// Copyright (C) 1999-2000 Id Software, Inc. // // bg_pmove.c -- both games player movement code // takes a playerstate and a usercmd as input and returns a modifed playerstate /* * Portions Copyright (C) 2000-2001 Tim Angus * * This program is free software; you can redistribute it and/or modify it * under the terms of the OSML - Open Source Modification License v1.0 as * described in the file COPYING which is distributed with this source * code. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. */ #include "q_shared.h" #include "bg_public.h" #include "bg_local.h" pmove_t *pm; pml_t pml; // movement parameters float pm_stopspeed = 100.0f; float pm_duckScale = 0.25f; float pm_swimScale = 0.50f; float pm_wadeScale = 0.70f; float pm_accelerate = 10.0f; float pm_airaccelerate = 1.0f; float pm_wateraccelerate = 4.0f; float pm_flyaccelerate = 4.0f; float pm_friction = 6.0f; float pm_waterfriction = 1.0f; float pm_flightfriction = 6.0f; float pm_spectatorfriction = 5.0f; int c_pmove = 0; /* =============== PM_AddEvent =============== */ void PM_AddEvent( int newEvent ) { BG_AddPredictableEventToPlayerstate( newEvent, 0, pm->ps ); } /* =============== PM_AddTouchEnt =============== */ void PM_AddTouchEnt( int entityNum ) { int i; if( entityNum == ENTITYNUM_WORLD ) return; if( pm->numtouch == MAXTOUCH ) return; // see if it is already added for( i = 0 ; i < pm->numtouch ; i++ ) { if( pm->touchents[ i ] == entityNum ) return; } // add it pm->touchents[ pm->numtouch ] = entityNum; pm->numtouch++; } /* =================== PM_StartTorsoAnim =================== */ static void PM_StartTorsoAnim( int anim ) { if( pm->ps->pm_type >= PM_DEAD ) return; pm->ps->torsoAnim = ( ( pm->ps->torsoAnim & ANIM_TOGGLEBIT ) ^ ANIM_TOGGLEBIT ) | anim; } /* =================== PM_StartLegsAnim =================== */ static void PM_StartLegsAnim( int anim ) { if( pm->ps->pm_type >= PM_DEAD ) return; //legsTimer is clamped too tightly for nonsegmented models if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) { if( pm->ps->legsTimer > 0 ) return; // a high priority animation is running } else { if( pm->ps->torsoTimer > 0 ) return; // a high priority animation is running } pm->ps->legsAnim = ( ( pm->ps->legsAnim & ANIM_TOGGLEBIT ) ^ ANIM_TOGGLEBIT ) | anim; } /* =================== PM_ContinueLegsAnim =================== */ static void PM_ContinueLegsAnim( int anim ) { if( ( pm->ps->legsAnim & ~ANIM_TOGGLEBIT ) == anim ) return; //legsTimer is clamped too tightly for nonsegmented models if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) { if( pm->ps->legsTimer > 0 ) return; // a high priority animation is running } else { if( pm->ps->torsoTimer > 0 ) return; // a high priority animation is running } PM_StartLegsAnim( anim ); } /* =================== PM_ContinueTorsoAnim =================== */ static void PM_ContinueTorsoAnim( int anim ) { if( ( pm->ps->torsoAnim & ~ANIM_TOGGLEBIT ) == anim ) return; if( pm->ps->torsoTimer > 0 ) return; // a high priority animation is running PM_StartTorsoAnim( anim ); } /* =================== PM_ForceLegsAnim =================== */ static void PM_ForceLegsAnim( int anim ) { //legsTimer is clamped too tightly for nonsegmented models if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) pm->ps->legsTimer = 0; else pm->ps->torsoTimer = 0; PM_StartLegsAnim( anim ); } /* ================== PM_ClipVelocity Slide off of the impacting surface ================== */ void PM_ClipVelocity( vec3_t in, vec3_t normal, vec3_t out, float overbounce ) { float backoff; float change; int i; backoff = DotProduct( in, normal ); //Com_Printf( "%1.0f ", backoff ); if( backoff < 0 ) backoff *= overbounce; else backoff /= overbounce; for( i = 0; i < 3; i++ ) { change = normal[ i ] * backoff; //Com_Printf( "%1.0f ", change ); out[ i ] = in[ i ] - change; } //Com_Printf( " " ); } /* ================== PM_Friction Handles both ground friction and water friction ================== */ static void PM_Friction( void ) { vec3_t vec; float *vel; float speed, newspeed, control; float drop; vel = pm->ps->velocity; //TA: make sure vertical velocity is NOT set to zero when wall climbing VectorCopy( vel, vec ); if( pml.walking && !( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) ) vec[ 2 ] = 0; // ignore slope movement speed = VectorLength( vec ); if( speed < 1 ) { vel[ 0 ] = 0; vel[ 1 ] = 0; // allow sinking underwater // FIXME: still have z friction underwater? return; } drop = 0; // apply ground friction if( pm->waterlevel <= 1 ) { if( pml.walking && !( pml.groundTrace.surfaceFlags & SURF_SLICK ) ) { // if getting knocked back, no friction if( !( pm->ps->pm_flags & PMF_TIME_KNOCKBACK ) ) { control = speed < pm_stopspeed ? pm_stopspeed : speed; drop += control * BG_FindFrictionForClass( pm->ps->stats[ STAT_PCLASS ] ) * pml.frametime; } } } // apply water friction even if just wading if( pm->waterlevel ) drop += speed * pm_waterfriction * pm->waterlevel * pml.frametime; // apply flying friction if( BG_gotItem( UP_JETPACK, pm->ps->stats ) && BG_activated( UP_JETPACK, pm->ps->stats ) ) drop += speed * pm_flightfriction * pml.frametime; if( pm->ps->pm_type == PM_SPECTATOR ) drop += speed * pm_spectatorfriction * pml.frametime; // scale the velocity newspeed = speed - drop; if( newspeed < 0 ) newspeed = 0; newspeed /= speed; vel[ 0 ] = vel[ 0 ] * newspeed; vel[ 1 ] = vel[ 1 ] * newspeed; vel[ 2 ] = vel[ 2 ] * newspeed; } /* ============== PM_Accelerate Handles user intended acceleration ============== */ static void PM_Accelerate( vec3_t wishdir, float wishspeed, float accel ) { #if 1 // q2 style int i; float addspeed, accelspeed, currentspeed; currentspeed = DotProduct( pm->ps->velocity, wishdir ); addspeed = wishspeed - currentspeed; if( addspeed <= 0 ) return; accelspeed = accel * pml.frametime * wishspeed; if( accelspeed > addspeed ) accelspeed = addspeed; for( i = 0; i < 3; i++ ) pm->ps->velocity[ i ] += accelspeed * wishdir[ i ]; #else // proper way (avoids strafe jump maxspeed bug), but feels bad vec3_t wishVelocity; vec3_t pushDir; float pushLen; float canPush; VectorScale( wishdir, wishspeed, wishVelocity ); VectorSubtract( wishVelocity, pm->ps->velocity, pushDir ); pushLen = VectorNormalize( pushDir ); canPush = accel * pml.frametime * wishspeed; if( canPush > pushLen ) canPush = pushLen; VectorMA( pm->ps->velocity, canPush, pushDir, pm->ps->velocity ); #endif } /* ============ PM_CmdScale Returns the scale factor to apply to cmd movements This allows the clients to use axial -127 to 127 values for all directions without getting a sqrt(2) distortion in speed. ============ */ static float PM_CmdScale( usercmd_t *cmd ) { int max; float total; float scale; float modifier = 1.0f; int aForward, aRight; if( pm->ps->stats[ STAT_PTEAM ] == PTE_HUMANS && pm->ps->pm_type == PM_NORMAL && !( BG_gotItem( UP_JETPACK, pm->ps->stats ) && BG_activated( UP_JETPACK, pm->ps->stats ) ) ) { if( !( pm->ps->stats[ STAT_STATE ] & SS_SPEEDBOOST ) ) { //if not sprinting modifier *= HUMAN_JOG_MODIFIER; } if( cmd->forwardmove < 0 ) { //can't run backwards modifier *= HUMAN_BACK_MODIFIER; } else if( cmd->rightmove ) { //can't move that fast sideways modifier *= HUMAN_SIDE_MODIFIER; } //must have +ve stamina to jump if( pm->ps->stats[ STAT_STAMINA ] < 0 ) cmd->upmove = 0; //slow down once stamina depletes if( pm->ps->stats[ STAT_STAMINA ] <= -500 ) modifier *= (float)( pm->ps->stats[ STAT_STAMINA ] + 1000 ) / 500.0f; if( pm->ps->stats[ STAT_STATE ] & SS_CREEPSLOWED ) { if( BG_gotItem( UP_LIGHTARMOUR, pm->ps->stats ) || BG_gotItem( UP_BATTLESUIT, pm->ps->stats ) ) modifier *= CREEP_ARMOUR_MODIFIER; else modifier *= CREEP_MODIFIER; } } if( pm->ps->weapon == WP_CHARGE && pm->ps->pm_flags & PMF_CHARGE ) modifier *= ( 1.0f + ( pm->ps->stats[ STAT_MISC ] / (float)BMOFO_CHARGE_TIME ) * ( BMOFO_CHARGE_SPEED - 1.0f ) ); if( pm->ps->pm_type == PM_GRABBED ) modifier = 0.0f; if( !BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_CANJUMP ) ) cmd->upmove = 0; max = abs( cmd->forwardmove ); if( abs( cmd->rightmove ) > max ) max = abs( cmd->rightmove ); if( abs( cmd->upmove ) > max ) max = abs( cmd->upmove ); if( !max ) return 0; total = sqrt( cmd->forwardmove * cmd->forwardmove + cmd->rightmove * cmd->rightmove + cmd->upmove * cmd->upmove ); scale = (float)pm->ps->speed * max / ( 127.0 * total ) * modifier; return scale; } /* ================ PM_SetMovementDir Determine the rotation of the legs reletive to the facing dir ================ */ static void PM_SetMovementDir( void ) { if( pm->cmd.forwardmove || pm->cmd.rightmove ) { if( pm->cmd.rightmove == 0 && pm->cmd.forwardmove > 0 ) pm->ps->movementDir = 0; else if( pm->cmd.rightmove < 0 && pm->cmd.forwardmove > 0 ) pm->ps->movementDir = 1; else if( pm->cmd.rightmove < 0 && pm->cmd.forwardmove == 0 ) pm->ps->movementDir = 2; else if( pm->cmd.rightmove < 0 && pm->cmd.forwardmove < 0 ) pm->ps->movementDir = 3; else if( pm->cmd.rightmove == 0 && pm->cmd.forwardmove < 0 ) pm->ps->movementDir = 4; else if( pm->cmd.rightmove > 0 && pm->cmd.forwardmove < 0 ) pm->ps->movementDir = 5; else if( pm->cmd.rightmove > 0 && pm->cmd.forwardmove == 0 ) pm->ps->movementDir = 6; else if( pm->cmd.rightmove > 0 && pm->cmd.forwardmove > 0 ) pm->ps->movementDir = 7; } else { // if they aren't actively going directly sideways, // change the animation to the diagonal so they // don't stop too crooked if( pm->ps->movementDir == 2 ) pm->ps->movementDir = 1; else if( pm->ps->movementDir == 6 ) pm->ps->movementDir = 7; } } /* ============= PM_CheckCharge ============= */ static void PM_CheckCharge( void ) { if( pm->ps->weapon != WP_CHARGE ) return; if( pm->cmd.buttons & BUTTON_ATTACK2 ) { pm->ps->pm_flags &= ~PMF_CHARGE; return; } if( pm->ps->stats[ STAT_MISC ] > 0 ) pm->ps->pm_flags |= PMF_CHARGE; else pm->ps->pm_flags &= ~PMF_CHARGE; } /* ============= PM_CheckPounce ============= */ static qboolean PM_CheckPounce( void ) { vec3_t forward; if( pm->ps->weapon != WP_POUNCE && pm->ps->weapon != WP_POUNCE_UPG ) return qfalse; if( pm->cmd.buttons & BUTTON_ATTACK2 ) { pm->ps->pm_flags &= ~PMF_CHARGE; return qfalse; } if( pm->ps->pm_flags & PMF_CHARGE ) return qfalse; if( pm->ps->stats[ STAT_MISC ] == 0 ) return qfalse; pml.groundPlane = qfalse; // jumping away pml.walking = qfalse; pm->ps->pm_flags |= PMF_CHARGE; pm->ps->groundEntityNum = ENTITYNUM_NONE; AngleVectors( pm->ps->viewangles, forward, NULL, NULL ); VectorMA( pm->ps->velocity, pm->ps->stats[ STAT_MISC ], forward, pm->ps->velocity ); pm->ps->velocity[ 2 ] += JUMP_VELOCITY / 2; PM_AddEvent( EV_JUMP ); if( pm->cmd.forwardmove >= 0 ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMP ); else PM_ForceLegsAnim( NSPA_JUMP ); pm->ps->pm_flags &= ~PMF_BACKWARDS_JUMP; } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMPB ); else PM_ForceLegsAnim( NSPA_JUMPBACK ); pm->ps->pm_flags |= PMF_BACKWARDS_JUMP; } return qtrue; } /* ============= PM_CheckJump ============= */ static qboolean PM_CheckJump( void ) { if( !BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_CANJUMP ) ) return qfalse; //can't jump and pounce charge at the same time if( ( pm->ps->weapon == WP_POUNCE || pm->ps->weapon == WP_POUNCE_UPG ) && pm->ps->stats[ STAT_MISC ] > 0 ) return qfalse; //can't jump and charge at the same time if( ( pm->ps->weapon == WP_CHARGE ) && pm->ps->stats[ STAT_MISC ] > 0 ) return qfalse; if( ( pm->ps->stats[ STAT_PTEAM ] == PTE_HUMANS ) && ( pm->ps->stats[ STAT_STAMINA ] < 0 ) ) return qfalse; if( pm->ps->pm_flags & PMF_RESPAWNED ) return qfalse; // don't allow jump until all buttons are up if( pm->cmd.upmove < 10 ) // not holding jump return qfalse; //can't jump whilst grabbed if( pm->ps->pm_type == PM_GRABBED ) { pm->cmd.upmove = 0; return qfalse; } // must wait for jump to be released if( pm->ps->pm_flags & PMF_JUMP_HELD ) { // clear upmove so cmdscale doesn't lower running speed pm->cmd.upmove = 0; return qfalse; } pml.groundPlane = qfalse; // jumping away pml.walking = qfalse; pm->ps->pm_flags |= PMF_JUMP_HELD; //TA: take some stamina off if( pm->ps->stats[ STAT_PTEAM ] == PTE_HUMANS ) pm->ps->stats[ STAT_STAMINA ] -= 500; pm->ps->groundEntityNum = ENTITYNUM_NONE; //TA: jump away from wall if( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) { vec3_t normal = { 0, 0, -1 }; if( !( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBINGCEILING ) ) VectorCopy( pm->ps->grapplePoint, normal ); VectorMA( pm->ps->velocity, JUMP_VELOCITY, normal, pm->ps->velocity ); } else pm->ps->velocity[ 2 ] = JUMP_VELOCITY; PM_AddEvent( EV_JUMP ); if( pm->cmd.forwardmove >= 0 ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMP ); else PM_ForceLegsAnim( NSPA_JUMP ); pm->ps->pm_flags &= ~PMF_BACKWARDS_JUMP; } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMPB ); else PM_ForceLegsAnim( NSPA_JUMPBACK ); pm->ps->pm_flags |= PMF_BACKWARDS_JUMP; } return qtrue; } /* ============= PM_CheckWaterJump ============= */ static qboolean PM_CheckWaterJump( void ) { vec3_t spot; int cont; vec3_t flatforward; if( pm->ps->pm_time ) return qfalse; // check for water jump if( pm->waterlevel != 2 ) return qfalse; flatforward[ 0 ] = pml.forward[ 0 ]; flatforward[ 1 ] = pml.forward[ 1 ]; flatforward[ 2 ] = 0; VectorNormalize( flatforward ); VectorMA( pm->ps->origin, 30, flatforward, spot ); spot[ 2 ] += 4; cont = pm->pointcontents( spot, pm->ps->clientNum ); if( !( cont & CONTENTS_SOLID ) ) return qfalse; spot[ 2 ] += 16; cont = pm->pointcontents( spot, pm->ps->clientNum ); if( cont ) return qfalse; // jump out of water VectorScale( pml.forward, 200, pm->ps->velocity ); pm->ps->velocity[ 2 ] = 350; pm->ps->pm_flags |= PMF_TIME_WATERJUMP; pm->ps->pm_time = 2000; return qtrue; } //============================================================================ /* =================== PM_WaterJumpMove Flying out of the water =================== */ static void PM_WaterJumpMove( void ) { // waterjump has no control, but falls PM_StepSlideMove( qtrue, qfalse ); pm->ps->velocity[ 2 ] -= pm->ps->gravity * pml.frametime; if( pm->ps->velocity[ 2 ] < 0 ) { // cancel as soon as we are falling down again pm->ps->pm_flags &= ~PMF_ALL_TIMES; pm->ps->pm_time = 0; } } /* =================== PM_WaterMove =================== */ static void PM_WaterMove( void ) { int i; vec3_t wishvel; float wishspeed; vec3_t wishdir; float scale; float vel; if( PM_CheckWaterJump( ) ) { PM_WaterJumpMove(); return; } #if 0 // jump = head for surface if ( pm->cmd.upmove >= 10 ) { if (pm->ps->velocity[2] > -300) { if ( pm->watertype == CONTENTS_WATER ) { pm->ps->velocity[2] = 100; } else if (pm->watertype == CONTENTS_SLIME) { pm->ps->velocity[2] = 80; } else { pm->ps->velocity[2] = 50; } } } #endif PM_Friction( ); scale = PM_CmdScale( &pm->cmd ); // // user intentions // if( !scale ) { wishvel[ 0 ] = 0; wishvel[ 1 ] = 0; wishvel[ 2 ] = -60; // sink towards bottom } else { for( i = 0; i < 3; i++ ) wishvel[ i ] = scale * pml.forward[ i ] * pm->cmd.forwardmove + scale * pml.right[ i ] * pm->cmd.rightmove; wishvel[ 2 ] += scale * pm->cmd.upmove; } VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); if( wishspeed > pm->ps->speed * pm_swimScale ) wishspeed = pm->ps->speed * pm_swimScale; PM_Accelerate( wishdir, wishspeed, pm_wateraccelerate ); // make sure we can go up slopes easily under water if( pml.groundPlane && DotProduct( pm->ps->velocity, pml.groundTrace.plane.normal ) < 0 ) { vel = VectorLength( pm->ps->velocity ); // slide along the ground plane PM_ClipVelocity( pm->ps->velocity, pml.groundTrace.plane.normal, pm->ps->velocity, OVERCLIP ); VectorNormalize( pm->ps->velocity ); VectorScale( pm->ps->velocity, vel, pm->ps->velocity ); } PM_SlideMove( qfalse ); } /* =================== PM_JetPackMove Only with the jetpack =================== */ static void PM_JetPackMove( void ) { int i; vec3_t wishvel; float wishspeed; vec3_t wishdir; float scale; //normal slowdown PM_Friction( ); scale = PM_CmdScale( &pm->cmd ); // user intentions for( i = 0; i < 2; i++ ) wishvel[ i ] = scale * pml.forward[ i ] * pm->cmd.forwardmove + scale * pml.right[ i ] * pm->cmd.rightmove; if( pm->cmd.upmove > 0.0f ) wishvel[ 2 ] = JETPACK_FLOAT_SPEED; if( pm->cmd.upmove < 0.0f ) wishvel[ 2 ] = -JETPACK_SINK_SPEED; VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); PM_Accelerate( wishdir, wishspeed, pm_flyaccelerate ); PM_StepSlideMove( qfalse, qfalse ); if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_LAND ); else PM_ContinueLegsAnim( NSPA_LAND ); } /* =================== PM_FlyMove Only with the flight powerup =================== */ static void PM_FlyMove( void ) { int i; vec3_t wishvel; float wishspeed; vec3_t wishdir; float scale; // normal slowdown PM_Friction( ); scale = PM_CmdScale( &pm->cmd ); // // user intentions // if( !scale ) { wishvel[ 0 ] = 0; wishvel[ 1 ] = 0; wishvel[ 2 ] = 0; } else { for( i = 0; i < 3; i++ ) wishvel[ i ] = scale * pml.forward[ i ] * pm->cmd.forwardmove + scale * pml.right[ i ] * pm->cmd.rightmove; wishvel[ 2 ] += scale * pm->cmd.upmove; } VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); PM_Accelerate( wishdir, wishspeed, pm_flyaccelerate ); PM_StepSlideMove( qfalse, qfalse ); } /* =================== PM_AirMove =================== */ static void PM_AirMove( void ) { int i; vec3_t wishvel; float fmove, smove; vec3_t wishdir; float wishspeed; float scale; usercmd_t cmd; PM_Friction( ); fmove = pm->cmd.forwardmove; smove = pm->cmd.rightmove; cmd = pm->cmd; scale = PM_CmdScale( &cmd ); // set the movementDir so clients can rotate the legs for strafing PM_SetMovementDir( ); // project moves down to flat plane pml.forward[ 2 ] = 0; pml.right[ 2 ] = 0; VectorNormalize( pml.forward ); VectorNormalize( pml.right ); for( i = 0; i < 2; i++ ) wishvel[ i ] = pml.forward[ i ] * fmove + pml.right[ i ] * smove; wishvel[ 2 ] = 0; VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); wishspeed *= scale; // not on ground, so little effect on velocity PM_Accelerate( wishdir, wishspeed, pm_airaccelerate ); // we may have a ground plane that is very steep, even // though we don't have a groundentity // slide along the steep plane if( pml.groundPlane ) PM_ClipVelocity( pm->ps->velocity, pml.groundTrace.plane.normal, pm->ps->velocity, OVERCLIP ); #if 0 //ZOID: If we are on the grapple, try stair-stepping //this allows a player to use the grapple to pull himself //over a ledge if (pm->ps->pm_flags & PMF_GRAPPLE_PULL) PM_StepSlideMove ( qtrue ); else PM_SlideMove ( qtrue ); #endif PM_StepSlideMove( qtrue, qfalse ); } /* =================== PM_GrappleMove =================== */ static void PM_GrappleMove( void ) { vec3_t vel, v; float vlen; VectorScale( pml.forward, -16, v ); VectorAdd( pm->ps->grapplePoint, v, v ); VectorSubtract( v, pm->ps->origin, vel ); vlen = VectorLength( vel ); VectorNormalize( vel ); if( vlen <= 100 ) VectorScale( vel, 10 * vlen, vel ); else VectorScale( vel, 800, vel ); VectorCopy( vel, pm->ps->velocity ); pml.groundPlane = qfalse; } /* =================== PM_ClimbMove =================== */ static void PM_ClimbMove( void ) { int i; vec3_t wishvel; float fmove, smove; vec3_t wishdir; float wishspeed; float scale; usercmd_t cmd; float accelerate; float vel; if( pm->waterlevel > 2 && DotProduct( pml.forward, pml.groundTrace.plane.normal ) > 0 ) { // begin swimming PM_WaterMove( ); return; } if( PM_CheckJump( ) || PM_CheckPounce( ) ) { // jumped away if( pm->waterlevel > 1 ) PM_WaterMove( ); else PM_AirMove( ); return; } PM_Friction( ); fmove = pm->cmd.forwardmove; smove = pm->cmd.rightmove; cmd = pm->cmd; scale = PM_CmdScale( &cmd ); // set the movementDir so clients can rotate the legs for strafing PM_SetMovementDir( ); // project the forward and right directions onto the ground plane PM_ClipVelocity( pml.forward, pml.groundTrace.plane.normal, pml.forward, OVERCLIP ); PM_ClipVelocity( pml.right, pml.groundTrace.plane.normal, pml.right, OVERCLIP ); // VectorNormalize( pml.forward ); VectorNormalize( pml.right ); for( i = 0; i < 3; i++ ) wishvel[ i ] = pml.forward[ i ] * fmove + pml.right[ i ] * smove; // when going up or down slopes the wish velocity should Not be zero // wishvel[2] = 0; VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); wishspeed *= scale; // clamp the speed lower if ducking if( pm->ps->pm_flags & PMF_DUCKED ) { if( wishspeed > pm->ps->speed * pm_duckScale ) wishspeed = pm->ps->speed * pm_duckScale; } // clamp the speed lower if wading or walking on the bottom if( pm->waterlevel ) { float waterScale; waterScale = pm->waterlevel / 3.0; waterScale = 1.0 - ( 1.0 - pm_swimScale ) * waterScale; if( wishspeed > pm->ps->speed * waterScale ) wishspeed = pm->ps->speed * waterScale; } // when a player gets hit, they temporarily lose // full control, which allows them to be moved a bit if( ( pml.groundTrace.surfaceFlags & SURF_SLICK ) || pm->ps->pm_flags & PMF_TIME_KNOCKBACK ) accelerate = pm_airaccelerate; else accelerate = BG_FindAccelerationForClass( pm->ps->stats[ STAT_PCLASS ] ); PM_Accelerate( wishdir, wishspeed, accelerate ); if( ( pml.groundTrace.surfaceFlags & SURF_SLICK ) || pm->ps->pm_flags & PMF_TIME_KNOCKBACK ) pm->ps->velocity[ 2 ] -= pm->ps->gravity * pml.frametime; vel = VectorLength( pm->ps->velocity ); // slide along the ground plane PM_ClipVelocity( pm->ps->velocity, pml.groundTrace.plane.normal, pm->ps->velocity, OVERCLIP ); // don't decrease velocity when going up or down a slope VectorNormalize( pm->ps->velocity ); VectorScale( pm->ps->velocity, vel, pm->ps->velocity ); // don't do anything if standing still if( !pm->ps->velocity[ 0 ] && !pm->ps->velocity[ 1 ] && !pm->ps->velocity[ 2 ] ) return; PM_StepSlideMove( qfalse, qfalse ); } /* =================== PM_WalkMove =================== */ static void PM_WalkMove( void ) { int i; vec3_t wishvel; float fmove, smove; vec3_t wishdir; float wishspeed; float scale; usercmd_t cmd; float accelerate; float vel; if( pm->waterlevel > 2 && DotProduct( pml.forward, pml.groundTrace.plane.normal ) > 0 ) { // begin swimming PM_WaterMove( ); return; } if( PM_CheckJump( ) || PM_CheckPounce( ) ) { // jumped away if( pm->waterlevel > 1 ) PM_WaterMove( ); else PM_AirMove( ); return; } //charging PM_CheckCharge( ); PM_Friction( ); fmove = pm->cmd.forwardmove; smove = pm->cmd.rightmove; cmd = pm->cmd; scale = PM_CmdScale( &cmd ); // set the movementDir so clients can rotate the legs for strafing PM_SetMovementDir( ); // project moves down to flat plane pml.forward[ 2 ] = 0; pml.right[ 2 ] = 0; // project the forward and right directions onto the ground plane PM_ClipVelocity( pml.forward, pml.groundTrace.plane.normal, pml.forward, OVERCLIP ); PM_ClipVelocity( pml.right, pml.groundTrace.plane.normal, pml.right, OVERCLIP ); // VectorNormalize( pml.forward ); VectorNormalize( pml.right ); for( i = 0; i < 3; i++ ) wishvel[ i ] = pml.forward[ i ] * fmove + pml.right[ i ] * smove; // when going up or down slopes the wish velocity should Not be zero // wishvel[2] = 0; VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); wishspeed *= scale; // clamp the speed lower if ducking if( pm->ps->pm_flags & PMF_DUCKED ) { if( wishspeed > pm->ps->speed * pm_duckScale ) wishspeed = pm->ps->speed * pm_duckScale; } // clamp the speed lower if wading or walking on the bottom if( pm->waterlevel ) { float waterScale; waterScale = pm->waterlevel / 3.0; waterScale = 1.0 - ( 1.0 - pm_swimScale ) * waterScale; if( wishspeed > pm->ps->speed * waterScale ) wishspeed = pm->ps->speed * waterScale; } // when a player gets hit, they temporarily lose // full control, which allows them to be moved a bit if( ( pml.groundTrace.surfaceFlags & SURF_SLICK ) || pm->ps->pm_flags & PMF_TIME_KNOCKBACK ) accelerate = pm_airaccelerate; else accelerate = BG_FindAccelerationForClass( pm->ps->stats[ STAT_PCLASS ] ); PM_Accelerate( wishdir, wishspeed, accelerate ); //Com_Printf("velocity = %1.1f %1.1f %1.1f\n", pm->ps->velocity[0], pm->ps->velocity[1], pm->ps->velocity[2]); //Com_Printf("velocity1 = %1.1f\n", VectorLength(pm->ps->velocity)); if( ( pml.groundTrace.surfaceFlags & SURF_SLICK ) || pm->ps->pm_flags & PMF_TIME_KNOCKBACK ) pm->ps->velocity[ 2 ] -= pm->ps->gravity * pml.frametime; else { // don't reset the z velocity for slopes // pm->ps->velocity[2] = 0; } vel = VectorLength( pm->ps->velocity ); // slide along the ground plane PM_ClipVelocity( pm->ps->velocity, pml.groundTrace.plane.normal, pm->ps->velocity, OVERCLIP ); // don't decrease velocity when going up or down a slope VectorNormalize( pm->ps->velocity ); VectorScale( pm->ps->velocity, vel, pm->ps->velocity ); // don't do anything if standing still if( !pm->ps->velocity[ 0 ] && !pm->ps->velocity[ 1 ] ) return; PM_StepSlideMove( qfalse, qfalse ); //Com_Printf("velocity2 = %1.1f\n", VectorLength(pm->ps->velocity)); } /* ============== PM_DeadMove ============== */ static void PM_DeadMove( void ) { float forward; if( !pml.walking ) return; // extra friction forward = VectorLength( pm->ps->velocity ); forward -= 20; if( forward <= 0 ) VectorClear( pm->ps->velocity ); else { VectorNormalize( pm->ps->velocity ); VectorScale( pm->ps->velocity, forward, pm->ps->velocity ); } } /* =============== PM_NoclipMove =============== */ static void PM_NoclipMove( void ) { float speed, drop, friction, control, newspeed; int i; vec3_t wishvel; float fmove, smove; vec3_t wishdir; float wishspeed; float scale; pm->ps->viewheight = DEFAULT_VIEWHEIGHT; // friction speed = VectorLength( pm->ps->velocity ); if( speed < 1 ) { VectorCopy( vec3_origin, pm->ps->velocity ); } else { drop = 0; friction = pm_friction * 1.5; // extra