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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $Workfile: $
// $Date: $
// $NoKeywords: $
//=============================================================================//
# include "cbase.h"
# include "hud.h"
# include "inetgraphpanel.h"
# include "kbutton.h"
# include <inetchannelinfo.h>
# include "input.h"
# include <vgui/IVGui.h>
# include "VGuiMatSurface/IMatSystemSurface.h"
# include <vgui_controls/Panel.h>
# include <vgui_controls/Controls.h>
# include <vgui/ISurface.h>
# include <vgui/IScheme.h>
# include <vgui/ILocalize.h>
# include "tier0/vprof.h"
# include "cdll_bounded_cvars.h"
# include "materialsystem/imaterialsystem.h"
# include "materialsystem/imesh.h"
# include "materialsystem/imaterial.h"
// memdbgon must be the last include file in a .cpp file!!!
# include "tier0/memdbgon.h"
using namespace vgui ;
static ConVar net_scale ( " net_scale " , " 5 " , FCVAR_ARCHIVE ) ;
static ConVar net_graphpos ( " net_graphpos " , " 1 " , FCVAR_ARCHIVE ) ;
static ConVar net_graphsolid ( " net_graphsolid " , " 1 " , FCVAR_ARCHIVE ) ;
static ConVar net_graphtext ( " net_graphtext " , " 1 " , FCVAR_ARCHIVE , " Draw text fields " ) ;
static ConVar net_graphmsecs ( " net_graphmsecs " , " 400 " , FCVAR_ARCHIVE , " The latency graph represents this many milliseconds. " ) ;
static ConVar net_graphshowlatency ( " net_graphshowlatency " , " 1 " , FCVAR_ARCHIVE , " Draw the ping/packet loss graph. " ) ;
static ConVar net_graphshowinterp ( " net_graphshowinterp " , " 1 " , FCVAR_ARCHIVE , " Draw the interpolation graph. " ) ;
void NetgraphFontChangeCallback ( IConVar * var , const char * pOldValue , float flOldValue ) ;
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static ConVar net_graph ( " net_graph " , " 0 " , FCVAR_ARCHIVE , " Draw the network usage graph, = 2 draws data on payload, = 3 draws payload legend. " , NetgraphFontChangeCallback ) ;
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static ConVar net_graphheight ( " net_graphheight " , " 64 " , FCVAR_ARCHIVE , " Height of netgraph panel " , NetgraphFontChangeCallback ) ;
static ConVar net_graphproportionalfont ( " net_graphproportionalfont " , " 1 " , FCVAR_ARCHIVE , " Determines whether netgraph font is proportional or not " , NetgraphFontChangeCallback ) ;
# define TIMINGS 1024 // Number of values to track (must be power of 2) b/c of masking
# define FRAMERATE_AVG_FRAC 0.9
# define PACKETLOSS_AVG_FRAC 0.5
# define PACKETCHOKE_AVG_FRAC 0.5
# define NUM_LATENCY_SAMPLES 8
# define GRAPH_RED (0.9 * 255)
# define GRAPH_GREEN (0.9 * 255)
# define GRAPH_BLUE (0.7 * 255)
# define LERP_HEIGHT 24
# define COLOR_DROPPED 0
# define COLOR_INVALID 1
# define COLOR_SKIPPED 2
# define COLOR_CHOKED 3
# define COLOR_NORMAL 4
//-----------------------------------------------------------------------------
// Purpose: Displays the NetGraph
//-----------------------------------------------------------------------------
class CNetGraphPanel : public Panel
{
typedef Panel BaseClass ;
private :
typedef struct
{
int latency ;
int choked ;
} packet_latency_t ;
typedef struct
{
unsigned short msgbytes [ INetChannelInfo : : TOTAL + 1 ] ;
int sampleY ;
int sampleHeight ;
} netbandwidthgraph_t ;
typedef struct
{
float cmd_lerp ;
int size ;
bool sent ;
} cmdinfo_t ;
typedef struct
{
byte color [ 3 ] ;
byte alpha ;
} netcolor_t ;
byte colors [ LERP_HEIGHT ] [ 3 ] ;
byte sendcolor [ 3 ] ;
byte holdcolor [ 3 ] ;
byte extrap_base_color [ 3 ] ;
packet_latency_t m_PacketLatency [ TIMINGS ] ;
cmdinfo_t m_Cmdinfo [ TIMINGS ] ;
netbandwidthgraph_t m_Graph [ TIMINGS ] ;
float m_Framerate ;
float m_AvgLatency ;
float m_AvgPacketLoss ;
float m_AvgPacketChoke ;
int m_IncomingSequence ;
int m_OutgoingSequence ;
int m_UpdateWindowSize ;
float m_IncomingData ;
float m_OutgoingData ;
float m_AvgPacketIn ;
float m_AvgPacketOut ;
int m_StreamRecv [ MAX_FLOWS ] ;
int m_StreamTotal [ MAX_FLOWS ] ;
netcolor_t netcolors [ 5 ] ;
HFont m_hFontProportional ;
HFont m_hFont ;
HFont m_hFontSmall ;
const ConVar * cl_updaterate ;
const ConVar * cl_cmdrate ;
public :
CNetGraphPanel ( VPANEL parent ) ;
virtual ~ CNetGraphPanel ( void ) ;
virtual void ApplySchemeSettings ( IScheme * pScheme ) ;
virtual void Paint ( ) ;
virtual void OnTick ( void ) ;
virtual bool ShouldDraw ( void ) ;
void InitColors ( void ) ;
int GraphValue ( void ) ;
struct CLineSegment
{
int x1 , y1 , x2 , y2 ;
byte color [ 4 ] ;
byte color2 [ 4 ] ;
} ;
CUtlVector < CLineSegment > m_Rects ;
inline void DrawLine ( vrect_t * rect , unsigned char * color , unsigned char alpha ) ;
