = n
- n.parent = self
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
-
private init empty_init do end
init init_ainternmethpropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwmeth: nullable TKwmeth ,
- n_methid: nullable PMethid ,
- n_signature: nullable PSignature
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwmeth: nullable TKwmeth,
+ n_methid: nullable AMethid,
+ n_signature: nullable ASignature
)
do
empty_init
n_signature.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_methid == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PMethid
+ assert new_child isa AMethid
_n_methid = new_child
else
abort
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwmeth)
+ v.enter_visit(_n_methid)
+ v.enter_visit(_n_signature)
end
end
redef class AExternMethPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwmeth=(n)
- do
- _n_kwmeth = n
- n.parent = self
- end
- redef fun n_methid=(n)
- do
- _n_methid = n
- n.parent = self
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
- redef fun n_extern=(n)
- do
- _n_extern = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aexternmethpropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwmeth: nullable TKwmeth ,
- n_methid: nullable PMethid ,
- n_signature: nullable PSignature ,
- n_extern: nullable TString
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwmeth: nullable TKwmeth,
+ n_methid: nullable AMethid,
+ n_signature: nullable ASignature,
+ n_extern: nullable TString
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_methid == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PMethid
+ assert new_child isa AMethid
_n_methid = new_child
else
abort
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
- if _n_extern != null then
- v.visit(_n_extern.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwmeth)
+ v.enter_visit(_n_methid)
+ v.enter_visit(_n_signature)
if _n_extern != null then
- v.visit(_n_extern.as(not null))
+ v.enter_visit(_n_extern.as(not null))
end
end
end
redef class AConcreteMethPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwmeth=(n)
- do
- _n_kwmeth = n
- n.parent = self
- end
- redef fun n_methid=(n)
- do
- _n_methid = n
- n.parent = self
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
- redef fun n_block=(n)
- do
- _n_block = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aconcretemethpropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwmeth: nullable TKwmeth ,
- n_methid: nullable PMethid ,
- n_signature: nullable PSignature ,
- n_block: nullable PExpr
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwmeth: nullable TKwmeth,
+ n_methid: nullable AMethid,
+ n_signature: nullable ASignature,
+ n_block: nullable AExpr
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_methid == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PMethid
+ assert new_child isa AMethid
_n_methid = new_child
else
abort
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
if _n_block == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_block = new_child
else
_n_block = null
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
- if _n_block != null then
- v.visit(_n_block.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_kwmeth)
- v.visit(_n_methid)
- v.visit(_n_signature)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwmeth)
+ v.enter_visit(_n_methid)
+ v.enter_visit(_n_signature)
if _n_block != null then
- v.visit(_n_block.as(not null))
+ v.enter_visit(_n_block.as(not null))
end
end
end
redef class AConcreteInitPropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwinit=(n)
- do
- _n_kwinit = n
- n.parent = self
- end
- redef fun n_methid=(n)
- do
- _n_methid = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
- redef fun n_block=(n)
- do
- _n_block = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aconcreteinitpropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwinit: nullable TKwinit ,
- n_methid: nullable PMethid ,
- n_signature: nullable PSignature ,
- n_block: nullable PExpr
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwinit: nullable TKwinit,
+ n_methid: nullable AMethid,
+ n_signature: nullable ASignature,
+ n_block: nullable AExpr
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_methid == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PMethid
+ assert new_child isa AMethid
_n_methid = new_child
else
_n_methid = null
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
if _n_block == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_block = new_child
else
_n_block = null
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_kwinit)
- if _n_methid != null then
- v.visit(_n_methid.as(not null))
- end
- v.visit(_n_signature)
- if _n_block != null then
- v.visit(_n_block.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_kwinit)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwinit)
if _n_methid != null then
- v.visit(_n_methid.as(not null))
+ v.enter_visit(_n_methid.as(not null))
end
- v.visit(_n_signature)
+ v.enter_visit(_n_signature)
if _n_block != null then
- v.visit(_n_block.as(not null))
+ v.enter_visit(_n_block.as(not null))
end
end
end
redef class AMainMethPropdef
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_block=(n)
- do
- _n_block = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_amainmethpropdef (
- n_kwredef: nullable TKwredef ,
- n_block: nullable PExpr
+ n_kwredef: nullable TKwredef,
+ n_block: nullable AExpr
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwredef == old_child then
if new_child != null then
if _n_block == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_block = new_child
else
_n_block = null
redef fun visit_all(v: Visitor)
do
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- if _n_block != null then
- v.visit(_n_block.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
if _n_block != null then
- v.visit(_n_block.as(not null))
+ v.enter_visit(_n_block.as(not null))
end
end
end
redef class ATypePropdef
- redef fun n_doc=(n)
- do
- _n_doc = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_visibility=(n)
- do
- _n_visibility = n
- n.parent = self
- end
- redef fun n_kwtype=(n)
- do
- _n_kwtype = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- n.parent = self
- end
-
private init empty_init do end
init init_atypepropdef (
- n_doc: nullable PDoc ,
- n_kwredef: nullable TKwredef ,
- n_visibility: nullable PVisibility ,
- n_kwtype: nullable TKwtype ,
- n_id: nullable TClassid ,
- n_type: nullable PType
+ n_doc: nullable ADoc,
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwtype: nullable TKwtype,
+ n_id: nullable TClassid,
+ n_type: nullable AType
)
do
empty_init
n_type.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_doc == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PDoc
+ assert new_child isa ADoc
_n_doc = new_child
else
_n_doc = null
if _n_visibility == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PVisibility
+ assert new_child isa AVisibility
_n_visibility = new_child
else
abort
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
abort
redef fun visit_all(v: Visitor)
do
if _n_doc != null then
- v.visit(_n_doc.as(not null))
- end
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_visibility)
- v.visit(_n_kwtype)
- v.visit(_n_id)
- v.visit(_n_type)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_doc != null then
- v.visit(_n_doc.as(not null))
+ v.enter_visit(_n_doc.as(not null))
end
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_visibility)
- v.visit(_n_kwtype)
- v.visit(_n_id)
- v.visit(_n_type)
+ v.enter_visit(_n_visibility)
+ v.enter_visit(_n_kwtype)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_type)
end
end
redef class AReadAble
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwreadable=(n)
- do
- _n_kwreadable = n
- n.parent = self
- end
-
private init empty_init do end
init init_areadable (
- n_kwredef: nullable TKwredef ,
- n_kwreadable: nullable TKwreadable
+ n_kwredef: nullable TKwredef,
+ n_kwreadable: nullable TKwreadable
)
do
empty_init
n_kwreadable.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwredef == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
- end
- v.visit(_n_kwreadable)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_kwreadable)
+ v.enter_visit(_n_kwreadable)
end
end
redef class AWriteAble
- redef fun n_kwredef=(n)
- do
- _n_kwredef = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwwritable=(n)
- do
- _n_kwwritable = n
- n.parent = self
- end
-
private init empty_init do end
init init_awriteable (
- n_kwredef: nullable TKwredef ,
- n_kwwritable: nullable TKwwritable
+ n_kwredef: nullable TKwredef,
+ n_visibility: nullable AVisibility,
+ n_kwwritable: nullable TKwwritable
)
do
empty_init
if n_kwredef != null then
n_kwredef.parent = self
end
+ _n_visibility = n_visibility
+ if n_visibility != null then
+ n_visibility.parent = self
+ end
_n_kwwritable = n_kwwritable.as(not null)
n_kwwritable.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwredef == old_child then
if new_child != null then
end
return
end
+ if _n_visibility == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AVisibility
+ _n_visibility = new_child
+ else
+ _n_visibility = null
+ end
+ return
+ end
if _n_kwwritable == old_child then
if new_child != null then
new_child.parent = self
redef fun visit_all(v: Visitor)
do
if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ v.enter_visit(_n_kwredef.as(not null))
end
- v.visit(_n_kwwritable)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_kwredef != null then
- v.visit(_n_kwredef.as(not null))
+ if _n_visibility != null then
+ v.enter_visit(_n_visibility.as(not null))
end
- v.visit(_n_kwwritable)
+ v.enter_visit(_n_kwwritable)
end
end
redef class AIdMethid
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_aidmethid (
- n_id: nullable TId
+ n_id: nullable TId
)
do