friction control = speed < pm_stopspeed ? pm_stopspeed : speed; drop += control * friction * pml.frametime; // scale the velocity newspeed = speed - drop; if( newspeed < 0 ) newspeed = 0; newspeed /= speed; VectorScale( pm->ps->velocity, newspeed, pm->ps->velocity ); } // accelerate scale = PM_CmdScale( &pm->cmd ); fmove = pm->cmd.forwardmove; smove = pm->cmd.rightmove; for( i = 0; i < 3; i++ ) wishvel[ i ] = pml.forward[ i ] * fmove + pml.right[ i ] * smove; wishvel[ 2 ] += pm->cmd.upmove; VectorCopy( wishvel, wishdir ); wishspeed = VectorNormalize( wishdir ); wishspeed *= scale; PM_Accelerate( wishdir, wishspeed, pm_accelerate ); // move VectorMA( pm->ps->origin, pml.frametime, pm->ps->velocity, pm->ps->origin ); } //============================================================================ /* ================ PM_FootstepForSurface Returns an event number apropriate for the groundsurface ================ */ static int PM_FootstepForSurface( void ) { //TA: if( pm->ps->stats[ STAT_STATE ] & SS_CREEPSLOWED ) return EV_FOOTSTEP_SQUELCH; if( pml.groundTrace.surfaceFlags & SURF_NOSTEPS ) return 0; if( pml.groundTrace.surfaceFlags & SURF_METALSTEPS ) return EV_FOOTSTEP_METAL; return EV_FOOTSTEP; } /* ================= PM_CrashLand Check for hard landings that generate sound events ================= */ static void PM_CrashLand( void ) { float delta; float dist; float vel, acc; float t; float a, b, c, den; // decide which landing animation to use if( pm->ps->pm_flags & PMF_BACKWARDS_JUMP ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_LANDB ); else PM_ForceLegsAnim( NSPA_LANDBACK ); } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_LAND ); else PM_ForceLegsAnim( NSPA_LAND ); } if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) pm->ps->legsTimer = TIMER_LAND; else pm->ps->torsoTimer = TIMER_LAND; // calculate the exact velocity on landing dist = pm->ps->origin[ 2 ] - pml.previous_origin[ 2 ]; vel = pml.previous_velocity[ 2 ]; acc = -pm->ps->gravity; a = acc / 2; b = vel; c = -dist; den = b * b - 4 * a * c; if( den < 0 ) return; t = (-b - sqrt( den ) ) / ( 2 * a ); delta = vel + t * acc; delta = delta*delta * 0.0001; // ducking while falling doubles damage if( pm->ps->pm_flags & PMF_DUCKED ) delta *= 2; // never take falling damage if completely underwater if( pm->waterlevel == 3 ) return; // reduce falling damage if there is standing water if( pm->waterlevel == 2 ) delta *= 0.25; if( pm->waterlevel == 1 ) delta *= 0.5; if( delta < 1 ) return; // create a local entity event to play the sound // SURF_NODAMAGE is used for bounce pads where you don't ever // want to take damage or play a crunch sound if( !( pml.groundTrace.surfaceFlags & SURF_NODAMAGE ) ) { if( delta > 60 ) { PM_AddEvent( EV_FALL_FAR ); } else if( delta > 40 ) { // this is a pain grunt, so don't play it if dead if( pm->ps->stats[STAT_HEALTH] > 0 ) PM_AddEvent( EV_FALL_MEDIUM ); } else if( !BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_NOFOOTSTEPS ) ) { if( delta > 7 ) PM_AddEvent( EV_FALL_SHORT ); else PM_AddEvent( PM_FootstepForSurface( ) ); } } // start footstep cycle over pm->ps->bobCycle = 0; } /* ============= PM_CorrectAllSolid ============= */ static int PM_CorrectAllSolid( trace_t *trace ) { int i, j, k; vec3_t point; if( pm->debugLevel ) Com_Printf("%i:allsolid\n", c_pmove); // jitter around for( i = -1; i <= 1; i++ ) { for( j = -1; j <= 1; j++ ) { for( k = -1; k <= 1; k++ ) { VectorCopy( pm->ps->origin, point ); point[ 0 ] += (float)i; point[ 1 ] += (float)j; point[ 2 ] += (float)k; pm->trace( trace, point, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask ); if( !trace->allsolid ) { point[ 0 ] = pm->ps->origin[ 0 ]; point[ 1 ] = pm->ps->origin[ 1 ]; point[ 2 ] = pm->ps->origin[ 2 ] - 0.25; pm->trace( trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask ); pml.groundTrace = *trace; return qtrue; } } } } pm->ps->groundEntityNum = ENTITYNUM_NONE; pml.groundPlane = qfalse; pml.walking = qfalse; return qfalse; } /* ============= PM_GroundTraceMissed The ground trace didn't hit a surface, so we are in freefall ============= */ static void PM_GroundTraceMissed( void ) { trace_t trace; vec3_t point; if( pm->ps->groundEntityNum != ENTITYNUM_NONE ) { // we just transitioned into freefall if( pm->debugLevel ) Com_Printf( "%i:lift\n", c_pmove ); // if they aren't in a jumping animation and the ground is a ways away, force into it // if we didn't do the trace, the player would be backflipping down staircases VectorCopy( pm->ps->origin, point ); point[ 2 ] -= 64; pm->trace( &trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask ); if( trace.fraction == 1.0 ) { if( pm->cmd.forwardmove >= 0 ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMP ); else PM_ForceLegsAnim( NSPA_JUMP ); pm->ps->pm_flags &= ~PMF_BACKWARDS_JUMP; } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMPB ); else PM_ForceLegsAnim( NSPA_JUMPBACK ); pm->ps->pm_flags |= PMF_BACKWARDS_JUMP; } } } pm->ps->groundEntityNum = ENTITYNUM_NONE; pml.groundPlane = qfalse; pml.walking = qfalse; } /* ============= PM_GroundClimbTrace ============= */ static void PM_GroundClimbTrace( void ) { vec3_t surfNormal, movedir, lookdir, forward, right, point; vec3_t refNormal = { 0.0f, 0.0f, 1.0f }; vec3_t ceilingNormal = { 0.0f, 0.0f, -1.0f }; vec3_t toAngles, surfAngles; trace_t trace; int i; //used for delta correction vec3_t traceCROSSsurf, traceCROSSref, surfCROSSref; float traceDOTsurf, traceDOTref, surfDOTref, rTtDOTrTsTt; float traceANGsurf, traceANGref, surfANGref; vec3_t horizontal = { 1.0f, 0.0f, 0.0f }; //arbituary vector perpendicular to refNormal vec3_t refTOtrace, refTOsurfTOtrace, tempVec; int rTtANGrTsTt; float ldDOTtCs, d; vec3_t abc; //TA: If we're on the ceiling then grapplePoint is a rotation normal.. otherwise its a surface normal. // would have been nice if Carmack had left a few random variables in the ps struct for mod makers if( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBINGCEILING ) VectorCopy( ceilingNormal, surfNormal ); else VectorCopy( pm->ps->grapplePoint, surfNormal ); //construct a vector which reflects the direction the player is looking wrt the surface normal AngleVectors( pm->ps->viewangles, forward, NULL, NULL ); CrossProduct( forward, surfNormal, right ); VectorNormalize( right ); CrossProduct( surfNormal, right, movedir ); VectorNormalize( movedir ); VectorCopy( movedir, lookdir ); if( pm->cmd.forwardmove < 0 ) VectorNegate( movedir, movedir ); //allow strafe transitions if( pm->cmd.rightmove ) { VectorCopy( right, movedir ); if( pm->cmd.rightmove < 0 ) VectorNegate( movedir, movedir ); } for( i = 0; i <= 4; i++ ) { switch ( i ) { case 0: //we are going to step this frame so skip the transition test if( PM_PredictStepMove( ) ) continue; //trace into direction we are moving VectorMA( pm->ps->origin, 0.25f, movedir, point ); pm->trace (&trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask); break; case 1: //trace straight down anto "ground" surface VectorMA( pm->ps->origin, -0.25f, surfNormal, point ); pm->trace (&trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask); break; case 2: if( pml.groundPlane != qfalse && PM_PredictStepMove( ) ) { //step down VectorMA( pm->ps->origin, -STEPSIZE, surfNormal, point ); pm->trace( &trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask ); } else continue; break; case 3: //trace "underneath" BBOX so we can traverse angles > 180deg if( pml.groundPlane != qfalse ) { VectorMA( pm->ps->origin, -16.0f, surfNormal, point ); VectorMA( point, -16.0f, movedir, point ); pm->trace (&trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask); } else continue; break; case 4: //fall back so we don't have to modify PM_GroundTrace too much VectorCopy( pm->ps->origin, point ); point[2] = pm->ps->origin[2] - 0.25f; pm->trace (&trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask); break; } //if we hit something if( trace.fraction < 1.0 && !( trace.surfaceFlags & ( SURF_SKY | SURF_SLICK ) ) && !