gzdoom-gles/src/g_shared/a_quake.cpp

#include "templates.h"
#include "doomtype.h"
#include "doomstat.h"
#include "p_local.h"
#include "actor.h"
#include "m_bbox.h"
#include "m_random.h"
#include "s_sound.h"
#include "a_sharedglobal.h"
#include "statnums.h"
#include "farchive.h"
#include "d_player.h"
#include "r_utility.h"

static FRandom pr_quake ("Quake");

IMPLEMENT_POINTY_CLASS (DEarthquake)
 DECLARE_POINTER (m_Spot)
END_POINTERS

//==========================================================================
//
// DEarthquake :: DEarthquake private constructor
//
//==========================================================================

DEarthquake::DEarthquake()
: DThinker(STAT_EARTHQUAKE)
{
}

//==========================================================================
//
// DEarthquake :: DEarthquake public constructor
//
//==========================================================================

DEarthquake::DEarthquake(AActor *center, int intensityX, int intensityY, int intensityZ, int duration,
	int damrad, int tremrad, FSoundID quakesound, int flags,
	double waveSpeedX, double waveSpeedY, double waveSpeedZ, int falloff, int highpoint)
	: DThinker(STAT_EARTHQUAKE)
{
	m_QuakeSFX = quakesound;
	m_Spot = center;
	// Radii are specified in tile units (64 pixels)
	m_DamageRadius = damrad;
	m_TremorRadius = tremrad;
	m_Intensity = DVector3(intensityX, intensityY, intensityZ);
	m_CountdownStart = duration;
	m_Countdown = duration;
	m_Flags = flags;
	m_WaveSpeed = DVector3(waveSpeedX, waveSpeedY, waveSpeedZ);
	m_Falloff = falloff;
	m_Highpoint = highpoint;
	m_MiniCount = highpoint;
}

//==========================================================================
//
// DEarthquake :: Serialize
//
//==========================================================================

void DEarthquake::Serialize (FArchive &arc)
{
	Super::Serialize (arc);
	arc << m_Spot << m_Intensity << m_Countdown
		<< m_TremorRadius << m_DamageRadius
		<< m_QuakeSFX << m_Flags << m_CountdownStart
		<< m_WaveSpeed
		<< m_Falloff << m_Highpoint << m_MiniCount;
}

//==========================================================================
//
// DEarthquake :: Tick
//
// Deals damage to any players near the earthquake and makes sure it's
// making noise.
//
//==========================================================================

void DEarthquake::Tick ()
{
	int i;

	if (m_Spot == NULL)
	{
		Destroy ();
		return;
	}
	
	if (!S_IsActorPlayingSomething (m_Spot, CHAN_BODY, m_QuakeSFX))
	{
		S_Sound (m_Spot, CHAN_BODY | CHAN_LOOP, m_QuakeSFX, 1, ATTN_NORM);
	}

	if (m_DamageRadius > 0)
	{
		for (i = 0; i < MAXPLAYERS; i++)
		{
			if (playeringame[i] && !(players[i].cheats & CF_NOCLIP))
			{
				AActor *victim = players[i].mo;
				double dist;

				dist = m_Spot->Distance2D(victim, true);
				// Check if in damage radius
				if (dist < m_DamageRadius && victim->Z() <= victim->floorz)
				{
					if (pr_quake() < 50)
					{
						P_DamageMobj (victim, NULL, NULL, pr_quake.HitDice (1), NAME_None);
					}
					// Thrust player around
					DAngle an = victim->Angles.Yaw + pr_quake();
					victim->Vel.X += m_Intensity.X * an.Cos() * 0.5;
					victim->Vel.Y += m_Intensity.Y * an.Sin() * 0.5;
				}
			}
		}
	}
	
	if (m_MiniCount > 0)
		m_MiniCount--;
	if (--m_Countdown == 0)
	{
		if (S_IsActorPlayingSomething(m_Spot, CHAN_BODY, m_QuakeSFX))
		{
			S_StopSound(m_Spot, CHAN_BODY);
		}
		Destroy();
	}
}

