# Production AST nodes full definition.
# This file was generated by SableCC (http://www.sablecc.org/).
-module parser_prod is no_warning("missing-doc")
+module parser_prod is generated, no_warning("missing-doc")
import lexer
intrude import parser_nodes
n_kwredef: nullable TKwredef,
n_visibility: nullable AVisibility,
n_classkind: nullable AClasskind,
- n_id: nullable TClassid,
+ n_qid: nullable AQclassid,
+ n_obra: nullable TObra,
n_formaldefs: Collection[Object], # Should be Collection[AFormaldef]
+ n_cbra: nullable TCbra,
n_extern_code_block: nullable AExternCodeBlock,
n_propdefs: Collection[Object], # Should be Collection[APropdef]
n_kwend: nullable TKwend
n_visibility.parent = self
_n_classkind = n_classkind.as(not null)
n_classkind.parent = self
- _n_id = n_id
- if n_id != null then n_id.parent = self
+ _n_qid = n_qid
+ if n_qid != null then n_qid.parent = self
+ _n_obra = n_obra
+ if n_obra != null then n_obra.parent = self
self.n_formaldefs.unsafe_add_all(n_formaldefs)
+ _n_cbra = n_cbra
+ if n_cbra != null then n_cbra.parent = self
_n_extern_code_block = n_extern_code_block
if n_extern_code_block != null then n_extern_code_block.parent = self
self.n_propdefs.unsafe_add_all(n_propdefs)
n_classkind = new_child.as(AClasskind)
return
end
- if _n_id == old_child then
- n_id = new_child.as(nullable TClassid)
+ if _n_qid == old_child then
+ n_qid = new_child.as(nullable AQclassid)
+ return
+ end
+ if _n_obra == old_child then
+ n_obra = new_child.as(nullable TObra)
return
end
if n_formaldefs.replace_child(old_child, new_child) then return
+ if _n_cbra == old_child then
+ n_cbra = new_child.as(nullable TCbra)
+ return
+ end
if _n_extern_code_block == old_child then
n_extern_code_block = new_child.as(nullable AExternCodeBlock)
return
_n_classkind = node
node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
+ if node != null then node.parent = self
+ end
+ redef fun n_obra=(node)
+ do
+ _n_obra = node
+ if node != null then node.parent = self
+ end
+ redef fun n_cbra=(node)
+ do
+ _n_cbra = node
if node != null then node.parent = self
end
redef fun n_extern_code_block=(node)
v.enter_visit(_n_kwredef)
v.enter_visit(_n_visibility)
v.enter_visit(_n_classkind)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
+ v.enter_visit(_n_obra)
n_formaldefs.visit_all(v)
+ v.enter_visit(_n_cbra)
v.enter_visit(_n_extern_code_block)
n_propdefs.visit_all(v)
v.enter_visit(_n_kwend)
n_kwvar: nullable TKwvar,
n_id2: nullable TId,
n_type: nullable AType,
+ n_assign: nullable TAssign,
n_expr: nullable AExpr,
n_annotations: nullable AAnnotations,
- n_block: nullable AExpr
+ n_kwdo: nullable TKwdo,
+ n_block: nullable AExpr,
+ n_kwend: nullable TKwend
)
do
_n_doc = n_doc
n_id2.parent = self
_n_type = n_type
if n_type != null then n_type.parent = self
+ _n_assign = n_assign
+ if n_assign != null then n_assign.parent = self
_n_expr = n_expr
if n_expr != null then n_expr.parent = self
_n_annotations = n_annotations
if n_annotations != null then n_annotations.parent = self
+ _n_kwdo = n_kwdo
+ if n_kwdo != null then n_kwdo.parent = self
_n_block = n_block
if n_block != null then n_block.parent = self
+ _n_kwend = n_kwend
+ if n_kwend != null then n_kwend.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
n_type = new_child.as(nullable AType)
return
end
+ if _n_assign == old_child then
+ n_assign = new_child.as(nullable TAssign)
+ return
+ end
if _n_expr == old_child then
n_expr = new_child.as(nullable AExpr)
return
n_annotations = new_child.as(nullable AAnnotations)
return
end
+ if _n_kwdo == old_child then
+ n_kwdo = new_child.as(nullable TKwdo)
+ return
+ end
if _n_block == old_child then
n_block = new_child.as(nullable AExpr)
return
end
+ if _n_kwend == old_child then
+ n_kwend = new_child.as(nullable TKwend)
+ return
+ end
end
redef fun n_doc=(node)
_n_type = node
if node != null then node.parent = self
end
+ redef fun n_assign=(node)
+ do
+ _n_assign = node
+ if node != null then node.parent = self
+ end
redef fun n_expr=(node)
do
_n_expr = node
_n_annotations = node
if node != null then node.parent = self
end
+ redef fun n_kwdo=(node)
+ do
+ _n_kwdo = node
+ if node != null then node.parent = self
+ end
redef fun n_block=(node)
do
_n_block = node
if node != null then node.parent = self
end
+ redef fun n_kwend=(node)
+ do
+ _n_kwend = node
+ if node != null then node.parent = self
+ end
redef fun visit_all(v: Visitor)
v.enter_visit(_n_kwvar)
v.enter_visit(_n_id2)
v.enter_visit(_n_type)
+ v.enter_visit(_n_assign)
v.enter_visit(_n_expr)
v.enter_visit(_n_annotations)
+ v.enter_visit(_n_kwdo)
v.enter_visit(_n_block)
+ v.enter_visit(_n_kwend)
end
end
redef class AMainMethPropdef
n_kwredef: nullable TKwredef,
n_visibility: nullable AVisibility,
n_kwtype: nullable TKwtype,
- n_id: nullable TClassid,
+ n_qid: nullable AQclassid,
n_type: nullable AType,
n_annotations: nullable AAnnotations
)
n_visibility.parent = self
_n_kwtype = n_kwtype.as(not null)
n_kwtype.parent = self
- _n_id = n_id.as(not null)
- n_id.parent = self
+ _n_qid = n_qid.as(not null)
+ n_qid.parent = self
_n_type = n_type.as(not null)
n_type.parent = self
_n_annotations = n_annotations
n_kwtype = new_child.as(TKwtype)
return
end
- if _n_id == old_child then
- n_id = new_child.as(TClassid)
+ if _n_qid == old_child then
+ n_qid = new_child.as(AQclassid)
return
end
if _n_type == old_child then
_n_kwtype = node
node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
node.parent = self
end
redef fun n_type=(node)
v.enter_visit(_n_kwredef)
v.enter_visit(_n_visibility)
v.enter_visit(_n_kwtype)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
v.enter_visit(_n_type)
v.enter_visit(_n_annotations)
end
n_annotations: nullable AAnnotations,
n_extern_calls: nullable AExternCalls,
n_extern_code_block: nullable AExternCodeBlock,
- n_block: nullable AExpr
+ n_kwdo: nullable TKwdo,
+ n_block: nullable AExpr,
+ n_kwend: nullable TKwend
)
do
_n_doc = n_doc
if n_extern_calls != null then n_extern_calls.parent = self
_n_extern_code_block = n_extern_code_block
