jedioutcast/CODEmp/game/bg_slidemove.c

// Copyright (C) 1999-2000 Id Software, Inc.
//
// bg_slidemove.c -- part of bg_pmove functionality

#include "q_shared.h"
#include "bg_public.h"
#include "bg_local.h"

/*

input: origin, velocity, bounds, groundPlane, trace function

output: origin, velocity, impacts, stairup boolean

*/

/*
==================
PM_SlideMove

Returns qtrue if the velocity was clipped in some way
==================
*/
#define	MAX_CLIP_PLANES	5
qboolean	PM_SlideMove( qboolean gravity ) {
	int			bumpcount, numbumps;
	vec3_t		dir;
	float		d;
	int			numplanes;
	vec3_t		planes[MAX_CLIP_PLANES];
	vec3_t		primal_velocity;
	vec3_t		clipVelocity;
	int			i, j, k;
	trace_t	trace;
	vec3_t		end;
	float		time_left;
	float		into;
	vec3_t		endVelocity;
	vec3_t		endClipVelocity;
	
	numbumps = 4;

	VectorCopy (pm->ps->velocity, primal_velocity);

	if ( gravity ) {
		VectorCopy( pm->ps->velocity, endVelocity );
		endVelocity[2] -= pm->ps->gravity * pml.frametime;
		pm->ps->velocity[2] = ( pm->ps->velocity[2] + endVelocity[2] ) * 0.5;
		primal_velocity[2] = endVelocity[2];
		if ( pml.groundPlane ) {
			// slide along the ground plane
			PM_ClipVelocity (pm->ps->velocity, pml.groundTrace.plane.normal, 
				pm->ps->velocity, OVERCLIP );
		}
	}

	time_left = pml.frametime;

	// never turn against the ground plane
	if ( pml.groundPlane ) {
		numplanes = 1;
		VectorCopy( pml.groundTrace.plane.normal, planes[0] );
	} else {
		numplanes = 0;
	}

	// never turn against original velocity
	VectorNormalize2( pm->ps->velocity, planes[numplanes] );
	numplanes++;

	for ( bumpcount=0 ; bumpcount < numbumps ; bumpcount++ ) {

		// calculate position we are trying to move to
		VectorMA( pm->ps->origin, time_left, pm->ps->velocity, end );

		// see if we can make it there
		pm->trace ( &trace, pm->ps->origin, pm->mins, pm->maxs, end, pm->ps->clientNum, pm->tracemask);

		if (trace.allsolid) {
			// entity is completely trapped in another solid
			pm->ps->velocity[2] = 0;	// don't build up falling damage, but allow sideways acceleration
			return qtrue;
		}

		if (trace.fraction > 0) {
			// actually covered some distance
			VectorCopy (trace.endpos, pm->ps->origin);
		}

		if (trace.fraction == 1) {
			 break;		// moved the entire distance
		}

		// save entity for contact
		PM_AddTouchEnt( trace.entityNum );

		time_left -= time_left * trace.fraction;

		if (numplanes >= MAX_CLIP_PLANES) {
			// this shouldn't really happen
			VectorClear( pm->ps->velocity );
			return qtrue;
		}

		//
		// if this is the same plane we hit before, nudge velocity
		// out along it, which fixes some epsilon issues with
		// non-axial planes
		//
		for ( i = 0 ; i < numplanes ; i++ ) {
			if ( DotProduct( trace.plane.normal, planes[i] ) > 0.99 ) {
				VectorAdd( trace.plane.normal, pm->ps->velocity, pm->ps->velocity );
				break;
			}
		}
		if ( i < numplanes ) {
			continue;
		}
		VectorCopy (trace.plane.normal, planes[numplanes]);
		numplanes++;

		//
		// modify velocity so it parallels all of the clip planes
		//

		// find a plane that it enters
		for ( i = 0 ; i < numplanes ; i++ ) {
			into = DotProduct( pm->ps->velocity, planes[i] );
			if ( into >= 0.1 ) {
				continue;		// move doesn't interact with the plane
			}

			// see how hard we are hitting things
			if ( -into > pml.impactSpeed ) {
				pml.impactSpeed = -into;
			}

			// slide along the plane
			PM_ClipVelocity (pm->ps->velocity, planes[i], clipVelocity, OVERCLIP );

			// slide along the plane
			PM_ClipVelocity (endVelocity, planes[i], endClipVelocity, OVERCLIP );

