/* * 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 "cg_local.h" char *cg_buildableSoundNames[ MAX_BUILDABLE_ANIMATIONS ] = { "construct1.wav", "construct2.wav", "idle1.wav", "idle2.wav", "idle3.wav", "attack1.wav", "attack2.wav", "spawn1.wav", "spawn2.wav", "pain1.wav", "pain2.wav", "destroy1.wav", "destroy2.wav", "destroyed.wav" }; sfxHandle_t defaultAlienSounds[ MAX_BUILDABLE_ANIMATIONS ]; sfxHandle_t defaultHumanSounds[ MAX_BUILDABLE_ANIMATIONS ]; /* ====================== CG_ParseBuildableAnimationFile Read a configuration file containing animation counts and rates models/buildables/hivemind/animation.cfg, etc ====================== */ static qboolean CG_ParseBuildableAnimationFile( const char *filename, buildable_t buildable ) { char *text_p, *prev; int len; int i; char *token; float fps; char text[ 20000 ]; fileHandle_t f; animation_t *animations; animations = cg_buildables[ buildable ].animations; // load the file len = trap_FS_FOpenFile( filename, &f, FS_READ ); if ( len <= 0 ) return qfalse; if ( len >= sizeof( text ) - 1 ) { CG_Printf( "File %s too long\n", filename ); return qfalse; } trap_FS_Read( text, len, f ); text[len] = 0; trap_FS_FCloseFile( f ); // parse the text text_p = text; // read information for each frame for( i = BANIM_NONE + 1; i < MAX_BUILDABLE_ANIMATIONS; i++ ) { token = COM_Parse( &text_p ); if ( !*token ) break; animations[ i ].firstFrame = atoi( token ); token = COM_Parse( &text_p ); if ( !*token ) break; animations[ i ].numFrames = atoi( token ); animations[ i ].reversed = qfalse; animations[ i ].flipflop = qfalse; // if numFrames is negative the animation is reversed if ( animations[ i ].numFrames < 0 ) { animations[ i ].numFrames = -animations[ i ].numFrames; animations[ i ].reversed = qtrue; } token = COM_Parse( &text_p ); if ( !*token ) break; animations[i].loopFrames = atoi( token ); token = COM_Parse( &text_p ); if ( !*token ) break; fps = atof( token ); if ( fps == 0 ) fps = 1; animations[ i ].frameLerp = 1000 / fps; animations[ i ].initialLerp = 1000 / fps; } if( i != MAX_BUILDABLE_ANIMATIONS ) { CG_Printf( "Error parsing animation file: %s\n", filename ); return qfalse; } return qtrue; } /* ====================== CG_ParseBuildableSoundFile Read a configuration file containing sound properties sound/buildables/hivemind/sound.cfg, etc ====================== */ static qboolean CG_ParseBuildableSoundFile( const char *filename, buildable_t buildable ) { char *text_p, *prev; int len; int i; char *token; char text[ 20000 ]; fileHandle_t f; sound_t *sounds; sounds = cg_buildables[ buildable ].sounds; // load the file len = trap_FS_FOpenFile( filename, &f, FS_READ ); if ( len <= 0 ) return qfalse; if ( len >= sizeof( text ) - 1 ) { CG_Printf( "File %s too long\n", filename ); return qfalse; } trap_FS_Read( text, len, f ); text[len] = 0; trap_FS_FCloseFile( f ); // parse the text text_p = text; // read information for each frame for( i = BANIM_NONE + 1; i < MAX_BUILDABLE_ANIMATIONS; i++ ) { token = COM_Parse( &text_p ); if ( !*token ) break; sounds[ i ].enabled = atoi( token ); token = COM_Parse( &text_p ); if ( !