diff options
Diffstat (limited to 'scene')
-rw-r--r-- | scene/animation/animation_tree_player.cpp | 170 | ||||
-rw-r--r-- | scene/animation/animation_tree_player.h | 5 |
2 files changed, 124 insertions, 51 deletions
diff --git a/scene/animation/animation_tree_player.cpp b/scene/animation/animation_tree_player.cpp index 628edf09de..9488ae37a8 100644 --- a/scene/animation/animation_tree_player.cpp +++ b/scene/animation/animation_tree_player.cpp @@ -445,8 +445,44 @@ void AnimationTreePlayer::_notification(int p_what) { } +void AnimationTreePlayer::_compute_weights(float *p_fallback_weight, HashMap<NodePath,float> *p_weights, float p_coeff, const HashMap<NodePath,bool> *p_filter, float p_filtered_coeff) { -float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode **r_prev_anim,float p_weight, float p_time, bool p_seek,const HashMap<NodePath,bool> *p_filter, float p_reverse_weight) { + if (p_filter != NULL) { + + List<NodePath> key_list; + p_filter->get_key_list(&key_list); + + for (List<NodePath>::Element *E = key_list.front();E; E=E->next()) { + + if ((*p_filter)[E->get()]) { + + if (p_weights->has(E->get())) { + (*p_weights)[E->get()] *= p_filtered_coeff; + } else { + p_weights->set(E->get(), *p_fallback_weight * p_filtered_coeff); + } + + } else if (p_weights->has(E->get())) { + (*p_weights)[E->get()] *= p_coeff; + } + } + } + + List<NodePath> key_list; + p_weights->get_key_list(&key_list); + + for (List<NodePath>::Element *E = key_list.front();E;E=E->next()) { + if (p_filter == NULL || !p_filter->has(E->get())) { + (*p_weights)[E->get()] *= p_coeff; + } + } + + *p_fallback_weight *= p_coeff; + +} + + +float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode **r_prev_anim, float p_time, bool p_seek, float p_fallback_weight, HashMap<NodePath,float>* p_weights) { ERR_FAIL_COND_V(!node_map.has(p_node), 0); NodeBase *nb=node_map[p_node]; @@ -458,7 +494,16 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode case NODE_OUTPUT: { NodeOut *on = static_cast<NodeOut*>(nb); - return _process_node(on->inputs[0].node,r_prev_anim,p_weight,p_time,p_seek); + + for(TrackMap::Element *E=track_map.front();E;E=E->next()) { + E->get().total_weight = 0; + } + + HashMap<NodePath, float> weights; + + + + return _process_node(on->inputs[0].node,r_prev_anim,p_time,p_seek, p_fallback_weight, &weights); } break; case NODE_ANIMATION: { @@ -494,15 +539,21 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode } an->skip=true; + for (List<AnimationNode::TrackRef>::Element *E=an->tref.front();E;E=E->next()) { NodePath track_path = an->animation->track_get_path(E->get().local_track); - if (p_filter && p_filter->has(track_path)) { - E->get().weight = MAX(0, p_reverse_weight); - } else if(an->filter.has(track_path)) { + if (an->filter.has(track_path) && an->filter[track_path]) { E->get().weight = 0; - E->get().track->skip = true; + E->get().track->total_weight += p_fallback_weight; } else { - E->get().weight=p_weight; + if (p_weights->has(track_path)) { + float weight = (*p_weights)[track_path]; + E->get().weight = weight; + E->get().track->total_weight += weight; + } else { + E->get().weight = p_fallback_weight; + E->get().track->total_weight += p_fallback_weight; + } } if (E->get().weight>CMP_EPSILON) an->skip=false; @@ -531,7 +582,7 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode if (!osn->active) { //make it as if this node doesn't exist, pass input 0 by. - return _process_node(osn->inputs[0].node,r_prev_anim,p_weight,p_time,p_seek,p_filter,p_reverse_weight); + return _process_node(osn->inputs[0].node,r_prev_anim,p_time,p_seek, p_fallback_weight, p_weights); } float os_seek = p_seek; @@ -563,16 +614,14 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode float main_rem; float os_rem; - float os_reverse_weight = p_reverse_weight; - if (!osn->filter.empty()) { - p_filter = &osn->filter; - p_reverse_weight = p_weight; - os_reverse_weight = -1; - } + HashMap<NodePath, float> os_weights(*p_weights); + float os_fallback_weight = p_fallback_weight; + _compute_weights(&p_fallback_weight, p_weights, osn->mix?1.0 : 1.0 - blend, &osn->filter, 1.0); + _compute_weights(&os_fallback_weight, &os_weights, blend, &osn->filter, 0.0); - main_rem = _process_node(osn->inputs[0].node,r_prev_anim,(osn->mix?p_weight:p_weight*(1.0-blend)),p_time,p_seek,p_filter,p_reverse_weight); - os_rem = _process_node(osn->inputs[1].node,r_prev_anim,p_weight*blend,p_time,os_seek,p_filter,os_reverse_weight); + main_rem = _process_node(osn->inputs[0].node,r_prev_anim,p_time,p_seek, p_fallback_weight, p_weights); + os_rem = _process_node(osn->inputs[1].node,r_prev_anim,p_time,os_seek, os_fallback_weight, &os_weights); if (osn->start) { osn->remaining=os_rem; @@ -591,9 +640,11 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode case NODE_MIX: { MixNode *mn = static_cast<MixNode*>(nb); - - float rem = _process_node(mn->inputs[0].node,r_prev_anim,p_weight,p_time,p_seek,p_filter,p_reverse_weight); - _process_node(mn->inputs[1].node,r_prev_anim,p_weight*mn->amount,p_time,p_seek,p_filter,p_reverse_weight); + HashMap<NodePath, float> mn_weights(*p_weights); + float mn_fallback_weight = p_fallback_weight; + _compute_weights(&mn_fallback_weight, &mn_weights, mn->amount); + float rem = _process_node(mn->inputs[0].node,r_prev_anim, p_time,p_seek,p_fallback_weight,p_weights); + _process_node(mn->inputs[1].node,r_prev_anim,p_time,p_seek,mn_fallback_weight,&mn_weights); return rem; } break; @@ -601,16 +652,12 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode Blend2Node *bn = static_cast<Blend2Node*>(nb); - float rem; - if (!bn->filter.empty()) { - - rem = _process_node(bn->inputs[0].node,r_prev_anim,p_weight*(1.0-bn->value),p_time,p_seek,&bn->filter,p_weight); - _process_node(bn->inputs[1].node,r_prev_anim,p_weight*bn->value,p_time,p_seek,&bn->filter,-1); - - } else { - rem = _process_node(bn->inputs[0].node,r_prev_anim,p_weight*(1.0-bn->value),p_time,p_seek,p_filter,p_reverse_weight*(1.0-bn->value)); - _process_node(bn->inputs[1].node,r_prev_anim,p_weight*bn->value,p_time,p_seek,p_filter,p_reverse_weight*bn->value); - } + HashMap<NodePath, float> bn_weights(*p_weights); + float bn_fallback_weight = p_fallback_weight; + _compute_weights(&p_fallback_weight,p_weights, 1.0 - bn->value, &bn->filter, 1.0); + _compute_weights(&bn_fallback_weight,&bn_weights, bn->value, &bn->filter, 0.0); + float rem = _process_node(bn->inputs[0].node,r_prev_anim,p_time,p_seek,p_fallback_weight,p_weights); + _process_node(bn->inputs[1].node,r_prev_anim,p_time,p_seek,bn_fallback_weight,&bn_weights); return rem; } break; @@ -629,19 +676,39 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode upper_blend = bn->value; } - rem = _process_node(bn->inputs[1].node,r_prev_anim,p_weight*blend,p_time,p_seek,p_filter,p_reverse_weight*blend); - _process_node(bn->inputs[2].node,r_prev_anim,p_weight*upper_blend,p_time,p_seek,p_filter,p_reverse_weight*upper_blend); - _process_node(bn->inputs[0].node,r_prev_anim,p_weight*lower_blend,p_time,p_seek,p_filter,p_reverse_weight*lower_blend); + HashMap<NodePath, float> upper_weights(*p_weights); + float