			// see if there is a second plane that the new move enters
			for ( j = 0 ; j < numplanes ; j++ ) {
				if ( j == i ) {
					continue;
				}
				if ( DotProduct( clipVelocity, planes[j] ) >= 0.1 ) {
					continue;		// move doesn't interact with the plane
				}

				// try clipping the move to the plane
				PM_ClipVelocity( clipVelocity, planes[j], clipVelocity, OVERCLIP );
				PM_ClipVelocity( endClipVelocity, planes[j], endClipVelocity, OVERCLIP );

				// see if it goes back into the first clip plane
				if ( DotProduct( clipVelocity, planes[i] ) >= 0 ) {
					continue;
				}

				// slide the original velocity along the crease
				CrossProduct (planes[i], planes[j], dir);
				VectorNormalize( dir );
				d = DotProduct( dir, pm->ps->velocity );
				VectorScale( dir, d, clipVelocity );

				CrossProduct (planes[i], planes[j], dir);
				VectorNormalize( dir );
				d = DotProduct( dir, endVelocity );
				VectorScale( dir, d, endClipVelocity );

				// see if there is a third plane the the new move enters
				for ( k = 0 ; k < numplanes ; k++ ) {
					if ( k == i || k == j ) {
						continue;
					}
					if ( DotProduct( clipVelocity, planes[k] ) >= 0.1 ) {
						continue;		// move doesn't interact with the plane
					}

					// stop dead at a tripple plane interaction
					VectorClear( pm->ps->velocity );
					return qtrue;
				}
			}

			// if we have fixed all interactions, try another move
			VectorCopy( clipVelocity, pm->ps->velocity );
			VectorCopy( endClipVelocity, endVelocity );
			break;
		}
	}

	if ( gravity ) {
		VectorCopy( endVelocity, pm->ps->velocity );
	}

	// don't change velocity if in a timer (FIXME: is this correct?)
	if ( pm->ps->pm_time ) {
		VectorCopy( primal_velocity, pm->ps->velocity );
	}

	return ( bumpcount != 0 );
}

/*
==================
PM_StepSlideMove

==================
*/
void PM_StepSlideMove( qboolean gravity ) {
	vec3_t		start_o, start_v;
	vec3_t		down_o, down_v;
	trace_t		trace;
//	float		down_dist, up_dist;
//	vec3_t		delta, delta2;
	vec3_t		up, down;
	vec3_t		nvel, prevel;
	float		stepSize;
	float		totalVel;
	float		pre_z;
	int			usingspeed;
	int			i;

	i = 0;

	usingspeed = 0;

	VectorCopy (pm->ps->origin, start_o);
	VectorCopy (pm->ps->velocity, start_v);

	if ( PM_SlideMove( gravity ) == 0 ) {
		return;		// we got exactly where we wanted to go first try	
	}

	if (pm->ps->fd.forcePowersActive & (1 << FP_SPEED))
	{
		usingspeed = 1;
	}

	VectorCopy(start_o, down);
	down[2] -= STEPSIZE;
	pm->trace (&trace, start_o, pm->mins, pm->maxs, down, pm->ps->clientNum, pm->tracemask);
	VectorSet(up, 0, 0, 1);
	// never step up when you still have up velocity
	if ( pm->ps->velocity[2] > 0 && (trace.fraction == 1.0 ||
										DotProduct(trace.plane.normal, up) < 0.7)) {

		if (!usingspeed)
		{
			return;
		}
	}

	VectorCopy (pm->ps->origin, down_o);
	VectorCopy (pm->ps->velocity, down_v);

	VectorCopy (start_o, up);
	up[2] += STEPSIZE;

	// test the player position if they were a stepheight higher
	pm->trace (&trace, start_o, pm->mins, pm->maxs, up, pm->ps->clientNum, pm->tracemask);
	if ( trace.allsolid ) {
		if ( pm->debugLevel ) {
			Com_Printf("%i:bend can't step\n", c_pmove);
		}
		if (!usingspeed)
		{
			return;		// can't step up
		}
	}

	stepSize = trace.endpos[2] - start_o[2];
	// try slidemove from this position
	VectorCopy (trace.endpos, pm->ps->origin);
	VectorCopy (start_v, pm->ps->velocity);

	VectorCopy(pm->ps->velocity, prevel);

	pre_z = prevel[2];