inline void DrawLine2 ( vrect_t * rect , unsigned char * color , unsigned char * color2 , unsigned char alpha , unsigned char alpha2 ) ;
void ResetLineSegments ( ) ;
void DrawLineSegments ( ) ;
int DrawDataSegment ( vrect_t * rcFill , int bytes , byte r , byte g , byte b , byte alpha = 255 ) ;
void DrawUpdateRate ( int xright , int y ) ;
void DrawCmdRate ( int xright , int y ) ;
void DrawHatches ( int x , int y , int maxmsgbytes ) ;
void DrawStreamProgress ( int x , int y , int width ) ;
void DrawTimes ( vrect_t vrect , cmdinfo_t * cmdinfo , int x , int w , int graphtype ) ;
void DrawTextFields ( int graphvalue , int x , int y , int w , netbandwidthgraph_t * graph , cmdinfo_t * cmdinfo ) ;
void GraphGetXY ( vrect_t * rect , int width , int * x , int * y ) ;
void GetCommandInfo ( INetChannelInfo * netchannel , cmdinfo_t * cmdinfo ) ;
void GetFrameData ( INetChannelInfo * netchannel , int * biggest_message , float * avg_message , float * f95thpercentile ) ;
void ColorForHeight ( packet_latency_t * packet , byte * color , int * ping , byte * alpha ) ;
void GetColorValues ( int color , byte * cv , byte * alpha ) ;
void OnFontChanged ( ) ;
private :
void PaintLineArt ( int x , int y , int w , int graphtype , int maxmsgbytes ) ;
void DrawLargePacketSizes ( int x , int w , int graphtype , float warning_threshold ) ;
HFont GetNetgraphFont ( )
{
return net_graphproportionalfont . GetBool ( ) ? m_hFontProportional : m_hFont ;
}
void ComputeNetgraphHeight ( ) ;
void UpdateEstimatedServerFramerate ( INetChannelInfo * netchannel ) ;
CMaterialReference m_WhiteMaterial ;
int m_EstimatedWidth ;
int m_nNetGraphHeight ;
float m_flServerFramerate ;
float m_flServerFramerateStdDeviation ;
} ;
CNetGraphPanel * g_pNetGraphPanel = NULL ;
//-----------------------------------------------------------------------------
// Purpose:
// Input : *parent -
//-----------------------------------------------------------------------------
CNetGraphPanel : : CNetGraphPanel ( VPANEL parent )
: BaseClass ( NULL , " CNetGraphPanel " )
{
int w , h ;
surface ( ) - > GetScreenSize ( w , h ) ;
SetParent ( parent ) ;
SetSize ( w , h ) ;
SetPos ( 0 , 0 ) ;
SetVisible ( false ) ;
SetCursor ( null ) ;
m_hFont = 0 ;
m_hFontProportional = 0 ;
m_hFontSmall = 0 ;
m_EstimatedWidth = 1 ;
m_nNetGraphHeight = 100 ;
SetFgColor ( Color ( 0 , 0 , 0 , 255 ) ) ;
SetPaintBackgroundEnabled ( false ) ;
InitColors ( ) ;
cl_updaterate = cvar - > FindVar ( " cl_updaterate " ) ;
cl_cmdrate = cvar - > FindVar ( " cl_cmdrate " ) ;
assert ( cl_updaterate & & cl_cmdrate ) ;
memset ( sendcolor , 0 , 3 ) ;
memset ( holdcolor , 0 , 3 ) ;
sendcolor [ 0 ] = sendcolor [ 1 ] = 255 ;
memset ( extrap_base_color , 255 , 3 ) ;
memset ( m_PacketLatency , 0 , TIMINGS * sizeof ( packet_latency_t ) ) ;
memset ( m_Cmdinfo , 0 , TIMINGS * sizeof ( cmdinfo_t ) ) ;
memset ( m_Graph , 0 , TIMINGS * sizeof ( netbandwidthgraph_t ) ) ;
m_Framerate = 0.0f ;
m_AvgLatency = 0.0f ;
m_AvgPacketLoss = 0.0f ;
m_AvgPacketChoke = 0.0f ;
m_IncomingSequence = 0 ;
m_OutgoingSequence = 0 ;
m_UpdateWindowSize = 0 ;
m_IncomingData = 0 ;
m_OutgoingData = 0 ;
m_AvgPacketIn = 0.0f ;
m_AvgPacketOut = 0.0f ;
m_flServerFramerate = 0 ;
m_flServerFramerateStdDeviation = 0 ;
netcolors [ COLOR_DROPPED ] . color [ 0 ] = 255 ;
netcolors [ COLOR_DROPPED ] . color [ 1 ] = 0 ;
netcolors [ COLOR_DROPPED ] . color [ 2 ] = 0 ;
netcolors [ COLOR_DROPPED ] . alpha = 255 ;
netcolors [ COLOR_INVALID ] . color [ 0 ] = 0 ;
netcolors [ COLOR_INVALID ] . color [ 1 ] = 0 ;
netcolors [ COLOR_INVALID ] . color [ 2 ] = 255 ;
netcolors [ COLOR_INVALID ] . alpha = 255 ;
netcolors [ COLOR_SKIPPED ] . color [ 0 ] = 240 ;
netcolors [ COLOR_SKIPPED ] . color [ 1 ] = 127 ;
netcolors [ COLOR_SKIPPED ] . color [ 2 ] = 63 ;
netcolors [ COLOR_SKIPPED ] . alpha = 255 ;
netcolors [ COLOR_CHOKED ] . color [ 0 ] = 225 ;
netcolors [ COLOR_CHOKED ] . color [ 1 ] = 225 ;
netcolors [ COLOR_CHOKED ] . color [ 2 ] = 0 ;
netcolors [ COLOR_CHOKED ] . alpha = 255 ;
netcolors [ COLOR_NORMAL ] . color [ 0 ] = 63 ;
netcolors [ COLOR_NORMAL ] . color [ 1 ] = 255 ;
netcolors [ COLOR_NORMAL ] . color [ 2 ] = 63 ;
netcolors [ COLOR_NORMAL ] . alpha = 232 ;
ivgui ( ) - > AddTickSignal ( GetVPanel ( ) , 500 ) ;
m_WhiteMaterial . Init ( " vgui/white " , TEXTURE_GROUP_OTHER ) ;
g_pNetGraphPanel = this ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
CNetGraphPanel : : ~ CNetGraphPanel ( void )
{
g_pNetGraphPanel = NULL ;
}
void NetgraphFontChangeCallback ( IConVar * var , const char * pOldValue , float flOldValue )
{
if ( g_pNetGraphPanel )
{
g_pNetGraphPanel - > OnFontChanged ( ) ;
}
}
void CNetGraphPanel : : OnFontChanged ( )
{
// Estimate the width of our panel.