( trace.entityNum != ENTITYNUM_WORLD && i != 4 ) ) { if( i == 2 || i == 3 ) { if( i == 2 ) PM_StepEvent( pm->ps->origin, trace.endpos, surfNormal ); VectorCopy( trace.endpos, pm->ps->origin ); } //calculate a bunch of stuff... CrossProduct( trace.plane.normal, surfNormal, traceCROSSsurf ); VectorNormalize( traceCROSSsurf ); CrossProduct( trace.plane.normal, refNormal, traceCROSSref ); VectorNormalize( traceCROSSref ); CrossProduct( surfNormal, refNormal, surfCROSSref ); VectorNormalize( surfCROSSref ); //calculate angle between surf and trace traceDOTsurf = DotProduct( trace.plane.normal, surfNormal ); traceANGsurf = RAD2DEG( acos( traceDOTsurf ) ); if( traceANGsurf > 180.0f ) traceANGsurf -= 180.0f; //calculate angle between trace and ref traceDOTref = DotProduct( trace.plane.normal, refNormal ); traceANGref = RAD2DEG( acos( traceDOTref ) ); if( traceANGref > 180.0f ) traceANGref -= 180.0f; //calculate angle between surf and ref surfDOTref = DotProduct( surfNormal, refNormal ); surfANGref = RAD2DEG( acos( surfDOTref ) ); if( surfANGref > 180.0f ) surfANGref -= 180.0f; //if the trace result and old surface normal are different then we must have transided to a new //surface... do some stuff... if( !VectorCompare( trace.plane.normal, surfNormal ) ) { //if the trace result or the old vector is not the floor or ceiling correct the YAW angle if( !VectorCompare( trace.plane.normal, refNormal ) && !VectorCompare( surfNormal, refNormal ) && !VectorCompare( trace.plane.normal, ceilingNormal ) && !VectorCompare( surfNormal, ceilingNormal ) ) { //behold the evil mindfuck from hell //it has fucked mind like nothing has fucked mind before //calculate reference rotated through to trace plane RotatePointAroundVector( refTOtrace, traceCROSSref, horizontal, -traceANGref ); //calculate reference rotated through to surf plane then to trace plane RotatePointAroundVector( tempVec, surfCROSSref, horizontal, -surfANGref ); RotatePointAroundVector( refTOsurfTOtrace, traceCROSSsurf, tempVec, -traceANGsurf ); //calculate angle between refTOtrace and refTOsurfTOtrace rTtDOTrTsTt = DotProduct( refTOtrace, refTOsurfTOtrace ); rTtANGrTsTt = ANGLE2SHORT( RAD2DEG( acos( rTtDOTrTsTt ) ) ); if( rTtANGrTsTt > 32768 ) rTtANGrTsTt -= 32768; //set the correction angle if( traceCROSSsurf[ 2 ] < 0 ) rTtANGrTsTt = -rTtANGrTsTt; //phew! - correct the angle pm->ps->delta_angles[ YAW ] -= rTtANGrTsTt; } //construct a plane dividing the surf and trace normals CrossProduct( traceCROSSsurf, surfNormal, abc ); VectorNormalize( abc ); d = DotProduct( abc, pm->ps->origin ); //construct a point representing where the player is looking VectorAdd( pm->ps->origin, lookdir, point ); //check whether point is on one side of the plane, if so invert the correction angle if( ( abc[ 0 ] * point[ 0 ] + abc[ 1 ] * point[ 1 ] + abc[ 2 ] * point[ 2 ] - d ) > 0 ) traceANGsurf = -traceANGsurf; //find the . product of the lookdir and traceCROSSsurf if( ( ldDOTtCs = DotProduct( lookdir, traceCROSSsurf ) ) < 0.0f ) { VectorInverse( traceCROSSsurf ); ldDOTtCs = DotProduct( lookdir, traceCROSSsurf ); } //set the correction angle traceANGsurf *= 1.0f - ldDOTtCs; if( !( pm->ps->persistant[ PERS_STATE ] & PS_WALLCLIMBINGFOLLOW ) ) { //correct the angle pm->ps->delta_angles[ PITCH ] -= ANGLE2SHORT( traceANGsurf ); } //transition from wall to ceiling //normal for subsequent viewangle rotations if( VectorCompare( trace.plane.normal, ceilingNormal ) ) { CrossProduct( surfNormal, trace.plane.normal, pm->ps->grapplePoint ); VectorNormalize( pm->ps->grapplePoint ); pm->ps->stats[ STAT_STATE ] |= SS_WALLCLIMBINGCEILING; } //transition from ceiling to wall //we need to do some different angle correction here cos GPISROTVEC if( VectorCompare( surfNormal, ceilingNormal ) ) { vectoangles( trace.plane.normal, toAngles ); vectoangles( pm->ps->grapplePoint, surfAngles ); pm->ps->delta_angles[ 1 ] -= ANGLE2SHORT( ( ( surfAngles[ 1 ] - toAngles[ 1 ] ) * 2 ) - 180 ); } } pml.groundTrace = trace; //so everything knows where we're wallclimbing (ie client side) pm->ps->eFlags |= EF_WALLCLIMB; //if we're not stuck to the ceiling then set grapplePoint to be a surface normal if( !VectorCompare( trace.plane.normal, ceilingNormal ) ) { //so we know what surface we're stuck to VectorCopy( trace.plane.normal, pm->ps->grapplePoint ); pm->ps->stats[ STAT_STATE ] &= ~SS_WALLCLIMBINGCEILING; } //IMPORTANT: break out of the for loop if we've hit something break; } else if ( trace.allsolid ) { // do something corrective if the trace starts in a solid... //TA: fuck knows what this does with all my new stuff :( if ( !PM_CorrectAllSolid(&trace) ) return; } } if ( trace.fraction >= 1.0 ) { // if the trace didn't hit anything, we are in free fall PM_GroundTraceMissed(); pml.groundPlane = qfalse; pml.walking = qfalse; pm->ps->eFlags &= ~EF_WALLCLIMB; pm->ps->stats[ STAT_STATE ] &= ~SS_WALLCLIMBINGCEILING; //we get very bizarre effects if we don't do this :0 VectorCopy( refNormal, pm->ps->grapplePoint ); return; } pml.groundPlane = qtrue; pml.walking = qtrue; // hitting solid ground will end a waterjump if (pm->ps->pm_flags & PMF_TIME_WATERJUMP) { pm->ps->pm_flags &= ~(PMF_TIME_WATERJUMP | PMF_TIME_LAND); pm->ps->pm_time = 0; } pm->ps->groundEntityNum = trace.entityNum; // don't reset the z velocity for slopes // pm->ps->velocity[2] = 0; PM_AddTouchEnt( trace.entityNum ); } /* ============= PM_GroundTrace ============= */ static void PM_GroundTrace( void ) { vec3_t point, forward, srotAxis; vec3_t refNormal = { 0.0f, 0.0f, 1.0f }; trace_t trace; float srotAngle; if( BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_WALLCLIMBER ) ) { //toggle wall climbing if holding crouch if( pm->cmd.upmove < 0 && !( pm->ps->pm_flags & PMF_CROUCH_HELD ) ) { if( !( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) ) pm->ps->stats[ STAT_STATE ] |= SS_WALLCLIMBING; else if( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) pm->ps->stats[ STAT_STATE ] &= ~SS_WALLCLIMBING; pm->ps->pm_flags |= PMF_CROUCH_HELD; } else if( pm->cmd.upmove >= 0 ) pm->ps->pm_flags &= ~PMF_CROUCH_HELD; if( pm->ps->pm_type == PM_DEAD ) pm->ps->stats[ STAT_STATE ] &= ~SS_WALLCLIMBING; if( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) { PM_GroundClimbTrace( ); return; } } pm->ps->stats[ STAT_STATE ] &= ~SS_WALLCLIMBING; pm->ps->stats[ STAT_STATE ] &= ~SS_WALLCLIMBINGCEILING; pm->ps->eFlags &= ~EF_WALLCLIMB; //make sure that the surfNormal is reset to the ground if( BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_WALLCLIMBER ) ) VectorCopy( refNormal, pm->ps->grapplePoint ); point[ 0 ] = pm->ps->origin[ 0 ]; point[ 1 ] = pm->ps->origin[ 1 ]; point[ 2 ] = pm->ps->origin[ 2 ] - 0.25; //FIXME: hack until i find out where CONTENTS_BODY is getting unset for uhm.. bodies. if( pm->ps->pm_type == PM_DEAD ) pm->trace( &trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, MASK_PLAYERSOLID ); else pm->trace( &trace, pm->ps->origin, pm->mins, pm->maxs, point, pm->ps->clientNum, pm->tracemask ); pml.groundTrace = trace; // do something corrective if the trace starts in a solid... if( trace.allsolid ) if( !PM_CorrectAllSolid( &trace ) ) return; // if the trace didn't hit anything, we are in free fall if( trace.fraction == 1.0 ) { PM_GroundTraceMissed( ); pml.groundPlane = qfalse; pml.walking = qfalse; return; } // check if getting thrown off the ground if( pm->ps->velocity[ 2 ] > 0 && DotProduct( pm->ps->velocity, trace.plane.normal ) > 10 ) { if( pm->debugLevel ) Com_Printf( "%i:kickoff\n", c_pmove ); // go into jump animation if( pm->cmd.forwardmove >= 0 ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMP ); else PM_ForceLegsAnim( NSPA_JUMP ); pm->ps->pm_flags &= ~PMF_BACKWARDS_JUMP; } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ForceLegsAnim( LEGS_JUMPB ); else PM_ForceLegsAnim( NSPA_JUMPBACK ); pm->ps->pm_flags |= PMF_BACKWARDS_JUMP; } pm->ps->groundEntityNum = ENTITYNUM_NONE; pml.groundPlane = qfalse; pml.walking = qfalse; return; } // slopes that are too steep will not be considered onground if( trace.plane.normal[ 2 ] < MIN_WALK_NORMAL ) { if( pm->debugLevel ) Com_Printf( "%i:steep\n", c_pmove ); // FIXME: if they can't slide down the slope, let them // walk (sharp crevices) pm->ps->groundEntityNum = ENTITYNUM_NONE; pml.groundPlane = qtrue; pml.walking = qfalse; return; } pml.groundPlane = qtrue; pml.walking = qtrue; // hitting solid ground will end a waterjump if( pm->ps->pm_flags & PMF_TIME_WATERJUMP ) { pm->ps->pm_flags &= ~( PMF_TIME_WATERJUMP | PMF_TIME_LAND ); pm->ps->pm_time = 0; } if( pm->ps->groundEntityNum == ENTITYNUM_NONE ) { // just hit the ground if( pm->debugLevel ) Com_Printf( "%i:Land\n", c_pmove ); if( BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_TAKESFALLDAMAGE ) ) PM_CrashLand( ); // don't do landing time if we were just going down a slope if( pml.previous_velocity[ 2 ] < -200 ) { // don't allow another jump for a little while pm->ps->pm_flags |= PMF_TIME_LAND; pm->ps->pm_time = 250; } } pm->ps->groundEntityNum = trace.entityNum; // don't reset the z velocity for slopes // pm->ps->velocity[2] = 0; PM_AddTouchEnt( trace.entityNum ); } /* ============= PM_SetWaterLevel FIXME: avoid this twice? certainly if not moving ============= */ static void PM_SetWaterLevel( void ) { vec3_t point; int cont; int sample1; int sample2; // // get waterlevel, accounting for ducking // pm->waterlevel = 0; pm->watertype = 0; point[ 0 ] = pm->ps->origin[ 0 ]; point[ 1 ] = pm->ps->origin[ 1 ]; point[ 2 ] = pm->ps->origin[ 2 ] + MINS_Z + 1; cont = pm->pointcontents( point, pm->ps->clientNum ); if( cont & MASK_WATER ) { sample2 = pm->ps->viewheight - MINS_Z; sample1 = sample2 / 2; pm->watertype = cont; pm->waterlevel = 1; point[ 2 ] = pm->ps->origin[ 2 ] + MINS_Z + sample1; cont = pm->pointcontents( point, pm->ps->clientNum ); if( cont & MASK_WATER ) { pm->waterlevel = 2; point[ 2 ] = pm->ps->origin[ 2 ] + MINS_Z + sample2; cont = pm->pointcontents( point, pm->ps->clientNum ); if( cont & MASK_WATER ) pm->waterlevel = 3; } } } /* ============== PM_CheckDuck Sets mins, maxs, and pm->ps->viewheight ============== */ static void PM_CheckDuck (void) { trace_t trace; vec3_t PCmins, PCmaxs, PCcmaxs; int PCvh, PCcvh; BG_FindBBoxForClass( pm->ps->stats[ STAT_PCLASS ], PCmins, PCmaxs, PCcmaxs, NULL, NULL ); BG_FindViewheightForClass( pm->ps->stats[ STAT_PCLASS ], &PCvh, &PCcvh ); //TA: iD bug? you can still crouch when you're a spectator if( pm->ps->persistant[ PERS_TEAM ] == TEAM_SPECTATOR ) PCcvh = PCvh; pm->mins[ 0 ] = PCmins[ 0 ]; pm->mins[ 1 ] = PCmins[ 1 ]; pm->maxs[ 0 ] = PCmaxs[ 0 ]; pm->maxs[ 1 ] = PCmaxs[ 1 ]; pm->mins[ 2 ] = PCmins[ 2 ]; if (pm->ps->pm_type == PM_DEAD) { pm->maxs[2] = -8; pm->ps->viewheight = DEAD_VIEWHEIGHT; return; } //TA: If the standing and crouching viewheights are the same the class can't crouch if( ( pm->cmd.upmove < 0 ) && ( PCvh != PCcvh ) && !( BG_gotItem( UP_JETPACK, pm->ps->stats ) && BG_activated( UP_JETPACK, pm->ps->stats ) ) ) { // duck pm->ps->pm_flags |= PMF_DUCKED; } else { // stand up if possible if (pm->ps->pm_flags & PMF_DUCKED) { // try to stand up pm->maxs[ 2 ] = PCmaxs[ 2 ]; pm->trace( &trace, pm->ps->origin, pm->mins, pm->maxs, pm->ps->origin, pm->ps->clientNum, pm->tracemask ); if( !trace.allsolid ) pm->ps->pm_flags &= ~PMF_DUCKED; } } if( pm->ps->pm_flags & PMF_DUCKED ) { pm->maxs[ 2 ] = PCcmaxs[ 2 ]; pm->ps->viewheight = PCcvh; } else { pm->maxs[ 2 ] = PCmaxs[ 2 ]; pm->ps->viewheight = PCvh; } } //=================================================================== /* =============== PM_Footsteps =============== */ static void PM_Footsteps( void ) { float bobmove; int old; qboolean footstep; // // calculate speed and cycle to be used for // all cyclic walking effects // if( BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_WALLCLIMBER ) && ( pml.groundPlane ) ) { //TA: FIXME: yes yes i know this is wrong pm->xyspeed = sqrt( pm->ps->velocity[ 0 ] * pm->ps->velocity[ 0 ] + pm->ps->velocity[ 1 ] * pm->ps->velocity[ 1 ] + pm->ps->velocity[ 2 ] * pm->ps->velocity[ 2 ] ); } else pm->xyspeed = sqrt( pm->ps->velocity[ 0 ] * pm->ps->velocity[ 0 ] + pm->ps->velocity[ 1 ] * pm->ps->velocity[ 1 ] ); if( pm->ps->groundEntityNum == ENTITYNUM_NONE ) { // airborne leaves position in cycle intact, but doesn't advance if( pm->waterlevel > 1 ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_SWIM ); else PM_ContinueLegsAnim( NSPA_SWIM ); } return; } // if not trying to move if( !pm->cmd.forwardmove && !pm->cmd.rightmove ) { if( pm->xyspeed < 5 ) { pm->ps->bobCycle = 0; // start at beginning of cycle again if( pm->ps->pm_flags & PMF_DUCKED ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_IDLECR ); else PM_ContinueLegsAnim( NSPA_STAND ); } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_IDLE ); else PM_ContinueLegsAnim( NSPA_STAND ); } } return; } footstep = qfalse; if( pm->ps->pm_flags & PMF_DUCKED ) { bobmove = 0.5; // ducked characters bob much faster if( pm->ps->pm_flags & PMF_BACKWARDS_RUN ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_BACKCR ); else { if( pm->cmd.rightmove > 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKRIGHT ); else if( pm->cmd.rightmove < 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKLEFT ); else PM_ContinueLegsAnim( NSPA_WALKBACK ); } } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_WALKCR ); else { if( pm->cmd.rightmove > 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKRIGHT ); else if( pm->cmd.rightmove < 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKLEFT ); else PM_ContinueLegsAnim( NSPA_WALK ); } } // ducked characters never play footsteps /* } else if ( pm->ps->pm_flags & PMF_BACKWARDS_RUN ) { if ( !( pm->cmd.buttons & BUTTON_WALKING ) ) { bobmove = 0.4; // faster speeds bob faster footstep = qtrue; } else { bobmove = 0.3; } PM_ContinueLegsAnim( LEGS_BACK ); */ } else { //TA: switch walking/running anims based on speed //if ( !( pm->cmd.buttons & BUTTON_WALKING ) ) { if( pm->xyspeed > 160 ) { bobmove = 0.4f; // faster speeds bob faster if( pm->ps->pm_flags & PMF_BACKWARDS_RUN ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_BACK ); else { if( pm->cmd.rightmove > 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_RUNRIGHT ); else if( pm->cmd.rightmove < 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_RUNLEFT ); else PM_ContinueLegsAnim( NSPA_RUNBACK ); } } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_RUN ); else { if( pm->cmd.rightmove > 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_RUNRIGHT ); else if( pm->cmd.rightmove < 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_RUNLEFT ); else PM_ContinueLegsAnim( NSPA_RUN ); } } footstep = qtrue; } else { bobmove = 0.3f; // walking bobs slow if( pm->ps->pm_flags & PMF_BACKWARDS_RUN ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_BACKWALK ); else { if( pm->cmd.rightmove > 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKRIGHT ); else if( pm->cmd.rightmove < 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKLEFT ); else PM_ContinueLegsAnim( NSPA_WALKBACK ); } } else { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_ContinueLegsAnim( LEGS_WALK ); else { if( pm->cmd.rightmove > 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKRIGHT ); else if( pm->cmd.rightmove < 0 && !pm->cmd.forwardmove ) PM_ContinueLegsAnim( NSPA_WALKLEFT ); else PM_ContinueLegsAnim( NSPA_WALK ); } } } } // check for footstep / splash sounds old = pm->ps->bobCycle; pm->ps->bobCycle = (int)( old + bobmove * pml.msec ) & 255; // if we just crossed a cycle boundary, play an apropriate footstep event if( ( ( old + 64 ) ^ ( pm->ps->bobCycle + 64 ) ) & 128 ) { if( pm->waterlevel == 0 ) { // on ground will only play sounds if running if( footstep && !pm->noFootsteps && !BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_NOFOOTSTEPS ) ) PM_AddEvent( PM_FootstepForSurface( ) ); } else if( pm->waterlevel == 1 ) { // splashing PM_AddEvent( EV_FOOTSPLASH ); } else if( pm->waterlevel == 2 ) { // wading / swimming at surface PM_AddEvent( EV_SWIM ); } else if( pm->waterlevel == 3 ) { // no sound when completely underwater } } } /* ============== PM_WaterEvents Generate sound events for entering and leaving water ============== */ static void PM_WaterEvents( void ) { // FIXME? // // if just entered a water volume, play a sound // if( !pml.previous_waterlevel && pm->waterlevel ) PM_AddEvent( EV_WATER_TOUCH ); // // if just completely exited a water volume, play a sound // if( pml.previous_waterlevel && !pm->waterlevel ) PM_AddEvent( EV_WATER_LEAVE ); // // check for head just going under water // if( pml.previous_waterlevel != 3 && pm->waterlevel == 3 ) PM_AddEvent( EV_WATER_UNDER ); // // check for head just coming out of water // if( pml.previous_waterlevel == 3 && pm->waterlevel != 3 ) PM_AddEvent( EV_WATER_CLEAR ); } /* =============== PM_BeginWeaponChange =============== */ static void PM_BeginWeaponChange( int weapon ) { if( weapon < WP_NONE || weapon >= WP_NUM_WEAPONS ) return; if( !BG_gotWeapon( weapon, pm->ps->stats ) && weapon != WP_NONE ) return; if( pm->ps->weaponstate == WEAPON_DROPPING ) return; PM_AddEvent( EV_CHANGE_WEAPON ); pm->ps->weaponstate = WEAPON_DROPPING; pm->ps->weaponTime += 200; //reset build weapon pm->ps->stats[ STAT_BUILDABLE ] = BA_NONE; if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_StartTorsoAnim( TORSO_DROP ); } /* =============== PM_FinishWeaponChange =============== */ static void PM_FinishWeaponChange( void ) { int weapon; weapon = pm->cmd.weapon; if( weapon < WP_NONE || weapon >= WP_NUM_WEAPONS ) weapon = WP_NONE; if( !BG_gotWeapon( weapon, pm->ps->stats ) ) weapon = WP_NONE; pm->ps->weapon = weapon; pm->ps->weaponstate = WEAPON_RAISING; pm->ps->weaponTime += 250; if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_StartTorsoAnim( TORSO_RAISE ); } /* ============== PM_TorsoAnimation ============== */ static void PM_TorsoAnimation( void ) { if( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) return; if( pm->ps->weaponstate == WEAPON_READY ) PM_ContinueTorsoAnim( TORSO_STAND ); } /* ============== PM_Weapon Generates weapon events and modifes the weapon counter ============== */ static void PM_Weapon( void ) { int addTime = 200; //default addTime - should never be used int ammo, clips, maxclips; qboolean attack1 = qfalse; qboolean attack2 = qfalse; qboolean attack3 = qfalse; // don't allow attack until all buttons are up if( pm->ps->pm_flags & PMF_RESPAWNED ) return; // ignore if spectator if( pm->ps->persistant[ PERS_TEAM ] == TEAM_SPECTATOR ) return; if( pm->ps->stats[ STAT_STATE ] & SS_INFESTING ) return; if( pm->ps->stats[ STAT_STATE ] & SS_HOVELING ) return; // check for dead player if( pm->ps->stats[ STAT_HEALTH ] <= 0 ) { pm->ps->weapon = WP_NONE; return; } // make weapon function if( pm->ps->weaponTime > 0 ) pm->ps->weaponTime -= pml.msec; //TA: if we haven't got the weapon if( !BG_gotWeapon( pm->ps->weapon, pm->ps->stats ) && pm->ps->weapon != WP_NONE ) PM_BeginWeaponChange( WP_NONE ); // check for weapon change // can't change if weapon is firing, but can change // again if lowering or raising if( pm->ps->weaponTime <= 0 || pm->ps->weaponstate != WEAPON_FIRING ) { //TA: must press use to switch weapons if( pm->cmd.buttons & BUTTON_USE_HOLDABLE ) { if( !( pm->ps->pm_flags & PMF_USE_ITEM_HELD ) ) { if( pm->cmd.weapon <= 32 ) { //if trying to select a weapon, select it if( pm->ps->weapon != pm->cmd.weapon ) PM_BeginWeaponChange( pm->cmd.weapon ); } else if( pm->cmd.weapon > 32 ) { //if trying to toggle an upgrade, toggle it if( BG_gotItem( pm->cmd.weapon - 32, pm->ps->stats ) ) //sanity check { if( BG_activated( pm->cmd.weapon - 32, pm->ps->stats ) ) BG_deactivateItem( pm->cmd.weapon - 32, pm->ps->stats ); else BG_activateItem( pm->cmd.weapon - 32, pm->ps->stats ); } } pm->ps->pm_flags |= PMF_USE_ITEM_HELD; } } else pm->ps->pm_flags &= ~PMF_USE_ITEM_HELD; } if( pm->ps->weaponTime > 0 ) return; // change weapon if time if( pm->ps->weaponstate == WEAPON_DROPPING ) { PM_FinishWeaponChange( ); return; } if( pm->ps->weaponstate == WEAPON_RAISING ) { pm->ps->weaponstate = WEAPON_READY; if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_StartTorsoAnim( TORSO_STAND ); return; } // start the animation even if out of ammo BG_unpackAmmoArray( pm->ps->weapon, pm->ps->ammo, pm->ps->powerups, &ammo, &clips, &maxclips ); // check for out of ammo if( !ammo && !clips && !BG_FindInfinteAmmoForWeapon( pm->ps->weapon ) ) { PM_AddEvent( EV_NOAMMO ); pm->ps->weaponTime += 200; return; } //done reloading so give em some ammo if( pm->ps->weaponstate == WEAPON_RELOADING ) { if( maxclips > 0 ) { clips--; BG_FindAmmoForWeapon( pm->ps->weapon, &ammo, NULL, NULL ); } if( BG_FindUsesEnergyForWeapon( pm->ps->weapon ) && BG_gotItem( UP_BATTPACK, pm->ps->stats ) ) ammo = (int)( (float)ammo * BATTPACK_MODIFIER ); BG_packAmmoArray( pm->ps->weapon, pm->ps->ammo, pm->ps->powerups, ammo, clips, maxclips ); //allow some time for the weapon to be raised pm->ps->weaponstate = WEAPON_RAISING; PM_StartTorsoAnim( TORSO_RAISE ); pm->ps->weaponTime += 250; return; } // check for end of clip if( !ammo && clips ) { pm->ps->weaponstate = WEAPON_RELOADING; //drop the weapon PM_StartTorsoAnim( TORSO_DROP ); addTime = BG_FindReloadTimeForWeapon( pm->ps->weapon ); pm->ps->weaponTime += addTime; return; } //check if non-auto primary/secondary attacks are permited switch( pm->ps->weapon ) { case WP_VENOM: //venom is only autohit attack1 = attack2 = attack3 = qfalse; if( !pm->autoWeaponHit[ pm->ps->weapon ] ) { pm->ps->weaponTime = 0; pm->ps->weaponstate = WEAPON_READY; return; } break; case WP_POUNCE: case WP_POUNCE_UPG: //pouncing has primary secondary AND autohit procedures attack1 = pm->cmd.buttons & BUTTON_ATTACK; attack2 = pm->cmd.buttons & BUTTON_ATTACK2; attack3 = pm->cmd.buttons & BUTTON_USE_HOLDABLE; if( !pm->autoWeaponHit[ pm->ps->weapon ] && !attack1 && !attack2 && !attack3 ) { pm->ps->weaponTime = 0; pm->ps->weaponstate = WEAPON_READY; return; } break; case WP_LUCIFER_CANNON: attack1 = pm->cmd.buttons & BUTTON_ATTACK; attack2 = pm->cmd.buttons & BUTTON_ATTACK2; attack3 = pm->cmd.buttons & BUTTON_USE_HOLDABLE; if( ( attack1 || pm->ps->stats[ STAT_MISC ] == 0 ) && !attack2 && !attack3 ) { pm->ps->weaponTime = 0; pm->ps->weaponstate = WEAPON_READY; return; } //erp this looks confusing if( pm->ps->stats[ STAT_MISC ] > 0 ) attack1 = !attack1; break; default: //by default primary and secondary attacks are allowed attack1 = pm->cmd.buttons & BUTTON_ATTACK; attack2 = pm->cmd.buttons & BUTTON_ATTACK2; attack3 = pm->cmd.buttons & BUTTON_USE_HOLDABLE; if( !attack1 && !attack2 && !attack3 ) { pm->ps->weaponTime = 0; pm->ps->weaponstate = WEAPON_READY; return; } break; } //TA: fire events for non auto weapons if( attack3 ) { if( BG_WeaponHasThirdMode( pm->ps->weapon ) ) { //hacky special case for slowblob if( pm->ps->weapon == WP_POUNCE_UPG && !ammo ) { PM_AddEvent( EV_NOAMMO ); pm->ps->weaponTime += 200; return; } PM_AddEvent( EV_FIRE_WEAPON3 ); addTime = BG_FindRepeatRate3ForWeapon( pm->ps->weapon ); } else { pm->ps->weaponTime = 0; pm->ps->weaponstate = WEAPON_READY; return; } } else if( attack2 ) { if( BG_WeaponHasAltMode( pm->ps->weapon ) ) { PM_AddEvent( EV_FIRE_WEAPON2 ); addTime = BG_FindRepeatRate2ForWeapon( pm->ps->weapon ); } else { pm->ps->weaponTime = 0; pm->ps->weaponstate = WEAPON_READY; return; } } else if( attack1 ) { PM_AddEvent( EV_FIRE_WEAPON ); addTime = BG_FindRepeatRate1ForWeapon( pm->ps->weapon ); } //TA: fire events for autohit weapons if( pm->autoWeaponHit[ pm->ps->weapon ] ) { switch( pm->ps->weapon ) { case WP_VENOM: PM_AddEvent( EV_FIRE_WEAPON ); addTime = BG_FindRepeatRate1ForWeapon( pm->ps->weapon ); break; case WP_POUNCE: case WP_POUNCE_UPG: PM_AddEvent( EV_FIRE_WEAPON2 ); addTime = BG_FindRepeatRate2ForWeapon( pm->ps->weapon ); break; default: break; } } if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) PM_StartTorsoAnim( TORSO_ATTACK ); else { if( attack1 ) PM_ForceLegsAnim( NSPA_ATTACK1 ); else if( attack2 ) PM_ForceLegsAnim( NSPA_ATTACK2 ); else if( attack3 ) PM_ForceLegsAnim( NSPA_ATTACK3 ); pm->ps->torsoTimer = TIMER_ATTACK; } pm->ps->weaponstate = WEAPON_FIRING; // take an ammo away if not infinite if( !BG_FindInfinteAmmoForWeapon( pm->ps->weapon ) ) { //special case for lCanon if( pm->ps->weapon == WP_LUCIFER_CANNON && attack1 ) { ammo -= (int)( ceil( ( (float)pm->ps->stats[ STAT_MISC ] / (float)LCANNON_TOTAL_CHARGE ) * 10.0f ) ); //stay on the safe side if( ammo < 0 ) ammo = 0; } else ammo--; BG_packAmmoArray( pm->ps->weapon, pm->ps->ammo, pm->ps->powerups, ammo, clips, maxclips ); } else if( pm->ps->weapon == WP_POUNCE_UPG && attack3 ) { //special case for slowblob ammo--; BG_packAmmoArray( pm->ps->weapon, pm->ps->ammo, pm->ps->powerups, ammo, clips, maxclips ); } //FIXME: predicted angles miss a problem?? if( pm->ps->weapon == WP_CHAINGUN ) { if( pm->ps->pm_flags & PMF_DUCKED ) { pm->ps->delta_angles[ PITCH ] -= ANGLE2SHORT( ( ( random() * 0.5 ) - 0.125 ) * ( 30 / (float)addTime ) ); pm->ps->delta_angles[ YAW ] -= ANGLE2SHORT( ( ( random() * 0.5 ) - 0.25 ) * ( 30.0 / (float)addTime ) ); } else { pm->ps->delta_angles[ PITCH ] -= ANGLE2SHORT( ( ( random() * 8 ) - 2 ) * ( 30.0 / (float)addTime ) ); pm->ps->delta_angles[ YAW ] -= ANGLE2SHORT( ( ( random() * 8 ) - 4 ) * ( 30.0 / (float)addTime ) ); } } pm->ps->weaponTime += addTime; } /* ================ PM_Animate ================ */ static void PM_Animate( void ) { if( pm->cmd.buttons & BUTTON_GESTURE ) { if( !