	PM_SlideMove( gravity );

	VectorSubtract(pm->ps->velocity, prevel, prevel);
	if (prevel[0] < 0)
	{
		prevel[0] = -prevel[0];
	}
	if (prevel[1] < 0)
	{
		prevel[1] = -prevel[1];
	}

	totalVel = prevel[0]+prevel[1];

	if (pre_z > 480 && (pre_z - pm->ps->velocity[2]) >= 480 && pm->ps->fd.forceJumpZStart)
	{ //smashed head on the ceiling during a force jump
		pm->ps->fd.forceSpeedDoDamage = (pre_z - pm->ps->velocity[2])*0.04;
		if (pm->numtouch)
		{ //do damage to the other player if we hit one
			while (i < pm->numtouch)
			{
				if (pm->touchents[i] < MAX_CLIENTS && pm->touchents[i] != pm->ps->clientNum)
				{
					pm->ps->fd.forceSpeedHitIndex = pm->touchents[i];
					break;
				}

				i++;
			}
		}

		i = 0;
	}

	if (usingspeed)
	{
		if (pm->ps->fd.forceSpeedSmash > 1.3 && totalVel > 500)
		{ //if we were going fast enough and hadn't hit a while in a while then smash into it hard
		  //the difference between our velocity pre and post colide must also be greater than 600 to do damage
			//Com_Printf("SMASH %f\n", pm->ps->fd.forceSpeedSmash);
			VectorCopy(start_v, nvel); //then bounce the player back a bit in the opposite of the direction he was going
			nvel[0] += start_o[0];
			nvel[1] += start_o[1];
			nvel[2] += start_o[2];
			VectorSubtract(start_o, nvel, nvel);
			pm->ps->velocity[0] = nvel[0]*0.1;
			pm->ps->velocity[1] = nvel[1]*0.1;
			pm->ps->velocity[2] = 64;
			pm->ps->fd.forceSpeedDoDamage = pm->ps->fd.forceSpeedSmash*10; //do somewhere in the range of 15-25 damage, depending on speed
			pm->ps->fd.forceSpeedSmash = 0;

			if (pm->numtouch)
			{
				while (i < pm->numtouch)
				{
					if (pm->touchents[i] < MAX_CLIENTS && pm->touchents[i] != pm->ps->clientNum)
					{
						pm->ps->fd.forceSpeedHitIndex = pm->touchents[i];
						break;
					}

					i++;
				}
			}
			return;
		}

		pm->ps->fd.forceSpeedSmash -= 0.1;
		//we hit a wall so decrease speed

		if (pm->ps->fd.forceSpeedSmash < 1)
		{
			pm->ps->fd.forceSpeedSmash = 1;
		}
	}

	// push down the final amount
	VectorCopy (pm->ps->origin, down);
	down[2] -= stepSize;
	pm->trace (&trace, pm->ps->origin, pm->mins, pm->maxs, down, pm->ps->clientNum, pm->tracemask);
	if ( !trace.allsolid ) {
		VectorCopy (trace.endpos, pm->ps->origin);
	}
	if ( trace.fraction < 1.0 ) {
		PM_ClipVelocity( pm->ps->velocity, trace.plane.normal, pm->ps->velocity, OVERCLIP );
	}

#if 0
	// if the down trace can trace back to the original position directly, don't step
	pm->trace( &trace, pm->ps->origin, pm->mins, pm->maxs, start_o, pm->ps->clientNum, pm->tracemask);
	if ( trace.fraction == 1.0 ) {
		// use the original move
		VectorCopy (down_o, pm->ps->origin);
		VectorCopy (down_v, pm->ps->velocity);
		if ( pm->debugLevel ) {
			Com_Printf("%i:bend\n", c_pmove);
		}
	} else 
#endif
	{
		// use the step move
		float	delta;

		delta = pm->ps->origin[2] - start_o[2];
		if ( delta > 2 ) {
			if ( delta < 7 ) {
				PM_AddEvent( EV_STEP_4 );
			} else if ( delta < 11 ) {
				PM_AddEvent( EV_STEP_8 );
			} else if ( delta < 15 ) {
				PM_AddEvent( EV_STEP_12 );
			} else {
				PM_AddEvent( EV_STEP_16 );
			}
		}
		if ( pm->debugLevel ) {
			Com_Printf("%i:stepped\n", c_pmove);
		}
	}
}