char str [ 512 ] ;
wchar_t ustr [ 512 ] ;
Q_snprintf ( str , sizeof ( str ) , " fps: 435 ping: 533 ms lerp 112.3 ms 0/0 " ) ;
g_pVGuiLocalize - > ConvertANSIToUnicode ( str , ustr , sizeof ( ustr ) ) ;
int textTall ;
if ( m_hFontProportional = = vgui : : INVALID_FONT )
{
m_EstimatedWidth = textTall = 0 ;
}
else
{
g_pMatSystemSurface - > GetTextSize ( m_hFontProportional , ustr , m_EstimatedWidth , textTall ) ;
}
int w , h ;
surface ( ) - > GetScreenSize ( w , h ) ;
SetSize ( w , h ) ;
SetPos ( 0 , 0 ) ;
ComputeNetgraphHeight ( ) ;
}
void CNetGraphPanel : : ApplySchemeSettings ( IScheme * pScheme )
{
BaseClass : : ApplySchemeSettings ( pScheme ) ;
m_hFont = pScheme - > GetFont ( " DefaultFixedOutline " , false ) ;
m_hFontProportional = pScheme - > GetFont ( " DefaultFixedOutline " , true ) ;
m_hFontSmall = pScheme - > GetFont ( " DefaultVerySmall " , false ) ;
OnFontChanged ( ) ;
}
void CNetGraphPanel : : ComputeNetgraphHeight ( )
{
m_nNetGraphHeight = net_graphheight . GetInt ( ) ;
HFont fnt = GetNetgraphFont ( ) ;
int tall = surface ( ) - > GetFontTall ( fnt ) ;
int lines = 3 ;
if ( net_graph . GetInt ( ) > 3 )
{
lines = 5 ;
}
else if ( net_graph . GetInt ( ) > 2 )
{
lines = 4 ;
}
m_nNetGraphHeight = MAX ( lines * tall , m_nNetGraphHeight ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Copies data from netcolor_t array into fields passed in
// Input : color -
// *cv -
// *alpha -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : GetColorValues ( int color , byte * cv , byte * alpha )
{
int i ;
netcolor_t * pc = & netcolors [ color ] ;
for ( i = 0 ; i < 3 ; i + + )
{
cv [ i ] = pc - > color [ i ] ;
}
* alpha = pc - > alpha ;
}
//-----------------------------------------------------------------------------
// Purpose: Sets appropriate color values
// Input : *packet -
// *color -
// *ping -
// *alpha -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : ColorForHeight ( packet_latency_t * packet , byte * color , int * ping , byte * alpha )
{
int h = packet - > latency ;
* ping = 0 ;
switch ( h )
{
case 9999 :
GetColorValues ( COLOR_DROPPED , color , alpha ) ;
break ;
case 9998 :
GetColorValues ( COLOR_INVALID , color , alpha ) ;
break ;
case 9997 :
GetColorValues ( COLOR_SKIPPED , color , alpha ) ;
break ;
default :
* ping = 1 ;
if ( packet - > choked )
{
GetColorValues ( COLOR_CHOKED , color , alpha ) ;
}
else
{
GetColorValues ( COLOR_NORMAL , color , alpha ) ;
}
break ;
}
}
//-----------------------------------------------------------------------------
// Purpose: Set up blend colors for comman/client-frame/interpolation graph
//-----------------------------------------------------------------------------
void CNetGraphPanel : : InitColors ( void )
{
int i , j ;
byte mincolor [ 2 ] [ 3 ] ;
byte maxcolor [ 2 ] [ 3 ] ;
float dc [ 2 ] [ 3 ] ;
int hfrac ;
float f ;
mincolor [ 0 ] [ 0 ] = 63 ;
mincolor [ 0 ] [ 1 ] = 0 ;
mincolor [ 0 ] [ 2 ] = 100 ;
maxcolor [ 0 ] [ 0 ] = 0 ;
maxcolor [ 0 ] [ 1 ] = 63 ;
maxcolor [ 0 ] [ 2 ] = 255 ;
mincolor [ 1 ] [ 0 ] = 255 ;
mincolor [ 1 ] [ 1 ] = 127 ;
mincolor [ 1 ] [ 2 ] = 0 ;
maxcolor [ 1 ] [ 0 ] = 250 ;
maxcolor [ 1 ] [ 1 ] = 0 ;
maxcolor [ 1 ] [ 2 ] = 0 ;
for ( i = 0 ; i < 3 ; i + + )
{
dc [ 0 ] [ i ] = ( float ) ( maxcolor [ 0 ] [ i ] - mincolor [ 0 ] [ i ] ) ;
dc [ 1 ] [ i ] = ( float ) ( maxcolor [ 1 ] [ i ] - mincolor [ 1 ] [ i ] ) ;
}
hfrac = LERP_HEIGHT / 3 ;
for ( i = 0 ; i < LERP_HEIGHT ; i + + )
{
if ( i < hfrac )
{
f = ( float ) i / ( float ) hfrac ;
for ( j = 0 ; j < 3 ; j + + )
{
colors [ i ] [ j ] = mincolor [ 0 ] [ j ] + f * dc [ 0 ] [ j ] ;
}
}
else
{
f = ( float ) ( i - hfrac ) / ( float ) ( LERP_HEIGHT - hfrac ) ;
for ( j = 0 ; j < 3 ; j + + )
{
colors [ i ] [ j ] = mincolor [ 1 ] [ j ] + f * dc [ 1 ] [ j ] ;
}
}
}
}
//-----------------------------------------------------------------------------
// Purpose: Draw client framerate / usercommand graph
// Input : vrect -
// *cmdinfo -
// x -
// w -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawTimes ( vrect_t vrect , cmdinfo_t * cmdinfo , int x , int w , int graphtype )
{
if ( ! net_graphshowinterp . GetBool ( ) | | graphtype < = 1 )
return ;
int i ;
int j ;
int extrap_point ;
int a , h ;
vrect_t rcFill ;
ResetLineSegments ( ) ;
extrap_point = LERP_HEIGHT / 3 ;
for ( a = 0 ; a < w ; a + + )
{
i = ( m_OutgoingSequence - a ) & ( TIMINGS - 1 ) ;
h = MIN ( ( cmdinfo [ i ] . cmd_lerp / 3.0 ) * LERP_HEIGHT , LERP_HEIGHT ) ;
rcFill . x = x + w - a - 1 ;
rcFill . width = 1 ;
rcFill . height = 1 ;
rcFill . y = vrect . y + vrect . height - 4 ;
if ( h > = extrap_point )
{
int start = 0 ;
h - = extrap_point ;
rcFill . y - = extrap_point ;
if ( ! net_graphsolid . GetInt ( ) )
{
rcFill . y - = ( h - 1 ) ;
start = ( h - 1 ) ;
}
for ( j = start ; j < h ; j + + )
{
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DrawLine ( & rcFill , colors [ j + extrap_point ] , 255 ) ;
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rcFill . y - - ;
}
}
else
{
int oldh ;
oldh = h ;
rcFill . y - = h ;
h = extrap_point - h ;
if ( ! net_graphsolid . GetInt ( ) )
{
h = 1 ;
}
for ( j = 0 ; j < h ; j + + )
{
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DrawLine ( & rcFill , colors [ j + oldh ] , 255 ) ;
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rcFill . y - - ;
}
}
rcFill . y = vrect . y + vrect . height - 4 - extrap_point ;
DrawLine ( & rcFill , extrap_base_color , 255 ) ;
rcFill . y = vrect . y + vrect . height - 3 ;
if ( cmdinfo [ i ] . sent )
{
DrawLine ( & rcFill , sendcolor , 255 ) ;
}
else
{
DrawLine ( & rcFill , holdcolor , 200 ) ;
}
}
DrawLineSegments ( ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Compute frame database for rendering m_NetChannel computes choked, and lost packets, too.
