/****************************************************************************** * Spine Runtimes Software License * Version 2.3 * * Copyright (c) 2013-2015, Esoteric Software * All rights reserved. * * You are granted a perpetual, non-exclusive, non-sublicensable and * non-transferable license to use, install, execute and perform the Spine * Runtimes Software (the "Software") and derivative works solely for personal * or internal use. Without the written permission of Esoteric Software (see * Section 2 of the Spine Software License Agreement), you may not (a) modify, * translate, adapt or otherwise create derivative works, improvements of the * Software or develop new applications using the Software or (b) remove, * delete, alter or obscure any trademarks or any copyright, trademark, patent * or other intellectual property or proprietary rights notices on or in the * Software, including any copy thereof. Redistributions in binary or source * form must include this license and terms. * * THIS SOFTWARE IS PROVIDED BY ESOTERIC SOFTWARE "AS IS" AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL ESOTERIC SOFTWARE BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *****************************************************************************/ #include #include #include spTrackEntry* _spTrackEntry_create (spAnimationState* state) { spTrackEntry* self = NEW(spTrackEntry); CONST_CAST(spAnimationState*, self->state) = state; self->timeScale = 1; self->lastTime = -1; self->mix = 1; return self; } void _spTrackEntry_dispose (spTrackEntry* self) { if (self->previous) SUB_CAST(_spAnimationState, self->state)->disposeTrackEntry(self->previous); FREE(self); } /**/ spTrackEntry* _spAnimationState_createTrackEntry (spAnimationState* self) { return _spTrackEntry_create(self); } void _spAnimationState_disposeTrackEntry (spTrackEntry* entry) { _spTrackEntry_dispose(entry); } spAnimationState* spAnimationState_create (spAnimationStateData* data) { _spAnimationState* internal = NEW(_spAnimationState); spAnimationState* self = SUPER(internal); internal->events = MALLOC(spEvent*, 64); self->timeScale = 1; CONST_CAST(spAnimationStateData*, self->data) = data; internal->createTrackEntry = _spAnimationState_createTrackEntry; internal->disposeTrackEntry = _spAnimationState_disposeTrackEntry; return self; } void _spAnimationState_disposeAllEntries (spAnimationState* self, spTrackEntry* entry) { _spAnimationState* internal = SUB_CAST(_spAnimationState, self); while (entry) { spTrackEntry* next = entry->next; internal->disposeTrackEntry(entry); entry = next; } } void spAnimationState_dispose (spAnimationState* self) { int i; _spAnimationState* internal = SUB_CAST(_spAnimationState, self); FREE(internal->events); for (i = 0; i < self->tracksCount; ++i) _spAnimationState_disposeAllEntries(self, self->tracks[i]); FREE(self->tracks); FREE(self); } void _spAnimationState_setCurrent (spAnimationState* self, int index, spTrackEntry* entry); void spAnimationState_update (spAnimationState* self, float delta) { int i; float previousDelta; delta *= self->timeScale; for (i = 0; i < self->tracksCount; ++i) { spTrackEntry* current = self->tracks[i]; if (!current) continue; current->time += delta * current->timeScale; if (current->previous) { previousDelta = delta * current->previous->timeScale; current->previous->time += previousDelta; current->mixTime += previousDelta; } if (current->next) { current->next->time = current->lastTime - current->next->delay; if (current->next->time >= 0) _spAnimationState_setCurrent(self, i, current->next); } else { /* End non-looping animation when it reaches its end time and there is no next entry. */ if (!current->loop && current->lastTime >= current->endTime) spAnimationState_clearTrack(self, i); } } } void spAnimationState_apply (spAnimationState* self, spSkeleton* skeleton) { _spAnimationState* internal = SUB_CAST(_spAnimationState, self); int i, ii; int eventsCount; int entryChanged; float time; spTrackEntry* previous; for (i = 0; i < self->tracksCount; ++i) { spTrackEntry* current = self->tracks[i]; if (!current) continue; eventsCount = 0; time = current->time; if (!current->loop && time > current->endTime) time = current->endTime; previous = current->previous; if (!previous) { if (current->mix == 1) { spAnimation_apply(current->animation, skeleton, current->lastTime, time, current->loop, internal->events, &eventsCount); } else { spAnimation_mix(current->animation, skeleton, current->lastTime, time, current->loop, internal->events, &eventsCount, current->mix); } } else { float alpha = current->mixTime / current->mixDuration * current->mix; float previousTime = previous->time; if (!previous->loop && previousTime > previous->endTime) previousTime = previous->endTime; spAnimation_apply(previous->animation, skeleton, previousTime, previousTime, previous->loop, 0, 0); if (alpha >= 1) { alpha = 1; internal->disposeTrackEntry(current->previous); current->previous = 