*token ) break; sounds[ i ].looped = atoi( token ); } if( i != MAX_BUILDABLE_ANIMATIONS ) { CG_Printf( "Error parsing sound file: %s\n", filename ); return qfalse; } return qtrue; } /* =============== CG_InitBuildables Initialises the animation db =============== */ void CG_InitBuildables( ) { char filename[ MAX_QPATH ]; char soundfile[ MAX_QPATH ]; char *buildableName; char *modelFile; int i; int j; fileHandle_t f; memset( cg_buildables, 0, sizeof( cg_buildables ) ); //default sounds for( j = BANIM_NONE + 1; j < MAX_BUILDABLE_ANIMATIONS; j++ ) { strcpy( soundfile, cg_buildableSoundNames[ j - 1 ] ); Com_sprintf( filename, sizeof( filename ), "sound/buildables/alien/%s", soundfile ); defaultAlienSounds[ j ] = trap_S_RegisterSound( filename, qfalse ); Com_sprintf( filename, sizeof( filename ), "sound/buildables/human/%s", soundfile ); defaultHumanSounds[ j ] = trap_S_RegisterSound( filename, qfalse ); } for( i = BA_NONE + 1; i < BA_NUM_BUILDABLES; i++ ) { buildableName = BG_FindNameForBuildable( i ); //animation.cfg Com_sprintf( filename, sizeof( filename ), "models/buildables/%s/animation.cfg", buildableName ); if ( !CG_ParseBuildableAnimationFile( filename, i ) ) Com_Printf( "Failed to load animation file %s\n", filename ); //sound.cfg Com_sprintf( filename, sizeof( filename ), "sound/buildables/%s/sound.cfg", buildableName ); if ( !CG_ParseBuildableSoundFile( filename, i ) ) Com_Printf( "Failed to load sound file %s\n", filename ); //models for( j = 0; j <= 3; j++ ) { if( modelFile = BG_FindModelsForBuildable( i, j ) ) cg_buildables[ i ].models[ j ] = trap_R_RegisterModel( modelFile ); } //sounds for( j = BANIM_NONE + 1; j < MAX_BUILDABLE_ANIMATIONS; j++ ) { strcpy( soundfile, cg_buildableSoundNames[ j - 1 ] ); Com_sprintf( filename, sizeof( filename ), "sound/buildables/%s/%s", buildableName, soundfile ); if( cg_buildables[ i ].sounds[ j ].enabled ) { if( trap_FS_FOpenFile( filename, &f, FS_READ ) > 0 ) { //file exists so close it trap_FS_FCloseFile( f ); cg_buildables[ i ].sounds[ j ].sound = trap_S_RegisterSound( filename, qfalse ); } else { //file doesn't exist - use default if( BG_FindTeamForBuildable( i ) == BIT_ALIENS ) cg_buildables[ i ].sounds[ j ].sound = defaultAlienSounds[ j ]; else cg_buildables[ i ].sounds[ j ].sound = defaultHumanSounds[ j ]; } } } } } /* =============== CG_SetBuildableLerpFrameAnimation may include ANIM_TOGGLEBIT =============== */ static void CG_SetBuildableLerpFrameAnimation( buildable_t buildable, lerpFrame_t *lf, int newAnimation ) { animation_t *anim; lf->animationNumber = newAnimation; newAnimation &= ~ANIM_TOGGLEBIT; if( newAnimation < 0 || newAnimation >= MAX_BUILDABLE_ANIMATIONS ) CG_Error( "Bad animation number: %i", newAnimation ); anim = &cg_buildables[ buildable ].animations[ newAnimation ]; //this item has just spawned so lf->frameTime will be zero if( !lf->animation ) lf->frameTime = cg.time + 1000; //1 sec delay before starting the spawn anim lf->animation = anim; lf->animationTime = lf->frameTime + anim->initialLerp; if( cg_debugAnim.integer ) CG_Printf( "Anim: %i\n", newAnimation ); } /* =============== CG_RunBuildableLerpFrame Sets cg.snap, cg.oldFrame, and cg.backlerp cg.time should be between oldFrameTime and frameTime after exit =============== */ static void