// Also computes latency data and sets max packet size
// Input : *packet_latency -
// *graph -
// *choke_count -
// *loss_count -
// *biggest_message -
// 1 -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : GetFrameData ( INetChannelInfo * netchannel , int * biggest_message , float * avg_message , float * f95thpercentile )
{
float frame_received_time ;
// float frame_latency;
* biggest_message = 0 ;
* avg_message = 0.0f ;
* f95thpercentile = 0.0f ;
int msg_count = 0 ;
m_IncomingSequence = netchannel - > GetSequenceNr ( FLOW_INCOMING ) ;
m_OutgoingSequence = netchannel - > GetSequenceNr ( FLOW_OUTGOING ) ;
m_UpdateWindowSize = netchannel - > GetBufferSize ( ) ;
m_AvgPacketLoss = netchannel - > GetAvgLoss ( FLOW_INCOMING ) ;
m_AvgPacketChoke = netchannel - > GetAvgChoke ( FLOW_INCOMING ) ;
m_AvgLatency = netchannel - > GetAvgLatency ( FLOW_OUTGOING ) ;
m_IncomingData = netchannel - > GetAvgData ( FLOW_INCOMING ) / 1024.0f ;
m_OutgoingData = netchannel - > GetAvgData ( FLOW_OUTGOING ) / 1024.0f ;
m_AvgPacketIn = netchannel - > GetAvgPackets ( FLOW_INCOMING ) ;
m_AvgPacketOut = netchannel - > GetAvgPackets ( FLOW_OUTGOING ) ;
for ( int i = 0 ; i < MAX_FLOWS ; i + + )
netchannel - > GetStreamProgress ( i , & m_StreamRecv [ i ] , & m_StreamTotal [ i ] ) ;
float flAdjust = 0.0f ;
if ( cl_updaterate - > GetFloat ( ) > 0.001f )
{
flAdjust = - 0.5f / cl_updaterate - > GetFloat ( ) ;
m_AvgLatency + = flAdjust ;
}
// Can't be below zero
m_AvgLatency = MAX ( 0.0 , m_AvgLatency ) ;
flAdjust * = 1000.0f ;
// Fill in frame data
for ( int seqnr = m_IncomingSequence - m_UpdateWindowSize + 1
; seqnr < = m_IncomingSequence
; seqnr + + )
{
frame_received_time = netchannel - > GetPacketTime ( FLOW_INCOMING , seqnr ) ;
netbandwidthgraph_t * nbwg = & m_Graph [ seqnr & ( TIMINGS - 1 ) ] ;
packet_latency_t * lat = & m_PacketLatency [ seqnr & ( TIMINGS - 1 ) ] ;
netchannel - > GetPacketResponseLatency ( FLOW_INCOMING , seqnr , & lat - > latency , & lat - > choked ) ;
if ( lat - > latency < 9995 )
{
lat - > latency + = flAdjust ;
lat - > latency = MAX ( lat - > latency , 0 ) ;
}
for ( int i = 0 ; i < = INetChannelInfo : : TOTAL ; i + + )
{
nbwg - > msgbytes [ i ] = netchannel - > GetPacketBytes ( FLOW_INCOMING , seqnr , i ) ;
}
// Assert ( nbwg->msgbytes[INetChannelInfo::TOTAL] > 0 );
if ( nbwg - > msgbytes [ INetChannelInfo : : TOTAL ] > * biggest_message )
{
* biggest_message = nbwg - > msgbytes [ INetChannelInfo : : TOTAL ] ;
}
* avg_message + = ( float ) ( nbwg - > msgbytes [ INetChannelInfo : : TOTAL ] ) ;
msg_count + + ;
}
if ( * biggest_message > 1000 )
{
* biggest_message = 1000 ;
}
if ( msg_count > = 1 )
{
* avg_message / = msg_count ;
int deviationsquared = 0 ;
// Compute std deviation
// Fill in frame data
for ( int seqnr = m_IncomingSequence - m_UpdateWindowSize + 1
; seqnr < = m_IncomingSequence
; seqnr + + )
{
int bytes = m_Graph [ seqnr & ( TIMINGS - 1 ) ] . msgbytes [ INetChannelInfo : : TOTAL ] - ( * avg_message ) ;
deviationsquared + = ( bytes * bytes ) ;
}
float var = ( float ) ( deviationsquared ) / ( float ) ( msg_count - 1 ) ;
float stddev = sqrt ( var ) ;
* f95thpercentile = * avg_message + 2.0f * stddev ;
}
}
//-----------------------------------------------------------------------------
// Purpose: Fills in command interpolation/holdback & message size data
// Input : *cmdinfo -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : GetCommandInfo ( INetChannelInfo * netchannel , cmdinfo_t * cmdinfo )
{
for ( int seqnr = m_OutgoingSequence - m_UpdateWindowSize + 1
; seqnr < = m_OutgoingSequence
; seqnr + + )
{
// Also set up the lerp point.