empty_init
n_id.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
+ v.enter_visit(_n_id)
end
end
redef class APlusMethid
- redef fun n_plus=(n)
- do
- _n_plus = n
- n.parent = self
- end
-
private init empty_init do end
init init_aplusmethid (
- n_plus: nullable TPlus
+ n_plus: nullable TPlus
)
do
empty_init
n_plus.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_plus == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_plus)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_plus)
+ v.enter_visit(_n_plus)
end
end
redef class AMinusMethid
- redef fun n_minus=(n)
- do
- _n_minus = n
- n.parent = self
- end
-
private init empty_init do end
init init_aminusmethid (
- n_minus: nullable TMinus
+ n_minus: nullable TMinus
)
do
empty_init
n_minus.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_minus == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_minus)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_minus)
+ v.enter_visit(_n_minus)
end
end
redef class AStarMethid
- redef fun n_star=(n)
- do
- _n_star = n
- n.parent = self
- end
-
private init empty_init do end
init init_astarmethid (
- n_star: nullable TStar
+ n_star: nullable TStar
)
do
empty_init
n_star.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_star == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_star)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_star)
+ v.enter_visit(_n_star)
end
end
redef class ASlashMethid
- redef fun n_slash=(n)
- do
- _n_slash = n
- n.parent = self
- end
-
private init empty_init do end
init init_aslashmethid (
- n_slash: nullable TSlash
+ n_slash: nullable TSlash
)
do
empty_init
n_slash.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_slash == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_slash)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_slash)
+ v.enter_visit(_n_slash)
end
end
redef class APercentMethid
- redef fun n_percent=(n)
- do
- _n_percent = n
- n.parent = self
- end
-
private init empty_init do end
init init_apercentmethid (
- n_percent: nullable TPercent
+ n_percent: nullable TPercent
)
do
empty_init
n_percent.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_percent == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_percent)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_percent)
+ v.enter_visit(_n_percent)
end
end
redef class AEqMethid
- redef fun n_eq=(n)
- do
- _n_eq = n
- n.parent = self
- end
-
private init empty_init do end
init init_aeqmethid (
- n_eq: nullable TEq
+ n_eq: nullable TEq
)
do
empty_init
n_eq.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_eq == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_eq)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_eq)
+ v.enter_visit(_n_eq)
end
end
redef class ANeMethid
- redef fun n_ne=(n)
- do
- _n_ne = n
- n.parent = self
- end
-
private init empty_init do end
init init_anemethid (
- n_ne: nullable TNe
+ n_ne: nullable TNe
)
do
empty_init
n_ne.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_ne == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_ne)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_ne)
+ v.enter_visit(_n_ne)
end
end
redef class ALeMethid
- redef fun n_le=(n)
- do
- _n_le = n
- n.parent = self
- end
-
private init empty_init do end
init init_alemethid (
- n_le: nullable TLe
+ n_le: nullable TLe
)
do
empty_init
n_le.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_le == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_le)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_le)
+ v.enter_visit(_n_le)
end
end
redef class AGeMethid
- redef fun n_ge=(n)
- do
- _n_ge = n
- n.parent = self
- end
-
private init empty_init do end
init init_agemethid (
- n_ge: nullable TGe
+ n_ge: nullable TGe
)
do
empty_init
n_ge.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_ge == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_ge)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_ge)
+ v.enter_visit(_n_ge)
end
end
redef class ALtMethid
- redef fun n_lt=(n)
- do
- _n_lt = n
- n.parent = self
- end
-
private init empty_init do end
init init_altmethid (
- n_lt: nullable TLt
+ n_lt: nullable TLt
)
do
empty_init
n_lt.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_lt == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_lt)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_lt)
+ v.enter_visit(_n_lt)
end
end
redef class AGtMethid
- redef fun n_gt=(n)
- do
- _n_gt = n
- n.parent = self
- end
-
private init empty_init do end
init init_agtmethid (
- n_gt: nullable TGt
+ n_gt: nullable TGt
)
do
empty_init
n_gt.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_gt == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_gt)
+ v.enter_visit(_n_gt)
+ end
+end
+redef class ALlMethid
+ private init empty_init do end
+
+ init init_allmethid (
+ n_ll: nullable TLl
+ )
+ do
+ empty_init
+ _n_ll = n_ll.as(not null)
+ n_ll.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_ll == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TLl
+ _n_ll = new_child
+ else
+ abort
+ end
+ return
+ end
end
- redef fun visit_all_reverse(v: Visitor)
+ redef fun visit_all(v: Visitor)
do
- v.visit(_n_gt)
+ v.enter_visit(_n_ll)
end
end
-redef class ABraMethid
- redef fun n_obra=(n)
+redef class AGgMethid
+ private init empty_init do end
+
+ init init_aggmethid (
+ n_gg: nullable TGg
+ )
do
- _n_obra = n
- n.parent = self
+ empty_init
+ _n_gg = n_gg.as(not null)
+ n_gg.parent = self
end
- redef fun n_cbra=(n)
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- _n_cbra = n
- n.parent = self
+ if _n_gg == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TGg
+ _n_gg = new_child
+ else
+ abort
+ end
+ return
+ end
end
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_gg)
+ end
+end
+redef class ABraMethid
private init empty_init do end
init init_abramethid (
- n_obra: nullable TObra ,
- n_cbra: nullable TCbra
+ n_obra: nullable TObra,
+ n_cbra: nullable TCbra
)
do
empty_init
n_cbra.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_obra == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_obra)
- v.visit(_n_cbra)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_obra)
- v.visit(_n_cbra)
+ v.enter_visit(_n_obra)
+ v.enter_visit(_n_cbra)
end
end
redef class AStarshipMethid
- redef fun n_starship=(n)
- do
- _n_starship = n
- n.parent = self
- end
-
private init empty_init do end
init init_astarshipmethid (
- n_starship: nullable TStarship
+ n_starship: nullable TStarship
)
do
empty_init
n_starship.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_starship == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_starship)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_starship)
+ v.enter_visit(_n_starship)
end
end
redef class AAssignMethid
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- n.parent = self
- end
-
private init empty_init do end
init init_aassignmethid (
- n_id: nullable TId ,
- n_assign: nullable TAssign
+ n_id: nullable TId,
+ n_assign: nullable TAssign
)
do
empty_init
n_assign.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- v.visit(_n_assign)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
- v.visit(_n_assign)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_assign)
end
end
redef class ABraassignMethid
- redef fun n_obra=(n)
- do
- _n_obra = n
- n.parent = self
- end
- redef fun n_cbra=(n)
- do
- _n_cbra = n
- n.parent = self
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- n.parent = self
- end
-
private init empty_init do end
init init_abraassignmethid (
- n_obra: nullable TObra ,
- n_cbra: nullable TCbra ,
- n_assign: nullable TAssign
+ n_obra: nullable TObra,
+ n_cbra: nullable TCbra,
+ n_assign: nullable TAssign
)
do
empty_init
n_assign.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_obra == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_obra)
- v.visit(_n_cbra)
- v.visit(_n_assign)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_obra)
- v.visit(_n_cbra)
- v.visit(_n_assign)
+ v.enter_visit(_n_obra)
+ v.enter_visit(_n_cbra)
+ v.enter_visit(_n_assign)
end
end
redef class ASignature
- redef fun n_type=(n)
- do
- _n_type = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_asignature (
- n_params: Collection[Object] , # Should be Collection[PParam]
- n_type: nullable PType ,
- n_closure_decls: Collection[Object] # Should be Collection[PClosureDecl]
+ n_params: Collection[Object], # Should be Collection[AParam]
+ n_type: nullable AType,
+ n_closure_decls: Collection[Object] # Should be Collection[AClosureDecl]
)
do
empty_init
for n in n_params do
- assert n isa PParam
+ assert n isa AParam
_n_params.add(n)
n.parent = self
end
n_type.parent = self
end
for n in n_closure_decls do
- assert n isa PClosureDecl
+ assert n isa AClosureDecl
_n_closure_decls.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_params.length[ do
if _n_params[i] == old_child then
if new_child != null then
- assert new_child isa PParam
+ assert new_child isa AParam
_n_params[i] = new_child
new_child.parent = self
else
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
_n_type = null
for i in [0.._n_closure_decls.length[ do
if _n_closure_decls[i] == old_child then
if new_child != null then
- assert new_child isa PClosureDecl
+ assert new_child isa AClosureDecl
_n_closure_decls[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
for n in _n_params do
- v.visit(n)
+ v.enter_visit(n)
end
if _n_type != null then
- v.visit(_n_type.as(not null))
+ v.enter_visit(_n_type.as(not null))
end
for n in _n_closure_decls do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_params.length
- while i >= 0 do
- v.visit(_n_params[i])
- i = i - 1
- end
- end
- if _n_type != null then
- v.visit(_n_type.as(not null))
- end
- do
- var i = _n_closure_decls.length
- while i >= 0 do
- v.visit(_n_closure_decls[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AParam
