#define RAPIDJSON_48BITPOINTER_OPTIMIZATION 0 // disable this insanity which is bound to make the code break over time. #define RAPIDJSON_HAS_CXX11_RVALUE_REFS 1 #define RAPIDJSON_HAS_CXX11_RANGE_FOR 1 #define RAPIDJSON_PARSE_DEFAULT_FLAGS kParseFullPrecisionFlag #include "rapidjson/rapidjson.h" #include "rapidjson/writer.h" #include "rapidjson/prettywriter.h" #include "rapidjson/stringbuffer.h" #include "rapidjson/document.h" #include "serializer.h" #include "r_data/colormaps.h" #include "r_data/r_interpolate.h" #include "r_defs.h" #include "r_state.h" #include "p_lnspec.h" #include "i_system.h" #include "w_wad.h" #include "p_terrain.h" #include "c_dispatch.h" #include "p_setup.h" #include "p_conversation.h" #include "dsectoreffect.h" #include "d_player.h" #include "r_data/r_interpolate.h" #include "g_shared/a_sharedglobal.h" #include "po_man.h" #include "v_font.h" #include "w_zip.h" char nulspace[1024 * 1024 * 4]; //========================================================================== // // // //========================================================================== struct FJSONObject { rapidjson::Value *mObject; rapidjson::Value::MemberIterator mIterator; int mIndex; bool mRandomAccess; FJSONObject(rapidjson::Value *v, bool randomaccess = false) { mObject = v; mRandomAccess = randomaccess; if (v->IsObject()) mIterator = v->MemberBegin(); else if (v->IsArray()) { mIndex = 0; } } }; //========================================================================== // // some wrapper stuff to keep the RapidJSON dependencies out of the global headers. // FSerializer should not expose any of this. // //========================================================================== struct FWriter { typedef rapidjson::Writer > Writer; typedef rapidjson::PrettyWriter > PrettyWriter; Writer *mWriter1; PrettyWriter *mWriter2; TArray mInObject; rapidjson::StringBuffer mOutString; TArray mDObjects; TMap mObjectMap; FWriter(bool pretty) { if (!pretty) { mWriter1 = new Writer(mOutString); mWriter2 = nullptr; } else { mWriter1 = nullptr; mWriter2 = new PrettyWriter(mOutString); } } ~FWriter() { if (mWriter1) delete mWriter1; if (mWriter2) delete mWriter2; } bool inObject() const { return mInObject.Size() > 0 && mInObject.Last(); } void StartObject() { if (mWriter1) mWriter1->StartObject(); else if (mWriter2) mWriter2->StartObject(); } void EndObject() { if (mWriter1) mWriter1->EndObject(); else if (mWriter2) mWriter2->EndObject(); } void StartArray() { if (mWriter1) mWriter1->StartArray(); else if (mWriter2) mWriter2->StartArray(); } void EndArray() { if (mWriter1) mWriter1->EndArray(); else if (mWriter2) mWriter2->EndArray(); } void Key(const char *k) { if (mWriter1) mWriter1->Key(k); else if (mWriter2) mWriter2->Key(k); } void Null() { if (mWriter1) mWriter1->Null(); else if (mWriter2) mWriter2->Null(); } void String(const char *k) { if (mWriter1) mWriter1->String(k); else if (mWriter2) mWriter2->String(k); } void String(const char *k, int size) { if (mWriter1) mWriter1->String(k, size); else if (mWriter2) mWriter2->String(k, size); } void Bool(bool k) { if (mWriter1) mWriter1->Bool(k); else if (mWriter2) mWriter2->Bool(k); } void Int(int32_t k) { if (mWriter1) mWriter1->Int(k); else if (mWriter2) mWriter2->Int(k); } void Int64(int64_t k) { if (mWriter1) mWriter1->Int64(k); else if (mWriter2) mWriter2->Int64(k); } void Uint(uint32_t k) { if (mWriter1) mWriter1->Uint(k); else if (mWriter2) mWriter2->Uint(k); } void Uint64(int64_t k) { if (mWriter1) mWriter1->Uint64(k); else if (mWriter2) mWriter2->Uint64(k); } void Double(double k) { if (mWriter1) mWriter1->Double(k); else if (mWriter2) mWriter2->Double(k); } }; //========================================================================== // // // //========================================================================== struct FReader { TArray mObjects; rapidjson::Document mDoc; FReader(const char *buffer, size_t length, bool randomaccess) { rapidjson::Document doc; mDoc.Parse(buffer, length); mObjects.Push(FJSONObject(&mDoc, randomaccess)); } rapidjson::Value *FindKey(const char *key) { FJSONObject &obj = mObjects.Last(); if (obj.mObject->IsObject()) { if (!obj.mRandomAccess) { if (obj.mIterator != obj.mObject->MemberEnd()) { if (!strcmp(key, obj.mIterator->name.GetString())) { return &(obj.mIterator++)->value; } } } else { // for unordered searches. This is slower but will not rely on sequential order of items. auto it = obj.mObject->FindMember(key); if (it == obj.mObject->MemberEnd()) return nullptr; return &it->value; } } else if (obj.mObject->IsArray() && (unsigned)obj.mIndex < obj.mObject->Size()) { return &(*obj.mObject)[obj.mIndex++]; } return nullptr; } }; //========================================================================== // // // //========================================================================== bool FSerializer::OpenWriter(bool pretty) { if (w != nullptr || r != nullptr) return false; w = new FWriter(pretty); BeginObject(nullptr); return true; } //========================================================================== // // // //========================================================================== bool FSerializer::OpenReader(const char *buffer, size_t length, bool randomaccess) { if (w != nullptr || r != nullptr) return false; r = new FReader(buffer, length, randomaccess); return true; } //========================================================================== // // // //========================================================================== bool FSerializer::OpenReader(FCompressedBuffer *input, bool randomaccess) { if (input->mSize <= 0 || input->mBuffer == nullptr) return false; if (w != nullptr || r != nullptr) return false; if (input->mMethod == METHOD_STORED) { r = new FReader((char*)input->mBuffer, input->mSize, randomaccess); return true; } else { char *unpacked = new char[input->mSize]; input->Decompress(unpacked); r = new FReader(unpacked, input->mSize, randomaccess); return true; } } //========================================================================== // // // //========================================================================== void FSerializer::Close() { if (w != nullptr) { delete w; w = nullptr; } if (r != nullptr) { delete r; r = nullptr; } } //========================================================================== // // // //========================================================================== int FSerializer::ArraySize() { if (r != nullptr && r->mObjects.Last().mObject->IsArray()) { return r->mObjects.Last().mObject->Size(); } else { return 0; } } //========================================================================== // // // //========================================================================== bool FSerializer::canSkip() const { return isWriting() && w->inObject(); } //========================================================================== // // // //========================================================================== void FSerializer::WriteKey(const char *key) { if (isWriting() && w->inObject()) { assert(key != nullptr); if (key == nullptr) { I_Error("missing element name"); } w->Key(key); } } //========================================================================== // // // //========================================================================== bool FSerializer::BeginObject(const char *name, bool randomaccess) { if (isWriting()) { WriteKey(name); w->StartObject(); w->mInObject.Push(true); } else { auto val = r->FindKey(name); if (val != nullptr) { if (val->IsObject()) { r->mObjects.Push(FJSONObject(val, randomaccess)); } else { I_Error("Object expected for '%s'", name); } } else { return false; } } return true; } //========================================================================== // // // //========================================================================== void FSerializer::EndObject() { if (isWriting()) { if (w->inObject()) { w->EndObject(); w->mInObject.Pop(); } else { I_Error("EndObject call not inside an object"); } } else { r->mObjects.Pop(); } } //========================================================================== // // // //========================================================================== bool FSerializer::BeginArray(const char *name) { if (isWriting()) { WriteKey(name); w->StartArray(); w->mInObject.Push(false); } else { auto val = r->FindKey(name); if (val != nullptr) { if (val->IsArray()) { r->mObjects.Push(FJSONObject(val)); } else { I_Error("Array expected for '%s'", name); } } else { return false; } } return true; } //========================================================================== // // // //========================================================================== void FSerializer::EndArray() { if (isWriting()) { if (!w->inObject()) { w->EndArray(); w->mInObject.Pop(); } else { I_Error("EndArray call not inside an array"); } } else { r->mObjects.Pop(); } } //========================================================================== // // Special handler for args (because ACS specials' arg0 needs special treatment.) // //========================================================================== FSerializer &FSerializer::Args(const char *key, int *args, int *defargs, int special) { if (isWriting()) { if (w->inObject() && defargs != nullptr && !memcmp(args, defargs, 5 * sizeof(int))) { return *this; } WriteKey(key); w->StartArray(); for (int i = 0; i < 5; i++) { if (i == 0 && args[i] < 0 && P_IsACSSpecial(special)) { w->String(FName(ENamedName(-args[i])).GetChars()); } else { w->Int(args[i]); } } w->EndArray(); } else { auto val = r->FindKey(key); if (val != nullptr) { if (val->IsArray()) { unsigned int cnt = MIN(val->Size(), 5); for (unsigned int i = 0; i < cnt; i++) { const rapidjson::Value &aval = (*val)[i]; if (aval.IsInt()) { args[i] = aval.GetInt(); } else if (i == 0 && aval.IsString()) { args[i] = -FName(aval.GetString()); } else { I_Error("Integer expected for '%s[%d]'", key, i); } } } else { I_Error("array expected for '%s'", key); } } } return *this; } //========================================================================== // // Special handler for script numbers // //========================================================================== FSerializer &FSerializer::ScriptNum(const char *key, int &num) { if (isWriting()) { WriteKey(key); if (num < 0) { w->String(FName(ENamedName(-num)).GetChars()); } else { w->Int(num); } } else { auto val = r->FindKey(key); if (val != nullptr) { if (val->IsInt()) { num = val->GetInt(); } else if (val->IsString()) { num = -FName(val->GetString()); } else { I_Error("Integer expected for '%s'", key); } } } return *this; } //========================================================================== // // // //========================================================================== FSerializer &FSerializer::Terrain(const char *key, int &terrain, int *def) { if (isWriting() && def != nullptr && terrain == *def) { return *this; } FName terr = P_GetTerrainName(terrain); Serialize(*this, key, terr, nullptr); if (isReading()) { terrain = P_FindTerrain(terr); } return *this; } //========================================================================== // // // //========================================================================== FSerializer &FSerializer::Sprite(const char *key, int32_t &spritenum, int32_t *def) { if (isWriting()) { if (w->inObject() && def != nullptr && *def == spritenum) return *this; WriteKey(key); w->String(sprites[spritenum].name, 4); } else { auto val = r->FindKey(key); if (val != nullptr) { if (val->IsString()) { int name = *reinterpret_cast(val->GetString()); for (auto hint = NumStdSprites; hint-- != 0; ) { if (sprites[hint].dwName == name) { spritenum = hint; break; } } } } } return *this; } //========================================================================== // // // //========================================================================== FSerializer &FSerializer::StringPtr(const char *key, const char *&charptr) { if (isWriting()) { WriteKey(key); w->String(charptr); } else { auto val = r->FindKey(key); if (val != nullptr) { if (val->IsString()) { charptr = val->GetString(); } else { charptr = nullptr; } } } return *this; } //========================================================================== // // // //========================================================================== FSerializer &FSerializer::AddString(const char *key, const char *charptr) { if (isWriting()) { WriteKey(key); w->String(charptr); } return *this; } //========================================================================== // // // //========================================================================== unsigned FSerializer::GetSize(const char *group) { if (isWriting()) return -1; // we do