Paranoia2_original/dlls/sound.cpp

/***
*
*	Copyright (c) 1996-2002, 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.
*
****/
//=========================================================
// sound.cpp 
//=========================================================

#include <ctype.h>

#include "extdll.h"
#include "util.h"
#include "cbase.h"
#include "weapons.h"
#include "player.h"
#include "talkmonster.h"
#include "gamerules.h"
#include "material.h"

static char *memfgets( byte *pMemFile, int fileSize, int &filePos, char *pBuffer, int bufferSize )
{
	// Bullet-proofing
	if ( !pMemFile || !pBuffer )
		return NULL;

	if ( filePos >= fileSize )
		return NULL;

	int i = filePos;
	int last = fileSize;

	// fgets always NULL terminates, so only read bufferSize-1 characters
	if ( last - filePos > (bufferSize-1) )
		last = filePos + (bufferSize-1);

	int stop = 0;

	// Stop at the next newline (inclusive) or end of buffer
	while ( i < last && !stop )
	{
		if ( pMemFile[i] == '\n' )
			stop = 1;
		i++;
	}


	// If we actually advanced the pointer, copy it over
	if ( i != filePos )
	{
		// We read in size bytes
		int size = i - filePos;
		// copy it out
		memcpy( pBuffer, pMemFile + filePos, sizeof(byte)*size );
		
		// If the buffer isn't full, terminate (this is always true)
		if ( size < bufferSize )
			pBuffer[size] = 0;

		// Update file pointer
		filePos = i;
		return pBuffer;
	}

	// No data read, bail
	return NULL;
}

// ==================== GENERIC AMBIENT SOUND ======================================

// runtime pitch shift and volume fadein/out structure

// NOTE: IF YOU CHANGE THIS STRUCT YOU MUST CHANGE THE SAVE/RESTORE VERSION NUMBER
// SEE BELOW (in the typedescription for the class)
typedef struct dynpitchvol
{
	// NOTE: do not change the order of these parameters 
	// NOTE: unless you also change order of rgdpvpreset array elements!
	int preset;

	int pitchrun;		// pitch shift % when sound is running 0 - 255
	int pitchstart;		// pitch shift % when sound stops or starts 0 - 255
	int spinup;			// spinup time 0 - 100
	int spindown;		// spindown time 0 - 100

	int volrun;			// volume change % when sound is running 0 - 10
	int volstart;		// volume change % when sound stops or starts 0 - 10
	int fadein;			// volume fade in time 0 - 100
	int fadeout;		// volume fade out time 0 - 100

						// Low Frequency Oscillator
	int	lfotype;		// 0) off 1) square 2) triangle 3) random
	int lforate;		// 0 - 1000, how fast lfo osciallates
	
	int lfomodpitch;	// 0-100 mod of current pitch. 0 is off.
	int lfomodvol;		// 0-100 mod of current volume. 0 is off.

	int cspinup;		// each trigger hit increments counter and spinup pitch


	int	cspincount;

	int pitch;			
	int spinupsav;
	int spindownsav;
	int pitchfrac;

	int vol;
	int fadeinsav;
	int fadeoutsav;
	int volfrac;

	int	lfofrac;
	int	lfomult;


} dynpitchvol_t;

#define CDPVPRESETMAX 27

// presets for runtime pitch and vol modulation of ambient sounds

dynpitchvol_t rgdpvpreset[CDPVPRESETMAX] = 
{
// pitch	pstart	spinup	spindwn	volrun	volstrt	fadein	fadeout	lfotype	lforate	modptch modvol	cspnup		
{1,	255,	 75,	95,		95,		10,		1,		50,		95, 	0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0}, 
{2,	255,	 85,	70,		88,		10,		1,		20,		88,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0}, 
{3,	255,	100,	50,		75,		10,		1,		10,		75,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{4,	100,	100,	0,		0,		10,		1,		90,		90,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{5,	100,	100,	0,		0,		10,		1,		80,		80,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{6,	100,	100,	0,		0,		10,		1,		50,		70,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{7,	100,	100,	0,		0,		 5,		1,		40,		50,		1,		50,		0,		10,		0,		0,0,0,0,0,0,0,0,0,0},
{8,	100,	100,	0,		0,		 5,		1,		40,		50,		1,		150,	0,		10,		0,		0,0,0,0,0,0,0,0,0,0},
{9,	100,	100,	0,		0,		 5,		1,		40,		50,		1,		750,	0,		10,		0,		0,0,0,0,0,0,0,0,0,0},
{10,128,	100,	50,		75,		10,		1,		30,		40,		2,		 8,		20,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{11,128,	100,	50,		75,		10,		1,		30,		40,		2,		25,		20,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{12,128,	100,	50,		75,		10,		1,		30,		40,		2,		70,		20,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{13,50,		 50,	0,		0,		10,		1,		20,		50,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{14,70,		 70,	0,		0,		10,		1,		20,		50,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{15,90,		 90,	0,		0,		10,		1,		20,		50,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{16,120,	120,	0,		0,		10,		1,		20,		50,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{17,180,	180,	0,		0,		10,		1,		20,		50,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{18,255,	255,	0,		0,		10,		1,		20,		50,		0,		0,		0,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{19,200,	 75,	90,		90,		10,		1,		50,		90,		2,		100,	20,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{20,255,	 75,	97,		90,		10,		1,		50,		90,		1,		40,		50,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{21,100,	100,	0,		0,		10,		1,		30,		50,		3,		15,		20,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{22,160,	160,	0,		0,		10,		1,		50,		50,		3,		500,	25,		0,		0,		0,0,0,0,0,0,0,0,0,0},
{23,255,	 75,	88,		0,		10,		1,		40,		0,		0,		0,		0,		0,		5,		0,0,0,0,0,0,0,0,0,0}, 
{24,200,	 20,	95,	    70,		10,		1,		70,		70,		3,		20,		50,		0,		0,		0,0,0,0,0,0,0,0,0,0}, 
{25,180,	100,	50,		60,		10,		1,		40,		60,		2,		90,		100,	100,	0,		0,0,0,0,0,0,0,0,0,0}, 
{26,60,		 60,	0,		0,		10,		1,		40,		70,		3,		80,		20,		50,		0,		0,0,0,0,0,0,0,0,0,0}, 
{27,128,	 90,	10,		10,		10,		1,		20,		40,		1,		5,		10,		20,		0,		0,0,0,0,0,0,0,0,0,0}
};

class CAmbientGeneric : public CBaseEntity
{
public:
	void KeyValue( KeyValueData* pkvd);
	void Spawn( void );
//	void PostSpawn( void );
	void Precache( void );
	void EXPORT ToggleUse ( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value );
	void EXPORT StartPlayFrom( void );
	void EXPORT RampThink( void );
	void InitModulationParms(void);

	virtual int		Save( CSave &save );
	virtual int		Restore( CRestore &restore );
	static	TYPEDESCRIPTION m_SaveData[];
	virtual int	ObjectCaps( void ) { return (CBaseEntity :: ObjectCaps() & ~FCAP_ACROSS_TRANSITION); }

	float m_flAttenuation;		// attenuation value
	dynpitchvol_t m_dpv;	

	BOOL	m_fActive;	// only TRUE when the entity is playing a looping sound
	BOOL	m_fLooping;	// TRUE when the sound played will loop
	edict_t *m_pPlayFrom; //LRC - the entity to play from
	int		m_iChannel; //LRC - the channel to play from, for "play from X" sounds
};

LINK_ENTITY_TO_CLASS( ambient_generic, CAmbientGeneric );
TYPEDESCRIPTION	CAmbientGeneric::m_SaveData[] = 
{
	DEFINE_FIELD( CAmbientGeneric, m_flAttenuation, FIELD_FLOAT ),
	DEFINE_FIELD( CAmbientGeneric, m_fActive, FIELD_BOOLEAN ),
	DEFINE_FIELD( CAmbientGeneric, m_fLooping, FIELD_BOOLEAN ),
	DEFINE_FIELD( CAmbientGeneric, m_iChannel, FIELD_INTEGER ), //LRC
	DEFINE_FIELD( CAmbientGeneric, m_pPlayFrom, FIELD_EDICT ), //LRC

