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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
#include "plProfile.h"
#include "plProfileManager.h"
#include "../plNetClient/plNetClientMgr.h"
#include "hsTimer.h"
plProfile_CreateCounter("Age Upload BitsPerSec", "Network", UploadAgeBitsPerSec);
plProfile_CreateMemCounter("Upload Bytes", "Network", UploadBW);
plProfile_CreateMemCounter("Upload Avg Packet Size", "Network", UploadAPS);
plProfile_CreateCounter("Upload Num Packets", "Network", UploadPPS);
plProfile_CreateCounter("Upload Avg Packets Queued", "Network", UploadPQ);
plProfile_CreateCounter("Recvd Multiple Acks", "Network", RMultAcksPQ);
plProfile_CreateCounter("Age Download BitsPerSec", "Network", DownloadAgeBitsPerSec);
plProfile_CreateMemCounter("Download Bytes", "Network", DownloadBW);
plProfile_CreateMemCounter("Download Avg Packet Size", "Network", DownloadAPS);
plProfile_CreateCounter("Download Num Packets", "Network", DownloadPPS);
plProfile_CreateCounter("Download Avg Packets Queued", "Network", DownloadPQ);
plProfile_CreateCounter("Download Dropped Pkts", "Network", DownloadDP);
plProfile_CreateCounter("Remote Players", "Network", RemotePlayers);
plProfile_CreateCounter("Peers", "Network", Peers);
plProfile_CreateCounter("Player ID", "Network", PlayerID);
plProfile_CreateCounter("Account ID", "Network", AccountID);
plProfile_CreateTimer("Avg Receipt Time", "Network", AvgReceiptTime);
plProfile_CreateTimer("Peak Receipt Time", "Network", PeakReceiptTime);
#ifdef HS_FIND_MEM_LEAKS
plProfile_CreateMemCounter("Allocated", "Memory", MemAllocated);
plProfile_CreateMemCounter("Peak Alloc", "Memory", MemPeakAlloc);
#endif
static plProfileVar gVarRFPS("RFPS", "General", plProfileVar::kDisplayTime | plProfileVar::kDisplayFPS);
plProfile_Extern(DrawTriangles);
plProfile_Extern(MatChange);
plProfile_CreateCounter("Polys Per Material", "General", PolysPerMat);
#ifdef PL_PROFILE_ENABLED
#define plProfile_GetValue(varName) gProfileVar##varName.GetValue()
#else
#define plProfile_GetValue(varName) 0
#endif
void CalculateProfiles()
{
// KLUDGE - do timing that overlaps the beginframe / endframe (where timing is normally reset)
static UInt32 lastTicks = plProfileManager::GetTime();
UInt32 curTicks = plProfileManager::GetTime();
gVarRFPS.Set(curTicks - lastTicks);
lastTicks = curTicks;
// KLUDGE - calulate the polys per material
if (plProfile_GetValue(MatChange) == 0)
plProfile_Set(PolysPerMat, 0);
else
plProfile_Set(PolysPerMat, plProfile_GetValue(DrawTriangles) / plProfile_GetValue(MatChange));
#ifdef HS_FIND_MEM_LEAKS
// plProfile_Set(MemAllocated, MemGetAllocated());
// plProfile_Set(MemPeakAlloc, MemGetPeakAllocated());
#endif
// Network stats
plNetClientMgr* nc = plNetClientMgr::GetInstance();
if (!nc->GetFlagsBit(plNetClientMgr::kDisabled))
{
#if 0
hsAssert(nc->GetNetCore(), "nil net core in stats?");
plNetCoreStats* ns = nc->GetNetCore()->GetStats();
plProfile_Set(UploadAgeBitsPerSec, (UInt32)nc->GetNetClientStats().GetAgeStatsULBitsPerSec());
plProfile_Set(UploadBW, ns->GetULBits()/8);
plProfile_Set(UploadPPS, ns->GetULPackets());
plProfile_Set(UploadAPS, (UInt32)ns->GetULAvgPacketBytes());
plProfile_Set(UploadPQ, (UInt32)ns->GetULAvgNumPacketsQueued());
plProfile_Set(RMultAcksPQ, nc->GetNetClientStats().GetRecvdMultipleAcks());
plProfile_Set(DownloadAgeBitsPerSec, (UInt32)nc->GetNetClientStats().GetAgeStatsDLBitsPerSec());
plProfile_Set(DownloadBW, ns->GetDLBits()/8);
plProfile_Set(DownloadPPS, ns->GetDLPackets());
plProfile_Set(DownloadAPS, (UInt32)ns->GetDLAvgPacketBytes());
plProfile_Set(DownloadPQ, (UInt32)ns->GetDLAvgNumPacketsQueued());
plProfile_Set(DownloadDP, ns->GetDLDroppedPackets());
plProfile_Set(RemotePlayers, nc->RemotePlayerKeys().size());
plProfile_Set(Peers, ns->GetNumPeers());
plProfile_Set(PlayerID, nc->GetPlayerID());
plProfile_Set(AccountID, nc->GetAccountID());
plProfile_Set(AvgReceiptTime, hsTimer::PrecSecsToTicks(ns->GetAvgReceiptTime()));
plProfile_Set(PeakReceiptTime, hsTimer::PrecSecsToTicks(ns->GetPeakReceiptTime()));
#endif
}
}
#include "../plPipeline/plPlates.h"
static plGraphPlate* fFPSPlate = nil;
static plGraphPlate* fNetBWPlate = nil;
