Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=============================================================================//
#include <assert.h>
#include <math.h>
#include <stdio.h>
#include <vgui_controls/AnalogBar.h>
#include <vgui_controls/Controls.h>
#include <vgui/ILocalize.h>
#include <vgui/IScheme.h>
#include <vgui/ISurface.h>
#include <KeyValues.h>
// memdbgon must be the last include file in a .cpp file!!!
#include <tier0/memdbgon.h>
using namespace vgui;
DECLARE_BUILD_FACTORY( AnalogBar );
#define ANALOG_BAR_HOME_SIZE 4
#define ANALOG_BAR_HOME_GAP 2
#define ANALOG_BAR_LESS_TALL ( ANALOG_BAR_HOME_SIZE + ANALOG_BAR_HOME_GAP )
//-----------------------------------------------------------------------------
// Purpose: Constructor
//-----------------------------------------------------------------------------
AnalogBar::AnalogBar(Panel *parent, const char *panelName) : Panel(parent, panelName)
{
_analogValue = 0.0f;
m_pszDialogVar = NULL;
SetSegmentInfo( 2, 6 );
SetBarInset( 0 );
m_iAnalogValueDirection = PROGRESS_EAST;
m_fHomeValue = 2.0f;
m_HomeColor = GetFgColor();
}
//-----------------------------------------------------------------------------
// Purpose: Destructor
//-----------------------------------------------------------------------------
AnalogBar::~AnalogBar()
{
delete [] m_pszDialogVar;
}
//-----------------------------------------------------------------------------
// Purpose: data accessor
//-----------------------------------------------------------------------------
void AnalogBar::SetSegmentInfo( int gap, int width )
{
_segmentGap = gap;
_segmentWide = width;
}
//-----------------------------------------------------------------------------
// Purpose: returns the number of segment blocks drawn
//-----------------------------------------------------------------------------
int AnalogBar::GetDrawnSegmentCount()
{
int wide, tall;
GetSize(wide, tall);
int segmentTotal = wide / (_segmentGap + _segmentWide);
return (int)(segmentTotal * _analogValue);
}
//-----------------------------------------------------------------------------
// Purpose: returns the total number of segment blocks drawn (active and inactive)
//-----------------------------------------------------------------------------
int AnalogBar::GetTotalSegmentCount()
{
int wide, tall;
GetSize(wide, tall);
int segmentTotal = wide / (_segmentGap + _segmentWide);
return segmentTotal;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void AnalogBar::PaintBackground()
{
// Don't draw a background
}
void AnalogBar::PaintSegment( int &x, int &y, int tall, int wide, Color color, bool bHome )
{
switch( m_iAnalogValueDirection )
{
case PROGRESS_EAST:
x += _segmentGap;
if ( bHome )
{
surface()->DrawSetColor( GetHomeColor() );
surface()->DrawFilledRect(x, y, x + _segmentWide, y + ANALOG_BAR_HOME_SIZE );
surface()->DrawFilledRect(x, y + tall - (y * 2) - ANALOG_BAR_HOME_SIZE, x + _segmentWide, y + tall - (y * 2) );
}
surface()->DrawSetColor( color );
surface()->DrawFilledRect(x, y + ANALOG_BAR_LESS_TALL, x + _segmentWide, y + tall - (y * 2) - ANALOG_BAR_LESS_TALL );
x += _segmentWide;
break;
case PROGRESS_WEST:
x -= _segmentGap + _segmentWide;
if ( bHome )
{
surface()->DrawSetColor( GetHomeColor() );
surface()->DrawFilledRect(x, y, x + _segmentWide, y + ANALOG_BAR_HOME_SIZE );
surface()->DrawFilledRect(x, y + tall - (y * 2) - ANALOG_BAR_HOME_SIZE, x + _segmentWide, y + tall - (y * 2) );
}
surface()->DrawSetColor( color );
surface()->DrawFilledRect(x, y + ANALOG_BAR_LESS_TALL, x + _segmentWide, y + tall - (y * 2) - ANALOG_BAR_LESS_TALL );
break;
case PROGRESS_NORTH:
y -= _segmentGap + _segmentWide;
if ( bHome )
{
surface()->DrawSetColor( GetHomeColor() );
surface()->DrawFilledRect(x, y, x + ANALOG_BAR_HOME_SIZE, y + _segmentWide );
surface()->DrawFilledRect(x + wide - (x * 2) - ANALOG_BAR_HOME_SIZE, y, x + wide - (x * 2), y + _segmentWide );
}
surface()->DrawSetColor( color );
surface()->DrawFilledRect(x + ANALOG_BAR_LESS_TALL, y, x + wide - (x * 2) - ANALOG_BAR_LESS_TALL, y + _segmentWide);
break;
case PROGRESS_SOUTH:
y += _segmentGap;
if ( bHome )
{
surface()->DrawSetColor( GetHomeColor() );
surface()->DrawFilledRect(x, y, x + ANALOG_BAR_HOME_SIZE, y + _segmentWide );