upper_fallback_weight = p_fallback_weight; + HashMap<NodePath, float> lower_weights(*p_weights); + float lower_fallback_weight = p_fallback_weight; + _compute_weights(&upper_fallback_weight,&upper_weights, upper_blend); + _compute_weights(&p_fallback_weight,p_weights, blend); + _compute_weights(&lower_fallback_weight,&lower_weights, lower_blend); + + rem = _process_node(bn->inputs[1].node,r_prev_anim,p_time,p_seek,p_fallback_weight,p_weights); + _process_node(bn->inputs[0].node,r_prev_anim,p_time,p_seek,lower_fallback_weight,&lower_weights); + _process_node(bn->inputs[2].node,r_prev_anim,p_time,p_seek,upper_fallback_weight,&upper_weights); return rem; } break; case NODE_BLEND4: { Blend4Node *bn = static_cast<Blend4Node*>(nb); - float rem = _process_node(bn->inputs[0].node,r_prev_anim,p_weight*(1.0-bn->value.x),p_time,p_seek,p_filter,p_reverse_weight*(1.0-bn->value.x)); - _process_node(bn->inputs[1].node,r_prev_anim,p_weight*bn->value.x,p_time,p_seek,p_filter,p_reverse_weight*bn->value.x); - float rem2 = _process_node(bn->inputs[2].node,r_prev_anim,p_weight*(1.0-bn->value.y),p_time,p_seek,p_filter,p_reverse_weight*(1.0-bn->value.y)); - _process_node(bn->inputs[3].node,r_prev_anim,p_weight*bn->value.y,p_time,p_seek,p_filter,p_reverse_weight*bn->value.y); + HashMap<NodePath, float> weights1(*p_weights); + float fallback_weight1 = p_fallback_weight; + HashMap<NodePath, float> weights2(*p_weights); + float fallback_weight2 = p_fallback_weight; + HashMap<NodePath, float> weights3(*p_weights); + float fallback_weight3 = p_fallback_weight; + + _compute_weights(&p_fallback_weight,p_weights, 1.0-bn->value.x); + _compute_weights(&fallback_weight1,&weights1, bn->value.x); + _compute_weights(&fallback_weight2,&weights2, 1.0-bn->value.y); + _compute_weights(&fallback_weight3,&weights3, bn->value.y); + + float rem = _process_node(bn->inputs[0].node,r_prev_anim,p_time,p_seek,p_fallback_weight,p_weights); + _process_node(bn->inputs[1].node,r_prev_anim,p_time,p_seek,fallback_weight1,&weights1); + float rem2 = _process_node(bn->inputs[2].node,r_prev_anim,p_time,p_seek,fallback_weight2,&weights2); + _process_node(bn->inputs[3].node,r_prev_anim,p_time,p_seek,fallback_weight3,&weights3); return MAX(rem,rem2); @@ -650,9 +717,9 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode TimeScaleNode *tsn = static_cast<TimeScaleNode*>(nb); float rem; if (p_seek) - rem = _process_node(tsn->inputs[0].node,r_prev_anim,p_weight,p_time,true,p_filter,p_reverse_weight); + rem = _process_node(tsn->inputs[0].node,r_prev_anim,p_time,true,p_fallback_weight,p_weights); else - rem = _process_node(tsn->inputs[0].node,r_prev_anim,p_weight,p_time*tsn->scale,false,p_filter,p_reverse_weight); + rem = _process_node(tsn->inputs[0].node,r_prev_anim,p_time*tsn->scale,false,p_fallback_weight,p_weights); if (tsn->scale == 0) return INFINITY; else @@ -669,16 +736,18 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode } tsn->seek_pos=-1; - return _process_node(tsn->inputs[0].node,r_prev_anim,p_weight,p_time,p_seek, p_filter, p_reverse_weight); + return _process_node(tsn->inputs[0].node,r_prev_anim,p_time,p_seek,p_fallback_weight,p_weights); } break; case NODE_TRANSITION: { TransitionNode *tn = static_cast<TransitionNode*>(nb); + HashMap<NodePath, float> prev_weights(*p_weights); + float prev_fallback_weight = p_fallback_weight; if (tn->prev<0) { // process current animation, check for transition - float rem = _process_node(tn->inputs[tn->current].node,r_prev_anim,p_weight,p_time,p_seek,p_filter,p_reverse_weight); + float rem = _process_node(tn->inputs[tn->current].node,r_prev_anim,p_time,p_seek,p_fallback_weight,p_weights); if (p_seek) tn->time=p_time; else @@ -698,22 +767,25 @@ float AnimationTreePlayer::_process_node(const StringName& p_node,AnimationNode float rem; + _compute_weights(&p_fallback_weight,p_weights, 1.0-blend); + _compute_weights(&prev_fallback_weight,&prev_weights, blend); + if (!p_seek && tn->switched) { //just switched, seek to start of current - rem = _process_node(tn->inputs[tn->current].node,r_prev_anim,p_weight*(1.0-blend),0,true,p_filter,p_reverse_weight*(1.0-blend)); + rem = _process_node(tn->inputs[tn->current].node,r_prev_anim,0,true,p_fallback_weight,p_weights); } else { - rem = _process_node(tn->inputs[tn->current].node,r_prev_anim,p_weight*(1.0-blend),p_time,p_seek,p_filter,p_reverse_weight*(1.0-blend)); + rem = _process_node(tn->inputs[tn->current].node,r_prev_anim,p_time,p_seek,p_fallback_weight,p_weights); } tn->switched=false; if (p_seek) { // don't seek prev animation - _process_node(tn->inputs[tn->prev].node,r_prev_anim,p_weight*blend,0,false,p_filter,p_reverse_weight*blend); + _process_node(tn->inputs[tn->prev].node,r_prev_anim,0,false,prev_fallback_weight,&prev_weights); tn->time=p_time; } else { - _process_node(tn->inputs[tn->prev].node,r_prev_anim,p_weight*blend,p_time,false,p_filter,p_reverse_weight*blend); + _process_node(tn->inputs[tn->prev].node,r_prev_anim,p_time,false,prev_fallback_weight,&prev_weights); tn->time+=p_time; tn->prev_xfading-=p_time; if (tn->prev_xfading<0) { @@ -750,10 +822,11 @@ void AnimationTreePlayer::_process_animation(float p_delta) { AnimationNode *prev=NULL; if (reset_request) { - _process_node(out_name,&prev, 1.0, 0, true); + + _process_node(out_name,&prev, 0, true); reset_request=false; } else - _process_node(out_name,&prev, 1.0, p_delta); + _process_node(out_name,&prev, p_delta); if (dirty_caches) { //some animation changed.. ignore this pass @@ -802,7 +875,7 @@ void AnimationTreePlayer::_process_animation(float p_delta) { if (tr.track==NULL || tr.local_track<0 || tr.weight < CMP_EPSILON) continue; - float blend=tr.weight; + float blend=tr.weight / tr.track->total_weight; switch(a->track_get_type(tr.local_track)) { case Animation::TYPE_TRANSFORM: { ///< Transform a node or a bone. @@ -1904,6 +1977,3 @@ AnimationTreePlayer::~AnimationTreePlayer() { node_map.erase( node_map.front() ); } } - - - diff --git a/scene/animation/animation_tree_player.h b/scene/animation/animation_tree_player.h index dae891b5ce..6b5350e9ee 100644 --- a/scene/animation/animation_tree_player.h +++ b/scene/animation/animation_tree_player.h @@ -111,6 +111,7 @@ private: Variant value; bool skip; + float total_weight; }; @@ -273,7 +274,7 @@ private: Map<StringName,NodeBase*> node_map; // return time left to finish animation - float _process_node(const StringName& p_node,AnimationNode **r_prev_anim, float p_weight,float p_step, bool p_seek=false,const HashMap<NodePath,bool> *p_filter=NULL, float p_reverse_weight=0); + float _process_node(const StringName& p_node,AnimationNode **r_prev_anim,float p_step, bool p_seek=false, float p_fallback_weight = 1.0, HashMap<NodePath,float>* p_weights = NULL); void _process_animation(float p_delta); bool reset_request; @@ -283,6 +284,8 @@ private: void _recompute_caches(); void _recompute_caches(const StringName& p_node); DVector<String> _get_node_list(); + + void _compute_weights(float *p_fallback_weight, HashMap<NodePath,float> *p_weights, float p_coeff, const HashMap<NodePath,bool> *p_filter = NULL, float p_filtered_coeff = 0); protected: |