CG_RunBuildableLerpFrame( centity_t *cent ) { int f, numFrames; buildable_t buildable = cent->currentState.modelindex; lerpFrame_t *lf = ¢->lerpFrame; animation_t *anim; buildableAnimNumber_t newAnimation = cent->buildableAnim; // debugging tool to get no animations if( cg_animSpeed.integer == 0 ) { lf->oldFrame = lf->frame = lf->backlerp = 0; return; } // see if the animation sequence is switching if( newAnimation != lf->animationNumber || !lf->animation ) { CG_SetBuildableLerpFrameAnimation( buildable, lf, newAnimation ); if( !cg_buildables[ buildable ].sounds[ newAnimation ].looped && cg_buildables[ buildable ].sounds[ newAnimation ].enabled ) trap_S_StartSound( cent->lerpOrigin, cent->currentState.number, CHAN_AUTO, cg_buildables[ buildable ].sounds[ newAnimation ].sound ); } if( cg_buildables[ buildable ].sounds[ lf->animationNumber ].looped && cg_buildables[ buildable ].sounds[ lf->animationNumber ].enabled ) trap_S_AddLoopingSound( cent->currentState.number, cent->lerpOrigin, vec3_origin, cg_buildables[ buildable ].sounds[ lf->animationNumber ].sound ); // if we have passed the current frame, move it to // oldFrame and calculate a new frame if( cg.time >= lf->frameTime ) { lf->oldFrame = lf->frame; lf->oldFrameTime = lf->frameTime; // get the next frame based on the animation anim = lf->animation; if( !anim->frameLerp ) return; // shouldn't happen if ( cg.time < lf->animationTime ) lf->frameTime = lf->animationTime; // initial lerp else lf->frameTime = lf->oldFrameTime + anim->frameLerp; f = ( lf->frameTime - lf->animationTime ) / anim->frameLerp; numFrames = anim->numFrames; if(anim->flipflop) numFrames *= 2; if( f >= numFrames ) { f -= numFrames; if( anim->loopFrames ) { f %= anim->loopFrames; f += anim->numFrames - anim->loopFrames; } else { f = numFrames - 1; // the animation is stuck at the end, so it // can immediately transition to another sequence lf->frameTime = cg.time; cent->buildableAnim = cent->currentState.torsoAnim; } } if( anim->reversed ) lf->frame = anim->firstFrame + anim->numFrames - 1 - f; else if(anim->flipflop && f>=anim->numFrames) lf->frame = anim->firstFrame + anim->numFrames - 1 - (f%anim->numFrames); else lf->frame = anim->firstFrame + f; if ( cg.time > lf->frameTime ) { lf->frameTime = cg.time; if( cg_debugAnim.integer ) CG_Printf( "Clamp lf->frameTime\n"); } } if( lf->frameTime > cg.time + 200 ) lf->frameTime = cg.time; if( lf->oldFrameTime > cg.time ) lf->oldFrameTime = cg.time; // calculate current lerp value if ( lf->frameTime == lf->oldFrameTime ) lf->backlerp = 0; else lf->backlerp = 1.0 - (float)( cg.time - lf->oldFrameTime ) / ( lf->frameTime - lf->oldFrameTime ); } /* =============== CG_BuildableAnimation =============== */ static void CG_BuildableAnimation( centity_t *cent, int *old, int *now, float *backLerp ) { //if no animation is set default to idle anim if( cent->buildableAnim == BANIM_NONE ) cent->buildableAnim = cent->currentState.torsoAnim; CG_RunBuildableLerpFrame( cent ); *old = cent->lerpFrame.oldFrame; *now = cent->lerpFrame.frame; *backLerp = cent->lerpFrame.backlerp; } #define TRACE_DEPTH 128.0f /* ================== CG_GhostBuildable ================== */ void