//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ // //=============================================================================// #include "cbase.h" #include "c_vguiscreen.h" #include "vgui_controls/Label.h" #include #include "c_plantedc4.h" #include "ienginevgui.h" using namespace vgui; //----------------------------------------------------------------------------- // Control screen //----------------------------------------------------------------------------- class CC4Panel : public CVGuiScreenPanel { DECLARE_CLASS( CC4Panel, CVGuiScreenPanel ); public: CC4Panel( vgui::Panel *parent, const char *panelName ); ~CC4Panel(); virtual bool Init( KeyValues* pKeyValues, VGuiScreenInitData_t* pInitData ); virtual void OnTick(); virtual void ApplySchemeSettings( IScheme *pScheme ); private: vgui::Label *m_pTimeLabel; float m_flNextDigitRandomizeTime; //next time to grab a new digit while scrolling random digits //in un-decoded digits int m_iLastRandomInt; //store the random digit between new rand calls bool m_bInitLabelColor; Color m_cArmed; Color m_cDefused; Color m_cInvisible; }; DECLARE_VGUI_SCREEN_FACTORY( CC4Panel, "c4_panel" ); //----------------------------------------------------------------------------- // Constructor: //----------------------------------------------------------------------------- CC4Panel::CC4Panel( vgui::Panel *parent, const char *panelName ) : BaseClass( parent, "CC4Panel", vgui::scheme()->LoadSchemeFromFileEx( enginevgui->GetPanel( PANEL_CLIENTDLL ), "resource/C4Panel.res", "ClientScheme" ) ) { SetSize( 10, 10 ); // Quiet "parent not sized yet" spew m_pTimeLabel = new vgui::Label( this, "TimerLabel", "" ); m_flNextDigitRandomizeTime = 0; m_iLastRandomInt = 0; m_bInitLabelColor = true; } CC4Panel::~CC4Panel() { } void CC4Panel::ApplySchemeSettings( IScheme *pScheme ) { assert( pScheme ); m_cArmed = pScheme->GetColor( "C4Panel_Armed", GetFgColor() ); m_cDefused = pScheme->GetColor( "C4Panel_Defused", GetFgColor() ); m_cInvisible = Color( 0, 0, 0, 0 ); if( m_bInitLabelColor ) { m_pTimeLabel->SetFgColor( m_cArmed ); m_bInitLabelColor = false; } } //----------------------------------------------------------------------------- // Initialization //----------------------------------------------------------------------------- bool CC4Panel::Init( KeyValues* pKeyValues, VGuiScreenInitData_t* pInitData ) { // Make sure we get ticked... vgui::ivgui()->AddTickSignal( GetVPanel() ); if (!BaseClass::Init(pKeyValues, pInitData)) return false; return true; } //how long to spend decoding each digit float flTransitionTimes[] = { 0.9, 0.8, 0.6, 0.45, 0.25, 0.15, 0.0 }; //the defuse code, taken from the view model animation, v_c4.mdl char cDefuseCode[] = { '7', '3', '5', '5', '6', '0', '8', '\0' }; char cArmedDisplay[] = { '*', '*', '*', '*', '*', '*', '*', '\0' }; //convert an integer into the readable character version of that number #define INT_TO_CHAR(i) ( '0' + (i) ) //----------------------------------------------------------------------------- // Update the display string //----------------------------------------------------------------------------- void CC4Panel::OnTick() { BaseClass::OnTick(); SetVisible( true ); float flProgress = 1.0; if ( g_PlantedC4s.Count() > 0 ) { C_PlantedC4 *pC4 = g_PlantedC4s[0]; if( pC4 ) { flProgress = pC4->GetDefuseProgress(); } else return; } m_pTimeLabel->SetFgColor( m_cArmed ); // If flProgress is less than 0, the bomb has been defused if( flProgress < 0.0 ) { //Flash when the bomb has been defused if( flProgress > -0.2 ) //flash for 2 seconds { int x = (int)( flProgress * 100 ); if( x % 2 == 0 ) m_pTimeLabel->SetFgColor( m_cInvisible ); else m_pTimeLabel->SetFgColor( m_cDefused ); } else m_pTimeLabel->SetFgColor( m_cDefused ); //Show the full, decoded defuse code m_pTimeLabel->SetText( cDefuseCode ); } else if( flProgress < 1.0 ) //defuse in progress { //Initial display char buf[8]; Q_strncpy( buf, cArmedDisplay, MIN( sizeof(buf), sizeof(cArmedDisplay) ) ); int iDigitPos = 0; while( flProgress < flTransitionTimes[iDigitPos] ) { //Fill in the previously decoded digits buf[iDigitPos] = cDefuseCode[iDigitPos]; iDigitPos++; } //Animate the character that we're decoding //Value drawn will be based on how long we've been //decoding this character float flTimeInThisChar = 1.0 - flTransitionTimes[0]; if( iDigitPos > 0 ) flTimeInThisChar = flTransitionTimes[iDigitPos-1] - flTransitionTimes[iDigitPos]; assert( flTimeInThisChar > 0.0 ); float flPercentDecoding = ( flProgress - flTransitionTimes[iDigitPos] ) / flTimeInThisChar; //Determine when to next change the digit that we're decoding if( m_flNextDigitRandomizeTime < gpGlobals->curtime ) { //Get a new random int to draw m_iLastRandomInt = RandomInt( 0, 9 ); if( flPercentDecoding > 0.7 ) m_flNextDigitRandomizeTime = gpGlobals->curtime + 0.05; else if( flPercentDecoding > 0.5 ) m_flNextDigitRandomizeTime = gpGlobals->curtime + 0.1; else if( flPercentDecoding > 0.3 ) m_flNextDigitRandomizeTime = gpGlobals->curtime + 0.15; else m_flNextDigitRandomizeTime = gpGlobals->curtime + 0.3; } //Settle on the real value if we're close if( flPercentDecoding < 0.2 ) buf[iDigitPos] = cDefuseCode[iDigitPos]; else //else use a random digit buf[iDigitPos] = INT_TO_CHAR( m_iLastRandomInt ); m_pTimeLabel->SetFgColor( m_cArmed ); m_pTimeLabel->SetText( buf ); } else { //Not being defused - draw the armed string m_pTimeLabel->SetFgColor( m_cArmed ); m_pTimeLabel->SetText( cArmedDisplay ); } }