not know this when writing. const rapidjson::Value &val = r->mDoc[group]; if (!val.IsArray()) return -1; return val.Size(); } //========================================================================== // // // //========================================================================== const char *FSerializer::GetKey() { if (isWriting()) return nullptr; // we do not know this when writing. if (!r->mObjects.Last().mObject->IsObject()) return nullptr; // non-objects do not have keys. auto &it = r->mObjects.Last().mIterator; if (it == r->mObjects.Last().mObject->MemberEnd()) return nullptr; return it->name.GetString(); } //========================================================================== // // Writes out all collected objects // //========================================================================== void FSerializer::WriteObjects() { if (isWriting() && w->mDObjects.Size()) { BeginArray("objects"); // we cannot use the C++11 shorthand syntax here because the array may grow while being processed. for (unsigned i = 0; i < w->mDObjects.Size(); i++) { auto obj = w->mDObjects[i]; player_t *player; BeginObject(nullptr); w->Key("classtype"); w->String(obj->GetClass()->TypeName.GetChars()); if (obj->IsKindOf(RUNTIME_CLASS(AActor)) && (player = static_cast(obj)->player) && player->mo == obj) { w->Key("playerindex"); w->Int(int(player - players)); } obj->SerializeUserVars(*this); obj->Serialize(*this); obj->CheckIfSerialized(); EndObject(); } EndArray(); } } //========================================================================== // // // //========================================================================== const char *FSerializer::GetOutput(unsigned *len) { if (isReading()) return nullptr; WriteObjects(); EndObject(); if (len != nullptr) { *len = (unsigned)w->mOutString.GetSize(); } return w->mOutString.GetString(); } //========================================================================== // // // //========================================================================== FCompressedBuffer FSerializer::GetCompressedOutput() { if (isReading()) return{ 0,0,0,0,0,nullptr }; FCompressedBuffer buff; WriteObjects(); EndObject(); buff.mSize = (unsigned)w->mOutString.GetSize(); buff.mZipFlags = 0; buff.mCRC32 = crc32(0, (const Bytef*)w->mOutString.GetString(), buff.mSize); uint8_t *compressbuf = new uint8_t[buff.mSize+1]; z_stream stream; int err; stream.next_in = (Bytef *)w->mOutString.GetString(); stream.avail_in = buff.mSize; stream.next_out = (Bytef*)compressbuf; stream.avail_out = buff.mSize; stream.zalloc = (alloc_func)0; stream.zfree = (free_func)0; stream.opaque = (voidpf)0; // create output in zip-compatible form as required by FCompressedBuffer err = deflateInit2(&stream, 8, Z_DEFLATED, -15, 9, Z_DEFAULT_STRATEGY); if (err != Z_OK) { goto error; } err = deflate(&stream, Z_FINISH); if (err != Z_STREAM_END) { deflateEnd(&stream); goto error; } buff.mCompressedSize = stream.total_out; err = deflateEnd(&stream); if (err == Z_OK) { buff.mBuffer = new char[buff.mCompressedSize]; buff.mMethod = METHOD_DEFLATE; memcpy(buff.mBuffer, compressbuf, buff.mCompressedSize); delete[] compressbuf; return buff; } error: memcpy(compressbuf, w->mOutString.GetString(), buff.mSize + 1); buff.mCompressedSize = buff.mSize; buff.mMethod = METHOD_STORED; return buff; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, bool &value, bool *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->Bool(value); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsBool()) { value = val->GetBool(); } else { I_Error("boolean type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, int64_t &value, int64_t *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->Int64(value); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsInt64()) { value = val->GetInt64(); } else { I_Error("integer type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, uint64_t &value, uint64_t *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->Uint64(value); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsUint64()) { value = val->GetUint64(); } else { I_Error("integer type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, int32_t &value, int32_t *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->Int(value); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsInt()) { value = val->GetInt(); } else { I_Error("integer type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, uint32_t &value, uint32_t *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->Uint(value); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsUint()) { value = val->GetUint(); } else { I_Error("integer type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, int8_t &value, int8_t *defval) { int32_t vv = value; int32_t vvd = defval? *defval : value-1; Serialize(arc, key, vv, &vvd); value = (int8_t)vv; return arc; } FSerializer &Serialize(FSerializer &arc, const char *key, uint8_t &value, uint8_t *defval) { uint32_t vv = value; uint32_t vvd = defval ? *defval : value - 1; Serialize(arc, key, vv, &vvd); value = (uint8_t)vv; return arc; } FSerializer &Serialize(FSerializer &arc, const char *key, int16_t &value, int16_t *defval) { int32_t vv = value; int32_t vvd = defval ? *defval : value - 1; Serialize(arc, key, vv, &vvd); value = (int16_t)vv; return arc; } FSerializer &Serialize(FSerializer &arc, const char *key, uint16_t &value, uint16_t *defval) { uint32_t vv = value; uint32_t vvd = defval ? *defval : value - 1; Serialize(arc, key, vv, &vvd); value = (uint16_t)vv; return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, double &value, double *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->Double(value); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsDouble()) { value = val->GetDouble(); } else { I_Error("float type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, float &value, float *defval) { double vv = value; double vvd = defval ? *defval : value - 1; Serialize(arc, key, vv, &vvd); value = (float)vv; return arc; } //========================================================================== // // // //========================================================================== template FSerializer &SerializePointer(FSerializer &arc, const char *key, T *&value, T **defval, T *base) { if (arc.isReading() || !arc.w->inObject() || defval == nullptr || value != *defval) { ptrdiff_t vv = value == nullptr ? -1 : value - base; Serialize(arc, key, vv, nullptr); value = vv < 0 ? nullptr : base + vv; } return arc; } template<> FSerializer &Serialize(FSerializer &arc, const char *key, FPolyObj *&value, FPolyObj **defval) { return SerializePointer(arc, key, value, defval, polyobjs); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, const FPolyObj *&value, const FPolyObj **defval) { return SerializePointer(arc, key, value, defval, polyobjs); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, side_t *&value, side_t **defval) { return SerializePointer(arc, key, value, defval, sides); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, sector_t *&value, sector_t **defval) { return SerializePointer(arc, key, value, defval, sectors); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, const sector_t *&value, const sector_t **defval) { return SerializePointer(arc, key, value, defval, sectors); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, player_t *&value, player_t **defval) { return SerializePointer(arc, key, value, defval, players); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, line_t *&value, line_t **defval) { return SerializePointer(arc, key, value, defval, lines); } template<> FSerializer &Serialize(FSerializer &arc, const char *key, vertex_t *&value, vertex_t **defval) { return SerializePointer(arc, key, value, defval, vertexes); } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, FTextureID &value, FTextureID *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { if (!value.Exists()) { arc.WriteKey(key); arc.w->Null(); return arc; } if (value.isNull()) { // save 'no texture' in a more space saving way arc.WriteKey(key); arc.w->Int(0); return arc; } FTextureID chk = value; if (chk.GetIndex() >= TexMan.NumTextures()) chk.SetNull(); FTexture *pic = TexMan[chk]; const char *name; if (Wads.GetLinkedTexture(pic->SourceLump) == pic) { name = Wads.GetLumpFullName(pic->SourceLump); } else { name = pic->Name; } arc.WriteKey(key); arc.w->StartArray(); arc.w->String(name); arc.w->Int(pic->UseType); arc.w->EndArray(); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsObject()) { const