if n_extern_code_block != null then n_extern_code_block.parent = self
+ _n_kwdo = n_kwdo
+ if n_kwdo != null then n_kwdo.parent = self
_n_block = n_block
if n_block != null then n_block.parent = self
+ _n_kwend = n_kwend
+ if n_kwend != null then n_kwend.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
n_extern_code_block = new_child.as(nullable AExternCodeBlock)
return
end
+ if _n_kwdo == old_child then
+ n_kwdo = new_child.as(nullable TKwdo)
+ return
+ end
if _n_block == old_child then
n_block = new_child.as(nullable AExpr)
return
end
+ if _n_kwend == old_child then
+ n_kwend = new_child.as(nullable TKwend)
+ return
+ end
end
redef fun n_doc=(node)
_n_extern_code_block = node
if node != null then node.parent = self
end
+ redef fun n_kwdo=(node)
+ do
+ _n_kwdo = node
+ if node != null then node.parent = self
+ end
redef fun n_block=(node)
do
_n_block = node
if node != null then node.parent = self
end
+ redef fun n_kwend=(node)
+ do
+ _n_kwend = node
+ if node != null then node.parent = self
+ end
redef fun visit_all(v: Visitor)
v.enter_visit(_n_annotations)
v.enter_visit(_n_extern_calls)
v.enter_visit(_n_extern_code_block)
+ v.enter_visit(_n_kwdo)
v.enter_visit(_n_block)
+ v.enter_visit(_n_kwend)
end
end
redef class ASuperPropdef
end
redef class APlusMethid
init init_aplusmethid (
- n_plus: nullable TPlus
+ n_op: nullable TPlus
)
do
- _n_plus = n_plus.as(not null)
- n_plus.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_plus == old_child then
- n_plus = new_child.as(TPlus)
+ if _n_op == old_child then
+ n_op = new_child.as(TPlus)
return
end
end
- redef fun n_plus=(node)
+ redef fun n_op=(node)
do
- _n_plus = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_plus)
+ v.enter_visit(_n_op)
end
end
redef class AMinusMethid
init init_aminusmethid (
- n_minus: nullable TMinus
+ n_op: nullable TMinus
)
do
- _n_minus = n_minus.as(not null)
- n_minus.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_minus == old_child then
- n_minus = new_child.as(TMinus)
+ if _n_op == old_child then
+ n_op = new_child.as(TMinus)
return
end
end
- redef fun n_minus=(node)
+ redef fun n_op=(node)
do
- _n_minus = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_minus)
+ v.enter_visit(_n_op)
end
end
redef class AStarMethid
init init_astarmethid (
- n_star: nullable TStar
+ n_op: nullable TStar
)
do
- _n_star = n_star.as(not null)
- n_star.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_star == old_child then
- n_star = new_child.as(TStar)
+ if _n_op == old_child then
+ n_op = new_child.as(TStar)
return
end
end
- redef fun n_star=(node)
+ redef fun n_op=(node)
do
- _n_star = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_star)
+ v.enter_visit(_n_op)
end
end
redef class AStarstarMethid
init init_astarstarmethid (
- n_starstar: nullable TStarstar
+ n_op: nullable TStarstar
)
do
- _n_starstar = n_starstar.as(not null)
- n_starstar.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_starstar == old_child then
- n_starstar = new_child.as(TStarstar)
+ if _n_op == old_child then
+ n_op = new_child.as(TStarstar)
return
end
end
- redef fun n_starstar=(node)
+ redef fun n_op=(node)
do
- _n_starstar = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_starstar)
+ v.enter_visit(_n_op)
end
end
redef class ASlashMethid
init init_aslashmethid (
- n_slash: nullable TSlash
+ n_op: nullable TSlash
)
do
- _n_slash = n_slash.as(not null)
- n_slash.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_slash == old_child then
- n_slash = new_child.as(TSlash)
+ if _n_op == old_child then
+ n_op = new_child.as(TSlash)
return
end
end
- redef fun n_slash=(node)
+ redef fun n_op=(node)
do
- _n_slash = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_slash)
+ v.enter_visit(_n_op)
end
end
redef class APercentMethid
init init_apercentmethid (
- n_percent: nullable TPercent
+ n_op: nullable TPercent
)
do
- _n_percent = n_percent.as(not null)
- n_percent.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_percent == old_child then
- n_percent = new_child.as(TPercent)
+ if _n_op == old_child then
+ n_op = new_child.as(TPercent)
return
end
end
- redef fun n_percent=(node)
+ redef fun n_op=(node)
do
- _n_percent = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_percent)
+ v.enter_visit(_n_op)
end
end
redef class AEqMethid
init init_aeqmethid (
- n_eq: nullable TEq
+ n_op: nullable TEq
)
do
- _n_eq = n_eq.as(not null)
- n_eq.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_eq == old_child then
- n_eq = new_child.as(TEq)
+ if _n_op == old_child then
+ n_op = new_child.as(TEq)
return
end
end
- redef fun n_eq=(node)
+ redef fun n_op=(node)
do
- _n_eq = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_eq)
+ v.enter_visit(_n_op)
end
end
redef class ANeMethid
init init_anemethid (
- n_ne: nullable TNe
+ n_op: nullable TNe
)
do
- _n_ne = n_ne.as(not null)
- n_ne.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_ne == old_child then
- n_ne = new_child.as(TNe)
+ if _n_op == old_child then
+ n_op = new_child.as(TNe)
return
end
end
- redef fun n_ne=(node)
+ redef fun n_op=(node)
do
- _n_ne = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_ne)
+ v.enter_visit(_n_op)
end
end
redef class ALeMethid
init init_alemethid (
- n_le: nullable TLe
+ n_op: nullable TLe
)
do
- _n_le = n_le.as(not null)
- n_le.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_le == old_child then
- n_le = new_child.as(TLe)
+ if _n_op == old_child then
+ n_op = new_child.as(TLe)
return
end
end
- redef fun n_le=(node)
+ redef fun n_op=(node)
do
- _n_le = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_le)
+ v.enter_visit(_n_op)
end
end
redef class AGeMethid
init init_agemethid (
- n_ge: nullable TGe
+ n_op: nullable TGe
)
do
- _n_ge = n_ge.as(not null)
- n_ge.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_ge == old_child then
- n_ge = new_child.as(TGe)
+ if _n_op == old_child then
+ n_op = new_child.as(TGe)
return
end
end
- redef fun n_ge=(node)
+ redef fun n_op=(node)
do
- _n_ge = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_ge)
+ v.enter_visit(_n_op)
