/* =========================================================================== Copyright (C) 2000 - 2013, Raven Software, Inc. Copyright (C) 2001 - 2013, Activision, Inc. Copyright (C) 2013 - 2015, OpenJK contributors This file is part of the OpenJK source code. OpenJK is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, see . =========================================================================== */ #include "g_headers.h" #include "b_local.h" #include "g_local.h" #include "wp_saber.h" #include "w_local.h" #include "g_functions.h" #include "bg_local.h" #include #include //--------------------- // Thermal Detonator //--------------------- //--------------------------------------------------------- void thermalDetonatorExplode( gentity_t *ent ) //--------------------------------------------------------- { if ( !ent->count ) { G_Sound( ent, G_SoundIndex( "sound/weapons/thermal/warning.wav" ) ); ent->count = 1; ent->nextthink = level.time + 800; ent->svFlags |= SVF_BROADCAST;//so everyone hears/sees the explosion? } else { vec3_t pos; VectorSet( pos, ent->currentOrigin[0], ent->currentOrigin[1], ent->currentOrigin[2] + 8 ); ent->takedamage = qfalse; // don't allow double deaths! G_RadiusDamage( ent->currentOrigin, ent->owner, weaponData[WP_THERMAL].splashDamage, weaponData[WP_THERMAL].splashRadius, NULL, MOD_EXPLOSIVE_SPLASH ); G_PlayEffect( "thermal/explosion", ent->currentOrigin ); G_PlayEffect( "thermal/shockwave", ent->currentOrigin ); G_FreeEntity( ent ); } } //------------------------------------------------------------------------------------------------------------- void thermal_die( gentity_t *self, gentity_t *inflictor, gentity_t *attacker, int damage, int mod, int dFlags, int hitLoc ) //------------------------------------------------------------------------------------------------------------- { thermalDetonatorExplode( self ); } //--------------------------------------------------------- qboolean WP_LobFire( gentity_t *self, vec3_t start, vec3_t target, vec3_t mins, vec3_t maxs, int clipmask, vec3_t velocity, qboolean tracePath, int ignoreEntNum, int enemyNum, float minSpeed, float maxSpeed, float idealSpeed, qboolean mustHit ) //--------------------------------------------------------- { float targetDist, shotSpeed, speedInc = 100, travelTime, impactDist, bestImpactDist = Q3_INFINITE;//fireSpeed, vec3_t targetDir, shotVel, failCase = { 0.0f }; trace_t trace; trajectory_t tr; qboolean blocked; int elapsedTime, skipNum, timeStep = 500, hitCount = 0, maxHits = 7; vec3_t lastPos, testPos; gentity_t *traceEnt; if ( !idealSpeed ) { idealSpeed = 300; } else if ( idealSpeed < speedInc ) { idealSpeed = speedInc; } shotSpeed = idealSpeed; skipNum = (idealSpeed-speedInc)/speedInc; if ( !minSpeed ) { minSpeed = 100; } if ( !maxSpeed ) { maxSpeed = 900; } while ( hitCount < maxHits ) { VectorSubtract( target, start, targetDir ); targetDist = VectorNormalize( targetDir ); VectorScale( targetDir, shotSpeed, shotVel ); travelTime = targetDist/shotSpeed; shotVel[2] += travelTime * 0.5 * g_gravity->value; if ( !hitCount ) {//save the first (ideal) one as the failCase (fallback value) if ( !mustHit ) {//default is fine as a return value VectorCopy( shotVel, failCase ); } } if ( tracePath ) {//do a rough trace of the path blocked = qfalse; VectorCopy( start, tr.trBase ); VectorCopy( shotVel, tr.trDelta ); tr.trType = TR_GRAVITY; tr.trTime = level.time; travelTime *= 1000.0f; VectorCopy( start, lastPos ); //This may be kind of wasteful, especially on long throws... use larger steps? Divide the travelTime into a certain hard number of slices? Trace just to apex and down? for ( elapsedTime = timeStep; elapsedTime < floor(travelTime)+timeStep; elapsedTime += timeStep ) { if ( (float)elapsedTime > travelTime ) {//cap it elapsedTime = floor( travelTime ); } EvaluateTrajectory( &tr, level.time + elapsedTime, testPos ); gi.trace( &trace, lastPos, mins, maxs, testPos, ignoreEntNum, clipmask, G2_NOCOLLIDE, 0 ); if ( trace.allsolid || trace.startsolid ) { blocked = qtrue; break; } if ( trace.fraction < 1.0f ) {//hit something if ( trace.entityNum == enemyNum ) {//hit the enemy, that's perfect! break; } else if ( trace.plane.normal[2] > 0.7 && DistanceSquared( trace.endpos, target ) < 4096 )//hit within 64 of desired location, should be okay {//close enough! break; } else {//FIXME: maybe find the extents of this brush and go above or below it on next try somehow? impactDist = DistanceSquared( trace.endpos, target ); if ( impactDist < bestImpactDist ) { bestImpactDist = impactDist; VectorCopy( shotVel, failCase ); } blocked = qtrue; //see if we should store this as the failCase if ( trace.entityNum < ENTITYNUM_WORLD ) {//hit an ent traceEnt = &g_entities[trace.entityNum]; if ( traceEnt && traceEnt->takedamage && !OnSameTeam( self, traceEnt ) ) {//hit something breakable, so that's okay //we haven't found a clear shot yet so use this as the failcase VectorCopy( shotVel, failCase ); } } break; } } if ( elapsedTime == floor( travelTime ) ) {//reached end, all clear break; } else { //all clear, try next slice VectorCopy( testPos, lastPos ); } } if ( blocked ) {//hit something, adjust speed (which will change arc) hitCount++; shotSpeed = idealSpeed + ((hitCount-skipNum) * speedInc);//from min to max (skipping ideal) if ( hitCount >= skipNum ) {//skip ideal since that was the first value we tested shotSpeed += speedInc; } } else {//made it! break; } } else {//no need to check the path, go with first calc break; } } if ( hitCount >= maxHits ) {//NOTE: worst case scenario, use the one that impacted closest to the target (or just use the first try...?) VectorCopy( failCase, velocity ); return qfalse; } VectorCopy( shotVel, velocity ); return qtrue; } //--------------------------------------------------------- void WP_ThermalThink( gentity_t *ent ) //--------------------------------------------------------- { int count; qboolean blow = qfalse; // Thermal detonators for the player do occasional radius checks and blow up if there are entities in the blast radius // This is done so that the main fire is actually useful as an attack. We explode anyway after delay expires. if ( ent->delay > level.time ) { // Finally, we force it to bounce at least once before doing the special checks, otherwise it's just too easy for the player? if ( ent->has_bounced ) { count = G_RadiusList( ent->currentOrigin, TD_TEST_RAD, ent, qtrue, ent_list ); for ( int i = 0; i < count; i++ ) { if ( ent_list[i]->s.number == 0 ) { // avoid deliberately blowing up next to the player, no matter how close any enemy is.. // ...if the delay time expires though, there is no saving the player...muwhaaa haa ha blow = qfalse; break; } else if ( ent_list[i]->client && ent_list[i]->health > 0 ) { // sometimes the ent_list order changes, so we should make sure that the player isn't anywhere in this list blow = qtrue; } } } } else { // our death time has arrived, even if nothing is near us blow = qtrue; } if ( blow ) { ent->e_ThinkFunc = thinkF_thermalDetonatorExplode; ent->nextthink = level.time + 50; } else { // we probably don't need to do this thinking logic very often...maybe this is fast enough? ent->nextthink = level.time + TD_THINK_TIME; } } #define OLDEST_READING 5 #define NEWEST_READING 2 #define TD_REAL_THROW_VEL_MULT 4.4f //--------------------------------------------------------- gentity_t *WP_FireThermalDetonator( gentity_t *ent, qboolean alt_fire ) //--------------------------------------------------------- { gentity_t *bolt; vec3_t dir, start; float damageScale = 1.0f; bolt = G_Spawn(); bool realThrow = false; if ( ent->client && !ent->NPC && ent->client->ps.clientNum == 0) { vec3_t angs; BG_CalculateVRWeaponPosition(start, angs); //Caclulate speed between two controller position readings float distance = VectorDistance(vr->weaponoffset_history[NEWEST_READING], vr->weaponoffset_history[OLDEST_READING]); float t = vr->weaponoffset_history_timestamp[NEWEST_READING] - vr->weaponoffset_history_timestamp[OLDEST_READING]; float