public override List inheritance() { if (m_inheritance == null) { Hashtable map = new Hashtable(); List acc = new List(Sys.TypeType); // handle Void as a special case if (this == Sys.VoidType) { acc.add(this); return(m_inheritance = acc.trim()); } // add myself map[m_qname] = this; acc.add(this); // add my direct inheritance inheritance addInheritance(@base(), acc, map); List m = mixins(); for (int i = 0; i < m.sz(); i++) { addInheritance((Type)m.get(i), acc, map); } m_inheritance = acc.trim().ro(); } return(m_inheritance); }
private void doReflect() { // if the ftype is non-null, that means it was passed in non-hollow // ftype (in-memory compile), otherwise we need to read it from the pod if (m_ftype.m_hollow) { try { m_ftype.read(); } catch (IOException e) { Err.dumpStack(e); throw IOErr.make("Cannot read " + m_qname + " from pod", e).val; } } // these are working accumulators used to build the // data structures of my defined and inherited slots List slots = new List(Sys.SlotType, 64); Hashtable nameToSlot = new Hashtable(); // String -> Slot Hashtable nameToIndex = new Hashtable(); // String -> Long // merge in base class and mixin classes for (int i=0; i<m_mixins.sz(); i++) merge((Type)m_mixins.get(i), slots, nameToSlot, nameToIndex); merge(m_base, slots, nameToSlot, nameToIndex); // merge in all my slots FPod fpod = this.m_pod.fpod; FType ftype = this.m_ftype; for (int i=0; i<ftype.m_fields.Length; i++) { Field f = map(fpod, ftype.m_fields[i]); merge(f, slots, nameToSlot, nameToIndex); } for (int i=0; i<ftype.m_methods.Length; i++) { Method m = map(fpod, ftype.m_methods[i]); merge(m, slots, nameToSlot, nameToIndex); } // break out into fields and methods List fields = new List(Sys.FieldType, slots.sz()); List methods = new List(Sys.MethodType, slots.sz()); for (int i=0; i<slots.sz(); i++) { Slot slot = (Slot)slots.get(i); if (slot is Field) fields.add(slot); else methods.add(slot); } this.m_slots = slots.trim(); this.m_fields = fields.trim(); this.m_methods = methods.trim(); this.m_slotsByName = nameToSlot; this.m_facets = Facets.mapFacets(m_pod, ftype.m_attrs.m_facets); // facets this.m_lineNum = m_ftype.m_attrs.m_lineNum; this.m_sourceFile = m_ftype.m_attrs.m_sourceFile; }
public override List inheritance() { if (m_inheritance == null) { Hashtable map = new Hashtable(); List acc = new List(Sys.TypeType); // handle Void as a special case if (this == Sys.VoidType) { acc.add(this); return m_inheritance = acc.trim(); } // add myself map[m_qname] = this; acc.add(this); // add my direct inheritance inheritance addInheritance(@base(), acc, map); List m = mixins(); for (int i=0; i<m.sz(); i++) addInheritance((Type)m.get(i), acc, map); m_inheritance = acc.trim().ro(); } return m_inheritance; }
private void doReflect() { // if the ftype is non-null, that means it was passed in non-hollow // ftype (in-memory compile), otherwise we need to read it from the pod if (m_ftype.m_hollow) { try { m_ftype.read(); } catch (IOException e) { Err.dumpStack(e); throw IOErr.make("Cannot read " + m_qname + " from pod", e).val; } } // these are working accumulators used to build the // data structures of my defined and inherited slots List slots = new List(Sys.SlotType, 64); Hashtable nameToSlot = new Hashtable(); // String -> Slot Hashtable nameToIndex = new Hashtable(); // String -> Long // merge in base class and mixin classes for (int i = 0; i < m_mixins.sz(); i++) { merge((Type)m_mixins.get(i), slots, nameToSlot, nameToIndex); } merge(m_base, slots, nameToSlot, nameToIndex); // merge in all my slots FPod fpod = this.m_pod.fpod; FType ftype = this.m_ftype; for (int i = 0; i < ftype.m_fields.Length; i++) { Field f = map(fpod, ftype.m_fields[i]); merge(f, slots, nameToSlot, nameToIndex); } for (int i = 0; i < ftype.m_methods.Length; i++) { Method m = map(fpod, ftype.m_methods[i]); merge(m, slots, nameToSlot, nameToIndex); } // break out into fields and methods List fields = new List(Sys.FieldType, slots.sz()); List methods = new List(Sys.MethodType, slots.sz()); for (int i = 0; i < slots.sz(); i++) { Slot slot = (Slot)slots.get(i); if (slot is Field) { fields.add(slot); } else { methods.add(slot); } } this.m_slots = slots.trim(); this.m_fields = fields.trim(); this.m_methods = methods.trim(); this.m_slotsByName = nameToSlot; this.m_facets = Facets.mapFacets(m_pod, ftype.m_attrs.m_facets); // facets this.m_lineNum = m_ftype.m_attrs.m_lineNum; this.m_sourceFile = m_ftype.m_attrs.m_sourceFile; }