/*** * * Copyright (c) 1996-2001, Valve LLC. All rights reserved. * * This product contains software technology licensed from Id * Software, Inc. ("Id Technology"). Id Technology (c) 1996 Id Software, Inc. * All Rights Reserved. * * Use, distribution, and modification of this source code and/or resulting * object code is restricted to non-commercial enhancements to products from * Valve LLC. All other use, distribution, or modification is prohibited * without written permission from Valve LLC. * ****/ // // Geiger.cpp // // implementation of CHudAmmo class // #include "hud.h" #include "cl_util.h" #include #include #include #include "parsemsg.h" DECLARE_MESSAGE(m_Geiger, Geiger ) int CHudGeiger::Init(void) { HOOK_MESSAGE( Geiger ); m_iGeigerRange = 0; m_iFlags = 0; gHUD.AddHudElem(this); srand( (unsigned)time( NULL ) ); return 1; }; int CHudGeiger::VidInit(void) { return 1; }; int CHudGeiger::MsgFunc_Geiger(const char *pszName, int iSize, void *pbuf) { BEGIN_READ( pbuf, iSize ); // update geiger data m_iGeigerRange = READ_BYTE(); m_iGeigerRange = m_iGeigerRange << 2; m_iFlags |= HUD_ACTIVE; return 1; } int CHudGeiger::Draw (float flTime) { int pct; float flvol; int rg[3]; int i; if (m_iGeigerRange < 1000 && m_iGeigerRange > 0) { // peicewise linear is better than continuous formula for this if (m_iGeigerRange > 800) { pct = 0; //Con_Printf ( "range > 800\n"); } else if (m_iGeigerRange > 600) { pct = 2; flvol = 0.4; //Con_Printf ( "range > 600\n"); rg[0] = 1; rg[1] = 1; i = 2; } else if (m_iGeigerRange > 500) { pct = 4; flvol = 0.5; //Con_Printf ( "range > 500\n"); rg[0] = 1; rg[1] = 2; i = 2; } else if (m_iGeigerRange > 400) { pct = 8; flvol = 0.6; //Con_Printf ( "range > 400\n"); rg[0] = 1; rg[1] = 2; rg[2] = 3; i = 3; } else if (m_iGeigerRange > 300) { pct = 8; flvol = 0.7; //Con_Printf ( "range > 300\n"); rg[0] = 2; rg[1] = 3; rg[2] = 4; i = 3; } else if (m_iGeigerRange > 200) { pct = 28; flvol = 0.78; //Con_Printf ( "range > 200\n"); rg[0] = 2; rg[1] = 3; rg[2] = 4; i = 3; } else if (m_iGeigerRange > 150) { pct = 40; flvol = 0.80; //Con_Printf ( "range > 150\n"); rg[0] = 3; rg[1] = 4; rg[2] = 5; i = 3; } else if (m_iGeigerRange > 100) { pct = 60; flvol = 0.85; //Con_Printf ( "range > 100\n"); rg[0] = 3; rg[1] = 4; rg[2] = 5; i = 3; } else if (m_iGeigerRange > 75) { pct = 80; flvol = 0.9; //Con_Printf ( "range > 75\n"); //gflGeigerDelay = cl.time + GEIGERDELAY * 0.75; rg[0] = 4; rg[1] = 5; rg[2] = 6; i = 3; } else if (m_iGeigerRange > 50) { pct = 90; flvol = 0.95; //Con_Printf ( "range > 50\n"); rg[0] = 5; rg[1] = 6; i = 2; } else { pct = 95; flvol = 1.0; //Con_Printf ( "range < 50\n"); rg[0] = 5; rg[1] = 6; i = 2; } flvol = (flvol * ((rand() & 127)) / 255) + 0.25; // UTIL_RandomFloat(0.25, 0.5); if ((rand() & 127) < pct || (rand() & 127) < pct) { //S_StartDynamicSound (-1, 0, rgsfx[rand() % i], r_origin, flvol, 1.0, 0, 100); char sz[256]; int j = rand() & 1; if (i > 2) j += rand() & 1; sprintf(sz, "player/geiger%d.wav", j + 1); PlaySound(sz, flvol); } } return 1; }