	// HACKHACK - This is not really in the spirit of the save/restore design, but save this
	// out as a binary data block.  If the dynpitchvol_t is changed, old saved games will NOT
	// load these correctly, so bump the save/restore version if you change the size of the struct
	// The right way to do this is to split the input parms (read in keyvalue) into members and re-init this
	// struct in Precache(), but it's unlikely that the struct will change, so it's not worth the time right now.
	DEFINE_ARRAY( CAmbientGeneric, m_dpv, FIELD_CHARACTER, sizeof(dynpitchvol_t) ),
};

IMPLEMENT_SAVERESTORE( CAmbientGeneric, CBaseEntity );

//
// ambient_generic - general-purpose user-defined static sound
//
void CAmbientGeneric :: Spawn( void )
{
/*
		-1 : "Default"
		0  : "Everywhere"
		200 : "Small Radius"
		125 : "Medium Radius"
		80  : "Large Radius"
*/

	if ( FBitSet ( pev->spawnflags, AMBIENT_SOUND_EVERYWHERE) )
	{
		m_flAttenuation = ATTN_NONE;
	}
	else if ( FBitSet ( pev->spawnflags, AMBIENT_SOUND_SMALLRADIUS) )
	{
		m_flAttenuation = ATTN_IDLE;
	}
	else if ( FBitSet ( pev->spawnflags, AMBIENT_SOUND_MEDIUMRADIUS) )
	{
		m_flAttenuation = ATTN_STATIC;
	}
	else if ( FBitSet ( pev->spawnflags, AMBIENT_SOUND_LARGERADIUS) )
	{
		m_flAttenuation = ATTN_NORM;
	}
	else 
	{// if the designer didn't set a sound attenuation, default to one.
		m_flAttenuation = ATTN_STATIC;
	}
	
	char* szSoundFile = (char*) STRING(pev->message);

	if ( FStringNull( pev->message ) || strlen( szSoundFile ) < 1 )
	{
		ALERT( at_error, "ambient_generic \"%s\" at (%f, %f, %f) has no sound file\n",
				STRING(pev->targetname), pev->origin.x, pev->origin.y, pev->origin.z );
		SetNextThink( 0.1 );
		SetThink(&CAmbientGeneric :: SUB_Remove );
		return;
	}
    pev->solid		= SOLID_NOT;
    pev->movetype	= MOVETYPE_NONE;

	// Set up think function for dynamic modification 
	// of ambient sound's pitch or volume. Don't
	// start thinking yet.

	SetThink(&CAmbientGeneric ::RampThink);
	DontThink();

	// allow on/off switching via 'use' function.

	SetUse(&CAmbientGeneric :: ToggleUse );
	
	m_fActive = FALSE;

	if ( FBitSet ( pev->spawnflags, AMBIENT_SOUND_NOT_LOOPING ) )
		m_fLooping = FALSE;
	else
		m_fLooping = TRUE;
	Precache( );
}

// this function needs to be called when the game is loaded, not just when the entity spawns.
// Don't make this a PostSpawn function.
void CAmbientGeneric :: Precache( void )
{
	char* szSoundFile = (char*) STRING(pev->message);

	if ( !FStringNull( pev->message ) && strlen( szSoundFile ) > 1 )
	{
		if (*szSoundFile != '!')
			PRECACHE_SOUND(szSoundFile);
	}
	// init all dynamic modulation parms
	InitModulationParms();

	if ( !FBitSet (pev->spawnflags, AMBIENT_SOUND_START_SILENT ) )
	{
		// start the sound ASAP
		if (m_fLooping)
			m_fActive = TRUE;
	}

	if (pev->target)
	{
		CBaseEntity *pTarget = UTIL_FindEntityByTargetname( NULL, STRING(pev->target));
		if (!pTarget)
		{
			ALERT(at_debug, "WARNING: ambient_generic \"%s\" can't find \"%s\", its entity to play from.\n",
					STRING(pev->targetname), STRING(pev->target));
		}
		else
			m_pPlayFrom = ENT(pTarget->pev);
	}

	if ( m_fActive )
	{
		if (m_pPlayFrom || FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER))
		{
			SetThink(&CAmbientGeneric ::StartPlayFrom); //LRC
//			EMIT_SOUND_DYN( m_pPlayFrom, m_iChannel, szSoundFile, //LRC
//					(m_dpv.vol * 0.01), m_flAttenuation, SND_SPAWNING, m_dpv.pitch);

//			ALERT(at_console, "AMBGEN: spawn start\n");
		}
		else
		{
		UTIL_EmitAmbientSound ( ENT(pev), pev->origin, szSoundFile, 
				(m_dpv.vol * 0.01), m_flAttenuation, SND_SPAWNING, m_dpv.pitch);
		}
		SetNextThink( 0.1 );
	}
}

//LRC - for some reason, I can't get other entities to start playing sounds during Activate;
// this function is used to delay the effect until the first Think, which seems to fix the problem.
void CAmbientGeneric :: StartPlayFrom( void )
{
	char* szSoundFile = (char*) STRING(pev->message);

	if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
	{
		CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
		EMIT_SOUND_SUIT( pPlayer->edict(), szSoundFile);
	}
	else
	{
		EMIT_SOUND_DYN( m_pPlayFrom, m_iChannel, szSoundFile, //LRC
			(m_dpv.vol * 0.01), m_flAttenuation, SND_SPAWNING, m_dpv.pitch);
	}

	SetThink(&CAmbientGeneric ::RampThink);
	SetNextThink( 0.1 );
}

// RampThink - Think at 5hz if we are dynamically modifying 
// pitch or volume of the playing sound.  This function will
// ramp pitch and/or volume up or down, modify pitch/volume
// with lfo if active.

void CAmbientGeneric :: RampThink( void )
{
	char* szSoundFile = (char*) STRING(pev->message);
	int pitch = m_dpv.pitch; 
	int vol = m_dpv.vol;
	int flags = 0;
	int fChanged = 0;		// FALSE if pitch and vol remain unchanged this round
	int	prev;

	if (!m_dpv.spinup && !m_dpv.spindown && !m_dpv.fadein && !m_dpv.fadeout && !m_dpv.lfotype)
		return;						// no ramps or lfo, stop thinking

	// ==============
	// pitch envelope
	// ==============
	if (m_dpv.spinup || m_dpv.spindown)
	{
		prev = m_dpv.pitchfrac >> 8;

		if (m_dpv.spinup > 0)
			m_dpv.pitchfrac += m_dpv.spinup;
		else if (m_dpv.spindown > 0)
			m_dpv.pitchfrac -= m_dpv.spindown;

		pitch = m_dpv.pitchfrac >> 8;
		
		if (pitch > m_dpv.pitchrun)
		{
			pitch = m_dpv.pitchrun;
			m_dpv.spinup = 0;				// done with ramp up
		}

		if (pitch < m_dpv.pitchstart)
		{
			pitch = m_dpv.pitchstart;
			m_dpv.spindown = 0;				// done with ramp down

			// shut sound off
			if (m_pPlayFrom)
			{
				STOP_SOUND( m_pPlayFrom, m_iChannel, szSoundFile); //LRC
			}
			else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
			{
				CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
				STOP_SOUND( pPlayer->edict(), CHAN_STATIC, szSoundFile);
			}
			else
			{
				UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
						0, 0, SND_STOP, 0);
			}

			// return without setting nextthink
			return;
		}

		if (pitch > 255) pitch = 255;
		if (pitch < 1) pitch = 1;

		m_dpv.pitch = pitch;

		fChanged |= (prev != pitch);
		flags |= SND_CHANGE_PITCH;
	}

	// ==================
	// amplitude envelope
	// ==================
	if (m_dpv.fadein || m_dpv.fadeout)
	{
		prev = m_dpv.volfrac >> 8;

		if (m_dpv.fadein > 0)
			m_dpv.volfrac += m_dpv.fadein;
		else if (m_dpv.fadeout > 0)
			m_dpv.volfrac -= m_dpv.fadeout;

		vol = m_dpv.volfrac >> 8;

		if (vol > m_dpv.volrun)
		{
			vol = m_dpv.volrun;
			m_dpv.fadein = 0;				// done with ramp up
		}

		if (vol < m_dpv.volstart)
		{
			vol = m_dpv.volstart;
			m_dpv.fadeout = 0;				// done with ramp down
			
			// shut sound off
			if (m_pPlayFrom)
			{
				STOP_SOUND( m_pPlayFrom, m_iChannel, szSoundFile); //LRC
			}
			else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
			{
				CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
				STOP_SOUND( pPlayer->edict(), CHAN_STATIC, szSoundFile);
			}
			else
			{
				UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
						0, 0, SND_STOP, 0);
			}