cmdinfo_t * ci = & cmdinfo [ seqnr & ( TIMINGS - 1 ) ] ;
ci - > cmd_lerp = netchannel - > GetCommandInterpolationAmount ( FLOW_OUTGOING , seqnr ) ;
ci - > sent = netchannel - > IsValidPacket ( FLOW_OUTGOING , seqnr ) ;
ci - > size = netchannel - > GetPacketBytes ( FLOW_OUTGOING , seqnr , INetChannelInfo : : TOTAL ) ;
}
}
//-----------------------------------------------------------------------------
// Purpose: Draws overlay text fields showing framerate, latency, bandwidth breakdowns,
// and, optionally, packet loss and choked packet percentages
// Input : graphvalue -
// x -
// y -
// *graph -
// *cmdinfo -
// count -
// avg -
// *framerate -
// 0.0 -
// avg -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawTextFields ( int graphvalue , int x , int y , int w , netbandwidthgraph_t * graph , cmdinfo_t * cmdinfo )
{
if ( ! net_graphtext . GetBool ( ) )
return ;
static int lastout ;
char sz [ 256 ] ;
int out ;
HFont font = GetNetgraphFont ( ) ;
// Move rolling average
m_Framerate = FRAMERATE_AVG_FRAC * m_Framerate + ( 1.0 - FRAMERATE_AVG_FRAC ) * gpGlobals - > absoluteframetime ;
// Print it out
y - = m_nNetGraphHeight ;
int saveY = y ;
if ( m_Framerate < = 0.0f )
m_Framerate = 1.0f ;
if ( engine - > IsPlayingDemo ( ) )
m_AvgLatency = 0.0f ;
int textTall = surface ( ) - > GetFontTall ( font ) ;
Q_snprintf ( sz , sizeof ( sz ) , " fps:%4i ping: %i ms " , ( int ) ( 1.0f / m_Framerate ) , ( int ) ( m_AvgLatency * 1000.0f ) ) ;
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g_pMatSystemSurface - > DrawColoredText ( font , x , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , sz ) ;
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// Draw update rate
DrawUpdateRate ( x + w , y ) ;
y + = textTall ;
out = cmdinfo [ ( ( m_OutgoingSequence - 1 ) & ( TIMINGS - 1 ) ) ] . size ;
if ( ! out )
{
out = lastout ;
}
else
{
lastout = out ;
}
int totalsize = graph [ ( m_IncomingSequence & ( TIMINGS - 1 ) ) ] . msgbytes [ INetChannelInfo : : TOTAL ] ;
Q_snprintf ( sz , sizeof ( sz ) , " in :%4i %2.2f k/s " , totalsize , m_IncomingData ) ;
int textWidth = g_pMatSystemSurface - > DrawTextLen ( font , " %s " , sz ) ;
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g_pMatSystemSurface - > DrawColoredText ( font , x , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , sz ) ;
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Q_snprintf ( sz , sizeof ( sz ) , " lerp: %5.1f ms " , GetClientInterpAmount ( ) * 1000.0f ) ;
int interpcolor [ 3 ] = { ( int ) GRAPH_RED , ( int ) GRAPH_GREEN , ( int ) GRAPH_BLUE } ;
float flInterp = GetClientInterpAmount ( ) ;
if ( flInterp > 0.001f )
{
// Server framerate is lower than interp can possibly deal with
if ( m_flServerFramerate < ( 1.0f / flInterp ) )
{
interpcolor [ 0 ] = 255 ;
interpcolor [ 1 ] = 255 ;
interpcolor [ 2 ] = 31 ;
}
// flInterp is below recommended setting!!!
else if ( flInterp < ( 2.0f / cl_updaterate - > GetFloat ( ) ) )
{
interpcolor [ 0 ] = 255 ;
interpcolor [ 1 ] = 125 ;
interpcolor [ 2 ] = 31 ;
}
}
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g_pMatSystemSurface - > DrawColoredText ( font , x + textWidth , y , interpcolor [ 0 ] , interpcolor [ 1 ] , interpcolor [ 2 ] , 255 , sz ) ;
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Q_snprintf ( sz , sizeof ( sz ) , " %3.1f/s " , m_AvgPacketIn ) ;
textWidth = g_pMatSystemSurface - > DrawTextLen ( font , " %s " , sz ) ;
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g_pMatSystemSurface - > DrawColoredText ( font , x + w - textWidth - 1 , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , sz ) ;
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y + = textTall ;
Q_snprintf ( sz , sizeof ( sz ) , " out:%4i %2.2f k/s " , out , m_OutgoingData ) ;
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g_pMatSystemSurface - > DrawColoredText ( font , x , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , sz ) ;
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Q_snprintf ( sz , sizeof ( sz ) , " %3.1f/s " , m_AvgPacketOut ) ;
textWidth = g_pMatSystemSurface - > DrawTextLen ( font , " %s " , sz ) ;
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g_pMatSystemSurface - > DrawColoredText ( font , x + w - textWidth - 1 , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , sz ) ;
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y + = textTall ;
DrawCmdRate ( x + w , y ) ;
if ( graphvalue > 2 )
{
Q_snprintf ( sz , sizeof ( sz ) , " loss:%3i choke: %2i " , ( int ) ( m_AvgPacketLoss * 100.0f ) , ( int ) ( m_AvgPacketChoke * 100.0f ) ) ;
textWidth = g_pMatSystemSurface - > DrawTextLen ( font , " %s " , sz ) ;
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g_pMatSystemSurface - > DrawColoredText ( font , x , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , sz ) ;
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y + = textTall ;
if ( graphvalue > 3 )
{
Q_snprintf ( sz , sizeof ( sz ) , " sv : %5.1f var: %4.2f msec " , m_flServerFramerate , m_flServerFramerateStdDeviation * 1000.0f ) ;
int servercolor [ 3 ] = { ( int ) GRAPH_RED , ( int ) GRAPH_GREEN , ( int ) GRAPH_BLUE } ;
if ( m_flServerFramerate < 10.0f )
{
servercolor [ 0 ] = 255 ;
servercolor [ 1 ] = 31 ;
servercolor [ 2 ] = 31 ;
}
else if ( m_flServerFramerate < 20.0f )
{
servercolor [ 0 ] = 255 ;
servercolor [ 1 ] = 255 ;
servercolor [ 2 ] = 0 ;
}
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g_pMatSystemSurface - > DrawColoredText ( font , x , y , servercolor [ 0 ] , servercolor [ 1 ] , servercolor [ 2 ] , 255 , sz ) ;
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y + = textTall ;
}
}
// Draw legend
if ( graphvalue > = 3 )
{
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int textTall = g_pMatSystemSurface - > GetFontTall ( m_hFontSmall ) ;
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y = saveY - textTall - 5 ;
int cw , ch ;
g_pMatSystemSurface - > GetTextSize ( m_hFontSmall , L " otherplayersWWW " , cw , ch ) ;
if ( x - cw < 0 )
{
x + = w + 5 ;
}
else
{
x - = cw ;
}
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 0 , 0 , 255 , 255 , " localplayer " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 0 , 255 , 0 , 255 , " otherplayers " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 255 , 0 , 0 , 255 , " entities " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 255 , 255 , 0 , 255 , " sounds " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 0 , 255 , 255 , 255 , " events " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 128 , 128 , 0 , 255 , " usermessages " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 0 , 128 , 128 , 255 , " entmessages " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 128 , 0 , 0 , 255 , " stringcmds " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 0 , 128 , 0 , 255 , " stringtables " ) ;
y - = textTall ;
g_pMatSystemSurface - > DrawColoredText ( m_hFontSmall , x , y , 0 , 0 , 128 , 255 , " voice " ) ;
y - = textTall ;
}
}
//-----------------------------------------------------------------------------
// Purpose: Determine type of graph to show, or if +graph key is held down, use detailed graph
// Output : int
//-----------------------------------------------------------------------------
int CNetGraphPanel : : GraphValue ( void )
{
int graphtype ;
graphtype = net_graph . GetInt ( ) ;
if ( ! graphtype & & ! ( in_graph . state & 1 ) )
return 0 ;
// With +graph key, use max area
if ( ! graphtype )
{
graphtype = 2 ;
}
return graphtype ;
}
//-----------------------------------------------------------------------------
// Purpose: Figure out x and y position for graph based on net_graphpos
// value.