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_dotdotdot=(n)
- do
- _n_dotdotdot = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aparam (
- n_id: nullable TId ,
- n_type: nullable PType ,
- n_dotdotdot: nullable TDotdotdot
+ n_id: nullable TId,
+ n_type: nullable AType,
+ n_dotdotdot: nullable TDotdotdot
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
_n_type = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- if _n_type != null then
- v.visit(_n_type.as(not null))
- end
- if _n_dotdotdot != null then
- v.visit(_n_dotdotdot.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
+ v.enter_visit(_n_id)
if _n_type != null then
- v.visit(_n_type.as(not null))
+ v.enter_visit(_n_type.as(not null))
end
if _n_dotdotdot != null then
- v.visit(_n_dotdotdot.as(not null))
+ v.enter_visit(_n_dotdotdot.as(not null))
end
end
end
redef class AClosureDecl
- redef fun n_kwwith=(n)
- do
- _n_kwwith = n
- n.parent = self
- end
- redef fun n_kwbreak=(n)
- do
- _n_kwbreak = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_signature=(n)
- do
- _n_signature = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aclosuredecl (
- n_kwwith: nullable TKwwith ,
- n_kwbreak: nullable TKwbreak ,
- n_id: nullable TId ,
- n_signature: nullable PSignature ,
- n_expr: nullable PExpr
+ n_kwbreak: nullable TKwbreak,
+ n_bang: nullable TBang,
+ n_id: nullable TId,
+ n_signature: nullable ASignature,
+ n_expr: nullable AExpr
)
do
empty_init
- _n_kwwith = n_kwwith.as(not null)
- n_kwwith.parent = self
_n_kwbreak = n_kwbreak
if n_kwbreak != null then
n_kwbreak.parent = self
end
+ _n_bang = n_bang.as(not null)
+ n_bang.parent = self
_n_id = n_id.as(not null)
n_id.parent = self
_n_signature = n_signature.as(not null)
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_kwwith == old_child then
+ if _n_kwbreak == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa TKwwith
- _n_kwwith = new_child
+ assert new_child isa TKwbreak
+ _n_kwbreak = new_child
else
- abort
+ _n_kwbreak = null
end
return
end
- if _n_kwbreak == old_child then
+ if _n_bang == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa TKwbreak
- _n_kwbreak = new_child
+ assert new_child isa TBang
+ _n_bang = new_child
else
- _n_kwbreak = null
+ abort
end
return
end
if _n_signature == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PSignature
+ assert new_child isa ASignature
_n_signature = new_child
else
abort
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwwith)
if _n_kwbreak != null then
- v.visit(_n_kwbreak.as(not null))
+ v.enter_visit(_n_kwbreak.as(not null))
end
- v.visit(_n_id)
- v.visit(_n_signature)
+ v.enter_visit(_n_bang)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_signature)
if _n_expr != null then
- v.visit(_n_expr.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwwith)
- if _n_kwbreak != null then
- v.visit(_n_kwbreak.as(not null))
- end
- v.visit(_n_id)
- v.visit(_n_signature)
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
end
end
end
redef class AType
- redef fun n_kwnullable=(n)
- do
- _n_kwnullable = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_atype (
- n_kwnullable: nullable TKwnullable ,
- n_id: nullable TClassid ,
- n_types: Collection[Object] # Should be Collection[PType]
+ n_kwnullable: nullable TKwnullable,
+ n_id: nullable TClassid,
+ n_types: Collection[Object] # Should be Collection[AType]
)
do
empty_init
_n_id = n_id.as(not null)
n_id.parent = self
for n in n_types do
- assert n isa PType
+ assert n isa AType
_n_types.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwnullable == old_child then
if new_child != null then
for i in [0.._n_types.length[ do
if _n_types[i] == old_child then
if new_child != null then
- assert new_child isa PType
+ assert new_child isa AType
_n_types[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
if _n_kwnullable != null then
- v.visit(_n_kwnullable.as(not null))
+ v.enter_visit(_n_kwnullable.as(not null))
end
- v.visit(_n_id)
+ v.enter_visit(_n_id)
for n in _n_types do
- v.visit(n)
+ v.enter_visit(n)
end
end
+end
+redef class ALabel
+ private init empty_init do end
+
+ init init_alabel (
+ n_kwlabel: nullable TKwlabel,
+ n_id: nullable TId
+ )
+ do
+ empty_init
+ _n_kwlabel = n_kwlabel.as(not null)
+ n_kwlabel.parent = self
+ _n_id = n_id.as(not null)
+ n_id.parent = self
+ end
- redef fun visit_all_reverse(v: Visitor)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_kwnullable != null then
- v.visit(_n_kwnullable.as(not null))
- end
- v.visit(_n_id)
- do
- var i = _n_types.length
- while i >= 0 do
- v.visit(_n_types[i])
- i = i - 1
- end
+ if _n_kwlabel == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TKwlabel
+ _n_kwlabel = new_child
+ else
+ abort
+ end
+ return
end
+ if _n_id == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TId
+ _n_id = new_child
+ else
+ abort
+ end
+ return
+ end
+ end
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_kwlabel)
+ v.enter_visit(_n_id)
end
end
redef class ABlockExpr
-
private init empty_init do end
init init_ablockexpr (
- n_expr: Collection[Object] # Should be Collection[PExpr]
+ n_expr: Collection[Object] # Should be Collection[AExpr]
)
do
empty_init
for n in n_expr do
- assert n isa PExpr
+ assert n isa AExpr
_n_expr.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_expr.length[ do
if _n_expr[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
for n in _n_expr do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_expr.length
- while i >= 0 do
- v.visit(_n_expr[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AVardeclExpr
- redef fun n_kwvar=(n)
- do
- _n_kwvar = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_avardeclexpr (
- n_kwvar: nullable TKwvar ,
- n_id: nullable TId ,
- n_type: nullable PType ,
- n_assign: nullable TAssign ,
- n_expr: nullable PExpr
+ n_kwvar: nullable TKwvar,
+ n_id: nullable TId,
+ n_type: nullable AType,
+ n_assign: nullable TAssign,
+ n_expr: nullable AExpr
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwvar == old_child then
if new_child != null then
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
_n_type = null
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwvar)
- v.visit(_n_id)
- if _n_type != null then
- v.visit(_n_type.as(not null))
- end
- if _n_assign != null then
- v.visit(_n_assign.as(not null))
- end
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwvar)
- v.visit(_n_id)
+ v.enter_visit(_n_kwvar)
+ v.enter_visit(_n_id)
if _n_type != null then
- v.visit(_n_type.as(not null))
+ v.enter_visit(_n_type.as(not null))
end
if _n_assign != null then
- v.visit(_n_assign.as(not null))
+ v.enter_visit(_n_assign.as(not null))
end
if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
end
end
end
redef class AReturnExpr
- redef fun n_kwreturn=(n)
- do
- _n_kwreturn = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_areturnexpr (
- n_kwreturn: nullable TKwreturn ,
- n_expr: nullable PExpr
+ n_kwreturn: nullable TKwreturn,
+ n_expr: nullable AExpr
)
do
empty_init
- _n_kwreturn = n_kwreturn.as(not null)
- n_kwreturn.parent = self
+ _n_kwreturn = n_kwreturn
+ if n_kwreturn != null then
+ n_kwreturn.parent = self
+ end
_n_expr = n_expr
if n_expr != null then
n_expr.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwreturn == old_child then
if new_child != null then
assert new_child isa TKwreturn
_n_kwreturn = new_child
else
- abort
+ _n_kwreturn = null
end
return
end
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwreturn)
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ if _n_kwreturn != null then
+ v.enter_visit(_n_kwreturn.as(not null))
end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwreturn)
if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
end
end
end
redef class ABreakExpr
- redef fun n_kwbreak=(n)
- do
- _n_kwbreak = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_abreakexpr (
- n_kwbreak: nullable TKwbreak ,
- n_expr: nullable PExpr
+ n_kwbreak: nullable TKwbreak,
+ n_label: nullable ALabel,
+ n_expr: nullable AExpr
)
do
empty_init
_n_kwbreak = n_kwbreak.as(not null)
n_kwbreak.parent = self
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
_n_expr = n_expr
if n_expr != null then
n_expr.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwbreak == old_child then
if new_child != null then
end
return
end
- if _n_expr == old_child then
+ if _n_label == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
+ end
+ return
+ end
+ if _n_expr == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwbreak)
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_kwbreak)
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwbreak)
if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
end
end
end
redef class AAbortExpr
- redef fun n_kwabort=(n)
- do
- _n_kwabort = n
- n.parent = self
- end
-
private init empty_init do end
init init_aabortexpr (
- n_kwabort: nullable TKwabort
+ n_kwabort: nullable TKwabort
)
do
empty_init
n_kwabort.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwabort == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwabort)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwabort)
+ v.enter_visit(_n_kwabort)
end
end
redef class AContinueExpr
- redef fun n_kwcontinue=(n)
- do
- _n_kwcontinue = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_acontinueexpr (
- n_kwcontinue: nullable TKwcontinue ,
- n_expr: nullable PExpr
+ n_kwcontinue: nullable TKwcontinue,
+ n_label: nullable ALabel,
+ n_expr: nullable AExpr
)
do
empty_init
- _n_kwcontinue = n_kwcontinue.as(not null)
- n_kwcontinue.parent = self
+ _n_kwcontinue = n_kwcontinue
+ if n_kwcontinue != null then
+ n_kwcontinue.parent = self
+ end
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
_n_expr = n_expr
if n_expr != null then
n_expr.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwcontinue == old_child then