surface()->DrawFilledRect(x + wide - (x * 2) - ANALOG_BAR_HOME_SIZE, y, x + wide - (x * 2), y + _segmentWide );
}
surface()->DrawSetColor( color );
surface()->DrawFilledRect(x + ANALOG_BAR_LESS_TALL, y, x + wide - (x * 2) - ANALOG_BAR_LESS_TALL, y + _segmentWide);
y += _segmentWide;
break;
}
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void AnalogBar::Paint()
{
int wide, tall;
GetSize(wide, tall);
// gaps
int segmentTotal = 0, segmentsDrawn = 0;
int x = 0, y = 0;
switch( m_iAnalogValueDirection )
{
case PROGRESS_WEST:
x = wide;
y = m_iBarInset;
segmentTotal = wide / (_segmentGap + _segmentWide);
segmentsDrawn = (int)(segmentTotal * _analogValue + 0.5f);
break;
case PROGRESS_EAST:
x = 0;
y = m_iBarInset;
segmentTotal = wide / (_segmentGap + _segmentWide);
segmentsDrawn = (int)(segmentTotal * _analogValue + 0.5f);
break;
case PROGRESS_NORTH:
x = m_iBarInset;
y = tall;
segmentTotal = tall / (_segmentGap + _segmentWide);
segmentsDrawn = (int)(segmentTotal * _analogValue + 0.5f);
break;
case PROGRESS_SOUTH:
x = m_iBarInset;
y = 0;
segmentTotal = tall / (_segmentGap + _segmentWide);
segmentsDrawn = (int)(segmentTotal * _analogValue + 0.5f);
break;
}
int iHomeIndex = (int)( segmentTotal * m_fHomeValue + 0.5f ) - 1;
if ( iHomeIndex < 0 )
iHomeIndex = 0;
for (int i = 0; i < segmentsDrawn; i++)
PaintSegment( x, y, tall, wide, GetFgColor(), i == iHomeIndex );
for (int i = segmentsDrawn; i < segmentTotal; i++)
PaintSegment( x, y, tall, wide, GetBgColor(), i == iHomeIndex );
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void AnalogBar::SetAnalogValue(float analogValue)
{
if (analogValue != _analogValue)
{
// clamp the analogValue value within the range
if (analogValue < 0.0f)
{
analogValue = 0.0f;
}
else if (analogValue > 1.0f)
{
analogValue = 1.0f;
}
_analogValue = analogValue;
Repaint();
}
}
//-----------------------------------------------------------------------------
// Purpose: data accessor
//-----------------------------------------------------------------------------
float AnalogBar::GetAnalogValue()
{
return _analogValue;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void AnalogBar::ApplySchemeSettings(IScheme *pScheme)
{
Panel::ApplySchemeSettings(pScheme);
SetBgColor( Color( 255 - GetFgColor().r(), 255 - GetFgColor().g(), 255 - GetFgColor().b(), GetFgColor().a() ) );
}
//-----------------------------------------------------------------------------
// Purpose: utility function for calculating a time remaining string
//-----------------------------------------------------------------------------
bool AnalogBar::ConstructTimeRemainingString(wchar_t *output, int outputBufferSizeInBytes, float startTime, float currentTime, float currentAnalogValue, float lastAnalogValueUpdateTime, bool addRemainingSuffix)
{
Assert( outputBufferSizeInBytes >= sizeof(output[0]) );
Assert(lastAnalogValueUpdateTime <= currentTime);
output[0] = 0;
// calculate pre-extrapolation values
float timeElapsed = lastAnalogValueUpdateTime - startTime;
float totalTime = timeElapsed / currentAnalogValue;
// calculate seconds
int secondsRemaining = (int)(totalTime - timeElapsed);
if (lastAnalogValueUpdateTime < currentTime)
{
// old update, extrapolate
float analogValueRate = currentAnalogValue / timeElapsed;
float extrapolatedAnalogValue = analogValueRate * (currentTime - startTime);
float extrapolatedTotalTime = (currentTime - startTime) / extrapolatedAnalogValue;
secondsRemaining = (int)(extrapolatedTotalTime - timeElapsed);
}
// if there's some time, make sure it's at least one second left
if ( secondsRemaining == 0 && ( ( totalTime - timeElapsed ) > 0 ) )
{
secondsRemaining = 1;
}
// calculate minutes
int minutesRemaining = 0;
while (secondsRemaining >= 60)
{
minutesRemaining++;
secondsRemaining -= 60;
}
char minutesBuf[16];
Q_snprintf(minutesBuf, sizeof( minutesBuf ), "%d", minutesRemaining);
char secondsBuf[16];
Q_snprintf(secondsBuf, sizeof( secondsBuf ), "%d", secondsRemaining);
if (minutesRemaining > 0)
{
wchar_t unicodeMinutes[16];
g_pVGuiLocalize->ConvertANSIToUnicode(minutesBuf, unicodeMinutes, sizeof( unicodeMinutes ));
wchar_t unicodeSeconds[16];
g_pVGuiLocalize->ConvertANSIToUnicode(secondsBuf, unicodeSeconds, sizeof( unicodeSeconds ));
const char *unlocalizedString = "#vgui_TimeLeftMinutesSeconds";
if (minutesRemaining == 1 && secondsRemaining == 1)