			// return without setting nextthink
			return;
		}

		if (vol > 100) vol = 100;
		if (vol < 1) vol = 1;

		m_dpv.vol = vol;

		fChanged |= (prev != vol);
		flags |= SND_CHANGE_VOL;
	}

	// ===================
	// pitch/amplitude LFO
	// ===================
	if (m_dpv.lfotype)
	{
		int pos;

		if (m_dpv.lfofrac > 0x6fffffff)
			m_dpv.lfofrac = 0;

		// update lfo, lfofrac/255 makes a triangle wave 0-255
		m_dpv.lfofrac += m_dpv.lforate;
		pos = m_dpv.lfofrac >> 8;

		if (m_dpv.lfofrac < 0)
		{
			m_dpv.lfofrac = 0;
			m_dpv.lforate = abs(m_dpv.lforate);
			pos = 0;
		}
		else if (pos > 255)
		{
			pos = 255;
			m_dpv.lfofrac = (255 << 8);
			m_dpv.lforate = -abs(m_dpv.lforate);
		}

		switch(m_dpv.lfotype)
		{
		case LFO_SQUARE:
			if (pos < 128)
				m_dpv.lfomult = 255;
			else
				m_dpv.lfomult = 0;
			
			break;
		case LFO_RANDOM:
			if (pos == 255)
				m_dpv.lfomult = RANDOM_LONG(0, 255);
			break;
		case LFO_TRIANGLE:
		default: 
			m_dpv.lfomult = pos;
			break;
		}

		if (m_dpv.lfomodpitch)
		{
			prev = pitch;

			// pitch 0-255
			pitch += ((m_dpv.lfomult - 128) * m_dpv.lfomodpitch) / 100;

			if (pitch > 255) pitch = 255;
			if (pitch < 1) pitch = 1;

			
			fChanged |= (prev != pitch);
			flags |= SND_CHANGE_PITCH;
		}

		if (m_dpv.lfomodvol)
		{
			// vol 0-100
			prev = vol;

			vol += ((m_dpv.lfomult - 128) * m_dpv.lfomodvol) / 100;

			if (vol > 100) vol = 100;
			if (vol < 0) vol = 0;
			
			fChanged |= (prev != vol);
			flags |= SND_CHANGE_VOL;
		}

	}

	// Send update to playing sound only if we actually changed
	// pitch or volume in this routine.

	if (flags && fChanged) 
	{
		if (pitch == PITCH_NORM)
			pitch = PITCH_NORM + 1; // don't send 'no pitch' !

		if (m_pPlayFrom)
		{
			EMIT_SOUND_DYN( m_pPlayFrom, m_iChannel, szSoundFile, (vol * 0.01), //LRC
					m_flAttenuation, flags, pitch);
		}
		else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
		{
			CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
			EMIT_SOUND_SUIT( pPlayer->edict(), szSoundFile);
		}
		else
		{
			UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
					(vol * 0.01), m_flAttenuation, flags, pitch);
		}
	}

	// update ramps at 5hz
	SetNextThink( 0.2 );
	return;
}

// Init all ramp params in preparation to 
// play a new sound

void CAmbientGeneric :: InitModulationParms(void)
{
	int pitchinc;

	m_dpv.volrun = pev->health * 10;	// 0 - 100
	if (m_dpv.volrun > 100) m_dpv.volrun = 100;
	if (m_dpv.volrun < 0) m_dpv.volrun = 0;

	// get presets
	if (m_dpv.preset != 0 && m_dpv.preset <= CDPVPRESETMAX)
	{
		// load preset values
		m_dpv = rgdpvpreset[m_dpv.preset - 1];

		// fixup preset values, just like
		// fixups in KeyValue routine.
		if (m_dpv.spindown > 0)
			m_dpv.spindown = (101 - m_dpv.spindown) * 64;
		if (m_dpv.spinup > 0)
			m_dpv.spinup = (101 - m_dpv.spinup) * 64;

		m_dpv.volstart *= 10;
		m_dpv.volrun *= 10;

		if (m_dpv.fadein > 0)
			m_dpv.fadein = (101 - m_dpv.fadein) * 64;
		if (m_dpv.fadeout > 0)
			m_dpv.fadeout = (101 - m_dpv.fadeout) * 64;

		m_dpv.lforate *= 256;

		m_dpv.fadeinsav = m_dpv.fadein;
		m_dpv.fadeoutsav = m_dpv.fadeout;
		m_dpv.spinupsav = m_dpv.spinup;
		m_dpv.spindownsav = m_dpv.spindown;
	}

	m_dpv.fadein = m_dpv.fadeinsav;
	m_dpv.fadeout = 0; 
	
	if (m_dpv.fadein)
		m_dpv.vol = m_dpv.volstart;
	else
		m_dpv.vol = m_dpv.volrun;

	m_dpv.spinup = m_dpv.spinupsav;
	m_dpv.spindown = 0; 

	if (m_dpv.spinup)
		m_dpv.pitch = m_dpv.pitchstart;
	else
		m_dpv.pitch = m_dpv.pitchrun;

	if (m_dpv.pitch == 0)
		m_dpv.pitch = PITCH_NORM;

	m_dpv.pitchfrac = m_dpv.pitch << 8;
	m_dpv.volfrac = m_dpv.vol << 8;

	m_dpv.lfofrac = 0;
	m_dpv.lforate = abs(m_dpv.lforate);

	m_dpv.cspincount = 1;
	
	if (m_dpv.cspinup) 
	{
		pitchinc = (255 - m_dpv.pitchstart) / m_dpv.cspinup;

		m_dpv.pitchrun = m_dpv.pitchstart + pitchinc;
		if (m_dpv.pitchrun > 255) m_dpv.pitchrun = 255;
	}

	if ((m_dpv.spinupsav || m_dpv.spindownsav || (m_dpv.lfotype && m_dpv.lfomodpitch))
		&& (m_dpv.pitch == PITCH_NORM))
		m_dpv.pitch = PITCH_NORM + 1; // must never send 'no pitch' as first pitch
									  // if we intend to pitch shift later!
}

//
// ToggleUse - turns an ambient sound on or off.  If the 
// ambient is a looping sound, mark sound as active (m_fActive)
// if it's playing, innactive if not.  If the sound is not
// a looping sound, never mark it as active.
//
void CAmbientGeneric :: ToggleUse ( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value )
{
	char* szSoundFile = (char*) STRING(pev->message);
	float fraction;

	if ( useType != USE_TOGGLE )
	{
		if ( (m_fActive && useType == USE_ON) || (!m_fActive && useType == USE_OFF) )
			return;
	}
	// Directly change pitch if arg passed. Only works if sound is already playing.

	if (useType == USE_SET && m_fActive)		// Momentary buttons will pass down a float in here
	{

		fraction = value;
		
		if ( fraction > 1.0 )
			fraction = 1.0;
		if (fraction < 0.0)
			fraction = 0.01;

		m_dpv.pitch = fraction * 255;

		if (m_pPlayFrom)
		{
			EMIT_SOUND_DYN( m_pPlayFrom, m_iChannel, szSoundFile, 0, 0, SND_CHANGE_PITCH, m_dpv.pitch);
		}
		else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
		{
			CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
			EMIT_SOUND_SUIT( pPlayer->edict(), szSoundFile);
		}
		else
		{
			UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
						0, 0, SND_CHANGE_PITCH, m_dpv.pitch);
		}

		return;
	}

	// Toggle

	// m_fActive is TRUE only if a looping sound is playing.
	
	if ( m_fActive )
	{// turn sound off

		if (m_dpv.cspinup)
		{
			// Don't actually shut off. Each toggle causes
			// incremental spinup to max pitch

			if (m_dpv.cspincount <= m_dpv.cspinup)
			{	
				int pitchinc;

				// start a new spinup
				m_dpv.cspincount++;
				
				pitchinc = (255 - m_dpv.pitchstart) / m_dpv.cspinup;

				m_dpv.spinup = m_dpv.spinupsav;
				m_dpv.spindown = 0;

				m_dpv.pitchrun = m_dpv.pitchstart + pitchinc * m_dpv.cspincount;
				if (m_dpv.pitchrun > 255) m_dpv.pitchrun = 255;

				SetNextThink( 0.1 );
			}
			
		}
		else
		{
			m_fActive = FALSE;
			