// Input : *rect -
// width -
// *x -
// *y -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : GraphGetXY ( vrect_t * rect , int width , int * x , int * y )
{
* x = rect - > x + 5 ;
switch ( net_graphpos . GetInt ( ) )
{
case 0 :
break ;
case 1 :
* x = rect - > x + rect - > width - 5 - width ;
break ;
case 2 :
* x = rect - > x + ( rect - > width - 10 - width ) / 2 ;
break ;
default :
* x = rect - > x + clamp ( ( int ) XRES ( net_graphpos . GetInt ( ) ) , 5 , rect - > width - width - 5 ) ;
}
* y = rect - > y + rect - > height - LERP_HEIGHT - 5 ;
}
//-----------------------------------------------------------------------------
// Purpose: drawing stream progess (file download etc) as green bars ( under in/out)
// Input : x -
// y -
// maxmsgbytes -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawStreamProgress ( int x , int y , int width )
{
vrect_t rcLine ;
rcLine . height = 1 ;
rcLine . x = x ;
byte color [ 3 ] ; color [ 0 ] = 0 ; color [ 1 ] = 200 ; color [ 2 ] = 0 ;
if ( m_StreamTotal [ FLOW_INCOMING ] > 0 )
{
rcLine . y = y - m_nNetGraphHeight + 15 + 14 ;
rcLine . width = ( m_StreamRecv [ FLOW_INCOMING ] * width ) / m_StreamTotal [ FLOW_INCOMING ] ;
DrawLine ( & rcLine , color , 255 ) ;
}
if ( m_StreamTotal [ FLOW_OUTGOING ] > 0 )
{
rcLine . y = y - m_nNetGraphHeight + 2 * 15 + 14 ;
rcLine . width = ( m_StreamRecv [ FLOW_OUTGOING ] * width ) / m_StreamTotal [ FLOW_OUTGOING ] ;
DrawLine ( & rcLine , color , 255 ) ;
}
}
//-----------------------------------------------------------------------------
// Purpose: If showing bandwidth data, draw hatches big enough for largest message
// Input : x -
// y -
// maxmsgbytes -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawHatches ( int x , int y , int maxmsgbytes )
{
int starty ;
int ystep ;
vrect_t rcHatch ;
byte colorminor [ 3 ] ;
byte color [ 3 ] ;
ystep = ( int ) ( 10.0 / net_scale . GetFloat ( ) ) ;
ystep = MAX ( ystep , 1 ) ;
rcHatch . y = y ;
rcHatch . height = 1 ;
rcHatch . x = x ;
rcHatch . width = 4 ;
color [ 0 ] = 0 ;
color [ 1 ] = 200 ;
color [ 2 ] = 0 ;
colorminor [ 0 ] = 63 ;
colorminor [ 1 ] = 63 ;
colorminor [ 2 ] = 0 ;
for ( starty = rcHatch . y ; rcHatch . y > 0 & & ( ( starty - rcHatch . y ) * net_scale . GetFloat ( ) < ( maxmsgbytes + 50 ) ) ; rcHatch . y - = ystep )
{
if ( ! ( ( int ) ( ( starty - rcHatch . y ) * net_scale . GetFloat ( ) ) % 50 ) )
{
DrawLine ( & rcHatch , color , 255 ) ;
}
else if ( ystep > 5 )
{
DrawLine ( & rcHatch , colorminor , 200 ) ;
}
}
}
//-----------------------------------------------------------------------------
// Purpose: State how many updates a second are being requested
// Input : x -
// y -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawUpdateRate ( int xright , int y )
{
char sz [ 32 ] ;
Q_snprintf ( sz , sizeof ( sz ) , " %i/s " , cl_updaterate - > GetInt ( ) ) ;
wchar_t unicode [ 32 ] ;
g_pVGuiLocalize - > ConvertANSIToUnicode ( sz , unicode , sizeof ( unicode ) ) ;
// Last one
int textWide , textTall ;
g_pMatSystemSurface - > GetTextSize ( GetNetgraphFont ( ) , unicode , textWide , textTall ) ;
g_pMatSystemSurface - > DrawColoredText ( GetNetgraphFont ( ) , xright - textWide - 1 , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , " %s " , sz ) ;
}
//-----------------------------------------------------------------------------
// Purpose: State how many updates a second are being requested
// Input : x -
// y -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawCmdRate ( int xright , int y )
{
char sz [ 32 ] ;
Q_snprintf ( sz , sizeof ( sz ) , " %i/s " , cl_cmdrate - > GetInt ( ) ) ;
wchar_t unicode [ 32 ] ;
g_pVGuiLocalize - > ConvertANSIToUnicode ( sz , unicode , sizeof ( unicode ) ) ;
// Last one
int textWide , textTall ;
g_pMatSystemSurface - > GetTextSize ( GetNetgraphFont ( ) , unicode , textWide , textTall ) ;
g_pMatSystemSurface - > DrawColoredText ( GetNetgraphFont ( ) , xright - textWide - 1 , y , GRAPH_RED , GRAPH_GREEN , GRAPH_BLUE , 255 , " %s " , sz ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Draws bandwidth breakdown data
// Input : *rcFill -
// bytes -
// r -
// g -
// b -
// alpha -
// Output : int
//-----------------------------------------------------------------------------
int CNetGraphPanel : : DrawDataSegment ( vrect_t * rcFill , int bytes , byte r , byte g , byte b , byte alpha )
{
int h ;
byte color [ 3 ] ;
h = bytes / net_scale . GetFloat ( ) ;
color [ 0 ] = r ;
color [ 1 ] = g ;
color [ 2 ] = b ;
rcFill - > height = h ;
rcFill - > y - = h ;
if ( rcFill - > y < 2 )
return 0 ;
DrawLine ( rcFill , color , alpha ) ;
return 1 ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CNetGraphPanel : : OnTick ( void )
{
bool bVisible = ShouldDraw ( ) ;
if ( IsVisible ( ) ! = bVisible )
{
SetVisible ( bVisible ) ;
}
}