if new_child != null then
assert new_child isa TKwcontinue
_n_kwcontinue = new_child
else
- abort
+ _n_kwcontinue = null
+ end
+ return
+ end
+ if _n_label == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
end
return
end
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwcontinue)
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ if _n_kwcontinue != null then
+ v.enter_visit(_n_kwcontinue.as(not null))
+ end
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwcontinue)
if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
end
end
end
redef class ADoExpr
- redef fun n_kwdo=(n)
- do
- _n_kwdo = n
- n.parent = self
- end
- redef fun n_block=(n)
- do
- _n_block = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_adoexpr (
- n_kwdo: nullable TKwdo ,
- n_block: nullable PExpr
+ n_kwdo: nullable TKwdo,
+ n_block: nullable AExpr,
+ n_label: nullable ALabel
)
do
empty_init
if n_block != null then
n_block.parent = self
end
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwdo == old_child then
if new_child != null then
if _n_block == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_block = new_child
else
_n_block = null
end
return
end
+ if _n_label == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
+ end
+ return
+ end
end
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwdo)
+ v.enter_visit(_n_kwdo)
if _n_block != null then
- v.visit(_n_block.as(not null))
+ v.enter_visit(_n_block.as(not null))
end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwdo)
- if _n_block != null then
- v.visit(_n_block.as(not null))
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
end
end
redef class AIfExpr
- redef fun n_kwif=(n)
- do
- _n_kwif = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_then=(n)
- do
- _n_then = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_else=(n)
- do
- _n_else = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aifexpr (
- n_kwif: nullable TKwif ,
- n_expr: nullable PExpr ,
- n_then: nullable PExpr ,
- n_else: nullable PExpr
+ n_kwif: nullable TKwif,
+ n_expr: nullable AExpr,
+ n_then: nullable AExpr,
+ n_else: nullable AExpr
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwif == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_then == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_then = new_child
else
_n_then = null
if _n_else == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_else = new_child
else
_n_else = null
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwif)
- v.visit(_n_expr)
- if _n_then != null then
- v.visit(_n_then.as(not null))
- end
- if _n_else != null then
- v.visit(_n_else.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwif)
- v.visit(_n_expr)
+ v.enter_visit(_n_kwif)
+ v.enter_visit(_n_expr)
if _n_then != null then
- v.visit(_n_then.as(not null))
+ v.enter_visit(_n_then.as(not null))
end
if _n_else != null then
- v.visit(_n_else.as(not null))
+ v.enter_visit(_n_else.as(not null))
end
end
end
redef class AIfexprExpr
- redef fun n_kwif=(n)
- do
- _n_kwif = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_kwthen=(n)
- do
- _n_kwthen = n
- n.parent = self
- end
- redef fun n_then=(n)
- do
- _n_then = n
- n.parent = self
- end
- redef fun n_kwelse=(n)
- do
- _n_kwelse = n
- n.parent = self
- end
- redef fun n_else=(n)
- do
- _n_else = n
- n.parent = self
- end
-
private init empty_init do end
init init_aifexprexpr (
- n_kwif: nullable TKwif ,
- n_expr: nullable PExpr ,
- n_kwthen: nullable TKwthen ,
- n_then: nullable PExpr ,
- n_kwelse: nullable TKwelse ,
- n_else: nullable PExpr
+ n_kwif: nullable TKwif,
+ n_expr: nullable AExpr,
+ n_kwthen: nullable TKwthen,
+ n_then: nullable AExpr,
+ n_kwelse: nullable TKwelse,
+ n_else: nullable AExpr
)
do
empty_init
n_else.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwif == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_then == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_then = new_child
else
abort
if _n_else == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_else = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwif)
- v.visit(_n_expr)
- v.visit(_n_kwthen)
- v.visit(_n_then)
- v.visit(_n_kwelse)
- v.visit(_n_else)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwif)
- v.visit(_n_expr)
- v.visit(_n_kwthen)
- v.visit(_n_then)
- v.visit(_n_kwelse)
- v.visit(_n_else)
+ v.enter_visit(_n_kwif)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwthen)
+ v.enter_visit(_n_then)
+ v.enter_visit(_n_kwelse)
+ v.enter_visit(_n_else)
end
end
redef class AWhileExpr
- redef fun n_kwwhile=(n)
- do
- _n_kwwhile = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_kwdo=(n)
- do
- _n_kwdo = n
- n.parent = self
- end
- redef fun n_block=(n)
- do
- _n_block = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_awhileexpr (
- n_kwwhile: nullable TKwwhile ,
- n_expr: nullable PExpr ,
- n_kwdo: nullable TKwdo ,
- n_block: nullable PExpr
+ n_kwwhile: nullable TKwwhile,
+ n_expr: nullable AExpr,
+ n_kwdo: nullable TKwdo,
+ n_block: nullable AExpr,
+ n_label: nullable ALabel
)
do
empty_init
if n_block != null then
n_block.parent = self
end
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwwhile == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_block == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_block = new_child
else
_n_block = null
end
return
end
+ if _n_label == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
+ end
+ return
+ end
end
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwwhile)
- v.visit(_n_expr)
- v.visit(_n_kwdo)
+ v.enter_visit(_n_kwwhile)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwdo)
if _n_block != null then
- v.visit(_n_block.as(not null))
+ v.enter_visit(_n_block.as(not null))
end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwwhile)
- v.visit(_n_expr)
- v.visit(_n_kwdo)
- if _n_block != null then
- v.visit(_n_block.as(not null))
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
end
end
-redef class AForExpr
- redef fun n_kwfor=(n)
- do
- _n_kwfor = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_expr=(n)
+redef class ALoopExpr
+ private init empty_init do end
+
+ init init_aloopexpr (
+ n_kwloop: nullable TKwloop,
+ n_block: nullable AExpr,
+ n_label: nullable ALabel
+ )
do
- _n_expr = n
- n.parent = self
+ empty_init
+ _n_kwloop = n_kwloop.as(not null)
+ n_kwloop.parent = self
+ _n_block = n_block
+ if n_block != null then
+ n_block.parent = self
+ end
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
end
- redef fun n_kwdo=(n)
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- _n_kwdo = n
- n.parent = self
+ if _n_kwloop == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TKwloop
+ _n_kwloop = new_child
+ else
+ abort
+ end
+ return
+ end
+ if _n_block == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_block = new_child
+ else
+ _n_block = null
+ end
+ return
+ end
+ if _n_label == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
+ end
+ return
+ end
end
- redef fun n_block=(n)
+
+ redef fun visit_all(v: Visitor)
do
- _n_block = n
- if n != null then
- n.parent = self
+ v.enter_visit(_n_kwloop)
+ if _n_block != null then
+ v.enter_visit(_n_block.as(not null))
+ end
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
end
-
+end
+redef class AForExpr
private init empty_init do end
init init_aforexpr (
- n_kwfor: nullable TKwfor ,
- n_id: nullable TId ,
- n_expr: nullable PExpr ,
- n_kwdo: nullable TKwdo ,
- n_block: nullable PExpr
+ n_kwfor: nullable TKwfor,
+ n_id: nullable TId,
+ n_expr: nullable AExpr,
+ n_kwdo: nullable TKwdo,
+ n_block: nullable AExpr,
+ n_label: nullable ALabel
)
do
empty_init
if n_block != null then
n_block.parent = self
end
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwfor == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_block == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_block = new_child
else
_n_block = null
end
return
end
+ if _n_label == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
+ end
+ return
+ end
end
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwfor)
- v.visit(_n_id)
- v.visit(_n_expr)
- v.visit(_n_kwdo)
+ v.enter_visit(_n_kwfor)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwdo)
if _n_block != null then
- v.visit(_n_block.as(not null))
+ v.enter_visit(_n_block.as(not null))
end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwfor)
- v.visit(_n_id)
- v.visit(_n_expr)
- v.visit(_n_kwdo)
- if _n_block != null then
- v.visit(_n_block.as(not null))
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
end
end
redef class AAssertExpr
- redef fun n_kwassert=(n)
- do
- _n_kwassert = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
-
private init empty_init do end
init init_aassertexpr (
- n_kwassert: nullable TKwassert ,
- n_id: nullable TId ,
- n_expr: nullable PExpr
+ n_kwassert: nullable TKwassert,
+ n_id: nullable TId,
+ n_expr: nullable AExpr,
+ n_else: nullable AExpr
)
do
empty_init
end
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_else = n_else
+ if n_else != null then
+ n_else.parent = self
+ end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwassert == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
end
return
end
+ if _n_else == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_else = new_child
+ else
+ _n_else = null
+ end
+ return
+ end
end
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwassert)
+ v.enter_visit(_n_kwassert)
if _n_id != null then
- v.visit(_n_id.as(not null))
+ v.enter_visit(_n_id.as(not null))
end
- v.visit(_n_expr)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwassert)
- if _n_id != null then
- v.visit(_n_id.as(not null))
+ v.enter_visit(_n_expr)
+ if _n_else != null then
+ v.enter_visit(_n_else.as(not null))
end
- v.visit(_n_expr)
end
end
redef class AOnceExpr
- redef fun n_kwonce=(n)
- do
