#include "Flatline.h" #include "../Oni_Symbols.h" #include #include "Flatline_Packet.h" #define FLAG_AND_INCREMENT( FLAG ) PD->UpdateFlags |= (1 << FLAG ); DataPointer += FLpData_PartSize( FLAG ); void FLsPacketBuild( uint8_t p, PlayerData* PD, bool UpdateAll ) { Character* Player = PlayerList[p]->Chr; ActiveCharacter* APlayer = ONrGetActiveCharacter(Player); player_info * PI = PlayerList[p]; uint8_t * DataPointer = PD->data; PD->ID = p; //if ( data has changed ) //{ // copy it to the buffer // copy it to the player info // set the changed flag // increment the buffer pointer //} /* //Could probably send this every frame, but afk players can save a few bytes, eh? if( PI->Input.Actions1 != PI->InputFromClient.Actions1 || PI->Input.Actions2 != PI->InputFromClient.Actions2 || PI->Input.MouseDeltaX != PI->InputFromClient.MouseDeltaX || PI->Input.MouseDeltaY != PI->InputFromClient.MouseDeltaY ) {*/ //Better in case of dropped packets to send input every frame if(1) { memcpy( DataPointer, &PI->InputFromClient, sizeof(PlayerInput)); PI->Input = PI->InputFromClient; FLAG_AND_INCREMENT( PFlag_Input ); } if( PI->Facings.Facing != Player->Facing || PI->Facings.DesiredFacing != Player->DesiredFacing || UpdateAll ) { PlayerFacing* ptr = (void*)DataPointer; ptr->Facing = Player->Facing; ptr->DesiredFacing = Player->DesiredFacing; PI->Facings = *ptr; FLAG_AND_INCREMENT( PFlag_Facing ); } if(PI->Health.Health != Player->Health || PI->Health.MaxHealth != Player->MaxHealth || UpdateAll ) { PlayerHealth* ptr = (void*)DataPointer; ptr->Health = Player->Health; ptr->MaxHealth = Player->MaxHealth; PI->Health = *ptr; FLAG_AND_INCREMENT( PFlag_Health ); } //Score //skipping for now //Frame and ping can be sent every frame, i guess. Improve this later, if( 1 ) { PlayerFP* ptr = (void*)DataPointer; if(APlayer) { ptr->Frame = APlayer->Frame; } else { ptr->Frame = -1; } ptr->Ping = PI->Ping; PI->Frame = ptr->Frame; FLAG_AND_INCREMENT( PFlag_FramePing ); } //Skipping inventory because we dont need it right now if( 0 ) { //Do inventory } if( PI->Class != Player->ONCC || UpdateAll ) { snprintf( DataPointer, 32, "%s", TMrInstance_GetInstanceName( Player->ONCC ) ); snprintf( PI->ClassString, 32, "%s", DataPointer ); PI->Class = Player->ONCC; FLAG_AND_INCREMENT( PFlag_Class ); } if(APlayer) { if( (APlayer->PhyContext) && (memcmp(&PI->Position, &APlayer->PhyContext->Position, sizeof(Vector3)) || UpdateAll )) { Vector3* ptr = (Vector3*)DataPointer; *ptr = PI->Position = APlayer->PhyContext->Position; FLAG_AND_INCREMENT( PFlag_Position ); } if(APlayer->Animation != PI->Animation || !APlayer->Frame || UpdateAll ) { snprintf( DataPointer, 32, "%s", TMrInstance_GetInstanceName( APlayer->Animation ) ); snprintf( PI->AnimationString, 32, "%s", DataPointer ); PI->Animation = APlayer->Animation; FLAG_AND_INCREMENT( PFlag_Animation ); } if(APlayer->targetThrow) { if(!PI->HasAppliedThrow || UpdateAll ) { PlayerThrowData* ptr = (void*)DataPointer; ptr->throwing = Players[APlayer->throwing].list_slot; memcpy(ptr->throwName, TMrInstance_GetInstanceName(APlayer->targetThrow), 31); ptr->throwFrame = ONrGetActiveCharacter(APlayer->targetThrow)->Frame; PI->ThrowData = *ptr; PI->HasAppliedThrow = 1; FLAG_AND_INCREMENT( PFlag_Throws ); } } else { PI->HasAppliedThrow = 0; } } PD->Size = (uint32_t)DataPointer - (uint32_t)PD; PI->UpdateFlags = PD->UpdateFlags; } void FLsSendPlayerData() { PlayerData BuildData[32] = {0}; uint8_t p = 0; uint32_t PacketSize = 0; flatline_packet OutputPacket = {0}; uint8_t* OutputPointer = OutputPacket.data; //Most of the time we won't even hit this. Could probably be bumped up a few hundred bytes const uint32_t max_packet_size = 1000; //Prepare buffers OutputPacket.id = PK_PLAYER_DATA; memset( BuildData, 0, sizeof(PlayerData) * 32 ); //Build data for(p = 0; p < MAX_PLAYERS; p++) { if(PlayerList[p] && PlayerList[p]->Chr) { FLsPacketBuild(p, &BuildData[p], 0); assert( BuildData[p].Size < 255 ); if( BuildData[p].Size > 0 ) { //If we hit maximum size, send the packet and reset the buffer for a new one if( BuildData[p].Size + PacketSize > max_packet_size ) { UDPServer_SendToAll(&OutputPacket, PacketSize + FLATLINE_HEADER); memset( OutputPacket.data, 0, PacketSize ); OutputPointer = OutputPacket.data; PacketSize = 0; } //add to the packet memcpy( OutputPointer, &BuildData[p], BuildData[p].Size ); OutputPointer += BuildData[p].Size; PacketSize += BuildData[p].Size; } } } //Send data if( PacketSize > 0 ) { UDPServer_SendToAll(&OutputPacket, PacketSize + FLATLINE_HEADER); } }