end
end
redef class ALtMethid
init init_altmethid (
- n_lt: nullable TLt
+ n_op: nullable TLt
)
do
- _n_lt = n_lt.as(not null)
- n_lt.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_lt == old_child then
- n_lt = new_child.as(TLt)
+ if _n_op == old_child then
+ n_op = new_child.as(TLt)
return
end
end
- redef fun n_lt=(node)
+ redef fun n_op=(node)
do
- _n_lt = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_lt)
+ v.enter_visit(_n_op)
end
end
redef class AGtMethid
init init_agtmethid (
- n_gt: nullable TGt
+ n_op: nullable TGt
)
do
- _n_gt = n_gt.as(not null)
- n_gt.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_gt == old_child then
- n_gt = new_child.as(TGt)
+ if _n_op == old_child then
+ n_op = new_child.as(TGt)
return
end
end
- redef fun n_gt=(node)
+ redef fun n_op=(node)
do
- _n_gt = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_gt)
+ v.enter_visit(_n_op)
end
end
redef class ALlMethid
init init_allmethid (
- n_ll: nullable TLl
+ n_op: nullable TLl
)
do
- _n_ll = n_ll.as(not null)
- n_ll.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_ll == old_child then
- n_ll = new_child.as(TLl)
+ if _n_op == old_child then
+ n_op = new_child.as(TLl)
return
end
end
- redef fun n_ll=(node)
+ redef fun n_op=(node)
do
- _n_ll = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_ll)
+ v.enter_visit(_n_op)
end
end
redef class AGgMethid
init init_aggmethid (
- n_gg: nullable TGg
+ n_op: nullable TGg
)
do
- _n_gg = n_gg.as(not null)
- n_gg.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_gg == old_child then
- n_gg = new_child.as(TGg)
+ if _n_op == old_child then
+ n_op = new_child.as(TGg)
return
end
end
- redef fun n_gg=(node)
+ redef fun n_op=(node)
do
- _n_gg = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_gg)
+ v.enter_visit(_n_op)
end
end
-redef class ABraMethid
- init init_abramethid (
- n_obra: nullable TObra,
- n_cbra: nullable TCbra
+redef class AStarshipMethid
+ init init_astarshipmethid (
+ n_op: nullable TStarship
)
do
- _n_obra = n_obra.as(not null)
- n_obra.parent = self
- _n_cbra = n_cbra.as(not null)
- n_cbra.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_obra == old_child then
- n_obra = new_child.as(TObra)
+ if _n_op == old_child then
+ n_op = new_child.as(TStarship)
return
end
- if _n_cbra == old_child then
- n_cbra = new_child.as(TCbra)
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class APipeMethid
+ init init_apipemethid (
+ n_op: nullable TPipe
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TPipe)
return
end
end
- redef fun n_obra=(node)
+ redef fun n_op=(node)
do
- _n_obra = node
+ _n_op = node
node.parent = self
end
- redef fun n_cbra=(node)
+
+
+ redef fun visit_all(v: Visitor)
do
- _n_cbra = node
+ v.enter_visit(_n_op)
+ end
+end
+redef class ACaretMethid
+ init init_acaretmethid (
+ n_op: nullable TCaret
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TCaret)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_obra)
- v.enter_visit(_n_cbra)
+ v.enter_visit(_n_op)
end
end
-redef class AStarshipMethid
- init init_astarshipmethid (
- n_starship: nullable TStarship
+redef class AAmpMethid
+ init init_aampmethid (
+ n_op: nullable TAmp
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TAmp)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class ATildeMethid
+ init init_atildemethid (
+ n_op: nullable TTilde
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TTilde)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class ABraMethid
+ init init_abramethid (
+ n_obra: nullable TObra,
+ n_cbra: nullable TCbra
)
do
- _n_starship = n_starship.as(not null)
- n_starship.parent = self
+ _n_obra = n_obra.as(not null)
+ n_obra.parent = self
+ _n_cbra = n_cbra.as(not null)
+ n_cbra.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_starship == old_child then
- n_starship = new_child.as(TStarship)
+ if _n_obra == old_child then
+ n_obra = new_child.as(TObra)
+ return
+ end
+ if _n_cbra == old_child then
+ n_cbra = new_child.as(TCbra)
return
end
end
- redef fun n_starship=(node)
+ redef fun n_obra=(node)
+ do
+ _n_obra = node
+ node.parent = self
+ end
+ redef fun n_cbra=(node)
do
- _n_starship = node
+ _n_cbra = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_starship)
+ v.enter_visit(_n_obra)
+ v.enter_visit(_n_cbra)
end
end
redef class AAssignMethid
v.enter_visit(_n_assign)
end
end
-redef class ASignature
- init init_asignature (
- n_opar: nullable TOpar,
- n_params: Collection[Object], # Should be Collection[AParam]
- n_cpar: nullable TCpar,
- n_type: nullable AType
+redef class AQid
+ init init_aqid (
+ n_qualified: nullable AQualified,
+ n_id: nullable TId
)
do
- _n_opar = n_opar
- if n_opar != null then n_opar.parent = self
- self.n_params.unsafe_add_all(n_params)
- _n_cpar = n_cpar
- if n_cpar != null then n_cpar.parent = self
- _n_type = n_type
- if n_type != null then n_type.parent = self
+ _n_qualified = n_qualified
+ if n_qualified != null then n_qualified.parent = self
+ _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_opar == old_child then
- n_opar = new_child.as(nullable TOpar)
- return
- end
- if n_params.replace_child(old_child, new_child) then return
- if _n_cpar == old_child then
- n_cpar = new_child.as(nullable TCpar)
+ if _n_qualified == old_child then
+ n_qualified = new_child.as(nullable AQualified)
return
end
- if _n_type == old_child then
- n_type = new_child.as(nullable AType)
+ if _n_id == old_child then
+ n_id = new_child.as(TId)
return
end
end
- redef fun n_opar=(node)
+ redef fun n_qualified=(node)
do
- _n_opar = node
+ _n_qualified = node
if node != null then node.parent = self
end
- redef fun n_cpar=(node)
+ redef fun n_id=(node)
do
- _n_cpar = node
- if node != null then node.parent = self
+ _n_id = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_qualified)
+ v.enter_visit(_n_id)
+ end
+end
+redef class AQclassid
+ init init_aqclassid (
+ n_qualified: nullable AQualified,
+ n_id: nullable TClassid
+ )
+ do
+ _n_qualified = n_qualified
+ if n_qualified != null then n_qualified.parent = self