- _n_kwonce = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
-
private init empty_init do end
init init_aonceexpr (
- n_kwonce: nullable TKwonce ,
- n_expr: nullable PExpr
+ n_kwonce: nullable TKwonce,
+ n_expr: nullable AExpr
)
do
empty_init
n_expr.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwonce == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwonce)
- v.visit(_n_expr)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwonce)
- v.visit(_n_expr)
+ v.enter_visit(_n_kwonce)
+ v.enter_visit(_n_expr)
end
end
redef class ASendExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
-
private init empty_init do end
init init_asendexpr (
- n_expr: nullable PExpr
+ n_expr: nullable AExpr
)
do
empty_init
n_expr.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
+ v.enter_visit(_n_expr)
end
end
redef class ABinopExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_abinopexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AOrExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aorexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AAndExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aandexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
+end
+redef class AOrElseExpr
+ private init empty_init do end
- redef fun visit_all_reverse(v: Visitor)
+ init init_aorelseexpr (
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
+ )
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ empty_init
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ _n_expr2 = n_expr2.as(not null)
+ n_expr2.parent = self
end
-end
-redef class ANotExpr
- redef fun n_kwnot=(n)
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- _n_kwnot = n
- n.parent = self
+ if _n_expr == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_expr = new_child
+ else
+ abort
+ end
+ return
+ end
+ if _n_expr2 == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_expr2 = new_child
+ else
+ abort
+ end
+ return
+ end
end
- redef fun n_expr=(n)
+
+ redef fun visit_all(v: Visitor)
do
- _n_expr = n
- n.parent = self
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
-
+end
+redef class ANotExpr
private init empty_init do end
init init_anotexpr (
- n_kwnot: nullable TKwnot ,
- n_expr: nullable PExpr
+ n_kwnot: nullable TKwnot,
+ n_expr: nullable AExpr
)
do
empty_init
n_expr.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwnot == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwnot)
- v.visit(_n_expr)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwnot)
- v.visit(_n_expr)
+ v.enter_visit(_n_kwnot)
+ v.enter_visit(_n_expr)
end
end
redef class AEqExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aeqexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AEeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aeeexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class ANeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aneexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class ALtExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_altexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class ALeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aleexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
+end
+redef class ALlExpr
+ private init empty_init do end
- redef fun visit_all_reverse(v: Visitor)
+ init init_allexpr (
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
+ )
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ empty_init
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ _n_expr2 = n_expr2.as(not null)
+ n_expr2.parent = self
end
-end
-redef class AGtExpr
- redef fun n_expr=(n)
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- _n_expr = n
- n.parent = self
+ if _n_expr == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_expr = new_child
+ else
+ abort
+ end
+ return
+ end
+ if _n_expr2 == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_expr2 = new_child
+ else
+ abort
+ end
+ return
+ end
end
- redef fun n_expr2=(n)
+
+ redef fun visit_all(v: Visitor)
do
- _n_expr2 = n
- n.parent = self
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
-
+end
+redef class AGtExpr
private init empty_init do end
init init_agtexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AGeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_ageexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
+end
+redef class AGgExpr
+ private init empty_init do end
- redef fun visit_all_reverse(v: Visitor)
+ init init_aggexpr (
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
+ )
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ empty_init
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ _n_expr2 = n_expr2.as(not null)
+ n_expr2.parent = self
end
-end
-redef class AIsaExpr
- redef fun n_expr=(n)
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- _n_expr = n
- n.parent = self
+ if _n_expr == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_expr = new_child
+ else
+ abort
+ end
+ return
+ end
+ if _n_expr2 == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AExpr
+ _n_expr2 = new_child
+ else
+ abort
+ end
+ return
+ end
end
- redef fun n_type=(n)
+
+ redef fun visit_all(v: Visitor)
do
- _n_type = n
- n.parent = self
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
-
+end
+redef class AIsaExpr
private init empty_init do end
init init_aisaexpr (
- n_expr: nullable PExpr ,
- n_type: nullable PType
+ n_expr: nullable AExpr,
+ n_type: nullable AType
)
do
empty_init
n_type.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_type)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_type)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_type)
end
end
redef class APlusExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aplusexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
end
return
- end
- end
-
- redef fun visit_all(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ end
end
- redef fun visit_all_reverse(v: Visitor)
+ redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AMinusExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aminusexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AStarshipExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_astarshipexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AStarExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_astarexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class ASlashExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aslashexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class APercentExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_apercentexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AUminusExpr
- redef fun n_minus=(n)
- do
- _n_minus = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
-
private init empty_init do end
init init_auminusexpr (
- n_minus: nullable TMinus ,
- n_expr: nullable PExpr
+ n_minus: nullable TMinus,
+ n_expr: nullable AExpr
)
do
empty_init
n_expr.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_minus == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_minus)
- v.visit(_n_expr)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_minus)
- v.visit(_n_expr)
+ v.enter_visit(_n_minus)
+ v.enter_visit(_n_expr)
end
end
redef class ANewExpr
- redef fun n_kwnew=(n)
- do
- _n_kwnew = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_anewexpr (
- n_kwnew: nullable TKwnew ,
- n_type: nullable PType ,
- n_id: nullable TId ,
- n_args: Collection[Object] # Should be Collection[PExpr]
+ n_kwnew: nullable TKwnew,
+ n_type: nullable AType,
+ n_id: nullable TId,
+ n_args: Collection[Object] # Should be Collection[AExpr]
)
do
empty_init
n_id.parent = self
end
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwnew == old_child then
if new_child != null then
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwnew)
- v.visit(_n_type)
+ v.enter_visit(_n_kwnew)
+ v.enter_visit(_n_type)
if _n_id != null then
- v.visit(_n_id.as(not null))
+ v.enter_visit(_n_id.as(not null))
end
for n in _n_args do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwnew)
- v.visit(_n_type)
- if _n_id != null then
- v.visit(_n_id.as(not null))
- end
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AAttrExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_aattrexpr (
- n_expr: nullable PExpr ,
- n_id: nullable TAttrid
+ n_expr: nullable AExpr,
+ n_id: nullable TAttrid
)
do
empty_init
n_id.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_id)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_id)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
end
end
redef class AAttrAssignExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_aattrassignexpr (
- n_expr: nullable PExpr ,
- n_id: nullable TAttrid ,
- n_assign: nullable TAssign ,
- n_value: nullable PExpr
+ n_expr: nullable AExpr,
+ n_id: nullable TAttrid,
+ n_assign: nullable TAssign,
+ n_value: nullable AExpr
)
do
empty_init
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_id)
- v.visit(_n_assign)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_id)
- v.visit(_n_assign)
- v.visit(_n_value)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_assign)
+ v.enter_visit(_n_value)
end
end
redef class AAttrReassignExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign_op=(n)
- do
- _n_assign_op = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_aattrreassignexpr (
- n_expr: nullable PExpr ,
- n_id: nullable TAttrid ,
- n_assign_op: nullable PAssignOp ,
- n_value: nullable PExpr
+ n_expr: nullable AExpr,
+ n_id: nullable TAttrid,
+ n_assign_op: nullable AAssignOp,
+ n_value: nullable AExpr
)
do
empty_init
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_assign_op == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PAssignOp
+ assert new_child isa AAssignOp
_n_assign_op = new_child
else
abort
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_id)