bool CNetGraphPanel : : ShouldDraw ( void )
{
if ( GraphValue ( ) ! = 0 )
return true ;
return false ;
}
void CNetGraphPanel : : DrawLargePacketSizes ( int x , int w , int graphtype , float warning_threshold )
{
vrect_t rcFill = { 0 , 0 , 0 , 0 } ;
int a , i ;
for ( a = 0 ; a < w ; a + + )
{
i = ( m_IncomingSequence - a ) & ( TIMINGS - 1 ) ;
rcFill . x = x + w - a - 1 ;
rcFill . width = 1 ;
rcFill . y = m_Graph [ i ] . sampleY ;
rcFill . height = m_Graph [ i ] . sampleHeight ;
int nTotalBytes = m_Graph [ i ] . msgbytes [ INetChannelInfo : : TOTAL ] ;
if ( warning_threshold ! = 0.0f & &
nTotalBytes > MAX ( 300 , warning_threshold ) )
{
char sz [ 32 ] ;
Q_snprintf ( sz , sizeof ( sz ) , " %i " , nTotalBytes ) ;
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int len = g_pMatSystemSurface - > DrawTextLen ( m_hFont , sz ) ;
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int textx , texty ;
textx = rcFill . x - len / 2 ;
texty = MAX ( 0 , rcFill . y - 11 ) ;
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g_pMatSystemSurface - > DrawColoredText ( m_hFont , textx , texty , 255 , 255 , 255 , 255 , sz ) ;
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}
}
}
//-----------------------------------------------------------------------------
// Purpose: A basic version (doesn't taken into account the "holding after
// screenshot" bit like TF does, but is good enough for hud_freezecamhide.
//-----------------------------------------------------------------------------
static bool IsTakingAFreezecamScreenshot ( )
{
C_BasePlayer * pPlayer = C_BasePlayer : : GetLocalPlayer ( ) ;
bool bInFreezeCam = ( pPlayer & & pPlayer - > GetObserverMode ( ) = = OBS_MODE_FREEZECAM ) ;
return ( bInFreezeCam & & engine - > IsTakingScreenshot ( ) ) ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CNetGraphPanel : : Paint ( )
{
VPROF ( " CNetGraphPanel::Paint " ) ;
// Don't display net_graph if taking freezecam screenshot and hud_freezecamhide is enabled
extern ConVar hud_freezecamhide ;
if ( hud_freezecamhide . GetBool ( ) & & IsTakingAFreezecamScreenshot ( ) )
return ;
int graphtype ;
int x , y ;
int w ;
vrect_t vrect ;
int maxmsgbytes = 0 ;
float avg_message = 0.0f ;
float warning_threshold = 0.0f ;
if ( ( graphtype = GraphValue ( ) ) = = 0 )
return ;
// Since we divide by scale, make sure it's sensible
if ( net_scale . GetFloat ( ) < = 0 )
{
net_scale . SetValue ( 0.1f ) ;
}
int sw , sh ;
surface ( ) - > GetScreenSize ( sw , sh ) ;
// Get screen rectangle
vrect . x = 0 ;
vrect . y = 0 ;
vrect . width = sw ;
vrect . height = sh ;
w = MIN ( ( int ) TIMINGS , m_EstimatedWidth ) ;
if ( vrect . width < w + 10 )
{
w = vrect . width - 10 ;
}
// get current client netchannel INetChannelInfo interface
INetChannelInfo * nci = engine - > GetNetChannelInfo ( ) ;
if ( nci )
{
// update incoming data
GetFrameData ( nci , & maxmsgbytes , & avg_message , & warning_threshold ) ;
// update outgoing data
GetCommandInfo ( nci , m_Cmdinfo ) ;
UpdateEstimatedServerFramerate ( nci ) ;
}
GraphGetXY ( & vrect , w , & x , & y ) ;
if ( graphtype > 1 )
{
PaintLineArt ( x , y , w , graphtype , maxmsgbytes ) ;
DrawLargePacketSizes ( x , w , graphtype , warning_threshold ) ;
}
// Draw client frame timing info
DrawTimes ( vrect , m_Cmdinfo , x , w , graphtype ) ;
DrawTextFields ( graphtype , x , y , w , m_Graph , m_Cmdinfo ) ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CNetGraphPanel : : PaintLineArt ( int x , int y , int w , int graphtype , int maxmsgbytes )
{
VPROF ( " CNetGraphPanel::PaintLineArt " ) ;
ResetLineSegments ( ) ;
int lastvalidh = 0 ;
byte color [ 3 ] ;
int ping ;
byte alpha ;
vrect_t rcFill = { 0 , 0 , 0 , 0 } ;
int pingheight = m_nNetGraphHeight - LERP_HEIGHT - 2 ;
if ( net_graphmsecs . GetInt ( ) < 50 )
{
net_graphmsecs . SetValue ( 50 ) ;
}
bool bShowLatency = net_graphshowlatency . GetBool ( ) & & graphtype > = 2 ;
for ( int a = 0 ; a < w ; a + + )
{
int i = ( m_IncomingSequence - a ) & ( TIMINGS - 1 ) ;
int h = bShowLatency ? m_PacketLatency [ i ] . latency : 0 ;
packet_latency_t * pl = & m_PacketLatency [ i ] ;
ColorForHeight ( pl , color , & ping , & alpha ) ;
// Skipped
if ( ! ping )
{
// Re-use the last latency
h = lastvalidh ;
}
else
{
h = pingheight * ( float ) h / net_graphmsecs . GetFloat ( ) ;
lastvalidh = h ;
}
if ( h > pingheight )
{
h = pingheight ;
}
rcFill . x = x + w - a - 1 ;
rcFill . y = y - h ;
rcFill . width = 1 ;
rcFill . height = h ;
if ( ping )
{
rcFill . height = pl - > choked ? 2 : 1 ;
}
if ( ! ping )
{
DrawLine2 ( & rcFill , color , color , alpha , 31 ) ;
}
else
{
DrawLine ( & rcFill , color , alpha ) ;
}
rcFill . y = y ;
rcFill . height = 1 ;
color [ 0 ] = 0 ;
color [ 1 ] = 255 ;
color [ 2 ] = 0 ;
DrawLine ( & rcFill , color , 160 ) ;
if ( graphtype < 2 )
continue ;
// Draw a separator.