static plGraphPlate* fNetPPSPlate = nil;
static plGraphPlate* fNetQueuesPlate = nil;
static plGraphPlate* fNetAvgBWPlate = nil;
static plGraphPlate* fNetAvgPPSPlate = nil;
static plGraphPlate* fNetAvgQueuesPlate = nil;
static int ICreateStdPlate(plGraphPlate** graph)
{
if (plPlateManager::InstanceValid())
{
plPlateManager::Instance().CreateGraphPlate(graph);
(*graph)->SetSize(0.25, 0.25);
(*graph)->SetDataRange(0, 100, 100);
return hsOK;
}
return hsFail;
}
void CreateStandardGraphs(const char* groupName, bool create)
{
if (strcmp(groupName, "General") == 0)
{
if (create)
{
if (ICreateStdPlate(&fFPSPlate) == hsOK)
{
fFPSPlate->SetTitle("mSecs");
fFPSPlate->SetLabelText("Tot", "Draw", "Upd");
}
}
else
{
plPlateManager::Instance().DestroyPlate(fFPSPlate);
fFPSPlate = nil;
}
}
else if (strcmp(groupName, "Network") == 0)
{
if (create)
{
if (ICreateStdPlate(&fNetBWPlate) == hsOK)
{
fNetBWPlate->SetDataLabels(0, 2000);
fNetBWPlate->SetTitle("Bytes");
fNetBWPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetPPSPlate);
fNetPPSPlate->SetDataLabels(0, 20);
fNetPPSPlate->SetTitle("Packets");
fNetPPSPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetQueuesPlate);
fNetQueuesPlate->SetDataLabels(0, 20);
fNetQueuesPlate->SetTitle("Queue Counts");
fNetQueuesPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetQueuesPlate);
fNetQueuesPlate->SetDataLabels(0, 20);
fNetQueuesPlate->SetTitle("Queue Counts");
fNetQueuesPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetQueuesPlate);
fNetQueuesPlate->SetDataLabels(0, 20);
fNetQueuesPlate->SetTitle("Queue Counts");
fNetQueuesPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetAvgBWPlate);
fNetAvgBWPlate->SetDataLabels(0, 5000);
fNetAvgBWPlate->SetTitle("Avg BytesPS");
fNetAvgBWPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetAvgPPSPlate);
fNetAvgPPSPlate->SetDataLabels(0, 40);
fNetAvgPPSPlate->SetTitle("Avg PacketsPS");
fNetAvgPPSPlate->SetLabelText("UL", "DL");
ICreateStdPlate(&fNetAvgQueuesPlate);
fNetAvgQueuesPlate->SetDataLabels(0, 40);
fNetAvgQueuesPlate->SetTitle("Avg Queue CountsPS");
fNetAvgQueuesPlate->SetLabelText("UL", "DL");
}
}
else
{
plPlateManager::Instance().DestroyPlate(fNetBWPlate);
plPlateManager::Instance().DestroyPlate(fNetPPSPlate);
plPlateManager::Instance().DestroyPlate(fNetQueuesPlate);
plPlateManager::Instance().DestroyPlate(fNetAvgBWPlate);
plPlateManager::Instance().DestroyPlate(fNetAvgPPSPlate);
plPlateManager::Instance().DestroyPlate(fNetAvgQueuesPlate);
fNetBWPlate = nil;
fNetPPSPlate = nil;
fNetQueuesPlate = nil;
fNetAvgBWPlate = nil;
fNetAvgPPSPlate = nil;
fNetAvgQueuesPlate = nil;
}
}
}
plProfile_CreateTimer("Draw", "General", DrawTime);
plProfile_CreateTimer("Update", "General", UpdateTime);
void UpdateStandardGraphs(float xPos, float yPos)
{
#define PositionPlate(plate) \
plate->SetPosition(xPos, yPos); \
yPos += 0.25; \
plate->SetVisible(true);
if (fFPSPlate)
{
fFPSPlate->AddData(
gVarRFPS.GetValue(),
plProfile_GetValue(DrawTime),
plProfile_GetValue(UpdateTime));
PositionPlate(fFPSPlate);
}
plNetClientMgr* nc = plNetClientMgr::GetInstance();
#if 0
plNetCoreStats* ns = nc ? nc->GetNetCore()->GetStats() : nil;
if (!nc || !ns)
return;
if (fNetBWPlate)
{
fNetBWPlate->AddData(
(UInt32)(ns->GetULBits()/8.f),
(UInt32)(ns->GetDLBits()/8.f));
PositionPlate(fNetBWPlate);
}
if (fNetPPSPlate)
{
fNetPPSPlate->AddData(
ns->GetULPackets(),
ns->GetDLPackets());
PositionPlate(fNetPPSPlate);
}
if (fNetQueuesPlate)
{
unsigned int ul, dl;
nc->GetNetCore()->GetOutQueueMsgCount(plNetCore::kPeerAll,ul);
nc->GetNetCore()->GetInQueueMsgCount(plNetCore::kPeerAll,dl);
fNetQueuesPlate->AddData(ul,dl);
PositionPlate(fNetQueuesPlate);
}
if (fNetAvgBWPlate)
{
fNetAvgBWPlate->AddData(
(UInt32)(ns->GetULBitsPS()/8.f),
(UInt32)(ns->GetDLBitsPS()/8.f));
PositionPlate(fNetAvgBWPlate);
}
if (fNetAvgPPSPlate)
{
fNetAvgPPSPlate->AddData(
(Int32)ns->GetULNumPacketsPS(),
(Int32)ns->GetDLNumPacketsPS());
PositionPlate(fNetAvgPPSPlate);
}
if (fNetAvgQueuesPlate)
{
fNetAvgQueuesPlate->AddData(
(Int32)ns->GetULAvgNumPacketsQueued(),
(Int32)ns->GetDLAvgNumPacketsQueued());
PositionPlate(fNetAvgQueuesPlate);
}
#endif
}