- v.visit(_n_assign_op)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_id)
- v.visit(_n_assign_op)
- v.visit(_n_value)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_assign_op)
+ v.enter_visit(_n_value)
end
end
redef class ACallExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_acallexpr (
- n_expr: nullable PExpr ,
- n_id: nullable TId ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_closure_defs: Collection[Object] # Should be Collection[PClosureDef]
+ n_expr: nullable AExpr,
+ n_id: nullable TId,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_closure_defs: Collection[Object] # Should be Collection[AClosureDef]
)
do
empty_init
_n_id = n_id.as(not null)
n_id.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
for n in n_closure_defs do
- assert n isa PClosureDef
+ assert n isa AClosureDef
_n_closure_defs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
for i in [0.._n_closure_defs.length[ do
if _n_closure_defs[i] == old_child then
if new_child != null then
- assert new_child isa PClosureDef
+ assert new_child isa AClosureDef
_n_closure_defs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_id)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
for n in _n_args do
- v.visit(n)
+ v.enter_visit(n)
end
for n in _n_closure_defs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_id)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
- do
- var i = _n_closure_defs.length
- while i >= 0 do
- v.visit(_n_closure_defs[i])
- i = i - 1
- end
- end
end
end
redef class ACallAssignExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_acallassignexpr (
- n_expr: nullable PExpr ,
- n_id: nullable TId ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_assign: nullable TAssign ,
- n_value: nullable PExpr
+ n_expr: nullable AExpr,
+ n_id: nullable TId,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_assign: nullable TAssign,
+ n_value: nullable AExpr
)
do
empty_init
_n_id = n_id.as(not null)
n_id.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_id)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
for n in _n_args do
- v.visit(n)
- end
- v.visit(_n_assign)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_id)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
- v.visit(_n_assign)
- v.visit(_n_value)
+ v.enter_visit(_n_assign)
+ v.enter_visit(_n_value)
end
end
redef class ACallReassignExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign_op=(n)
- do
- _n_assign_op = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_acallreassignexpr (
- n_expr: nullable PExpr ,
- n_id: nullable TId ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_assign_op: nullable PAssignOp ,
- n_value: nullable PExpr
+ n_expr: nullable AExpr,
+ n_id: nullable TId,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_assign_op: nullable AAssignOp,
+ n_value: nullable AExpr
)
do
empty_init
_n_id = n_id.as(not null)
n_id.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
if _n_assign_op == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PAssignOp
+ assert new_child isa AAssignOp
_n_assign_op = new_child
else
abort
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_id)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
for n in _n_args do
- v.visit(n)
+ v.enter_visit(n)
end
- v.visit(_n_assign_op)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_id)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
- end
- end
- v.visit(_n_assign_op)
- v.visit(_n_value)
+ v.enter_visit(_n_assign_op)
+ v.enter_visit(_n_value)
end
end
redef class ASuperExpr
- redef fun n_qualified=(n)
- do
- _n_qualified = n
- if n != null then
- n.parent = self
- end
- end
- redef fun n_kwsuper=(n)
- do
- _n_kwsuper = n
- n.parent = self
- end
-
private init empty_init do end
init init_asuperexpr (
- n_qualified: nullable PQualified ,
- n_kwsuper: nullable TKwsuper ,
- n_args: Collection[Object] # Should be Collection[PExpr]
+ n_qualified: nullable AQualified,
+ n_kwsuper: nullable TKwsuper,
+ n_args: Collection[Object] # Should be Collection[AExpr]
)
do
empty_init
_n_kwsuper = n_kwsuper.as(not null)
n_kwsuper.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_qualified == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PQualified
+ assert new_child isa AQualified
_n_qualified = new_child
else
_n_qualified = null
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
if _n_qualified != null then
- v.visit(_n_qualified.as(not null))
+ v.enter_visit(_n_qualified.as(not null))
end
- v.visit(_n_kwsuper)
+ v.enter_visit(_n_kwsuper)
for n in _n_args do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_qualified != null then
- v.visit(_n_qualified.as(not null))
- end
- v.visit(_n_kwsuper)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AInitExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_kwinit=(n)
- do
- _n_kwinit = n
- n.parent = self
- end
-
private init empty_init do end
init init_ainitexpr (
- n_expr: nullable PExpr ,
- n_kwinit: nullable TKwinit ,
- n_args: Collection[Object] # Should be Collection[PExpr]
+ n_expr: nullable AExpr,
+ n_kwinit: nullable TKwinit,
+ n_args: Collection[Object] # Should be Collection[AExpr]
)
do
empty_init
_n_kwinit = n_kwinit.as(not null)
n_kwinit.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_kwinit)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwinit)
for n in _n_args do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_kwinit)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class ABraExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
-
private init empty_init do end
init init_abraexpr (
- n_expr: nullable PExpr ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_closure_defs: Collection[Object] # Should be Collection[PClosureDef]
+ n_expr: nullable AExpr,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_closure_defs: Collection[Object] # Should be Collection[AClosureDef]
)
do
empty_init
_n_expr = n_expr.as(not null)
n_expr.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
for n in n_closure_defs do
- assert n isa PClosureDef
+ assert n isa AClosureDef
_n_closure_defs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
for i in [0.._n_closure_defs.length[ do
if _n_closure_defs[i] == old_child then
if new_child != null then
- assert new_child isa PClosureDef
+ assert new_child isa AClosureDef
_n_closure_defs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
+ v.enter_visit(_n_expr)
for n in _n_args do
- v.visit(n)
+ v.enter_visit(n)
end
for n in _n_closure_defs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
- end
- end
- do
- var i = _n_closure_defs.length
- while i >= 0 do
- v.visit(_n_closure_defs[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class ABraAssignExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_abraassignexpr (
- n_expr: nullable PExpr ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_assign: nullable TAssign ,
- n_value: nullable PExpr
+ n_expr: nullable AExpr,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_assign: nullable TAssign,
+ n_value: nullable AExpr
)
do
empty_init
_n_expr = n_expr.as(not null)
n_expr.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
+ v.enter_visit(_n_expr)
for n in _n_args do
- v.visit(n)
- end
- v.visit(_n_assign)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
- v.visit(_n_assign)
- v.visit(_n_value)
+ v.enter_visit(_n_assign)
+ v.enter_visit(_n_value)
end
end
redef class ABraReassignExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_assign_op=(n)
- do
- _n_assign_op = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_abrareassignexpr (
- n_expr: nullable PExpr ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_assign_op: nullable PAssignOp ,
- n_value: nullable PExpr
+ n_expr: nullable AExpr,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_assign_op: nullable AAssignOp,
+ n_value: nullable AExpr
)
do
empty_init
_n_expr = n_expr.as(not null)
n_expr.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
if _n_assign_op == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PAssignOp
+ assert new_child isa AAssignOp
_n_assign_op = new_child
else
abort
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
+ v.enter_visit(_n_expr)
for n in _n_args do
- v.visit(n)
- end
- v.visit(_n_assign_op)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
- v.visit(_n_assign_op)
- v.visit(_n_value)
+ v.enter_visit(_n_assign_op)
+ v.enter_visit(_n_value)
end
end
redef class AClosureCallExpr
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_aclosurecallexpr (
- n_id: nullable TId ,
- n_args: Collection[Object] , # Should be Collection[PExpr]
- n_closure_defs: Collection[Object] # Should be Collection[PClosureDef]
+ n_id: nullable TId,
+ n_args: Collection[Object], # Should be Collection[AExpr]
+ n_closure_defs: Collection[Object] # Should be Collection[AClosureDef]
)
do
empty_init
_n_id = n_id.as(not null)
n_id.parent = self
for n in n_args do
- assert n isa PExpr
+ assert n isa AExpr
_n_args.add(n)
n.parent = self
end
for n in n_closure_defs do
- assert n isa PClosureDef
+ assert n isa AClosureDef
_n_closure_defs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
for i in [0.._n_args.length[ do
if _n_args[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_args[i] = new_child
new_child.parent = self
else
for i in [0.._n_closure_defs.length[ do
if _n_closure_defs[i] == old_child then
if new_child != null then
- assert new_child isa PClosureDef
+ assert new_child isa AClosureDef
_n_closure_defs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
+ v.enter_visit(_n_id)
for n in _n_args do
- v.visit(n)
+ v.enter_visit(n)
end
for n in _n_closure_defs do
- v.visit(n)
+ v.enter_visit(n)
end
end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
- do
- var i = _n_args.length
- while i >= 0 do
- v.visit(_n_args[i])
- i = i - 1
- end
- end
- do
- var i = _n_closure_defs.length