+ _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_qualified == old_child then
+ n_qualified = new_child.as(nullable AQualified)
+ return
+ end
+ if _n_id == old_child then
+ n_id = new_child.as(TClassid)
+ return
+ end
+ end
+
+ redef fun n_qualified=(node)
+ do
+ _n_qualified = node
+ if node != null then node.parent = self
+ end
+ redef fun n_id=(node)
+ do
+ _n_id = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_qualified)
+ v.enter_visit(_n_id)
+ end
+end
+redef class ASignature
+ init init_asignature (
+ n_opar: nullable TOpar,
+ n_params: Collection[Object], # Should be Collection[AParam]
+ n_cpar: nullable TCpar,
+ n_type: nullable AType
+ )
+ do
+ _n_opar = n_opar
+ if n_opar != null then n_opar.parent = self
+ self.n_params.unsafe_add_all(n_params)
+ _n_cpar = n_cpar
+ if n_cpar != null then n_cpar.parent = self
+ _n_type = n_type
+ if n_type != null then n_type.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_opar == old_child then
+ n_opar = new_child.as(nullable TOpar)
+ return
+ end
+ if n_params.replace_child(old_child, new_child) then return
+ if _n_cpar == old_child then
+ n_cpar = new_child.as(nullable TCpar)
+ return
+ end
+ if _n_type == old_child then
+ n_type = new_child.as(nullable AType)
+ return
+ end
+ end
+
+ redef fun n_opar=(node)
+ do
+ _n_opar = node
+ if node != null then node.parent = self
+ end
+ redef fun n_cpar=(node)
+ do
+ _n_cpar = node
+ if node != null then node.parent = self
end
redef fun n_type=(node)
do
redef class AType
init init_atype (
n_kwnullable: nullable TKwnullable,
- n_id: nullable TClassid,
+ n_qid: nullable AQclassid,
+ n_obra: nullable TObra,
n_types: Collection[Object], # Should be Collection[AType]
+ n_cbra: nullable TCbra,
n_annotations: nullable AAnnotations
)
do
_n_kwnullable = n_kwnullable
if n_kwnullable != null then n_kwnullable.parent = self
- _n_id = n_id.as(not null)
- n_id.parent = self
+ _n_qid = n_qid.as(not null)
+ n_qid.parent = self
+ _n_obra = n_obra
+ if n_obra != null then n_obra.parent = self
self.n_types.unsafe_add_all(n_types)
+ _n_cbra = n_cbra
+ if n_cbra != null then n_cbra.parent = self
_n_annotations = n_annotations
if n_annotations != null then n_annotations.parent = self
end
n_kwnullable = new_child.as(nullable TKwnullable)
return
end
- if _n_id == old_child then
- n_id = new_child.as(TClassid)
+ if _n_qid == old_child then
+ n_qid = new_child.as(AQclassid)
+ return
+ end
+ if _n_obra == old_child then
+ n_obra = new_child.as(nullable TObra)
return
end
if n_types.replace_child(old_child, new_child) then return
+ if _n_cbra == old_child then
+ n_cbra = new_child.as(nullable TCbra)
+ return
+ end
if _n_annotations == old_child then
n_annotations = new_child.as(nullable AAnnotations)
return
_n_kwnullable = node
if node != null then node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
node.parent = self
end
+ redef fun n_obra=(node)
+ do
+ _n_obra = node
+ if node != null then node.parent = self
+ end
+ redef fun n_cbra=(node)
+ do
+ _n_cbra = node
+ if node != null then node.parent = self
+ end
redef fun n_annotations=(node)
do
_n_annotations = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_kwnullable)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
+ v.enter_visit(_n_obra)
n_types.visit_all(v)
+ v.enter_visit(_n_cbra)
v.enter_visit(_n_annotations)
end
end
v.enter_visit(_n_expr)
end
end
+redef class AYieldExpr
+ init init_ayieldexpr (
+ n_kwyield: nullable TKwyield,
+ n_expr: nullable AExpr
+ )
+ do
+ _n_kwyield = n_kwyield.as(not null)
+ n_kwyield.parent = self
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_kwyield == old_child then
+ n_kwyield = new_child.as(TKwyield)
+ return
+ end
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_kwyield=(node)
+ do
+ _n_kwyield = node
+ node.parent = self
+ end
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_kwyield)
+ v.enter_visit(_n_expr)
+ end
+end
redef class ABreakExpr
init init_abreakexpr (
n_kwbreak: nullable TKwbreak,
init init_adoexpr (
n_kwdo: nullable TKwdo,
n_block: nullable AExpr,
+ n_kwcatch: nullable TKwcatch,
+ n_catch: nullable AExpr,
n_label: nullable ALabel
)
do
n_kwdo.parent = self
_n_block = n_block
if n_block != null then n_block.parent = self
+ _n_kwcatch = n_kwcatch
+ if n_kwcatch != null then n_kwcatch.parent = self
+ _n_catch = n_catch
+ if n_catch != null then n_catch.parent = self
_n_label = n_label
if n_label != null then n_label.parent = self
end
n_block = new_child.as(nullable AExpr)
return
end
+ if _n_kwcatch == old_child then
+ n_kwcatch = new_child.as(nullable TKwcatch)
+ return
+ end
+ if _n_catch == old_child then
+ n_catch = new_child.as(nullable AExpr)
+ return
+ end
if _n_label == old_child then
n_label = new_child.as(nullable ALabel)
return
_n_block = node
if node != null then node.parent = self
end
+ redef fun n_kwcatch=(node)
+ do
+ _n_kwcatch = node
+ if node != null then node.parent = self
+ end
+ redef fun n_catch=(node)
+ do
+ _n_catch = node
+ if node != null then node.parent = self
+ end
redef fun n_label=(node)
do
_n_label = node
do
v.enter_visit(_n_kwdo)
v.enter_visit(_n_block)
+ v.enter_visit(_n_kwcatch)
+ v.enter_visit(_n_catch)
v.enter_visit(_n_label)
end
end
init init_aifexpr (
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
n_kwif.parent = self
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_kwthen = n_kwthen.as(not null)
+ n_kwthen.parent = self
_n_then = n_then
if n_then != null then n_then.parent = self
+ _n_kwelse = n_kwelse
+ if n_kwelse != null then n_kwelse.parent = self
_n_else = n_else
if n_else != null then n_else.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_kwthen == old_child then
+ n_kwthen = new_child.as(TKwthen)
+ return
+ end
if _n_then == old_child then
n_then = new_child.as(nullable AExpr)
return
end
+ if _n_kwelse == old_child then
+ n_kwelse = new_child.as(nullable TKwelse)
+ return
+ end
if _n_else == old_child then
n_else = new_child.as(nullable AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_kwthen=(node)
+ do
+ _n_kwthen = node