velocity = distance / (t/(float)1000.0); //Calculate trajectory VectorSubtract(vr->weaponoffset_history[NEWEST_READING], vr->weaponoffset_history[OLDEST_READING], dir); VectorNormalize( dir ); BG_ConvertFromVR(dir, NULL, dir); VectorScale( dir, velocity * TD_REAL_THROW_VEL_MULT, bolt->s.pos.trDelta ); realThrow = true; } else { VectorCopy( wpFwd, dir ); VectorCopy( wpMuzzle, start ); } bolt->classname = "thermal_detonator"; if ( ent->s.number != 0 ) { // If not the player, cut the damage a bit so we don't get pounded on so much damageScale = TD_NPC_DAMAGE_CUT; } if ( !alt_fire && ent->s.number == 0 ) { // Main fires for the players do a little bit of extra thinking bolt->e_ThinkFunc = thinkF_WP_ThermalThink; bolt->nextthink = level.time + TD_THINK_TIME; bolt->delay = level.time + TD_TIME; // How long 'til she blows } else { bolt->e_ThinkFunc = thinkF_thermalDetonatorExplode; bolt->nextthink = level.time + TD_TIME; // How long 'til she blows } bolt->mass = 10; // How 'bout we give this thing a size... VectorSet( bolt->mins, -4.0f, -4.0f, -4.0f ); VectorSet( bolt->maxs, 4.0f, 4.0f, 4.0f ); bolt->clipmask = MASK_SHOT; bolt->clipmask &= ~CONTENTS_CORPSE; bolt->contents = CONTENTS_SHOTCLIP; bolt->takedamage = qtrue; bolt->health = 15; bolt->e_DieFunc = dieF_thermal_die; WP_TraceSetStart( ent, start, bolt->mins, bolt->maxs );//make sure our start point isn't on the other side of a wall float chargeAmount = 1.0f; // default of full charge if ( ent->client ) { chargeAmount = level.time - ent->client->ps.weaponChargeTime; } // get charge amount chargeAmount = chargeAmount / (float)TD_VELOCITY; if ( chargeAmount > 1.0f ) { chargeAmount = 1.0f; } else if ( chargeAmount < TD_MIN_CHARGE ) { chargeAmount = TD_MIN_CHARGE; } // normal ones bounce, alt ones explode on impact bolt->s.pos.trType = TR_GRAVITY; bolt->owner = ent; if (!realThrow) { VectorScale(dir, TD_VELOCITY * chargeAmount, bolt->s.pos.trDelta); } if ( ent->health > 0 ) { if (!realThrow) { bolt->s.pos.trDelta[2] += 120; } if ( ent->NPC && ent->enemy ) {//FIXME: we're assuming he's actually facing this direction... vec3_t target; VectorCopy( ent->enemy->currentOrigin, target ); if ( target[2] <= start[2] ) { vec3_t vec; VectorSubtract( target, start, vec ); VectorNormalize( vec ); VectorMA( target, Q_flrand( 0, -32 ), vec, target );//throw a little short } target[0] += Q_flrand( -5, 5 )+(Q_flrand(-1.0f, 1.0f)*(6-ent->NPC->currentAim)*2); target[1] += Q_flrand( -5, 5 )+(Q_flrand(-1.0f, 1.0f)*(6-ent->NPC->currentAim)*2); target[2] += Q_flrand( -5, 5 )+(Q_flrand(-1.0f, 1.0f)*(6-ent->NPC->currentAim)*2); WP_LobFire( ent, start, target, bolt->mins, bolt->maxs, bolt->clipmask, bolt->s.pos.trDelta, qtrue, ent->s.number, ent->enemy->s.number ); } } if ( alt_fire ) { bolt->alt_fire = qtrue; } else { bolt->s.eFlags |= EF_BOUNCE_HALF; } bolt->s.loopSound = G_SoundIndex( "sound/weapons/thermal/thermloop.wav" ); bolt->damage = weaponData[WP_THERMAL].damage * damageScale; bolt->dflags = 0; bolt->splashDamage = weaponData[WP_THERMAL].splashDamage * damageScale; bolt->splashRadius = weaponData[WP_THERMAL].splashRadius; bolt->s.eType = ET_MISSILE; bolt->svFlags = SVF_USE_CURRENT_ORIGIN; bolt->s.weapon = WP_THERMAL; if ( alt_fire ) { bolt->methodOfDeath = MOD_THERMAL_ALT; bolt->splashMethodOfDeath = MOD_THERMAL_ALT;//? SPLASH; } else { bolt->methodOfDeath = MOD_THERMAL; bolt->splashMethodOfDeath = MOD_THERMAL;//? SPLASH; } bolt->s.pos.trTime = level.time; // move a bit on the very first frame VectorCopy( start, bolt->s.pos.trBase ); SnapVector( bolt->s.pos.trDelta ); // save net bandwidth VectorCopy (start, bolt->currentOrigin); VectorCopy( start, bolt->pos2 ); return bolt; } //--------------------------------------------------------- gentity_t *WP_DropThermal( gentity_t *ent ) //--------------------------------------------------------- { AngleVectors( ent->client->ps.viewangles, wpFwd, wpVright, wpUp ); CalcEntitySpot( ent, SPOT_WEAPON, wpMuzzle ); return (WP_FireThermalDetonator( ent, qfalse )); }