- while i >= 0 do
- v.visit(_n_closure_defs[i])
- i = i - 1
- end
- end
- end
end
redef class AVarExpr
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_avarexpr (
- n_id: nullable TId
+ n_id: nullable TId
)
do
empty_init
n_id.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
+ v.enter_visit(_n_id)
end
end
redef class AVarAssignExpr
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign=(n)
- do
- _n_assign = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_avarassignexpr (
- n_id: nullable TId ,
- n_assign: nullable TAssign ,
- n_value: nullable PExpr
+ n_id: nullable TId,
+ n_assign: nullable TAssign,
+ n_value: nullable AExpr
)
do
empty_init
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- v.visit(_n_assign)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
- v.visit(_n_assign)
- v.visit(_n_value)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_assign)
+ v.enter_visit(_n_value)
end
end
redef class AVarReassignExpr
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
- redef fun n_assign_op=(n)
- do
- _n_assign_op = n
- n.parent = self
- end
- redef fun n_value=(n)
- do
- _n_value = n
- n.parent = self
- end
-
private init empty_init do end
init init_avarreassignexpr (
- n_id: nullable TId ,
- n_assign_op: nullable PAssignOp ,
- n_value: nullable PExpr
+ n_id: nullable TId,
+ n_assign_op: nullable AAssignOp,
+ n_value: nullable AExpr
)
do
empty_init
n_value.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_id == old_child then
if new_child != null then
if _n_assign_op == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PAssignOp
+ assert new_child isa AAssignOp
_n_assign_op = new_child
else
abort
if _n_value == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_value = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_id)
- v.visit(_n_assign_op)
- v.visit(_n_value)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_id)
- v.visit(_n_assign_op)
- v.visit(_n_value)
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_assign_op)
+ v.enter_visit(_n_value)
end
end
redef class ARangeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_arangeexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class ACrangeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_acrangeexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AOrangeExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_expr2=(n)
- do
- _n_expr2 = n
- n.parent = self
- end
-
private init empty_init do end
init init_aorangeexpr (
- n_expr: nullable PExpr ,
- n_expr2: nullable PExpr
+ n_expr: nullable AExpr,
+ n_expr2: nullable AExpr
)
do
empty_init
n_expr2.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_expr2 == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr2 = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_expr2)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_expr2)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_expr2)
end
end
redef class AArrayExpr
-
private init empty_init do end
init init_aarrayexpr (
- n_exprs: Collection[Object] # Should be Collection[PExpr]
+ n_exprs: Collection[Object] # Should be Collection[AExpr]
)
do
empty_init
for n in n_exprs do
- assert n isa PExpr
+ assert n isa AExpr
_n_exprs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_exprs.length[ do
if _n_exprs[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_exprs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
for n in _n_exprs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_exprs.length
- while i >= 0 do
- v.visit(_n_exprs[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class ASelfExpr
- redef fun n_kwself=(n)
- do
- _n_kwself = n
- n.parent = self
- end
-
private init empty_init do end
init init_aselfexpr (
- n_kwself: nullable TKwself
+ n_kwself: nullable TKwself
)
do
empty_init
n_kwself.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwself == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwself)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwself)
+ v.enter_visit(_n_kwself)
end
end
redef class AImplicitSelfExpr
-
private init empty_init do end
init init_aimplicitselfexpr
empty_init
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
end
redef fun visit_all(v: Visitor)
do
end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- end
end
redef class ATrueExpr
- redef fun n_kwtrue=(n)
- do
- _n_kwtrue = n
- n.parent = self
- end
-
private init empty_init do end
init init_atrueexpr (
- n_kwtrue: nullable TKwtrue
+ n_kwtrue: nullable TKwtrue
)
do
empty_init
n_kwtrue.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwtrue == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwtrue)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwtrue)
+ v.enter_visit(_n_kwtrue)
end
end
redef class AFalseExpr
- redef fun n_kwfalse=(n)
- do
- _n_kwfalse = n
- n.parent = self
- end
-
private init empty_init do end
init init_afalseexpr (
- n_kwfalse: nullable TKwfalse
+ n_kwfalse: nullable TKwfalse
)
do
empty_init
n_kwfalse.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwfalse == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwfalse)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwfalse)
+ v.enter_visit(_n_kwfalse)
end
end
redef class ANullExpr
- redef fun n_kwnull=(n)
- do
- _n_kwnull = n
- n.parent = self
- end
-
private init empty_init do end
init init_anullexpr (
- n_kwnull: nullable TKwnull
+ n_kwnull: nullable TKwnull
)
do
empty_init
n_kwnull.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwnull == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwnull)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwnull)
+ v.enter_visit(_n_kwnull)
end
end
redef class AIntExpr
- redef fun n_number=(n)
- do
- _n_number = n
- n.parent = self
- end
-
private init empty_init do end
init init_aintexpr (
- n_number: nullable TNumber
+ n_number: nullable TNumber
)
do
empty_init
n_number.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_number == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_number)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_number)
+ v.enter_visit(_n_number)
end
end
redef class AFloatExpr
- redef fun n_float=(n)
- do
- _n_float = n
- n.parent = self
- end
-
private init empty_init do end
init init_afloatexpr (
- n_float: nullable TFloat
+ n_float: nullable TFloat
)
do
empty_init
n_float.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_float == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_float)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_float)
+ v.enter_visit(_n_float)
end
end
redef class ACharExpr
- redef fun n_char=(n)
- do
- _n_char = n
- n.parent = self
- end
-
private init empty_init do end
init init_acharexpr (
- n_char: nullable TChar
+ n_char: nullable TChar
)
do
empty_init
n_char.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_char == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_char)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_char)
+ v.enter_visit(_n_char)
end
end
redef class AStringExpr
- redef fun n_string=(n)
- do
- _n_string = n
- n.parent = self
- end
-
private init empty_init do end
init init_astringexpr (
- n_string: nullable TString
+ n_string: nullable TString
)
do
empty_init
n_string.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_string == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_string)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_string)
+ v.enter_visit(_n_string)
end
end
redef class AStartStringExpr
- redef fun n_string=(n)
- do
- _n_string = n
- n.parent = self
- end
-
private init empty_init do end
init init_astartstringexpr (
- n_string: nullable TStartString
+ n_string: nullable TStartString
)
do
empty_init
n_string.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_string == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_string)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_string)
+ v.enter_visit(_n_string)
end
end
redef class AMidStringExpr
- redef fun n_string=(n)
- do
- _n_string = n
- n.parent = self
- end
-
private init empty_init do end
init init_amidstringexpr (
- n_string: nullable TMidString
+ n_string: nullable TMidString
)
do
empty_init
n_string.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_string == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_string)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_string)
+ v.enter_visit(_n_string)
end
end
redef class AEndStringExpr
- redef fun n_string=(n)
- do
- _n_string = n
- n.parent = self
- end
-
private init empty_init do end
init init_aendstringexpr (
- n_string: nullable TEndString
+ n_string: nullable TEndString
)
do
empty_init
n_string.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_string == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_string)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_string)
+ v.enter_visit(_n_string)
end
end
redef class ASuperstringExpr
-
private init empty_init do end
init init_asuperstringexpr (
- n_exprs: Collection[Object] # Should be Collection[PExpr]
+ n_exprs: Collection[Object] # Should be Collection[AExpr]
)
do
empty_init
for n in n_exprs do
- assert n isa PExpr
+ assert n isa AExpr
_n_exprs.add(n)
n.parent = self
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_exprs.length[ do
if _n_exprs[i] == old_child then
if new_child != null then
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_exprs[i] = new_child
new_child.parent = self
else
redef fun visit_all(v: Visitor)
do
for n in _n_exprs do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_exprs.length
- while i >= 0 do
- v.visit(_n_exprs[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class AParExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
-
private init empty_init do end
init init_aparexpr (
- n_expr: nullable PExpr
+ n_expr: nullable AExpr
)
do
empty_init
n_expr.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