+ node.parent = self
+ end
redef fun n_then=(node)
do
_n_then = node
if node != null then node.parent = self
end
+ redef fun n_kwelse=(node)
+ do
+ _n_kwelse = node
+ if node != null then node.parent = self
+ end
redef fun n_else=(node)
do
_n_else = node
do
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 AForExpr
init init_aforexpr (
n_kwfor: nullable TKwfor,
- n_ids: Collection[Object], # Should be Collection[TId]
- n_expr: nullable AExpr,
+ n_groups: Collection[Object], # Should be Collection[AForGroup]
n_kwdo: nullable TKwdo,
n_block: nullable AExpr,
n_label: nullable ALabel
do
_n_kwfor = n_kwfor.as(not null)
n_kwfor.parent = self
- self.n_ids.unsafe_add_all(n_ids)
- _n_expr = n_expr.as(not null)
- n_expr.parent = self
+ self.n_groups.unsafe_add_all(n_groups)
_n_kwdo = n_kwdo.as(not null)
n_kwdo.parent = self
_n_block = n_block
n_kwfor = new_child.as(TKwfor)
return
end
- if n_ids.replace_child(old_child, new_child) then return
- if _n_expr == old_child then
- n_expr = new_child.as(AExpr)
- return
- end
+ if n_groups.replace_child(old_child, new_child) then return
if _n_kwdo == old_child then
n_kwdo = new_child.as(TKwdo)
return
_n_kwfor = node
node.parent = self
end
- redef fun n_expr=(node)
- do
- _n_expr = node
- node.parent = self
- end
redef fun n_kwdo=(node)
do
_n_kwdo = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_kwfor)
- n_ids.visit_all(v)
- v.enter_visit(_n_expr)
+ n_groups.visit_all(v)
v.enter_visit(_n_kwdo)
v.enter_visit(_n_block)
v.enter_visit(_n_label)
n_kwassert: nullable TKwassert,
n_id: nullable TId,
n_expr: nullable AExpr,
+ n_kwelse: nullable TKwelse,
n_else: nullable AExpr
)
do
if n_id != null then n_id.parent = self
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_kwelse = n_kwelse
+ if n_kwelse != null then n_kwelse.parent = self
_n_else = n_else
if n_else != null then n_else.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_kwelse == old_child then
+ n_kwelse = new_child.as(nullable TKwelse)
+ return
+ end
if _n_else == old_child then
n_else = new_child.as(nullable AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_kwelse=(node)
+ do
+ _n_kwelse = node
+ if node != null then node.parent = self
+ end
redef fun n_else=(node)
do
_n_else = node
v.enter_visit(_n_kwassert)
v.enter_visit(_n_id)
v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwelse)
v.enter_visit(_n_else)
end
end
redef class AOrExpr
init init_aorexpr (
n_expr: nullable AExpr,
+ n_op: nullable TKwor,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TKwor)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AAndExpr
init init_aandexpr (
n_expr: nullable AExpr,
+ n_op: nullable TKwand,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TKwand)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AOrElseExpr
init init_aorelseexpr (
n_expr: nullable AExpr,
+ n_op: nullable TKwor,
+ n_kwelse: nullable TKwelse,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ _n_kwelse = n_kwelse.as(not null)
+ n_kwelse.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TKwor)
+ return
+ end
+ if _n_kwelse == old_child then
+ n_kwelse = new_child.as(TKwelse)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+ redef fun n_kwelse=(node)
+ do
+ _n_kwelse = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
+ v.enter_visit(_n_kwelse)
v.enter_visit(_n_expr2)
end
end
redef class AImpliesExpr
init init_aimpliesexpr (
n_expr: nullable AExpr,
+ n_op: nullable TKwimplies,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TKwimplies)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AEqExpr
init init_aeqexpr (
n_expr: nullable AExpr,
+ n_op: nullable TEq,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TEq)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class ANeExpr
init init_aneexpr (
n_expr: nullable AExpr,
+ n_op: nullable TNe,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TNe)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class ALtExpr
init init_altexpr (
n_expr: nullable AExpr,
+ n_op: nullable TLt,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TLt)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class ALeExpr
init init_aleexpr (
n_expr: nullable AExpr,
+ n_op: nullable TLe,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TLe)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class ALlExpr
init init_allexpr (
n_expr: nullable AExpr,
+ n_op: nullable TLl,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TLl)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AGtExpr
init init_agtexpr (
n_expr: nullable AExpr,
+ n_op: nullable TGt,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TGt)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AGeExpr
init init_ageexpr (
n_expr: nullable AExpr,
+ n_op: nullable TGe,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TGe)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AGgExpr
init init_aggexpr (
n_expr: nullable AExpr,
+ n_op: nullable TGg,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TGg)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AIsaExpr
init init_aisaexpr (
n_expr: nullable AExpr,
+ n_kwisa: nullable TKwisa,
n_type: nullable AType
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_kwisa = n_kwisa.as(not null)
+ n_kwisa.parent = self
_n_type = n_type.as(not null)
n_type.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_kwisa == old_child then
+ n_kwisa = new_child.as(TKwisa)
+ return
+ end
if _n_type == old_child then
n_type = new_child.as(AType)
return
_n_expr = node
node.parent = self
end
+ redef fun n_kwisa=(node)
+ do
+ _n_kwisa = node
+ node.parent = self
+ end
redef fun n_type=(node)
do
_n_type = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_kwisa)
v.enter_visit(_n_type)
end
end
redef class APlusExpr
init init_aplusexpr (
n_expr: nullable AExpr,
+ n_op: nullable TPlus,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TPlus)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AMinusExpr
init init_aminusexpr (
n_expr: nullable AExpr,