			// HACKHACK - this makes the code in Precache() work properly after a save/restore
			pev->spawnflags |= AMBIENT_SOUND_START_SILENT;

			if (m_dpv.spindownsav || m_dpv.fadeoutsav)
			{
				// spin it down (or fade it) before shutoff if spindown is set
				m_dpv.spindown = m_dpv.spindownsav;
				m_dpv.spinup = 0;

				m_dpv.fadeout = m_dpv.fadeoutsav;
				m_dpv.fadein = 0;
				SetNextThink( 0.1 );
			}
			else if (m_pPlayFrom)
			{
				STOP_SOUND( m_pPlayFrom, m_iChannel, szSoundFile);
			}
			else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
			{
				CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
				STOP_SOUND( pPlayer->edict(), CHAN_STATIC, szSoundFile);
			}
			else
			{
				UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
					0, 0, SND_STOP, 0);
			}
		}
	}
	else 
	{// turn sound on

		// only toggle if this is a looping sound.  If not looping, each
		// trigger will cause the sound to play.  If the sound is still
		// playing from a previous trigger press, it will be shut off
		// and then restarted.

		if (m_fLooping)
		{
			m_fActive = TRUE;
		}
		else if (m_pPlayFrom)
		{
			STOP_SOUND( m_pPlayFrom, m_iChannel, szSoundFile); //LRC
		}
		else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
		{
			CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
			STOP_SOUND( pPlayer->edict(), CHAN_STATIC, szSoundFile);
		}
		else
		{
			// shut sound off now - may be interrupting a long non-looping sound
			UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
				0, 0, SND_STOP, 0);
		}
			
		// init all ramp params for startup

		InitModulationParms();

		if (m_pPlayFrom)
		{
			EMIT_SOUND_DYN( m_pPlayFrom, m_iChannel, szSoundFile, //LRC
					(m_dpv.vol * 0.01), m_flAttenuation, 0, m_dpv.pitch);
		}
		else if (FBitSet(pev->spawnflags, AMBIENT_SOUND_FROM_PLAYER)) // buz
		{
			CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
			EMIT_SOUND_SUIT( pPlayer->edict(), szSoundFile);
		}
		else
		{
			UTIL_EmitAmbientSound(ENT(pev), pev->origin, szSoundFile, 
					(m_dpv.vol * 0.01), m_flAttenuation, 0, m_dpv.pitch);
		}
		
		SetNextThink( 0.1 );
	} 
}
// KeyValue - load keyvalue pairs into member data of the
// ambient generic. NOTE: called BEFORE spawn!

void CAmbientGeneric :: KeyValue( KeyValueData *pkvd )
{
	// NOTE: changing any of the modifiers in this code
	// NOTE: also requires changing InitModulationParms code.

	// channel (e.g. CHAN_STATIC, etc)
	if (FStrEq(pkvd->szKeyName, "channel"))
	{
		m_iChannel = atoi(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}

	// preset
	else if (FStrEq(pkvd->szKeyName, "preset"))
	{
		m_dpv.preset = atoi(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}

	// pitchrun
	else if (FStrEq(pkvd->szKeyName, "pitch"))
	{
		m_dpv.pitchrun = atoi(pkvd->szValue);
		pkvd->fHandled = TRUE;
		
		if (m_dpv.pitchrun > 255) m_dpv.pitchrun = 255;
		if (m_dpv.pitchrun < 0) m_dpv.pitchrun = 0;
	}		

	// pitchstart
	else if (FStrEq(pkvd->szKeyName, "pitchstart"))
	{
		m_dpv.pitchstart = atoi(pkvd->szValue);
		pkvd->fHandled = TRUE;		
		
		if (m_dpv.pitchstart > 255) m_dpv.pitchstart = 255;
		if (m_dpv.pitchstart < 0) m_dpv.pitchstart = 0;
	}

	// spinup
	else if (FStrEq(pkvd->szKeyName, "spinup"))
	{
		m_dpv.spinup = atoi(pkvd->szValue);
		
		if (m_dpv.spinup > 100) m_dpv.spinup = 100;
		if (m_dpv.spinup < 0) m_dpv.spinup = 0;

		if (m_dpv.spinup > 0)
			m_dpv.spinup = (101 - m_dpv.spinup) * 64;
		m_dpv.spinupsav = m_dpv.spinup;
		pkvd->fHandled = TRUE;
	}		

	// spindown
	else if (FStrEq(pkvd->szKeyName, "spindown"))
	{
		m_dpv.spindown = atoi(pkvd->szValue);
		
		if (m_dpv.spindown > 100) m_dpv.spindown = 100;
		if (m_dpv.spindown < 0) m_dpv.spindown = 0;

		if (m_dpv.spindown > 0)
			m_dpv.spindown = (101 - m_dpv.spindown) * 64;
		m_dpv.spindownsav = m_dpv.spindown;
		pkvd->fHandled = TRUE;
	}

	// volstart
	else if (FStrEq(pkvd->szKeyName, "volstart"))
	{
		m_dpv.volstart = atoi(pkvd->szValue);

		if (m_dpv.volstart > 10) m_dpv.volstart = 10;
		if (m_dpv.volstart < 0) m_dpv.volstart = 0;
		
		m_dpv.volstart *= 10;	// 0 - 100

		pkvd->fHandled = TRUE;
	}

	// fadein
	else if (FStrEq(pkvd->szKeyName, "fadein"))
	{
		m_dpv.fadein = atoi(pkvd->szValue);
		
		if (m_dpv.fadein > 100) m_dpv.fadein = 100;
		if (m_dpv.fadein < 0) m_dpv.fadein = 0;

		if (m_dpv.fadein > 0)
			m_dpv.fadein = (101 - m_dpv.fadein) * 64;
		m_dpv.fadeinsav = m_dpv.fadein;
		pkvd->fHandled = TRUE;
	}

	// fadeout
	else if (FStrEq(pkvd->szKeyName, "fadeout"))
	{
		m_dpv.fadeout = atoi(pkvd->szValue);
		
		if (m_dpv.fadeout > 100) m_dpv.fadeout = 100;
		if (m_dpv.fadeout < 0) m_dpv.fadeout = 0;

		if (m_dpv.fadeout > 0)
			m_dpv.fadeout = (101 - m_dpv.fadeout) * 64;
		m_dpv.fadeoutsav = m_dpv.fadeout;
		pkvd->fHandled = TRUE;
	}

	// lfotype
	else if (FStrEq(pkvd->szKeyName, "lfotype"))
	{
		m_dpv.lfotype = atoi(pkvd->szValue);
		if (m_dpv.lfotype > 4) m_dpv.lfotype = LFO_TRIANGLE;
		pkvd->fHandled = TRUE;
	}

	// lforate
	else if (FStrEq(pkvd->szKeyName, "lforate"))
	{
		m_dpv.lforate = atoi(pkvd->szValue);
		
		if (m_dpv.lforate > 1000) m_dpv.lforate = 1000;
		if (m_dpv.lforate < 0) m_dpv.lforate = 0;

		m_dpv.lforate *= 256;

		pkvd->fHandled = TRUE;
	}
	// lfomodpitch
	else if (FStrEq(pkvd->szKeyName, "lfomodpitch"))
	{
		m_dpv.lfomodpitch = atoi(pkvd->szValue);
		if (m_dpv.lfomodpitch > 100) m_dpv.lfomodpitch = 100;
		if (m_dpv.lfomodpitch < 0) m_dpv.lfomodpitch = 0;
		

		pkvd->fHandled = TRUE;
	}

	// lfomodvol
	else if (FStrEq(pkvd->szKeyName, "lfomodvol"))
	{
		m_dpv.lfomodvol = atoi(pkvd->szValue);
		if (m_dpv.lfomodvol > 100) m_dpv.lfomodvol = 100;
		if (m_dpv.lfomodvol < 0) m_dpv.lfomodvol = 0;

		pkvd->fHandled = TRUE;
	}

	// cspinup
	else if (FStrEq(pkvd->szKeyName, "cspinup"))
	{
		m_dpv.cspinup = atoi(pkvd->szValue);
		if (m_dpv.cspinup > 100) m_dpv.cspinup = 100;
		if (m_dpv.cspinup < 0) m_dpv.cspinup = 0;

		pkvd->fHandled = TRUE;
	}
	else
		CBaseEntity::KeyValue( pkvd );
}


// =================== ROOM SOUND FX ==========================================

class CEnvSound : public CPointEntity
{
public:
	void KeyValue( KeyValueData* pkvd);
	void Spawn( void );

	void Think( void );

	virtual int		Save( CSave &save );
	virtual int		Restore( CRestore &restore );
	static	TYPEDESCRIPTION m_SaveData[];

	float m_flRadius;
	float m_flRoomtype;
};