+ v.enter_visit(_n_expr)
end
end
redef class AAsCastExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_kwas=(n)
- do
- _n_kwas = n
- n.parent = self
- end
- redef fun n_type=(n)
- do
- _n_type = n
- n.parent = self
- end
-
private init empty_init do end
init init_aascastexpr (
- n_expr: nullable PExpr ,
- n_kwas: nullable TKwas ,
- n_type: nullable PType
+ n_expr: nullable AExpr,
+ n_kwas: nullable TKwas,
+ n_type: nullable AType
)
do
empty_init
n_type.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
if _n_type == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PType
+ assert new_child isa AType
_n_type = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_kwas)
- v.visit(_n_type)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_kwas)
- v.visit(_n_type)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwas)
+ v.enter_visit(_n_type)
end
end
redef class AAsNotnullExpr
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_kwas=(n)
- do
- _n_kwas = n
- n.parent = self
- end
- redef fun n_kwnot=(n)
- do
- _n_kwnot = n
- n.parent = self
- end
- redef fun n_kwnull=(n)
- do
- _n_kwnull = n
- n.parent = self
- end
-
private init empty_init do end
init init_aasnotnullexpr (
- n_expr: nullable PExpr ,
- n_kwas: nullable TKwas ,
- n_kwnot: nullable TKwnot ,
- n_kwnull: nullable TKwnull
+ n_expr: nullable AExpr,
+ n_kwas: nullable TKwas,
+ n_kwnot: nullable TKwnot,
+ n_kwnull: nullable TKwnull
)
do
empty_init
n_kwnull.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_expr)
- v.visit(_n_kwas)
- v.visit(_n_kwnot)
- v.visit(_n_kwnull)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_expr)
- v.visit(_n_kwas)
- v.visit(_n_kwnot)
- v.visit(_n_kwnull)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwas)
+ v.enter_visit(_n_kwnot)
+ v.enter_visit(_n_kwnull)
end
end
redef class AIssetAttrExpr
- redef fun n_kwisset=(n)
- do
- _n_kwisset = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- n.parent = self
- end
- redef fun n_id=(n)
- do
- _n_id = n
- n.parent = self
- end
-
private init empty_init do end
init init_aissetattrexpr (
- n_kwisset: nullable TKwisset ,
- n_expr: nullable PExpr ,
- n_id: nullable TAttrid
+ n_kwisset: nullable TKwisset,
+ n_expr: nullable AExpr,
+ n_id: nullable TAttrid
)
do
empty_init
n_id.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_kwisset == old_child then
if new_child != null then
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
abort
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwisset)
- v.visit(_n_expr)
- v.visit(_n_id)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_kwisset)
- v.visit(_n_expr)
- v.visit(_n_id)
+ v.enter_visit(_n_kwisset)
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_id)
end
end
redef class APlusAssignOp
- redef fun n_pluseq=(n)
- do
- _n_pluseq = n
- n.parent = self
- end
-
private init empty_init do end
init init_aplusassignop (
- n_pluseq: nullable TPluseq
+ n_pluseq: nullable TPluseq
)
do
empty_init
n_pluseq.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_pluseq == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_pluseq)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_pluseq)
+ v.enter_visit(_n_pluseq)
end
end
redef class AMinusAssignOp
- redef fun n_minuseq=(n)
- do
- _n_minuseq = n
- n.parent = self
- end
-
private init empty_init do end
init init_aminusassignop (
- n_minuseq: nullable TMinuseq
+ n_minuseq: nullable TMinuseq
)
do
empty_init
n_minuseq.parent = self
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_minuseq == old_child then
if new_child != null then
redef fun visit_all(v: Visitor)
do
- v.visit(_n_minuseq)
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- v.visit(_n_minuseq)
+ v.enter_visit(_n_minuseq)
end
end
redef class AClosureDef
- redef fun n_kwwith=(n)
- do
- _n_kwwith = n
- n.parent = self
- end
- redef fun n_kwdo=(n)
- do
- _n_kwdo = n
- n.parent = self
- end
- redef fun n_expr=(n)
- do
- _n_expr = n
- if n != null then
- n.parent = self
- end
- end
-
private init empty_init do end
init init_aclosuredef (
- n_kwwith: nullable TKwwith ,
- n_id: Collection[Object] , # Should be Collection[TId]
- n_kwdo: nullable TKwdo ,
- n_expr: nullable PExpr
+ n_bang: nullable TBang,
+ n_id: nullable AClosureId,
+ n_ids: Collection[Object], # Should be Collection[TId]
+ n_kwdo: nullable TKwdo,
+ n_expr: nullable AExpr,
+ n_label: nullable ALabel
)
do
empty_init
- _n_kwwith = n_kwwith.as(not null)
- n_kwwith.parent = self
- for n in n_id do
+ _n_bang = n_bang.as(not null)
+ n_bang.parent = self
+ _n_id = n_id.as(not null)
+ n_id.parent = self
+ for n in n_ids do
assert n isa TId
- _n_id.add(n)
+ _n_ids.add(n)
n.parent = self
end
- _n_kwdo = n_kwdo.as(not null)
- n_kwdo.parent = self
+ _n_kwdo = n_kwdo
+ if n_kwdo != null then
+ n_kwdo.parent = self
+ end
_n_expr = n_expr
if n_expr != null then
n_expr.parent = self
end
+ _n_label = n_label
+ if n_label != null then
+ n_label.parent = self
+ end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_kwwith == old_child then
+ if _n_bang == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa TKwwith
- _n_kwwith = new_child
+ assert new_child isa TBang
+ _n_bang = new_child
else
abort
end
return
end
- for i in [0.._n_id.length[ do
- if _n_id[i] == old_child then
+ if _n_id == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa AClosureId
+ _n_id = new_child
+ else
+ abort
+ end
+ return
+ end
+ for i in [0.._n_ids.length[ do
+ if _n_ids[i] == old_child then
if new_child != null then
assert new_child isa TId
- _n_id[i] = new_child
+ _n_ids[i] = new_child
new_child.parent = self
else
- _n_id.remove_at(i)
+ _n_ids.remove_at(i)
end
return
end
assert new_child isa TKwdo
_n_kwdo = new_child
else
- abort
+ _n_kwdo = null
end
return
end
if _n_expr == old_child then
if new_child != null then
new_child.parent = self
- assert new_child isa PExpr
+ assert new_child isa AExpr
_n_expr = new_child
else
_n_expr = null
end
return
end
+ if _n_label == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa ALabel
+ _n_label = new_child
+ else
+ _n_label = null
+ end
+ return
+ end
end
redef fun visit_all(v: Visitor)
do
- v.visit(_n_kwwith)
- for n in _n_id do
- v.visit(n)
+ v.enter_visit(_n_bang)
+ v.enter_visit(_n_id)
+ for n in _n_ids do
+ v.enter_visit(n)
end
- v.visit(_n_kwdo)
+ if _n_kwdo != null then
+ v.enter_visit(_n_kwdo.as(not null))
+ end
if _n_expr != null then
- v.visit(_n_expr.as(not null))
+ v.enter_visit(_n_expr.as(not null))
+ end
+ if _n_label != null then
+ v.enter_visit(_n_label.as(not null))
end
end
+end
+redef class ASimpleClosureId
+ private init empty_init do end
- redef fun visit_all_reverse(v: Visitor)
+ init init_asimpleclosureid (
+ n_id: nullable TId
+ )
do
- v.visit(_n_kwwith)
- do
- var i = _n_id.length
- while i >= 0 do
- v.visit(_n_id[i])
- i = i - 1
- end
+ empty_init
+ _n_id = n_id.as(not null)
+ n_id.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_id == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TId
+ _n_id = new_child
+ else
+ abort
+ end
+ return
end
- v.visit(_n_kwdo)
- if _n_expr != null then
- v.visit(_n_expr.as(not null))
- end
+ end
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_id)
end
end
-redef class AQualified
- redef fun n_classid=(n)
+redef class ABreakClosureId
+ private init empty_init do end
+
+ init init_abreakclosureid (
+ n_kwbreak: nullable TKwbreak
+ )
do
- _n_classid = n
- if n != null then
- n.parent = self
- end
+ empty_init
+ _n_kwbreak = n_kwbreak.as(not null)
+ n_kwbreak.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_kwbreak == old_child then
+ if new_child != null then
+ new_child.parent = self
+ assert new_child isa TKwbreak
+ _n_kwbreak = new_child
+ else
+ abort
+ end
+ return
+ end
end
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_kwbreak)
+ end
+end
+redef class AQualified
private init empty_init do end
init init_aqualified (
- n_id: Collection[Object] , # Should be Collection[TId]
- n_classid: nullable TClassid
+ n_id: Collection[Object], # Should be Collection[TId]
+ n_classid: nullable TClassid
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_id.length[ do
if _n_id[i] == old_child then
redef fun visit_all(v: Visitor)
do
for n in _n_id do
- v.visit(n)
- end
- if _n_classid != null then
- v.visit(_n_classid.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_id.length
- while i >= 0 do
- v.visit(_n_id[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
if _n_classid != null then
- v.visit(_n_classid.as(not null))
+ v.enter_visit(_n_classid.as(not null))
end
end
end
redef class ADoc
-
private init empty_init do end
init init_adoc (
- n_comment: Collection[Object] # Should be Collection[TComment]
+ n_comment: Collection[Object] # Should be Collection[TComment]
)
do
empty_init
end
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
for i in [0.._n_comment.length[ do
if _n_comment[i] == old_child then
redef fun visit_all(v: Visitor)
do
for n in _n_comment do
- v.visit(n)
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- do
- var i = _n_comment.length
- while i >= 0 do
- v.visit(_n_comment[i])
- i = i - 1
+ v.enter_visit(n)
end
- end
end
end
redef class Start
init(
- n_base: nullable PModule,
+ n_base: nullable AModule,
n_eof: EOF)
do
_n_base = n_base
_n_eof = n_eof
end
- redef fun replace_child(old_child: PNode, new_child: nullable PNode)
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
if _n_base == old_child then
if new_child == null then
else
new_child.parent = self
- assert new_child isa PModule
+ assert new_child isa AModule
_n_base = new_child
end
old_child.parent = null
redef fun visit_all(v: Visitor)
do
if _n_base != null then
- v.visit(_n_base.as(not null))
- end
- end
-
- redef fun visit_all_reverse(v: Visitor)
- do
- if _n_base != null then
- v.visit(_n_base.as(not null))
+ v.enter_visit(_n_base.as(not null))
end
+ v.enter_visit(_n_eof)
end
end