{
unlocalizedString = "#vgui_TimeLeftMinuteSecond";
}
else if (minutesRemaining == 1)
{
unlocalizedString = "#vgui_TimeLeftMinuteSeconds";
}
else if (secondsRemaining == 1)
{
unlocalizedString = "#vgui_TimeLeftMinutesSecond";
}
char unlocString[64];
Q_strncpy(unlocString, unlocalizedString,sizeof( unlocString ));
if (addRemainingSuffix)
{
Q_strncat(unlocString, "Remaining", sizeof(unlocString ), COPY_ALL_CHARACTERS);
}
g_pVGuiLocalize->ConstructString(output, outputBufferSizeInBytes, g_pVGuiLocalize->Find(unlocString), 2, unicodeMinutes, unicodeSeconds);
}
else if (secondsRemaining > 0)
{
wchar_t unicodeSeconds[16];
g_pVGuiLocalize->ConvertANSIToUnicode(secondsBuf, unicodeSeconds, sizeof( unicodeSeconds ));
const char *unlocalizedString = "#vgui_TimeLeftSeconds";
if (secondsRemaining == 1)
{
unlocalizedString = "#vgui_TimeLeftSecond";
}
char unlocString[64];
Q_strncpy(unlocString, unlocalizedString,sizeof(unlocString));
if (addRemainingSuffix)
{
Q_strncat(unlocString, "Remaining",sizeof(unlocString), COPY_ALL_CHARACTERS);
}
g_pVGuiLocalize->ConstructString(output, outputBufferSizeInBytes, g_pVGuiLocalize->Find(unlocString), 1, unicodeSeconds);
}
else
{
return false;
}
return true;
}
//-----------------------------------------------------------------------------
// Purpose: data accessor
//-----------------------------------------------------------------------------
void AnalogBar::SetBarInset( int pixels )
{
m_iBarInset = pixels;
}
//-----------------------------------------------------------------------------
// Purpose: data accessor
//-----------------------------------------------------------------------------
int AnalogBar::GetBarInset( void )
{
return m_iBarInset;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void AnalogBar::ApplySettings(KeyValues *inResourceData)
{
_analogValue = inResourceData->GetFloat("analogValue", 0.0f);
const char *dialogVar = inResourceData->GetString("variable", "");
if (dialogVar && *dialogVar)
{
m_pszDialogVar = new char[strlen(dialogVar) + 1];
strcpy(m_pszDialogVar, dialogVar);
}
BaseClass::ApplySettings(inResourceData);
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void AnalogBar::GetSettings(KeyValues *outResourceData)
{
BaseClass::GetSettings(outResourceData);
outResourceData->SetFloat("analogValue", _analogValue );
if (m_pszDialogVar)
{
outResourceData->SetString("variable", m_pszDialogVar);
}
}
//-----------------------------------------------------------------------------
// Purpose: Returns a string description of the panel fields for use in the UI
//-----------------------------------------------------------------------------
const char *AnalogBar::GetDescription( void )
{
static char buf[1024];
_snprintf(buf, sizeof(buf), "%s, string analogValue, string variable", BaseClass::GetDescription());
return buf;
}
//-----------------------------------------------------------------------------
// Purpose: updates analogValue bar bases on values
//-----------------------------------------------------------------------------
void AnalogBar::OnDialogVariablesChanged(KeyValues *dialogVariables)
{
if (m_pszDialogVar)
{
int val = dialogVariables->GetInt(m_pszDialogVar, -1);
if (val >= 0.0f)
{
SetAnalogValue(val / 100.0f);
}
}
}
DECLARE_BUILD_FACTORY( ContinuousAnalogBar );
//-----------------------------------------------------------------------------
// Purpose: Constructor
//-----------------------------------------------------------------------------
ContinuousAnalogBar::ContinuousAnalogBar(Panel *parent, const char *panelName) : AnalogBar(parent, panelName)
{
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void ContinuousAnalogBar::Paint()
{
int x = 0, y = 0;
int wide, tall;
GetSize(wide, tall);
surface()->DrawSetColor(GetFgColor());
switch( m_iAnalogValueDirection )
{
case PROGRESS_EAST:
surface()->DrawFilledRect( x, y, x + (int)( wide * _analogValue ), y + tall );
break;
case PROGRESS_WEST:
surface()->DrawFilledRect( x + (int)( wide * ( 1.0f - _analogValue ) ), y, x + wide, y + tall );
break;
case PROGRESS_NORTH:
surface()->DrawFilledRect( x, y + (int)( tall * ( 1.0f - _analogValue ) ), x + wide, y + tall );
break;
case PROGRESS_SOUTH:
surface()->DrawFilledRect( x, y, x + wide, y + (int)( tall * _analogValue ) );
break;
}
}