LINK_ENTITY_TO_CLASS( env_sound, CEnvSound );
TYPEDESCRIPTION	CEnvSound::m_SaveData[] = 
{
	DEFINE_FIELD( CEnvSound, m_flRadius, FIELD_FLOAT ),
	DEFINE_FIELD( CEnvSound, m_flRoomtype, FIELD_FLOAT ),
};

IMPLEMENT_SAVERESTORE( CEnvSound, CBaseEntity );


void CEnvSound :: KeyValue( KeyValueData *pkvd )
{
	
	if (FStrEq(pkvd->szKeyName, "radius"))
	{
		m_flRadius = atof(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}
	if (FStrEq(pkvd->szKeyName, "roomtype"))
	{
		m_flRoomtype = atof(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}
}

// returns TRUE if the given sound entity (pev) is in range 
// and can see the given player entity (pevTarget)

BOOL FEnvSoundInRange(entvars_t *pev, entvars_t *pevTarget, float *pflRange) 
{
	CEnvSound *pSound = GetClassPtr( (CEnvSound *)pev );
	Vector vecSpot1 = pev->origin + pev->view_ofs;
	Vector vecSpot2 = pevTarget->origin + pevTarget->view_ofs;
	Vector vecRange;
	float flRange;
	TraceResult tr;

	UTIL_TraceLine(vecSpot1, vecSpot2, ignore_monsters, ENT(pev), &tr);
	
	// check if line of sight crosses water boundary, or is blocked

	if ((tr.fInOpen && tr.fInWater) || tr.flFraction != 1)
		return FALSE;

	// calc range from sound entity to player

	vecRange = tr.vecEndPos - vecSpot1;
	flRange = vecRange.Length();

	if (pSound->m_flRadius < flRange)		
		return FALSE;
	
	if (pflRange)
		*pflRange = flRange;

	return TRUE;
}

//
// A client that is visible and in range of a sound entity will
// have its room_type set by that sound entity.  If two or more
// sound entities are contending for a client, then the nearest
// sound entity to the client will set the client's room_type.
// A client's room_type will remain set to its prior value until
// a new in-range, visible sound entity resets a new room_type.
//

// CONSIDER: if player in water state, autoset roomtype to 14,15 or 16. 

void CEnvSound :: Think( void )
{
	// get pointer to client if visible; FIND_CLIENT_IN_PVS will
	// cycle through visible clients on consecutive calls.

	edict_t *pentPlayer = FIND_CLIENT_IN_PVS(edict());
	CBasePlayer *pPlayer = NULL;

	if (FNullEnt(pentPlayer))
		goto env_sound_Think_slow; // no player in pvs of sound entity, slow it down
 
	pPlayer = GetClassPtr( (CBasePlayer *)VARS(pentPlayer));
	float flRange;

	// check to see if this is the sound entity that is 
	// currently affecting this player

	if(!FNullEnt(pPlayer->m_pentSndLast) && (pPlayer->m_pentSndLast == ENT(pev))) {

		// this is the entity currently affecting player, check
		// for validity

		if (pPlayer->m_flSndRoomtype != 0 && pPlayer->m_flSndRange != 0) {
		
			// we're looking at a valid sound entity affecting
			// player, make sure it's still valid, update range

			if (FEnvSoundInRange(pev, VARS(pentPlayer), &flRange)) {
				pPlayer->m_flSndRange = flRange;
				goto env_sound_Think_fast;
			} else {
				
				// current sound entity affecting player is no longer valid,
				// flag this state by clearing room_type and range.
				// NOTE: we do not actually change the player's room_type
				// NOTE: until we have a new valid room_type to change it to.

				pPlayer->m_flSndRange = 0;
				pPlayer->m_flSndRoomtype = 0;
				goto env_sound_Think_slow;
			}
		} else {
			// entity is affecting player but is out of range,
			// wait passively for another entity to usurp it...
			goto env_sound_Think_slow;
		}
	}

	// if we got this far, we're looking at an entity that is contending
	// for current player sound. the closest entity to player wins.

	if (FEnvSoundInRange(pev, VARS(pentPlayer), &flRange)) 
	{
		if (flRange < pPlayer->m_flSndRange || pPlayer->m_flSndRange == 0) 
		{
			// new entity is closer to player, so it wins.
			pPlayer->m_pentSndLast = ENT(pev);
			pPlayer->m_flSndRoomtype = m_flRoomtype;
			pPlayer->m_flSndRange = flRange;
			
			// send room_type command to player's server.
			// this should be a rare event - once per change of room_type
			// only!

			//CLIENT_COMMAND(pentPlayer, "room_type %f", m_flRoomtype);
			
			MESSAGE_BEGIN( MSG_ONE, SVC_ROOMTYPE, NULL, pentPlayer );		// use the magic #1 for "one client"
				WRITE_SHORT( (short)m_flRoomtype );					// sequence number
			MESSAGE_END();

			// crank up nextthink rate for new active sound entity
			// by falling through to think_fast...
		}
		// player is not closer to the contending sound entity,
		// just fall through to think_fast. this effectively
		// cranks up the think_rate of entities near the player.
	} 

	// player is in pvs of sound entity, but either not visible or
	// not in range. do nothing, fall through to think_fast...

env_sound_Think_fast:
	SetNextThink( 0.25 );
	return;

env_sound_Think_slow:
	SetNextThink( 0.75 );
	return;
}

//
// env_sound - spawn a sound entity that will set player roomtype
// when player moves in range and sight.
//
//
void CEnvSound :: Spawn( )
{
	// spread think times
	SetNextThink( RANDOM_FLOAT(0.0, 0.5) );
}

//=====================
//LRC - trigger_sound
//=====================
class CTriggerSound : public CBaseDelay
{
public:
	void KeyValue( KeyValueData* pkvd);
	void Spawn( void );
	void Touch( CBaseEntity *pOther );

	virtual int		Save( CSave &save );
	virtual int		Restore( CRestore &restore );
	static	TYPEDESCRIPTION m_SaveData[];
	virtual int	ObjectCaps( void ) { return CBaseDelay :: ObjectCaps() & ~FCAP_ACROSS_TRANSITION; }

	float m_flRoomtype;
	string_t m_iszMaster;
};

LINK_ENTITY_TO_CLASS( trigger_sound, CTriggerSound );
TYPEDESCRIPTION	CTriggerSound::m_SaveData[] = 
{
	DEFINE_FIELD( CTriggerSound, m_flRoomtype, FIELD_FLOAT ),
	DEFINE_FIELD( CTriggerSound, m_iszMaster, FIELD_FLOAT ),
};

IMPLEMENT_SAVERESTORE( CTriggerSound, CBaseDelay );

void CTriggerSound :: KeyValue( KeyValueData *pkvd )
{
	if (FStrEq(pkvd->szKeyName, "roomtype"))
	{
		m_flRoomtype = atof(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}
	else if (FStrEq(pkvd->szKeyName, "master"))
	{
		m_iszMaster = ALLOC_STRING(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}
	else
		CBaseEntity::KeyValue( pkvd );
}

void CTriggerSound :: Touch( CBaseEntity *pOther )
{
	if (!UTIL_IsMasterTriggered(m_iszMaster, pOther)) return;

	if (pOther->IsPlayer())
	{
		CBasePlayer *pPlayer = (CBasePlayer*)pOther;
		if (pPlayer->m_pentSndLast != this->edict())
		{
			pPlayer->m_pentSndLast = ENT(pev);
			pPlayer->m_flSndRoomtype = m_flRoomtype;
			pPlayer->m_flSndRange = 0;

			MESSAGE_BEGIN( MSG_ONE, SVC_ROOMTYPE, NULL, pPlayer->edict() );		// use the magic #1 for "one client"
				WRITE_SHORT( (short)m_flRoomtype );					// sequence number
			MESSAGE_END();

			SUB_UseTargets(pPlayer, USE_TOGGLE, 0);
		}
	}
}

void CTriggerSound :: Spawn( )
{
	pev->solid = SOLID_TRIGGER;
	pev->movetype = MOVETYPE_NONE;
	SET_MODEL(ENT(pev), STRING(pev->model));    // set size and link into world
	SetBits( pev->effects, EF_NODRAW );
}

