import typing
import auto_super_init
+import csv # for live_types_to_csv
+import ordered_tree # for live_methods_to_tree
+
redef class ModelBuilder
fun do_rapid_type_analysis(mainmodule: MModule): RapidTypeAnalysis
do
var live_classes = new HashSet[MClass]
# The pool of types used to perform type checks (isa and as).
- var live_cast_types = new HashSet[MClassType]
+ var live_cast_types = new HashSet[MType]
# The pool of undesolved types used to perform type checks (isa and as).
# They are globally resolved at the end of the analaysis
# Live call-to-super.
var live_super_sends = new HashSet[MMethodDef]
+ # Return a ready-to-save CSV document objet that agregates informations about live types.
+ # Each discovered type is listed in a line, with its status: resolution, liveness, cast-liveness.
+ # Note: types are listed in an alphanumeric order to improve human reading.
+ fun live_types_to_csv: CSVDocument
+ do
+ # Gather all kind of type
+ var typeset = new HashSet[MType]
+ typeset.add_all(live_types)
+ typeset.add_all(live_open_types)
+ typeset.add_all(live_cast_types)
+ typeset.add_all(live_open_cast_types)
+ var types = typeset.to_a
+ (new CachedAlphaComparator).sort(types)
+ var res = new CSVDocument
+ res.header = ["Type", "Resolution", "Liveness", "Cast-liveness"]
+ for t in types do
+ var reso
+ if t.need_anchor then reso = "OPEN " else reso = "CLOSED"
+ var live
+ if t isa MClassType and (live_types.has(t) or live_open_types.has(t)) then live = "LIVE" else live = "DEAD"
+ var cast
+ if live_cast_types.has(t) or live_open_cast_types.has(t) then cast = "CAST LIVE" else cast = "CAST DEAD"
+ res.add_line(t, reso, live, cast)
+ end
+ return res
+ end
+
+ # Return a ready-to-save OrderedTree object that agregates infomration about live methods.
+ # Note: methods are listed in an alphanumeric order to improve human reading.
+ fun live_methods_to_tree: OrderedTree[Object]
+ do
+ var tree = new OrderedTree[Object]
+ for x in live_methods do
+ var xn = x.full_name
+ tree.add(null, xn)
+ for z in x.mpropdefs do
+ var zn = z.to_s
+ if live_methoddefs.has(z) then
+ tree.add(xn, zn)
+ if live_super_sends.has(z) then
+ tree.add(zn, zn + "(super)")
+ end
+ else if live_super_sends.has(z) then
+ tree.add(xn, zn + "(super)")
+ end
+ end
+ end
+ tree.sort_with(alpha_comparator)
+ return tree
+ end
+
# Methods that are are still candidate to the try_send
private var totry_methods = new HashSet[MMethod]
var auto_super_inits = npropdef.auto_super_inits
if auto_super_inits != null then
for auto_super_init in auto_super_inits do
- v.add_monomorphic_send(v.receiver, auto_super_init)
+ v.add_callsite(auto_super_init)
end
end
else if npropdef isa AInternMethPropdef or
for t in live_types do
if not ot.can_resolve_for(t, t, mainmodule) then continue
var rt = ot.anchor_to(mainmodule, t)
- if rt isa MNullableType then rt = rt.mtype
- assert rt isa MClassType
live_cast_types.add(rt)
#print " {ot}/{t} -> {rt}"
end
fun add_cast(mtype: MType)
do
- if mtype isa MNullableType then mtype = mtype.mtype
if mtype.need_anchor then
live_open_cast_types.add(mtype)
else
- assert mtype isa MClassType
live_cast_types.add(mtype)
end
end
return
end
- v.analysis.add_super_send(v.receiver, v.mpropdef.as(MMethodDef))
+ v.analysis.add_super_send(v.receiver, mpropdef.as(not null))
end
end