( pm->ps->persistant[ PERS_STATE ] & PS_NONSEGMODEL ) ) { if( pm->ps->torsoTimer == 0 ) { PM_StartTorsoAnim( TORSO_GESTURE ); pm->ps->torsoTimer = TIMER_GESTURE; PM_AddEvent( EV_TAUNT ); } } else { PM_ForceLegsAnim( NSPA_GESTURE ); pm->ps->torsoTimer = TIMER_GESTURE; PM_AddEvent( EV_TAUNT ); } } } /* ================ PM_DropTimers ================ */ static void PM_DropTimers( void ) { // drop misc timing counter if( pm->ps->pm_time ) { if( pml.msec >= pm->ps->pm_time ) { pm->ps->pm_flags &= ~PMF_ALL_TIMES; pm->ps->pm_time = 0; } else pm->ps->pm_time -= pml.msec; } // drop animation counter if( pm->ps->legsTimer > 0 ) { pm->ps->legsTimer -= pml.msec; if( pm->ps->legsTimer < 0 ) pm->ps->legsTimer = 0; } if( pm->ps->torsoTimer > 0 ) { pm->ps->torsoTimer -= pml.msec; if( pm->ps->torsoTimer < 0 ) pm->ps->torsoTimer = 0; } } /* ================ PM_UpdateViewAngles This can be used as another entry point when only the viewangles are being updated instead of a full move ================ */ void PM_UpdateViewAngles( playerState_t *ps, const usercmd_t *cmd ) { short temp[ 3 ]; int i; vec3_t axis[ 3 ], rotaxis[ 3 ]; vec3_t tempang; if( ps->pm_type == PM_INTERMISSION || ps->pm_type == PM_SPINTERMISSION ) return; // no view changes at all if( ps->pm_type != PM_SPECTATOR && ps->stats[STAT_HEALTH] <= 0 ) return; // no view changes at all // circularly clamp the angles with deltas for( i = 0; i < 3; i++ ) { temp[ i ] = cmd->angles[ i ] + ps->delta_angles[ i ]; if( i == PITCH ) { // don't let the player look up or down more than 90 degrees if( temp[ i ] > 16000 ) { ps->delta_angles[ i ] = 16000 - cmd->angles[ i ]; temp[ i ] = 16000; } else if( temp[ i ] < -16000 ) { ps->delta_angles[ i ] = -16000 - cmd->angles[ i ]; temp[ i ] = -16000; } } tempang[ i ] = SHORT2ANGLE( temp[ i ] ); } //convert viewangles -> axis AnglesToAxis( tempang, axis ); if( !( ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) || !BG_rotateAxis( ps->grapplePoint, axis, rotaxis, qfalse, ps->stats[ STAT_STATE ] & SS_WALLCLIMBINGCEILING ) ) AxisCopy( axis, rotaxis ); //convert the new axis back to angles AxisToAngles( rotaxis, tempang ); //force angles to -180 <= x <= 180 for( i = 0; i < 3; i++ ) { while( tempang[ i ] > 180 ) tempang[ i ] -= 360; while( tempang[ i ] < 180 ) tempang[ i ] += 360; } //actually set the viewangles for( i = 0; i < 3; i++ ) ps->viewangles[ i ] = tempang[ i ]; //pull the view into the lock point if( ps->pm_type == PM_GRABBED ) { for( i = 0; i < 3; i++ ) { float diff = AngleSubtract( ps->viewangles[ i ], ps->grapplePoint[ i ] ); while( diff > 180.0f ) diff -= 360.0f; while( diff < -180.0f ) diff += 360.0f; if( diff < 0 ) ps->delta_angles[ i ] += ANGLE2SHORT( fabs( diff ) * 0.05f ); else if( diff > 0 ) ps->delta_angles[ i ] -= ANGLE2SHORT( fabs( diff ) * 0.05f ); } } } /* ================ PmoveSingle ================ */ void trap_SnapVector( float *v ); void PmoveSingle (pmove_t *pmove) { int ammo, clips, maxclips; pm = pmove; BG_unpackAmmoArray( pm->ps->weapon, pm->ps->ammo, pm->ps->powerups, &ammo, &clips, &maxclips ); // this counter lets us debug movement problems with a journal // by setting a conditional breakpoint fot the previous frame c_pmove++; // clear results pm->numtouch = 0; pm->watertype = 0; pm->waterlevel = 0; /*if ( pm->ps->stats[STAT_HEALTH] <= 0 ) { pm->tracemask &= ~CONTENTS_BODY; // corpses can fly through bodies }*/ // make sure walking button is clear if they are running, to avoid // proxy no-footsteps cheats if( abs( pm->cmd.forwardmove ) > 64 || abs( pm->cmd.rightmove ) > 64 ) pm->cmd.buttons &= ~BUTTON_WALKING; // set the talk balloon flag if( pm->cmd.buttons & BUTTON_TALK ) pm->ps->eFlags |= EF_TALK; else pm->ps->eFlags &= ~EF_TALK; // set the firing flag for continuous beam weapons if( !(pm->ps->pm_flags & PMF_RESPAWNED) && pm->ps->pm_type != PM_INTERMISSION && ( pm->cmd.buttons & BUTTON_ATTACK ) && ( ( ammo > 0 || clips > 0 ) || BG_FindInfinteAmmoForWeapon( pm->ps->weapon ) ) ) pm->ps->eFlags |= EF_FIRING; else pm->ps->eFlags &= ~EF_FIRING; // set the firing flag for continuous beam weapons if( !(pm->ps->pm_flags & PMF_RESPAWNED) && pm->ps->pm_type != PM_INTERMISSION && ( pm->cmd.buttons & BUTTON_ATTACK2 ) && ( ( ammo > 0 || clips > 0 ) || BG_FindInfinteAmmoForWeapon( pm->ps->weapon ) ) ) pm->ps->eFlags |= EF_FIRING2; else pm->ps->eFlags &= ~EF_FIRING2; // set the firing flag for continuous beam weapons if( !(pm->ps->pm_flags & PMF_RESPAWNED) && pm->ps->pm_type != PM_INTERMISSION && ( pm->cmd.buttons & BUTTON_USE_HOLDABLE ) && ( ( ammo > 0 || clips > 0 ) || BG_FindInfinteAmmoForWeapon( pm->ps->weapon ) ) ) pm->ps->eFlags |= EF_FIRING3; else pm->ps->eFlags &= ~EF_FIRING3; // clear the respawned flag if attack and use are cleared if( pm->ps->stats[STAT_HEALTH] > 0 && !( pm->cmd.buttons & ( BUTTON_ATTACK | BUTTON_USE_HOLDABLE ) ) ) pm->ps->pm_flags &= ~PMF_RESPAWNED; // if talk button is down, dissallow all other input // this is to prevent any possible intercept proxy from // adding fake talk balloons if( pmove->cmd.buttons & BUTTON_TALK ) { pmove->cmd.buttons = BUTTON_TALK; pmove->cmd.forwardmove = 0; pmove->cmd.rightmove = 0; pmove->cmd.upmove = 0; } // clear all pmove local vars memset( &pml, 0, sizeof( pml ) ); // determine the time pml.msec = pmove->cmd.serverTime - pm->ps->commandTime; if( pml.msec < 1 ) pml.msec = 1; else if( pml.msec > 200 ) pml.msec = 200; pm->ps->commandTime = pmove->cmd.serverTime; // save old org in case we get stuck VectorCopy( pm->ps->origin, pml.previous_origin ); // save old velocity for crashlanding VectorCopy( pm->ps->velocity, pml.previous_velocity ); pml.frametime = pml.msec * 0.001; AngleVectors( pm->ps->viewangles, pml.forward, pml.right, pml.up ); if( pm->cmd.upmove < 10 ) { // not holding jump pm->ps->pm_flags &= ~PMF_JUMP_HELD; } // decide if backpedaling animations should be used if( pm->cmd.forwardmove < 0 ) pm->ps->pm_flags |= PMF_BACKWARDS_RUN; else if( pm->cmd.forwardmove > 0 || ( pm->cmd.forwardmove == 0 && pm->cmd.rightmove ) ) pm->ps->pm_flags &= ~PMF_BACKWARDS_RUN; if ( pm->ps->pm_type >= PM_DEAD ) { pm->cmd.forwardmove = 0; pm->cmd.rightmove = 0; pm->cmd.upmove = 0; } if( pm->ps->pm_type == PM_SPECTATOR ) { // update the viewangles PM_UpdateViewAngles( pm->ps, &pm->cmd ); PM_CheckDuck( ); PM_FlyMove( ); PM_DropTimers( ); return; } if( pm->ps->pm_type == PM_NOCLIP ) { PM_NoclipMove( ); PM_DropTimers( ); return; } if( pm->ps->pm_type == PM_FREEZE) return; // no movement at all if( pm->ps->pm_type == PM_INTERMISSION || pm->ps->pm_type == PM_SPINTERMISSION ) return; // no movement at all // set watertype, and waterlevel PM_SetWaterLevel( ); pml.previous_waterlevel = pmove->waterlevel; // set mins, maxs, and viewheight PM_CheckDuck( ); // set groundentity PM_GroundTrace( ); // update the viewangles PM_UpdateViewAngles( pm->ps, &pm->cmd ); if ( pm->ps->pm_type == PM_DEAD || pm->ps->pm_type == PM_GRABBED ) PM_DeadMove( ); PM_DropTimers( ); if( BG_gotItem( UP_JETPACK, pm->ps->stats ) && BG_activated( UP_JETPACK, pm->ps->stats ) ) PM_JetPackMove( ); else if( pm->ps->pm_flags & PMF_GRAPPLE_PULL ) { PM_GrappleMove( ); // We can wiggle a bit PM_AirMove( ); } else if( pm->ps->pm_flags & PMF_TIME_WATERJUMP ) PM_WaterJumpMove( ); else if ( pm->waterlevel > 1 ) PM_WaterMove( ); else if ( pml.walking ) { if( BG_ClassHasAbility( pm->ps->stats[ STAT_PCLASS ], SCA_WALLCLIMBER ) && ( pm->ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) ) PM_ClimbMove( ); //TA: walking on any surface else PM_WalkMove( ); // walking on ground } else PM_AirMove( ); PM_Animate( ); // set groundentity, watertype, and waterlevel PM_GroundTrace( ); //TA: must update after every GroundTrace() - yet more clock cycles down the drain :( (14 vec rotations/frame) // update the viewangles PM_UpdateViewAngles( pm->ps, &pm->cmd ); PM_SetWaterLevel( ); // weapons PM_Weapon( ); // torso animation PM_TorsoAnimation( ); // footstep events / legs animations PM_Footsteps( ); // entering / leaving water splashes PM_WaterEvents( ); // snap some parts of playerstate to save network bandwidth trap_SnapVector( pm->ps->velocity ); } /* ================ Pmove Can be called by either the server or the client ================ */ void Pmove( pmove_t *pmove ) { int finalTime; finalTime = pmove->cmd.serverTime; if( finalTime < pmove->ps->commandTime ) return; // should not happen if( finalTime > pmove->ps->commandTime + 1000 ) pmove->ps->commandTime = finalTime - 1000; pmove->ps->pmove_framecount = ( pmove->ps->pmove_framecount + 1 ) & ( ( 1 << PS_PMOVEFRAMECOUNTBITS ) - 1 ); // chop the move up if it is too long, to prevent framerate // dependent behavior while( pmove->ps->commandTime != finalTime ) { int msec; msec = finalTime - pmove->ps->commandTime; if( pmove->pmove_fixed ) { if( msec > pmove->pmove_msec ) msec = pmove->pmove_msec; } else { if( msec > 66 ) msec = 66; } pmove->cmd.serverTime = pmove->ps->commandTime + msec; PmoveSingle( pmove ); if( pmove->ps->pm_flags & PMF_JUMP_HELD ) pmove->cmd.upmove = 20; } }