// ==================== SENTENCE GROUPS, UTILITY FUNCTIONS  ======================================

#define CSENTENCE_LRU_MAX	32		// max number of elements per sentence group

// group of related sentences

typedef struct sentenceg
{
	char szgroupname[CBSENTENCENAME_MAX];
	int count;
	unsigned char rgblru[CSENTENCE_LRU_MAX];

} SENTENCEG;

#define CSENTENCEG_MAX		512	// max number of sentence groups
// globals

SENTENCEG rgsentenceg[CSENTENCEG_MAX];
int fSentencesInit = FALSE;

char gszallsentencenames[CVOXFILESENTENCEMAX][CBSENTENCENAME_MAX];
int gcallsentences = 0;

// randomize list of sentence name indices

void USENTENCEG_InitLRU(unsigned char *plru, int count)
{
	int i, j, k;
	unsigned char temp;
	
	if (!fSentencesInit)
		return;

	if (count > CSENTENCE_LRU_MAX)
		count = CSENTENCE_LRU_MAX;

	for (i = 0; i < count; i++)
		plru[i] = (unsigned char) i;

	// randomize array
	for (i = 0; i < (count * 4); i++)
	{
		j = RANDOM_LONG(0,count-1);
		k = RANDOM_LONG(0,count-1);
		temp = plru[j];
		plru[j] = plru[k];
		plru[k] = temp;
	}
}

// ignore lru. pick next sentence from sentence group. Go in order until we hit the last sentence, 
// then repeat list if freset is true.  If freset is false, then repeat last sentence.
// ipick is passed in as the requested sentence ordinal.
// ipick 'next' is returned.  
// return of -1 indicates an error.

int USENTENCEG_PickSequential(int isentenceg, char *szfound, int ipick, int freset)
{
	char *szgroupname;
	unsigned char count;
	char sznum[8];
	
	if (!fSentencesInit)
		return -1;

	if (isentenceg < 0)
		return -1;

	szgroupname = rgsentenceg[isentenceg].szgroupname;
	count = rgsentenceg[isentenceg].count;
	
	if (count == 0)
		return -1;

	if (ipick >= count)
		ipick = count-1;

	strcpy(szfound, "!");
	strcat(szfound, szgroupname);
	sprintf(sznum, "%d", ipick);
	strcat(szfound, sznum);
	
	if (ipick >= count)
	{
		if (freset)
			// reset at end of list
			return 0;
		else
			return count;
	}

	return ipick + 1;
}



// pick a random sentence from rootname0 to rootnameX.
// picks from the rgsentenceg[isentenceg] least
// recently used, modifies lru array. returns the sentencename.
// note, lru must be seeded with 0-n randomized sentence numbers, with the
// rest of the lru filled with -1. The first integer in the lru is
// actually the size of the list.  Returns ipick, the ordinal
// of the picked sentence within the group.

int USENTENCEG_Pick(int isentenceg, char *szfound)
{
	char *szgroupname;
	unsigned char *plru;
	unsigned char i;
	unsigned char count;
	char sznum[8];
	unsigned char ipick;
	int ffound = FALSE;
	
	if (!fSentencesInit)
		return -1;

	if (isentenceg < 0)
		return -1;

	szgroupname = rgsentenceg[isentenceg].szgroupname;
	count = rgsentenceg[isentenceg].count;
	plru = rgsentenceg[isentenceg].rgblru;

	while (!ffound)
	{
		for (i = 0; i < count; i++)
			if (plru[i] != 0xFF)
			{
				ipick = plru[i];
				plru[i] = 0xFF;
				ffound = TRUE;
				break;
			}

		if (!ffound)
			USENTENCEG_InitLRU(plru, count);
		else
		{
			strcpy(szfound, "!");
			strcat(szfound, szgroupname);
			sprintf(sznum, "%d", ipick);
			strcat(szfound, sznum);
			return ipick;
		}
	}
	return -1;
}

// ===================== SENTENCE GROUPS, MAIN ROUTINES ========================

// Given sentence group rootname (name without number suffix),
// get sentence group index (isentenceg). Returns -1 if no such name.

int SENTENCEG_GetIndex(const char *szgroupname)
{
	int i;

	if (!fSentencesInit || !szgroupname)
		return -1;

	// search rgsentenceg for match on szgroupname

	i = 0;
	while (rgsentenceg[i].count)
	{
		if (!strcmp(szgroupname, rgsentenceg[i].szgroupname))
			return i;
	i++;
	}

	return -1;
}

// given sentence group index, play random sentence for given entity.
// returns ipick - which sentence was picked to 
// play from the group. Ipick is only needed if you plan on stopping
// the sound before playback is done (see SENTENCEG_Stop).

int SENTENCEG_PlayRndI(edict_t *entity, int isentenceg, 
					  float volume, float attenuation, int flags, int pitch)
{
	char name[64];
	int ipick;

	if (!fSentencesInit)
		return -1;

	name[0] = 0;

	ipick = USENTENCEG_Pick(isentenceg, name);
	if (ipick > 0 && name)
		EMIT_SOUND_DYN(entity, CHAN_VOICE, name, volume, attenuation, flags, pitch);
	return ipick;
}

// same as above, but takes sentence group name instead of index

int SENTENCEG_PlayRndSz(edict_t *entity, const char *szgroupname, 
					  float volume, float attenuation, int flags, int pitch, int channel)
{
	char name[64];
	int ipick;
	int isentenceg;

	if (!fSentencesInit)
		return -1;

	name[0] = 0;

	isentenceg = SENTENCEG_GetIndex(szgroupname);
	if (isentenceg < 0)
	{
		ALERT( at_debug, "No such sentence group %s\n", szgroupname );
		return -1;
	}

	ipick = USENTENCEG_Pick(isentenceg, name);
	if (ipick >= 0 && name[0])
		EMIT_SOUND_DYN(entity, (channel == -1) ? CHAN_VOICE : channel, name, volume, attenuation, flags, pitch);

	return ipick;
}

// play sentences in sequential order from sentence group.  Reset after last sentence.

int SENTENCEG_PlaySequentialSz(edict_t *entity, const char *szgroupname, 
					  float volume, float attenuation, int flags, int pitch, int ipick, int freset)
{
	char name[64];
	int ipicknext;
	int isentenceg;

	if (!fSentencesInit)
		return -1;

	name[0] = 0;

	isentenceg = SENTENCEG_GetIndex(szgroupname);
	if (isentenceg < 0)
		return -1;

	ipicknext = USENTENCEG_PickSequential(isentenceg, name, ipick, freset);
	if (ipicknext >= 0 && name[0])
		EMIT_SOUND_DYN(entity, CHAN_VOICE, name, volume, attenuation, flags, pitch);
	return ipicknext;
}


// for this entity, for the given sentence within the sentence group, stop
// the sentence.

void SENTENCEG_Stop(edict_t *entity, int isentenceg, int ipick)
{
	char buffer[64];
	char sznum[8];
	
	if (!fSentencesInit)
		return;

	if (isentenceg < 0 || ipick < 0)
		return;
	
	strcpy(buffer, "!");
	strcat(buffer, rgsentenceg[isentenceg].szgroupname);
	sprintf(sznum, "%d", ipick);
	strcat(buffer, sznum);

	STOP_SOUND(entity, CHAN_VOICE, buffer);
}

// open sentences.txt, scan for groups, build rgsentenceg
// Should be called from world spawn, only works on the
// first call and is ignored subsequently.

void SENTENCEG_Init()
{
	char buffer[512];
	char szgroup[64];
	int i, j;
	int isentencegs;

	if (fSentencesInit)
		return;

	memset(gszallsentencenames, 0, CVOXFILESENTENCEMAX * CBSENTENCENAME_MAX);
	gcallsentences = 0;

	memset(rgsentenceg, 0, CSENTENCEG_MAX * sizeof(SENTENCEG));
	memset(buffer, 0, 512);
	memset(szgroup, 0, 64);
	isentencegs = -1;

	
	int filePos = 0, fileSize;
	byte *pMemFile = g_engfuncs.pfnLoadFileForMe( "sound/sentences.txt", &fileSize );
	if ( !pMemFile )
		return;