+ n_op: nullable TMinus,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TMinus)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AStarshipExpr
init init_astarshipexpr (
n_expr: nullable AExpr,
+ n_op: nullable TStarship,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TStarship)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AStarExpr
init init_astarexpr (
n_expr: nullable AExpr,
+ n_op: nullable TStar,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TStar)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AStarstarExpr
init init_astarstarexpr (
n_expr: nullable AExpr,
+ n_op: nullable TStarstar,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TStarstar)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class ASlashExpr
init init_aslashexpr (
n_expr: nullable AExpr,
+ n_op: nullable TSlash,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TSlash)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class APercentExpr
init init_apercentexpr (
n_expr: nullable AExpr,
+ n_op: nullable TPercent,
+ n_expr2: nullable AExpr
+ )
+ do
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ _n_expr2 = n_expr2.as(not null)
+ n_expr2.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ if _n_op == old_child then
+ n_op = new_child.as(TPercent)
+ return
+ end
+ if _n_expr2 == old_child then
+ n_expr2 = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+ redef fun n_expr2=(node)
+ do
+ _n_expr2 = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
+ v.enter_visit(_n_expr2)
+ end
+end
+redef class APipeExpr
+ init init_apipeexpr (
+ n_expr: nullable AExpr,
+ n_op: nullable TPipe,
n_expr2: nullable AExpr
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
end
n_expr = new_child.as(AExpr)
return
end
+ if _n_op == old_child then
+ n_op = new_child.as(TPipe)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
+ v.enter_visit(_n_expr2)
+ end
+end
+redef class ACaretExpr
+ init init_acaretexpr (
+ n_expr: nullable AExpr,
+ n_op: nullable TCaret,
+ n_expr2: nullable AExpr
+ )
+ do
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ _n_expr2 = n_expr2.as(not null)
+ n_expr2.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ if _n_op == old_child then
+ n_op = new_child.as(TCaret)
+ return
+ end
+ if _n_expr2 == old_child then
+ n_expr2 = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+ redef fun n_expr2=(node)
+ do
+ _n_expr2 = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
+ v.enter_visit(_n_expr2)
+ end
+end
+redef class AAmpExpr
+ init init_aampexpr (
+ n_expr: nullable AExpr,
+ n_op: nullable TAmp,
+ n_expr2: nullable AExpr
+ )
+ do
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ _n_expr2 = n_expr2.as(not null)
+ n_expr2.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ if _n_op == old_child then
+ n_op = new_child.as(TAmp)
+ return
+ end
+ if _n_expr2 == old_child then
+ n_expr2 = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+ redef fun n_expr2=(node)
+ do
+ _n_expr2 = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr2)
end
end
redef class AUminusExpr
init init_auminusexpr (
- n_minus: nullable TMinus,
+ n_op: nullable TMinus,
n_expr: nullable AExpr
)
do
- _n_minus = n_minus.as(not null)
- n_minus.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
_n_expr = n_expr.as(not null)
n_expr.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_minus == old_child then
- n_minus = new_child.as(TMinus)
+ if _n_op == old_child then
+ n_op = new_child.as(TMinus)
return
end
if _n_expr == old_child then
end
end
- redef fun n_minus=(node)
+ redef fun n_op=(node)
do
- _n_minus = node
+ _n_op = node
node.parent = self
end
redef fun n_expr=(node)
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_minus)
+ v.enter_visit(_n_op)
+ v.enter_visit(_n_expr)
+ end
+end
+redef class AUplusExpr
+ init init_auplusexpr (
+ n_op: nullable TPlus,
+ n_expr: nullable AExpr
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TPlus)
+ return
+ end
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ v.enter_visit(_n_expr)
+ end
+end
+redef class AUtildeExpr
+ init init_autildeexpr (
+ n_op: nullable TTilde,
+ n_expr: nullable AExpr
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TTilde)
+ return
+ end
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
v.enter_visit(_n_expr)
end
end
init init_anewexpr (
n_kwnew: nullable TKwnew,
n_type: nullable AType,
- n_id: nullable TId,
+ n_qid: nullable AQid,
n_args: nullable AExprs
)
do
n_kwnew.parent = self
_n_type = n_type.as(not null)
n_type.parent = self
- _n_id = n_id
- if n_id != null then n_id.parent = self
+ _n_qid = n_qid
+ if n_qid != null then n_qid.parent = self
_n_args = n_args.as(not null)
n_args.parent = self
end
n_type = new_child.as(AType)
return
end
- if _n_id == old_child then
- n_id = new_child.as(nullable TId)
+ if _n_qid == old_child then
+ n_qid = new_child.as(nullable AQid)
return
end
if _n_args == old_child then
_n_type = node
node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
if node != null then node.parent = self
end
redef fun n_args=(node)
do
v.enter_visit(_n_kwnew)
v.enter_visit(_n_type)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
v.enter_visit(_n_args)
end
end
redef class ACallExpr
init init_acallexpr (
n_expr: nullable AExpr,
- n_id: nullable TId,
+ n_qid: nullable AQid,
n_args: nullable AExprs
)
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
- _n_id = n_id.as(not null)
- n_id.parent = self
+ _n_qid = n_qid.as(not null)
+ n_qid.parent = self
_n_args = n_args.as(not null)
n_args.parent = self
end
n_expr = new_child.as(AExpr)
return
end
- if _n_id == old_child then
- n_id = new_child.as(TId)
+ if _n_qid == old_child then
+ n_qid = new_child.as(AQid)
return
end
if _n_args == old_child then
_n_expr = node
node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
node.parent = self
end
redef fun n_args=(node)
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
v.enter_visit(_n_args)
end
end
redef class ACallAssignExpr
init init_acallassignexpr (
n_expr: nullable AExpr,
- n_id: nullable TId,
+ n_qid: nullable AQid,
n_args: nullable AExprs,