//==========================================================================
//
// DEarthquake :: GetModWave
//
// QF_WAVE converts intensity into amplitude and unlocks a new property, the 
// wave length. This is, in short, waves per second. Named waveMultiplier 
// because that's as the name implies: adds more waves per second.
//
//==========================================================================

double DEarthquake::GetModWave(double waveMultiplier) const
{
	double time = m_Countdown - r_TicFracF;
	return g_sin(waveMultiplier * time * (M_PI * 2 / TICRATE));
}

//==========================================================================
//
// DEarthquake :: GetModIntensity
//
// Given a base intensity, modify it according to the quake's flags.
//
//==========================================================================

double DEarthquake::GetModIntensity(double intensity) const
{
	assert(m_CountdownStart >= m_Countdown);

	intensity += intensity;		// always doubled

	if (m_Flags & (QF_SCALEDOWN | QF_SCALEUP))
	{
		// Adjustable maximums must use a range between 1 and m_CountdownStart to constrain between no quake and full quake.
		bool check = !!(m_Highpoint > 0 && m_Highpoint < m_CountdownStart);
		int divider = (check) ? m_Highpoint : m_CountdownStart;
		int scalar;
		
		if ((m_Flags & (QF_SCALEDOWN | QF_SCALEUP)) == (QF_SCALEDOWN | QF_SCALEUP))
		{
			if (check)
			{
				if (m_MiniCount > 0)
					scalar = (m_Flags & QF_MAX) ? m_MiniCount : (m_Highpoint - m_MiniCount);
				else
				{
					divider = m_CountdownStart - m_Highpoint;
					scalar = (m_Flags & QF_MAX) ? (divider - m_Countdown) : m_Countdown;
				}
			}
			else
			{
				// Defaults to middle of the road.
				divider = m_CountdownStart;
				scalar = (m_Flags & QF_MAX) ? MAX(m_Countdown, m_CountdownStart - m_Countdown)
					: MIN(m_Countdown, m_CountdownStart - m_Countdown);
			}
			scalar = (scalar > divider) ? divider : scalar;

			if (m_Flags & QF_FULLINTENSITY)
			{
				scalar *= 2;
			}
		}
		else 
		{
			if (m_Flags & QF_SCALEDOWN)
			{
				scalar = m_Countdown;
			}
			else			// QF_SCALEUP
			{ 
				scalar = m_CountdownStart - m_Countdown;
				if (m_Highpoint > 0)
				{
					if ((m_Highpoint - m_MiniCount) < divider)
						scalar = m_Highpoint - m_MiniCount;
					else
						scalar = divider;
				}
			}
			scalar = (scalar > divider) ? divider : scalar;			
		}		
		assert(divider > 0);
		intensity = intensity * scalar / divider;
	}
	return intensity;
}

//==========================================================================
//
// DEarthquake :: GetFalloff
//
// Given the distance of the player from the quake, find the multiplier.
//
//==========================================================================

double DEarthquake::GetFalloff(double dist) const
{
	if ((dist < m_Falloff) || (m_Falloff >= m_TremorRadius) || (m_Falloff <= 0) || (m_TremorRadius - m_Falloff <= 0))
	{ //Player inside the minimum falloff range, or safety check kicked in.
		return 1.;
	}
	else if ((dist > m_Falloff) && (dist < m_TremorRadius))
	{ //Player inside the radius, and outside the min distance for falloff.
		double tremorsize = m_TremorRadius - m_Falloff;
		double tremordist = dist - m_Falloff;
		assert(tremorsize > 0);
		return (1. - tremordist) / tremorsize;
	}
	else 
	{ //Shouldn't happen.
		return 1.;
	}
}

//==========================================================================
//
// DEarthquake::StaticGetQuakeIntensity
//
// Searches for all quakes near the victim and returns their combined
// intensity.
//
// Pre: jiggers was pre-zeroed by the caller.
//
//==========================================================================

int DEarthquake::StaticGetQuakeIntensities(AActor *victim, FQuakeJiggers &jiggers)
{
	if (victim->player != NULL && (victim->player->cheats & CF_NOCLIP))
	{
		return 0;
	}