	// for each line in the file...
	while ( memfgets(pMemFile, fileSize, filePos, buffer, 511) != NULL )
	{
		// skip whitespace
		i = 0;
		while(buffer[i] && buffer[i] == ' ')
			i++;
		
		if (!buffer[i])
			continue;

		if (buffer[i] == '/' || !isalpha(buffer[i]))
			continue;

		// get sentence name
		j = i;
		while (buffer[j] && buffer[j] != ' ')
			j++;

		if (!buffer[j])
			continue;

		if (gcallsentences > CVOXFILESENTENCEMAX)
		{
			ALERT (at_error, "Too many sentences in sentences.txt!\n");
			break;
		}

		// null-terminate name and save in sentences array
		buffer[j] = 0;
		const char *pString = buffer + i;

		if ( strlen( pString ) >= CBSENTENCENAME_MAX )
			ALERT( at_warning, "Sentence %s longer than %d letters\n", pString, CBSENTENCENAME_MAX-1 );

		strcpy( gszallsentencenames[gcallsentences++], pString );

		j--;
		if (j <= i)
			continue;
		if (!isdigit(buffer[j]))
			continue;

		// cut out suffix numbers
		while (j > i && isdigit(buffer[j]))
			j--;

		if (j <= i)
			continue;

		buffer[j+1] = 0;
		
		// if new name doesn't match previous group name, 
		// make a new group.

		if (strcmp(szgroup, &(buffer[i])))
		{
			// name doesn't match with prev name,
			// copy name into group, init count to 1
			isentencegs++;
			if (isentencegs >= CSENTENCEG_MAX)
			{
				ALERT (at_error, "Too many sentence groups in sentences.txt!\n");
				break;
			}

			strcpy(rgsentenceg[isentencegs].szgroupname, &(buffer[i]));
			rgsentenceg[isentencegs].count = 1;

			strcpy(szgroup, &(buffer[i]));

			continue;
		}
		else
		{
			//name matches with previous, increment group count
			if (isentencegs >= 0)
				rgsentenceg[isentencegs].count++;
		}
	}

	g_engfuncs.pfnFreeFile( pMemFile );
	
	fSentencesInit = TRUE;

	// init lru lists

	i = 0;

	while (rgsentenceg[i].count && i < CSENTENCEG_MAX)
	{
		USENTENCEG_InitLRU(&(rgsentenceg[i].rgblru[0]), rgsentenceg[i].count);
		i++;
	}

}

// convert sentence (sample) name to !sentencenum, return !sentencenum

int SENTENCEG_Lookup(const char *sample, char *sentencenum)
{
	char sznum[8];

	int i;
	// this is a sentence name; lookup sentence number
	// and give to engine as string.
	for (i = 0; i < gcallsentences; i++)
		if (!stricmp(gszallsentencenames[i], sample+1))
		{
			if (sentencenum)
			{
				strcpy(sentencenum, "!");
				sprintf(sznum, "%d", i);
				strcat(sentencenum, sznum);
			}
			return i;
		}
	// sentence name not found!
	return -1;
}

void EMIT_SOUND_DYN(edict_t *entity, int channel, const char *sample, float volume, float attenuation,
						   int flags, int pitch)
{
	if (sample && *sample == '!')
	{
		char name[32];
		if (SENTENCEG_Lookup(sample, name) >= 0)
		{
			EMIT_SOUND_DYN2(entity, channel, name, volume, attenuation, flags, pitch);
	//		ALERT(at_console, "play sentence %s, output %s\n", sample, name);
		}
		else
			ALERT( at_aiconsole, "Unable to find %s in sentences.txt\n", sample );

		// buz: send sencences as text messages to lookup subtitles in titles.txt
	//	UTIL_ShowMessageAll( sample );
		UTIL_ShowMessagePVS( sample, entity->v.origin );
	}
	else
	{
		EMIT_SOUND_DYN2(entity, channel, sample, volume, attenuation, flags, pitch);
	//	ALERT(at_console, "play sound %s\n", sample);
	}
}

// play a specific sentence over the HEV suit speaker - just pass player entity, and !sentencename

void EMIT_SOUND_SUIT(edict_t *entity, const char *sample)
{
	float fvol;
	int pitch = PITCH_NORM;

	fvol = CVAR_GET_FLOAT("suitvolume");
	if (RANDOM_LONG(0,1))
		pitch = RANDOM_LONG(0,6) + 98;

	if (fvol > 0.05)
		EMIT_SOUND_DYN(entity, CHAN_STATIC, sample, fvol, ATTN_NORM, 0, pitch);
}

// play a sentence, randomly selected from the passed in group id, over the HEV suit speaker

void EMIT_GROUPID_SUIT(edict_t *entity, int isentenceg)
{
	float fvol;
	int pitch = PITCH_NORM;

	fvol = CVAR_GET_FLOAT("suitvolume");
	if (RANDOM_LONG(0,1))
		pitch = RANDOM_LONG(0,6) + 98;

	if (fvol > 0.05)
		SENTENCEG_PlayRndI(entity, isentenceg, fvol, ATTN_NORM, 0, pitch);
}

// play a sentence, randomly selected from the passed in groupname

void EMIT_GROUPNAME_SUIT(edict_t *entity, const char *groupname)
{
	float fvol;
	int pitch = PITCH_NORM;

	fvol = CVAR_GET_FLOAT("suitvolume");
	if (RANDOM_LONG(0,1))
		pitch = RANDOM_LONG(0,6) + 98;

	if (fvol > 0.05)
		SENTENCEG_PlayRndSz(entity, groupname, fvol, ATTN_NORM, 0, pitch);
}

// ===================== MATERIAL TYPE DETECTION, MAIN ROUTINES ========================
// play a strike sound based on the texture that was hit by the attack traceline.  VecSrc/VecEnd are the
// original traceline endpoints used by the attacker, iBulletType is the type of bullet that hit the texture.
// returns volume of strike instrument (crowbar) to play
// (this is not used for footsteps, only attack sound effects. --LRC)

void TEXTURETYPE_Init( void )
{
	// TODO: parse matspec.txt here, precache sounds etc
}

float TEXTURETYPE_PlaySound( TraceResult *ptr,  Vector vecSrc, Vector vecEnd, int iBulletType )
{
	// hit the world, try to play sound based on texture material type
	int impactType = IMPACT_NONE;
	char *rgsz[MAX_MAT_SOUNDS];
	float fattn = ATTN_NORM;
	matdef_t *pMat = NULL;
	float fvol, fvolbar;
	int cnt;

	if ( !g_pGameRules->PlayTextureSounds() )
		return 0.0f;

	CBaseEntity *pEntity = CBaseEntity :: Instance( ptr->pHit );

	if( !pEntity ) return 0.0f; // noting to hit?

	if( pEntity->Classify() != CLASS_NONE && pEntity->Classify() != CLASS_MACHINE )
	{
		// hit body
		impactType = IMPACT_BODY;
	}
	else if( pEntity->pev->solid == SOLID_BSP || pEntity->pev->movetype == MOVETYPE_PUSHSTEP )
	{
		msurface_t *surf = TRACE_SURFACE( pEntity->edict(), vecSrc, vecEnd );

		if( !surf || !surf->texinfo || !surf->texinfo->texture || !surf->texinfo->texture->material )
			return 0.0f;

		impactType = IMPACT_MATERIAL;

		pMat = surf->texinfo->texture->material->effects; // epic chain!
	}
	else if( pEntity->pev->solid == SOLID_CUSTOM )
	{
		if( !ptr->pMat ) return 0.0f;

		impactType = IMPACT_MATERIAL;

		pMat = ptr->pMat->effects;
	}

	if ( !pMat && !impactType )
		return 0.0f;

	switch ( impactType )
	{
	case IMPACT_BODY:
		if ( iBulletType == BULLET_STAB )
			return 0.0f; // knife already makes this sound
		rgsz[0] = "weapons/bullet_hit1.wav";
		rgsz[1] = "weapons/bullet_hit2.wav";
		fvol = 1.0f; fvolbar = 0.2f;
		fattn = 1.0f;
		cnt = 2;
		break;
	case IMPACT_MATERIAL:
		if( !pMat ) return 0.0f;
		fvol = 1.0f; fvolbar = 0.2f;
		fattn = 1.0f;

		// count sounds
		for( cnt = 0; pMat->impact_sounds[cnt] != NULL; cnt++ )
			rgsz[cnt] = (char *)pMat->impact_sounds[cnt];
		break;
	default:
		return 0.0f;
	}