rcFill . y = y - m_nNetGraphHeight - 1 ;
rcFill . height = 1 ;
color [ 0 ] = 255 ;
color [ 1 ] = 255 ;
color [ 2 ] = 255 ;
DrawLine ( & rcFill , color , 255 ) ;
// Move up for begining of data
rcFill . y - = 1 ;
// Packet didn't have any real data...
if ( m_PacketLatency [ i ] . latency > 9995 )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : LOCALPLAYER ] , 0 , 0 , 255 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : OTHERPLAYERS ] , 0 , 255 , 0 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : ENTITIES ] , 255 , 0 , 0 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : SOUNDS ] , 255 , 255 , 0 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : EVENTS ] , 0 , 255 , 255 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : USERMESSAGES ] , 128 , 128 , 0 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : ENTMESSAGES ] , 0 , 128 , 128 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : STRINGCMD ] , 128 , 0 , 0 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : STRINGTABLE ] , 0 , 128 , 0 ) )
continue ;
if ( ! DrawDataSegment ( & rcFill , m_Graph [ i ] . msgbytes [ INetChannelInfo : : VOICE ] , 0 , 0 , 128 ) )
continue ;
// Final data chunk is total size, don't use solid line routine for this
h = m_Graph [ i ] . msgbytes [ INetChannelInfo : : TOTAL ] / net_scale . GetFloat ( ) ;
color [ 0 ] = color [ 1 ] = color [ 2 ] = 240 ;
rcFill . height = 1 ;
rcFill . y = y - m_nNetGraphHeight - 1 - h ;
if ( rcFill . y < 2 )
continue ;
DrawLine ( & rcFill , color , 128 ) ;
// Cache off height
m_Graph [ i ] . sampleY = rcFill . y ;
m_Graph [ i ] . sampleHeight = rcFill . height ;
}
if ( graphtype > = 2 )
{
// Draw hatches for first one:
// on the far right side
DrawHatches ( x , y - m_nNetGraphHeight - 1 , maxmsgbytes ) ;
DrawStreamProgress ( x , y , w ) ;
}
DrawLineSegments ( ) ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CNetGraphPanel : : ResetLineSegments ( )
{
m_Rects . RemoveAll ( ) ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawLineSegments ( )
{
int c = m_Rects . Count ( ) ;
if ( c < = 0 )
return ;
CMatRenderContextPtr pRenderContext ( materials ) ;
IMesh * m_pMesh = pRenderContext - > GetDynamicMesh ( true , NULL , NULL , m_WhiteMaterial ) ;
CMeshBuilder meshBuilder ;
meshBuilder . Begin ( m_pMesh , MATERIAL_LINES , c ) ;
int i ;
for ( i = 0 ; i < c ; i + + )
{
CLineSegment * seg = & m_Rects [ i ] ;
meshBuilder . Color4ubv ( seg - > color ) ;
meshBuilder . TexCoord2f ( 0 , 0.0f , 0.0f ) ;
meshBuilder . Position3f ( seg - > x1 , seg - > y1 , 0 ) ;
meshBuilder . AdvanceVertex ( ) ;
meshBuilder . Color4ubv ( seg - > color2 ) ;
meshBuilder . TexCoord2f ( 0 , 0.0f , 0.0f ) ;
meshBuilder . Position3f ( seg - > x2 , seg - > y2 , 0 ) ;
meshBuilder . AdvanceVertex ( ) ;
}
meshBuilder . End ( ) ;
m_pMesh - > Draw ( ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Draws a colored, filled rectangle
// Input : *rect -
// *color -
// alpha -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawLine ( vrect_t * rect , unsigned char * color , unsigned char alpha )
{
DrawLine2 ( rect , color , color , alpha , alpha ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Draws a colored, filled rectangle
// Input : *rect -
// *color -
// alpha -
//-----------------------------------------------------------------------------
void CNetGraphPanel : : DrawLine2 ( vrect_t * rect , unsigned char * color , unsigned char * color2 , unsigned char alpha , unsigned char alpha2 )
{
VPROF ( " CNetGraphPanel::DrawLine2 " ) ;
int idx = m_Rects . AddToTail ( ) ;
CLineSegment * seg = & m_Rects [ idx ] ;
seg - > color [ 0 ] = color [ 0 ] ;
seg - > color [ 1 ] = color [ 1 ] ;
seg - > color [ 2 ] = color [ 2 ] ;
seg - > color [ 3 ] = alpha ;
seg - > color2 [ 0 ] = color2 [ 0 ] ;
seg - > color2 [ 1 ] = color2 [ 1 ] ;
seg - > color2 [ 2 ] = color2 [ 2 ] ;
seg - > color2 [ 3 ] = alpha2 ;
if ( rect - > width = = 1 )
{
seg - > x1 = rect - > x ;
seg - > y1 = rect - > y ;
seg - > x2 = rect - > x ;
seg - > y2 = rect - > y + rect - > height ;
}
else if ( rect - > height = = 1 )
{
seg - > x1 = rect - > x ;
seg - > y1 = rect - > y ;
seg - > x2 = rect - > x + rect - > width ;
seg - > y2 = rect - > y ;
}
else
{
Assert ( 0 ) ;
m_Rects . Remove ( idx ) ;
}
}
void CNetGraphPanel : : UpdateEstimatedServerFramerate ( INetChannelInfo * netchannel )
{
float flFrameTime ;
netchannel - > GetRemoteFramerate ( & flFrameTime , & m_flServerFramerateStdDeviation ) ;
if ( flFrameTime > FLT_EPSILON )
{
m_flServerFramerate = 1.0f / flFrameTime ;
}
}
class CNetGraphPanelInterface : public INetGraphPanel
{
private :
CNetGraphPanel * netGraphPanel ;
public :
CNetGraphPanelInterface ( void )
{
netGraphPanel = NULL ;
}
void Create ( VPANEL parent )
{
netGraphPanel = new CNetGraphPanel ( parent ) ;
}
void Destroy ( void )
{
if ( netGraphPanel )
{
netGraphPanel - > SetParent ( ( Panel * ) NULL ) ;
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delete netGraphPanel ;
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netGraphPanel = NULL ;
}
}
} ;
static CNetGraphPanelInterface g_NetGraphPanel ;
INetGraphPanel * netgraphpanel = ( INetGraphPanel * ) & g_NetGraphPanel ;