n_assign: nullable TAssign,
n_value: nullable AExpr
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
- _n_id = n_id.as(not null)
- n_id.parent = self
+ _n_qid = n_qid.as(not null)
+ n_qid.parent = self
_n_args = n_args.as(not null)
n_args.parent = self
_n_assign = n_assign.as(not null)
n_expr = new_child.as(AExpr)
return
end
- if _n_id == old_child then
- n_id = new_child.as(TId)
+ if _n_qid == old_child then
+ n_qid = new_child.as(AQid)
return
end
if _n_args == old_child then
_n_expr = node
node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
node.parent = self
end
redef fun n_args=(node)
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
v.enter_visit(_n_args)
v.enter_visit(_n_assign)
v.enter_visit(_n_value)
redef class ACallReassignExpr
init init_acallreassignexpr (
n_expr: nullable AExpr,
- n_id: nullable TId,
+ n_qid: nullable AQid,
n_args: nullable AExprs,
n_assign_op: nullable AAssignOp,
n_value: nullable AExpr
do
_n_expr = n_expr.as(not null)
n_expr.parent = self
- _n_id = n_id.as(not null)
- n_id.parent = self
+ _n_qid = n_qid.as(not null)
+ n_qid.parent = self
_n_args = n_args.as(not null)
n_args.parent = self
_n_assign_op = n_assign_op.as(not null)
n_expr = new_child.as(AExpr)
return
end
- if _n_id == old_child then
- n_id = new_child.as(TId)
+ if _n_qid == old_child then
+ n_qid = new_child.as(AQid)
return
end
if _n_args == old_child then
_n_expr = node
node.parent = self
end
- redef fun n_id=(node)
+ redef fun n_qid=(node)
do
- _n_id = node
+ _n_qid = node
node.parent = self
end
redef fun n_args=(node)
redef fun visit_all(v: Visitor)
do
v.enter_visit(_n_expr)
- v.enter_visit(_n_id)
+ v.enter_visit(_n_qid)
v.enter_visit(_n_args)
v.enter_visit(_n_assign_op)
v.enter_visit(_n_value)
init init_acrangeexpr (
n_obra: nullable TObra,
n_expr: nullable AExpr,
+ n_dotdot: nullable TDotdot,
n_expr2: nullable AExpr,
n_cbra: nullable TCbra,
n_annotations: nullable AAnnotations
n_obra.parent = self
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_dotdot = n_dotdot.as(not null)
+ n_dotdot.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
_n_cbra = n_cbra.as(not null)
n_expr = new_child.as(AExpr)
return
end
+ if _n_dotdot == old_child then
+ n_dotdot = new_child.as(TDotdot)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_dotdot=(node)
+ do
+ _n_dotdot = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
do
v.enter_visit(_n_obra)
v.enter_visit(_n_expr)
+ v.enter_visit(_n_dotdot)
v.enter_visit(_n_expr2)
v.enter_visit(_n_cbra)
v.enter_visit(_n_annotations)
init init_aorangeexpr (
n_obra: nullable TObra,
n_expr: nullable AExpr,
+ n_dotdot: nullable TDotdot,
n_expr2: nullable AExpr,
n_cbra: nullable TObra,
n_annotations: nullable AAnnotations
n_obra.parent = self
_n_expr = n_expr.as(not null)
n_expr.parent = self
+ _n_dotdot = n_dotdot.as(not null)
+ n_dotdot.parent = self
_n_expr2 = n_expr2.as(not null)
n_expr2.parent = self
_n_cbra = n_cbra.as(not null)
n_expr = new_child.as(AExpr)
return
end
+ if _n_dotdot == old_child then
+ n_dotdot = new_child.as(TDotdot)
+ return
+ end
if _n_expr2 == old_child then
n_expr2 = new_child.as(AExpr)
return
_n_expr = node
node.parent = self
end
+ redef fun n_dotdot=(node)
+ do
+ _n_dotdot = node
+ node.parent = self
+ end
redef fun n_expr2=(node)
do
_n_expr2 = node
do
v.enter_visit(_n_obra)
v.enter_visit(_n_expr)
+ v.enter_visit(_n_dotdot)
v.enter_visit(_n_expr2)
v.enter_visit(_n_cbra)
v.enter_visit(_n_annotations)
v.enter_visit(_n_annotations)
end
end
-redef class ADecIntExpr
- init init_adecintexpr (
- n_number: nullable TNumber,
- n_annotations: nullable AAnnotations
- )
- do
- _n_number = n_number.as(not null)
- n_number.parent = self
- _n_annotations = n_annotations
- if n_annotations != null then n_annotations.parent = self
- end
-
- redef fun replace_child(old_child: ANode, new_child: nullable ANode)
- do
- if _n_number == old_child then
- n_number = new_child.as(TNumber)
- return
- end
- if _n_annotations == old_child then
- n_annotations = new_child.as(nullable AAnnotations)
- return
- end
- end
-
- redef fun n_number=(node)
- do
- _n_number = node
- node.parent = self
- end
- redef fun n_annotations=(node)
- do
- _n_annotations = node
- if node != null then node.parent = self
- end
-
-
- redef fun visit_all(v: Visitor)
- do
- v.enter_visit(_n_number)
- v.enter_visit(_n_annotations)
- end
-end
-redef class AHexIntExpr
- init init_ahexintexpr (
- n_hex_number: nullable THexNumber,
+redef class AIntegerExpr
+ init init_aintegerexpr (
+ n_integer: nullable TInteger,
n_annotations: nullable AAnnotations
)
do
- _n_hex_number = n_hex_number.as(not null)
- n_hex_number.parent = self
+ _n_integer = n_integer.as(not null)
+ n_integer.parent = self
_n_annotations = n_annotations
if n_annotations != null then n_annotations.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_hex_number == old_child then
- n_hex_number = new_child.as(THexNumber)
+ if _n_integer == old_child then
+ n_integer = new_child.as(TInteger)
return
end
if _n_annotations == old_child then
end
end
- redef fun n_hex_number=(node)
+ redef fun n_integer=(node)
do
- _n_hex_number = node
+ _n_integer = node
node.parent = self
end
redef fun n_annotations=(node)
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_hex_number)
+ v.enter_visit(_n_integer)
v.enter_visit(_n_annotations)
end
end
n_expr = new_child.as(AExpr)
return
end
- if _n_dotdotdot == old_child then
- n_dotdotdot = new_child.as(TDotdotdot)
+ if _n_dotdotdot == old_child then
+ n_dotdotdot = new_child.as(TDotdotdot)
+ return
+ end
+ end
+
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+ redef fun n_dotdotdot=(node)
+ do
+ _n_dotdotdot = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_expr)
+ v.enter_visit(_n_dotdotdot)
+ end
+end
+redef class ANamedargExpr
+ init init_anamedargexpr (
+ n_id: nullable TId,
+ n_assign: nullable TAssign,
+ n_expr: nullable AExpr
+ )
+ do
+ _n_id = n_id.as(not null)
+ n_id.parent = self
+ _n_assign = n_assign.as(not null)
+ n_assign.parent = self
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_id == old_child then