CG_GhostBuildable( buildable_t buildable ) { refEntity_t ent; playerState_t *ps; vec3_t angles, forward, player_origin, entity_origin, target_origin, normal, cross; vec3_t mins, maxs, start, end; float distance; trace_t tr; ps = &cg.predictedPlayerState; memset ( &ent, 0, sizeof( ent ) ); if( cg.predictedPlayerState.stats[ STAT_STATE ] & SS_WALLCLIMBING ) { if( cg.predictedPlayerState.stats[ STAT_STATE ] & SS_WALLCLIMBINGCEILING ) VectorSet( normal, 0.0f, 0.0f, -1.0f ); else VectorCopy( cg.predictedPlayerState.grapplePoint, normal ); } else VectorSet( normal, 0.0f, 0.0f, 1.0f ); VectorCopy( cg.predictedPlayerState.viewangles, angles ); AngleVectors( angles, forward, NULL, NULL ); CrossProduct( forward, normal, cross ); VectorNormalize( cross ); CrossProduct( normal, cross, forward ); VectorNormalize( forward ); VectorCopy( ps->origin, player_origin ); distance = BG_FindBuildDistForClass( ps->stats[ STAT_PCLASS ] ); VectorMA( player_origin, distance, forward, entity_origin ); VectorCopy( entity_origin, target_origin ); VectorMA( entity_origin, 32, normal, entity_origin ); VectorMA( target_origin, -128, normal, target_origin ); BG_FindBBoxForBuildable( buildable, mins, maxs ); CG_Trace( &tr, entity_origin, mins, maxs, target_origin, ps->clientNum, MASK_PLAYERSOLID ); VectorCopy( tr.endpos, entity_origin ); VectorMA( entity_origin, 0.1f, normal, entity_origin ); AngleVectors( angles, forward, NULL, NULL ); VectorCopy( tr.plane.normal, ent.axis[ 2 ] ); ProjectPointOnPlane( ent.axis[ 0 ], forward, ent.axis[ 2 ] ); if( !VectorNormalize( ent.axis[ 0 ] ) ) { AngleVectors( angles, NULL, NULL, forward ); ProjectPointOnPlane( ent.axis[ 0 ], forward, ent.axis[ 2 ] ); VectorNormalize( ent.axis[ 0 ] ); } CrossProduct( ent.axis[ 0 ], ent.axis[ 2 ], ent.axis[ 1 ] ); ent.axis[ 1 ][ 0 ] = -ent.axis[ 1 ][ 0 ]; ent.axis[ 1 ][ 1 ] = -ent.axis[ 1 ][ 1 ]; ent.axis[ 1 ][ 2 ] = -ent.axis[ 1 ][ 2 ]; VectorMA( entity_origin, -TRACE_DEPTH, tr.plane.normal, end ); VectorMA( entity_origin, 1.0f, tr.plane.normal, start ); CG_CapTrace( &tr, start, mins, maxs, end, ps->clientNum, MASK_PLAYERSOLID ); VectorMA( entity_origin, tr.fraction * -TRACE_DEPTH, tr.plane.normal, ent.origin ); VectorCopy( ent.origin, ent.lightingOrigin ); VectorCopy( ent.origin, ent.oldorigin ); // don't positionally lerp at all ent.hModel = cg_buildables[ buildable ].models[ 0 ]; if( ps->stats[ STAT_BUILDABLE ] & SB_VALID_TOGGLEBIT ) ent.customShader = cgs.media.greenBuildShader; else ent.customShader = cgs.media.redBuildShader; ent.nonNormalizedAxes = qfalse; // add to refresh list trap_R_AddRefEntityToScene( &ent ); } /* ================== CG_Buildable ================== */ void CG_Buildable( centity_t *cent ) { refEntity_t ent; entityState_t *es; vec3_t angles; vec3_t forward, surfNormal, xNormal, end, start, mins, maxs; vec3_t refNormal = { 0.0f, 0.0f, 1.0f }; float rotAngle; trace_t tr; es = ¢->currentState; //add creep if( es->modelindex2 == BIT_ALIENS ) CG_Creep( cent ); // if set to invisible, skip if ( !es->modelindex || ( es->eFlags & EF_NODRAW ) ) return; memset ( &ent, 0, sizeof( ent ) ); VectorCopy( cent->lerpOrigin, ent.origin ); VectorCopy( cent->lerpOrigin, ent.oldorigin ); VectorCopy( cent->lerpOrigin, ent.lightingOrigin ); VectorCopy( es->origin2, surfNormal ); CrossProduct( surfNormal, refNormal, xNormal ); VectorNormalize( xNormal ); rotAngle = RAD2DEG( acos( DotProduct( surfNormal, refNormal ) ) ); VectorCopy( es->angles, angles ); BG_FindBBoxForBuildable( es->modelindex, mins, maxs ); AngleVectors( angles, forward, NULL, NULL ); VectorCopy( surfNormal, ent.axis[ 2 ] ); ProjectPointOnPlane( ent.axis[ 0 ], forward, ent.axis[ 2 ] ); if( !VectorNormalize( ent.axis[ 0 ] ) ) { AngleVectors( angles, NULL, NULL, forward ); ProjectPointOnPlane( ent.axis[ 0 ], forward, ent.axis[ 2 ] ); VectorNormalize( ent.axis[ 0 ] ); } CrossProduct( ent.axis[ 0 ], ent.axis[ 2 ], ent.axis[ 1 ] ); ent.axis[ 1 ][ 0 ] = -ent.axis[ 1 ][ 0 ]; ent.axis[ 1 ][ 1 ] = -ent.axis[ 1 ][ 1 ]; ent.axis[ 1 ][ 2 ] = -ent.axis[ 1 ][ 2 ]; if( es->pos.trType == TR_STATIONARY ) { VectorMA( ent.origin, -TRACE_DEPTH, surfNormal, end ); VectorMA( ent.origin, 1.0f, surfNormal, start ); CG_CapTrace( &tr, start, mins, maxs, end, es->number, MASK_PLAYERSOLID ); VectorMA( ent.origin, tr.fraction * -TRACE_DEPTH, surfNormal, ent.origin ); } VectorCopy( ent.origin, ent.oldorigin ); // don't positionally lerp at all VectorCopy( ent.origin, ent.lightingOrigin ); ent.hModel = cg_buildables[ es->modelindex ].models[ 0 ]; ent.nonNormalizedAxes = qfalse; //run animations CG_BuildableAnimation( cent, &ent.oldframe, &ent.frame, &ent.backlerp ); // add to refresh list trap_R_AddRefEntityToScene(&ent); //turret barrel bit if( cg_buildables[ es->modelindex ].models[ 1 ] ) { refEntity_t turretBarrel; vec3_t flatAxis[ 3 ]; memset( &turretBarrel, 0, sizeof( turretBarrel ) ); turretBarrel.hModel = cg_buildables[ es->modelindex ].models[ 1 ]; CG_PositionEntityOnTag( &turretBarrel, &ent, ent.hModel, "tag_turret" ); VectorCopy( cent->lerpOrigin, turretBarrel.lightingOrigin ); AnglesToAxis( es->angles2, flatAxis ); RotatePointAroundVector( turretBarrel.axis[ 0 ], xNormal, flatAxis[ 0 ], -rotAngle ); RotatePointAroundVector( turretBarrel.axis[ 1 ], xNormal, flatAxis[ 1 ], -rotAngle ); RotatePointAroundVector( turretBarrel.axis[ 2 ], xNormal, flatAxis[ 2 ], -rotAngle ); turretBarrel.oldframe = ent.oldframe; turretBarrel.frame = ent.frame; turretBarrel.backlerp = ent.backlerp; trap_R_AddRefEntityToScene( &turretBarrel ); } //turret barrel bit if( cg_buildables[ es->modelindex ].models[ 2 ] ) { refEntity_t turretTop; vec3_t flatAxis[ 3 ]; vec3_t swivelAngles; memset( &turretTop, 0, sizeof( turretTop ) ); VectorCopy( es->angles2, swivelAngles ); swivelAngles[ PITCH ] = 0.0f; turretTop.hModel = cg_buildables[ es->modelindex ].models[ 2 ]; CG_PositionRotatedEntityOnTag( &turretTop, &ent, ent.hModel, "tag_turret" ); VectorCopy( cent->lerpOrigin, turretTop.lightingOrigin ); AnglesToAxis( swivelAngles, flatAxis ); RotatePointAroundVector( turretTop.axis[ 0 ], xNormal, flatAxis[ 0 ], -rotAngle ); RotatePointAroundVector( turretTop.axis[ 1 ], xNormal, flatAxis[ 1 ], -rotAngle ); RotatePointAroundVector( turretTop.axis[ 2 ], xNormal, flatAxis[ 2 ], -rotAngle ); turretTop.oldframe = ent.oldframe; turretTop.frame = ent.frame; turretTop.backlerp = ent.backlerp; trap_R_AddRefEntityToScene( &turretTop ); } }