rapidjson::Value &nameval = (*val)[0]; const rapidjson::Value &typeval = (*val)[1]; if (nameval.IsString() && typeval.IsInt()) { value = TexMan.GetTexture(nameval.GetString(), typeval.GetInt()); } else { I_Error("object does not represent a texture for '%s'", key); } } else if (val->IsNull()) { value.SetInvalid(); } else if (val->IsInt() && val->GetInt() == 0) { value.SetNull(); } else { I_Error("object does not represent a texture for '%s'", key); } } } return arc; } //========================================================================== // // This never uses defval and instead uses 'null' as default // because object pointers cannot be safely defaulted to anything else. // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, DObject *&value, DObject ** /*defval*/, bool *retcode) { if (retcode) *retcode = true; if (arc.isWriting()) { if (value != nullptr) { int ndx; if (value == WP_NOCHANGE) { ndx = -1; } else { int *pndx = arc.w->mObjectMap.CheckKey(value); if (pndx != nullptr) { ndx = *pndx; } else { ndx = arc.w->mDObjects.Push(value); arc.w->mObjectMap[value] = ndx; } } Serialize(arc, key, ndx, nullptr); } } else { auto val = arc.r->FindKey(key); if (val != nullptr && val->IsInt()) { if (val->GetInt() == -1) { value = WP_NOCHANGE; } else { } } else if (!retcode) { value = nullptr; } else { *retcode = false; } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, FName &value, FName *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); arc.w->String(value.GetChars()); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsString()) { value = val->GetString(); } else { I_Error("String expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, FDynamicColormap *&cm, FDynamicColormap **def) { if (arc.isWriting()) { if (arc.w->inObject() && def != nullptr && cm->Color == (*def)->Color && cm->Fade == (*def)->Fade && cm->Desaturate == (*def)->Desaturate) { return arc; } arc.WriteKey(key); arc.w->StartArray(); arc.w->Uint(cm->Color); arc.w->Uint(cm->Fade); arc.w->Uint(cm->Desaturate); arc.w->EndArray(); } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsObject()) { const rapidjson::Value &colorval = (*val)[0]; const rapidjson::Value &fadeval = (*val)[1]; const rapidjson::Value &desatval = (*val)[2]; if (colorval.IsUint() && fadeval.IsUint() && desatval.IsUint()) { cm = GetSpecialLights(colorval.GetUint(), fadeval.GetUint(), desatval.GetUint()); } else { I_Error("object does not represent a colormap for '%s'", key); } } else { I_Error("object does not represent a colormap for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, FSoundID &sid, FSoundID *def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || sid != *def) { arc.WriteKey(key); const char *sn = (const char*)sid; if (sn != nullptr) arc.w->String(sn); else arc.w->Null(); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsString()) { sid = val->GetString(); } else if (val->IsNull()) { sid = 0; } else { I_Error("string type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, PClassActor *&clst, PClassActor **def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || clst != *def) { arc.WriteKey(key); if (clst == nullptr) { arc.w->Null(); } else { arc.w->String(clst->TypeName.GetChars()); } } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsString()) { clst = PClass::FindActor(val->GetString()); } else if (val->IsNull()) { clst = nullptr; } else { I_Error("string type expected for '%s'", key); } } } return arc; } //========================================================================== // // almost, but not quite the same as the above. // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, PClass *&clst, PClass **def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || clst != *def) { arc.WriteKey(key); if (clst == nullptr) { arc.w->Null(); } else { arc.w->String(clst->TypeName.GetChars()); } } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsString()) { clst = PClass::FindClass(val->GetString()); } else if (val->IsNull()) { clst = nullptr; } else { I_Error("string type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, FState *&state, FState **def, bool *retcode) { if (retcode) *retcode = false; if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || state != *def) { if (retcode) *retcode = true; arc.WriteKey(key); if (state == nullptr) { arc.w->Null(); } else { PClassActor *info = FState::StaticFindStateOwner(state); if (info != NULL) { arc.w->StartArray(); arc.w->String(info->TypeName.GetChars()); arc.w->Uint((uint32_t)(state - info->OwnedStates)); arc.w->EndArray(); } else { arc.w->Null(); } } } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsNull()) { if (retcode) *retcode = true; state = nullptr; } else if (val->IsArray()) { if (retcode) *retcode = true; const rapidjson::Value &cls = (*val)[0]; const rapidjson::Value &ndx = (*val)[1]; state = nullptr; if (cls.IsString() && ndx.IsInt()) { PClassActor *clas = PClass::FindActor(cls.GetString()); if (clas) { state = clas->OwnedStates + ndx.GetInt(); } } } else if (!retcode) { I_Error("array type expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, FStrifeDialogueNode *&node, FStrifeDialogueNode **def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || node != *def) { arc.WriteKey(key); if (node == nullptr) { arc.w->Null(); } else { arc.w->Uint(node->ThisNodeNum); } } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsNull()) { node = nullptr; } else if (val->IsUint()) { if (val->GetUint() >= StrifeDialogues.Size()) { node = NULL; } else { node = StrifeDialogues[val->GetUint()]; } } else { I_Error("integer expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, FString *&pstr, FString **def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || pstr != *def) { arc.WriteKey(key); if (pstr == nullptr) { arc.w->Null(); } else { arc.w->String(pstr->GetChars()); } } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsNull()) { pstr = nullptr; } else if (val->IsString()) { pstr = AActor::mStringPropertyData.Alloc(val->GetString()); } else { I_Error("string expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, FString &pstr, FString *def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || pstr.Compare(*def) != 0) { arc.WriteKey(key); arc.w->String(pstr.GetChars()); } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsNull()) { pstr = ""; } else if (val->IsString()) { pstr = val->GetString(); } else { I_Error("string expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, char *&pstr, char **def) { if (arc.isWriting()) { if (!arc.w->inObject() || def == nullptr || strcmp(pstr, *def)) { arc.WriteKey(key); if (pstr == nullptr) { arc.w->Null(); } else { arc.w->String(pstr); } } } else { auto val = arc.r->FindKey(key); if (val != nullptr) { if (val->IsNull()) { pstr = nullptr; } else if (val->IsString()) { pstr = copystring(val->GetString()); } else { I_Error("string expected for '%s'", key); } } } return arc; } //========================================================================== // // // //========================================================================== template<> FSerializer &Serialize(FSerializer &arc, const char *key, FFont *&font, FFont **def) { if (arc.isWriting()) { const char *n = font->GetName(); return arc.StringPtr(key, n); } else { const char *n; arc.StringPtr(key, n); font = V_GetFont(n); if (font == nullptr) { Printf("Could not load font %s\n", n); font = SmallFont; } return arc; } } //========================================================================== // // Handler to retrieve a numeric value of any kind. // //========================================================================== FSerializer &Serialize(FSerializer &arc, const char *key, NumericValue &value, NumericValue *defval) { if (arc.isWriting()) { if (!arc.w->inObject() || defval == nullptr || value != *defval) { arc.WriteKey(key); switch (value.type) { case NumericValue::NM_signed: arc.w->Int64(value.signedval); break; case NumericValue::NM_unsigned: arc.w->Uint64(value.unsignedval); break; case NumericValue::NM_float: arc.w->Double(value.floatval); break; default: arc.w->Null(); break; } } } else { auto val = arc.r->FindKey(key); value.signedval = 0; value.type = NumericValue::NM_invalid; if (val != nullptr) { if (val->IsUint64()) { value.unsignedval = val->GetUint64(); value.type = NumericValue::NM_unsigned; } else if (val->IsInt64()) { value.signedval = val->GetInt64(); value.type = NumericValue::NM_signed; } else if (val->IsDouble()) { value.floatval = val->GetDouble(); value.type = NumericValue::NM_float; } } } return arc; }