	TThinkerIterator<DEarthquake> iterator(STAT_EARTHQUAKE);
	DEarthquake *quake;
	int count = 0;

	while ( (quake = iterator.Next()) != NULL)
	{
		if (quake->m_Spot != NULL)
		{
			double dist = quake->m_Spot->Distance2D (victim, true);
			if (dist < quake->m_TremorRadius)
			{
				double falloff = quake->GetFalloff(dist);
				++count;
				double x = quake->GetModIntensity(quake->m_Intensity.X);
				double y = quake->GetModIntensity(quake->m_Intensity.Y);
				double z = quake->GetModIntensity(quake->m_Intensity.Z);
				

				if (!(quake->m_Flags & QF_WAVE))
				{
					jiggers.Falloff = MAX(falloff, jiggers.Falloff);
					if (quake->m_Flags & QF_RELATIVE)
					{
						jiggers.RelIntensity.X = MAX(x, jiggers.RelIntensity.X);
						jiggers.RelIntensity.Y = MAX(y, jiggers.RelIntensity.Y);
						jiggers.RelIntensity.Z = MAX(z, jiggers.RelIntensity.Z);
					}
					else
					{
						jiggers.Intensity.X = MAX(x, jiggers.Intensity.X);
						jiggers.Intensity.Y = MAX(y, jiggers.Intensity.Y);
						jiggers.Intensity.Z = MAX(z, jiggers.Intensity.Z);
					}
				}
				else
				{
					jiggers.WFalloff = MAX(falloff, jiggers.WFalloff);
					double mx = x * quake->GetModWave(quake->m_WaveSpeed.X);
					double my = y * quake->GetModWave(quake->m_WaveSpeed.Y);
					double mz = z * quake->GetModWave(quake->m_WaveSpeed.Z);

					// [RH] This only gives effect to the last sine quake. I would
					// prefer if some way was found to make multiples coexist
					// peacefully, but just summing them together is undesirable
					// because they could cancel each other out depending on their
					// relative phases.
					if (quake->m_Flags & QF_RELATIVE)
					{
						jiggers.RelOffset.X = mx;
						jiggers.RelOffset.Y = my;
						jiggers.RelOffset.Z = mz;
					}
					else
					{
						jiggers.Offset.X = mx;
						jiggers.Offset.Y = my;
						jiggers.Offset.Z = mz;
					}
				}
			}
		}
	}
	return count;
}

//==========================================================================
//
// P_StartQuake
//
//==========================================================================

bool P_StartQuakeXYZ(AActor *activator, int tid, int intensityX, int intensityY, int intensityZ, int duration,
	int damrad, int tremrad, FSoundID quakesfx, int flags,
	double waveSpeedX, double waveSpeedY, double waveSpeedZ, int falloff, int highpoint)
{
	AActor *center;
	bool res = false;

	if (intensityX)		intensityX = clamp(intensityX, 1, 9);
	if (intensityY)		intensityY = clamp(intensityY, 1, 9);
	if (intensityZ)		intensityZ = clamp(intensityZ, 1, 9);

	if (tid == 0)
	{
		if (activator != NULL)
		{
			new DEarthquake(activator, intensityX, intensityY, intensityZ, duration, damrad, tremrad,
				quakesfx, flags, waveSpeedX, waveSpeedY, waveSpeedZ, falloff, highpoint);
			return true;
		}
	}
	else
	{
		FActorIterator iterator (tid);
		while ( (center = iterator.Next ()) )
		{
			res = true;
			new DEarthquake(center, intensityX, intensityY, intensityZ, duration, damrad, tremrad,
				quakesfx, flags, waveSpeedX, waveSpeedY, waveSpeedZ, falloff, highpoint);
		}
	}
	
	return res;
}

bool P_StartQuake(AActor *activator, int tid, int intensity, int duration, int damrad, int tremrad, FSoundID quakesfx)
{	//Maintains original behavior by passing 0 to intensityZ, flags, and everything else after QSFX.
	return P_StartQuakeXYZ(activator, tid, intensity, intensity, 0, duration, damrad, tremrad, quakesfx, 0, 0, 0, 0, 0, 0);
}