	// did we hit a breakable?
	if( pEntity && FClassnameIs(pEntity->pev, "func_breakable" ))
	{
		// drop volumes, the object will already play a damaged sound
		fvol /= 1.5f;
		fvolbar /= 2.0f;	
	}

	// play material hit sound
	UTIL_EmitAmbientSound( ENT( 0 ), ptr->vecEndPos, rgsz[RANDOM_LONG( 0, cnt - 1 )], fvol, fattn, 0, 96 + RANDOM_LONG( 0, 0xf ));
			
	return fvolbar;
}

// ===================================================================================
//
// Speaker class. Used for announcements per level, for door lock/unlock spoken voice. 
//

class CSpeaker : public CBaseEntity
{
public:
	void KeyValue( KeyValueData* pkvd);
	void Spawn( void );
	void Precache( void );
	void EXPORT ToggleUse ( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value );
	void EXPORT SpeakerThink( void );
	
	virtual int		Save( CSave &save );
	virtual int		Restore( CRestore &restore );
	static	TYPEDESCRIPTION m_SaveData[];

	virtual int	ObjectCaps( void ) { return (CBaseEntity :: ObjectCaps() & ~FCAP_ACROSS_TRANSITION); }
	
	int	m_preset;			// preset number
};

LINK_ENTITY_TO_CLASS( speaker, CSpeaker );
TYPEDESCRIPTION	CSpeaker::m_SaveData[] = 
{
	DEFINE_FIELD( CSpeaker, m_preset, FIELD_INTEGER ),
};

IMPLEMENT_SAVERESTORE( CSpeaker, CBaseEntity );

//
// ambient_generic - general-purpose user-defined static sound
//
void CSpeaker :: Spawn( void )
{
	char* szSoundFile = (char*) STRING(pev->message);

	if ( !m_preset && (FStringNull( pev->message ) || strlen( szSoundFile ) < 1 ))
	{
		ALERT( at_error, "SPEAKER with no Level/Sentence! at: %f, %f, %f\n", pev->origin.x, pev->origin.y, pev->origin.z );
		SetNextThink( 0.1 );
		SetThink(&CSpeaker :: SUB_Remove );
		return;
	}
    pev->solid		= SOLID_NOT;
    pev->movetype	= MOVETYPE_NONE;

	
	SetThink(&CSpeaker ::SpeakerThink);
	DontThink();

	// allow on/off switching via 'use' function.

	SetUse(&CSpeaker :: ToggleUse );

	Precache( );
}

#define ANNOUNCE_MINUTES_MIN	0.25	 
#define ANNOUNCE_MINUTES_MAX	2.25

void CSpeaker :: Precache( void )
{
	if ( !FBitSet (pev->spawnflags, SPEAKER_START_SILENT ) )
		// set first announcement time for random n second
		SetNextThink( RANDOM_FLOAT(5.0, 15.0) );
}
void CSpeaker :: SpeakerThink( void )
{
	char* szSoundFile;
	float flvolume = pev->health * 0.1;
	float flattenuation = 0.3;
	int flags = 0;
	int pitch = 100;


	// Wait for the talkmonster to finish first.
	if (gpGlobals->time <= CTalkMonster::g_talkWaitTime)
	{
		AbsoluteNextThink( CTalkMonster::g_talkWaitTime + RANDOM_FLOAT( 5, 10 ) );
		return;
	}
	
	if (m_preset)
	{
		// go lookup preset text, assign szSoundFile
		switch (m_preset)
		{
		case 1: szSoundFile =  "C1A0_"; break;
		case 2: szSoundFile =  "C1A1_"; break;
		case 3: szSoundFile =  "C1A2_"; break;
		case 4: szSoundFile =  "C1A3_"; break;
		case 5: szSoundFile =  "C1A4_"; break; 
		case 6: szSoundFile =  "C2A1_"; break;
		case 7: szSoundFile =  "C2A2_"; break;
		case 8: szSoundFile =  "C2A3_"; break;
		case 9: szSoundFile =  "C2A4_"; break;
		case 10: szSoundFile = "C2A5_"; break;
		case 11: szSoundFile = "C3A1_"; break;
		case 12: szSoundFile = "C3A2_"; break;
		}
	} else
		szSoundFile = (char*) STRING(pev->message);
	
	if (szSoundFile[0] == '!')
	{
		// play single sentence, one shot
		UTIL_EmitAmbientSound ( ENT(pev), pev->origin, szSoundFile, 
			flvolume, flattenuation, flags, pitch);

		// shut off and reset
		DontThink();
	}
	else
	{
		// make random announcement from sentence group

		if (SENTENCEG_PlayRndSz(ENT(pev), szSoundFile, flvolume, flattenuation, flags, pitch) < 0)
			ALERT(at_debug, "Level Design Error!\nSPEAKER has bad sentence group name: %s\n",szSoundFile); 

		// set next announcement time for random 5 to 10 minute delay
		SetNextThink( RANDOM_FLOAT(ANNOUNCE_MINUTES_MIN * 60.0, ANNOUNCE_MINUTES_MAX * 60.0) );

		CTalkMonster::g_talkWaitTime = gpGlobals->time + 5;		// time delay until it's ok to speak: used so that two NPCs don't talk at once
	}

	return;
}


//
// ToggleUse - if an announcement is pending, cancel it.  If no announcement is pending, start one.
//
void CSpeaker :: ToggleUse ( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value )
{
	int fActive = (m_fNextThink > 0.0);

	// fActive is TRUE only if an announcement is pending
	
	if ( useType != USE_TOGGLE )
	{
		// ignore if we're just turning something on that's already on, or
		// turning something off that's already off.
		if ( (fActive && useType == USE_ON) || (!fActive && useType == USE_OFF) )
			return;
	}

	if ( useType == USE_ON )
	{
		// turn on announcements
		SetNextThink( 0.1 );
		return;
	}

	if ( useType == USE_OFF )
	{
		// turn off announcements
		DontThink();
		return;
	
	}

	// Toggle announcements

	
	if ( fActive )
	{
		// turn off announcements
		DontThink();
	}
	else 
	{
		// turn on announcements
		SetNextThink( 0.1 );
	} 
}

// KeyValue - load keyvalue pairs into member data
// NOTE: called BEFORE spawn!

void CSpeaker :: KeyValue( KeyValueData *pkvd )
{
	
	// preset
	if (FStrEq(pkvd->szKeyName, "preset"))
	{
		m_preset = atoi(pkvd->szValue);
		pkvd->fHandled = TRUE;
	}
	else
		CBaseEntity::KeyValue( pkvd );
}

// buz
extern int gmsgRadioIcon;

class CRadio : public CPointEntity
{
public:
	void Spawn( void );
	void Precache( void );
	void Use( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value );
};

LINK_ENTITY_TO_CLASS( radio_sentence, CRadio );

void CRadio::Spawn()
{
	Precache();
	pev->solid = SOLID_NOT;
	pev->movetype = MOVETYPE_NONE;
	pev->effects |= EF_NODRAW;
}

void CRadio::Precache()
{
	char* szSoundFile = (char*) STRING(pev->message);

	if ( !FStringNull( pev->message ) && strlen( szSoundFile ) > 1 )
	{
		if (*szSoundFile != '!')
			PRECACHE_SOUND(szSoundFile);
	}
}

void CRadio::Use( CBaseEntity *pActivator, CBaseEntity *pCaller, USE_TYPE useType, float value )
{
	char* szSoundFile = (char*) STRING(pev->message);
	CBaseEntity *pPlayer = CBaseEntity::Instance(g_engfuncs.pfnPEntityOfEntIndex(1));
	if ( !FStringNull( pev->message ) && strlen( szSoundFile ) > 1 )
	{		
		EMIT_SOUND_SUIT( pPlayer->edict(), szSoundFile);
	}

	char* szTitle = (char*) STRING(pev->netname);
	if ( !FStringNull( pev->netname ) && strlen( szTitle ) > 1 )
	{		
		MESSAGE_BEGIN( MSG_ONE, gmsgRadioIcon, NULL, pPlayer->pev );
			WRITE_STRING( szTitle );
			WRITE_COORD( pev->health );
			WRITE_BYTE( pev->rendercolor.x );
			WRITE_BYTE( pev->rendercolor.y );
			WRITE_BYTE( pev->rendercolor.z );
			WRITE_BYTE( pev->renderamt );
		MESSAGE_END();
	}
}