+ n_id = new_child.as(TId)
+ return
+ end
+ if _n_assign == old_child then
+ n_assign = new_child.as(TAssign)
+ return
+ end
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
return
end
end
- redef fun n_expr=(node)
+ redef fun n_id=(node)
do
- _n_expr = node
+ _n_id = node
node.parent = self
end
- redef fun n_dotdotdot=(node)
+ redef fun n_assign=(node)
do
- _n_dotdotdot = node
+ _n_assign = node
+ node.parent = self
+ end
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
+ v.enter_visit(_n_id)
+ v.enter_visit(_n_assign)
v.enter_visit(_n_expr)
- v.enter_visit(_n_dotdotdot)
end
end
redef class ATypeExpr
end
redef class APlusAssignOp
init init_aplusassignop (
- n_pluseq: nullable TPluseq
+ n_op: nullable TPluseq
)
do
- _n_pluseq = n_pluseq.as(not null)
- n_pluseq.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_pluseq == old_child then
- n_pluseq = new_child.as(TPluseq)
+ if _n_op == old_child then
+ n_op = new_child.as(TPluseq)
return
end
end
- redef fun n_pluseq=(node)
+ redef fun n_op=(node)
do
- _n_pluseq = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_pluseq)
+ v.enter_visit(_n_op)
end
end
redef class AMinusAssignOp
init init_aminusassignop (
- n_minuseq: nullable TMinuseq
+ n_op: nullable TMinuseq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TMinuseq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class AStarAssignOp
+ init init_astarassignop (
+ n_op: nullable TStareq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TStareq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class ASlashAssignOp
+ init init_aslashassignop (
+ n_op: nullable TSlasheq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TSlasheq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class APercentAssignOp
+ init init_apercentassignop (
+ n_op: nullable TPercenteq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TPercenteq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class AStarstarAssignOp
+ init init_astarstarassignop (
+ n_op: nullable TStarstareq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TStarstareq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class APipeAssignOp
+ init init_apipeassignop (
+ n_op: nullable TPipeeq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TPipeeq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class ACaretAssignOp
+ init init_acaretassignop (
+ n_op: nullable TCareteq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TCareteq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class AAmpAssignOp
+ init init_aampassignop (
+ n_op: nullable TAmpeq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TAmpeq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class ALlAssignOp
+ init init_allassignop (
+ n_op: nullable TLleq
+ )
+ do
+ _n_op = n_op.as(not null)
+ n_op.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if _n_op == old_child then
+ n_op = new_child.as(TLleq)
+ return
+ end
+ end
+
+ redef fun n_op=(node)
+ do
+ _n_op = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ v.enter_visit(_n_op)
+ end
+end
+redef class AGgAssignOp
+ init init_aggassignop (
+ n_op: nullable TGgeq
)
do
- _n_minuseq = n_minuseq.as(not null)
- n_minuseq.parent = self
+ _n_op = n_op.as(not null)
+ n_op.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
- if _n_minuseq == old_child then
- n_minuseq = new_child.as(TMinuseq)
+ if _n_op == old_child then
+ n_op = new_child.as(TGgeq)
return
end
end
- redef fun n_minuseq=(node)
+ redef fun n_op=(node)
do
- _n_minuseq = node
+ _n_op = node
node.parent = self
end
redef fun visit_all(v: Visitor)
do
- v.enter_visit(_n_minuseq)
+ v.enter_visit(_n_op)
+ end
+end
+redef class AForGroup
+ init init_aforgroup (
+ n_ids: Collection[Object], # Should be Collection[TId]
+ n_kwin: nullable TKwin,
+ n_expr: nullable AExpr
+ )
+ do
+ self.n_ids.unsafe_add_all(n_ids)
+ _n_kwin = n_kwin.as(not null)
+ n_kwin.parent = self
+ _n_expr = n_expr.as(not null)
+ n_expr.parent = self
+ end
+
+ redef fun replace_child(old_child: ANode, new_child: nullable ANode)
+ do
+ if n_ids.replace_child(old_child, new_child) then return
+ if _n_kwin == old_child then
+ n_kwin = new_child.as(TKwin)
+ return
+ end
+ if _n_expr == old_child then
+ n_expr = new_child.as(AExpr)
+ return
+ end
+ end
+
+ redef fun n_kwin=(node)
+ do
+ _n_kwin = node
+ node.parent = self
+ end
+ redef fun n_expr=(node)
+ do
+ _n_expr = node
+ node.parent = self
+ end
+
+
+ redef fun visit_all(v: Visitor)
+ do
+ n_ids.visit_all(v)
+ v.enter_visit(_n_kwin)
+ v.enter_visit(_n_expr)
end
end
redef class AModuleName
end
redef class AAnnotations
init init_aannotations (
+ n_kwis: nullable TKwis,
n_at: nullable TAt,
n_opar: nullable TOpar,
n_items: Collection[Object], # Should be Collection[AAnnotation]
- n_cpar: nullable TCpar
+ n_cpar: nullable TCpar,
+ n_kwend: nullable TKwend
)
do
+ _n_kwis = n_kwis
+ if n_kwis != null then n_kwis.parent = self
_n_at = n_at
if n_at != null then n_at.parent = self
_n_opar = n_opar
self.n_items.unsafe_add_all(n_items)
_n_cpar = n_cpar
if n_cpar != null then n_cpar.parent = self
+ _n_kwend = n_kwend
+ if n_kwend != null then n_kwend.parent = self
end
redef fun replace_child(old_child: ANode, new_child: nullable ANode)
do
+ if _n_kwis == old_child then
+ n_kwis = new_child.as(nullable TKwis)
+ return
+ end
if _n_at == old_child then
n_at = new_child.as(nullable TAt)
return
n_cpar = new_child.as(nullable TCpar)
return
end
+ if _n_kwend == old_child then
+ n_kwend = new_child.as(nullable TKwend)
+ return
+ end
end
+ redef fun n_kwis=(node)
+ do
+ _n_kwis = node
+ if node != null then node.parent = self
+ end
redef fun n_at=(node)
do
_n_at = node
_n_cpar = node
if node != null then node.parent = self
end
+ redef fun n_kwend=(node)
+ do
+ _n_kwend = node
+ if node != null then node.parent = self
+ end
redef fun visit_all(v: Visitor)
do
+ v.enter_visit(_n_kwis)
v.enter_visit(_n_at)
v.enter_visit(_n_opar)
n_items.visit_all(v)
v.enter_visit(_n_cpar)
+ v.enter_visit(_n_kwend)
end
end
redef class AAnnotation