0; } spAnimation_mix(current->animation, skeleton, current->lastTime, time, current->loop, internal->events, &eventsCount, alpha); } entryChanged = 0; for (ii = 0; ii < eventsCount; ++ii) { spEvent* event = internal->events[ii]; if (current->listener) { current->listener(self, i, SP_ANIMATION_EVENT, event, 0); if (self->tracks[i] != current) { entryChanged = 1; break; } } if (self->listener) { self->listener(self, i, SP_ANIMATION_EVENT, event, 0); if (self->tracks[i] != current) { entryChanged = 1; break; } } } if (entryChanged) continue; /* Check if completed the animation or a loop iteration. */ if (current->loop ? (FMOD(current->lastTime, current->endTime) > FMOD(time, current->endTime)) : (current->lastTime < current->endTime && time >= current->endTime)) { int count = (int)(time / current->endTime); if (current->listener) { current->listener(self, i, SP_ANIMATION_COMPLETE, 0, count); if (self->tracks[i] != current) continue; } if (self->listener) { self->listener(self, i, SP_ANIMATION_COMPLETE, 0, count); if (self->tracks[i] != current) continue; } } current->lastTime = current->time; } } void spAnimationState_clearTracks (spAnimationState* self) { int i; for (i = 0; i < self->tracksCount; ++i) spAnimationState_clearTrack(self, i); self->tracksCount = 0; } void spAnimationState_clearTrack (spAnimationState* self, int trackIndex) { spTrackEntry* current; if (trackIndex >= self->tracksCount) return; current = self->tracks[trackIndex]; if (!current) return; if (current->listener) current->listener(self, trackIndex, SP_ANIMATION_END, 0, 0); if (self->listener) self->listener(self, trackIndex, SP_ANIMATION_END, 0, 0); self->tracks[trackIndex] = 0; _spAnimationState_disposeAllEntries(self, current); } spTrackEntry* _spAnimationState_expandToIndex (spAnimationState* self, int index) { spTrackEntry** newTracks; if (index < self->tracksCount) return self->tracks[index]; newTracks = CALLOC(spTrackEntry*, index + 1); memcpy(newTracks, self->tracks, self->tracksCount * sizeof(spTrackEntry*)); FREE(self->tracks); self->tracks = newTracks; self->tracksCount = index + 1; return 0; } void _spAnimationState_setCurrent (spAnimationState* self, int index, spTrackEntry* entry) { _spAnimationState* internal = SUB_CAST(_spAnimationState, self); spTrackEntry* current = _spAnimationState_expandToIndex(self, index); if (current) { spTrackEntry* previous = current->previous; current->previous = 0; if (current->listener) current->listener(self, index, SP_ANIMATION_END, 0, 0); if (self->listener) self->listener(self, index, SP_ANIMATION_END, 0, 0); entry->mixDuration = spAnimationStateData_getMix(self->data, current->animation, entry->animation); if (entry->mixDuration > 0) { entry->mixTime = 0; /* If a mix is in progress, mix from the closest animation. */ if (previous && current->mixTime / current->mixDuration < 0.5f) { entry->previous = previous; previous = current; } else entry->previous = current; } else internal->disposeTrackEntry(current); if (previous) internal->disposeTrackEntry(previous); } self->tracks[index] = entry; if (entry->listener) { entry->listener(self, index, SP_ANIMATION_START, 0, 0); if (self->tracks[index] != entry) return; } if (self->listener) self->listener(self, index, SP_ANIMATION_START, 0, 0); } spTrackEntry* spAnimationState_setAnimationByName (spAnimationState* self, int trackIndex, const char* animationName, int/*bool*/loop) { spAnimation* animation = spSkeletonData_findAnimation(self->data->skeletonData, animationName); return spAnimationState_setAnimation(self, trackIndex, animation, loop); } spTrackEntry* spAnimationState_setAnimation (spAnimationState* self, int trackIndex, spAnimation* animation, int/*bool*/loop) { _spAnimationState* internal = SUB_CAST(_spAnimationState, self); spTrackEntry* entry; spTrackEntry* current = _spAnimationState_expandToIndex(self, trackIndex); if (current) _spAnimationState_disposeAllEntries(self, current->next); entry = internal->createTrackEntry(self); entry->animation = animation; entry->loop = loop; entry->endTime = animation->duration; _spAnimationState_setCurrent(self, trackIndex, entry); return entry; } spTrackEntry* spAnimationState_addAnimationByName (spAnimationState* self, int trackIndex, const char* animationName, int/*bool*/loop, float delay) { spAnimation* animation = spSkeletonData_findAnimation(self->data->skeletonData, animationName); return spAnimationState_addAnimation(self, trackIndex, animation, loop, delay); } spTrackEntry* spAnimationState_addAnimation (spAnimationState* self, int trackIndex, spAnimation* animation, int/*bool*/loop, float delay) { _spAnimationState* internal = SUB_CAST(_spAnimationState, self); spTrackEntry* last; spTrackEntry* entry = internal->createTrackEntry(self); entry->animation = animation; entry->loop = loop; entry->endTime = animation->duration; last = _spAnimationState_expandToIndex(self, trackIndex); if (last) { while (last->next) last = last->next; last->next = entry; } else self->tracks[trackIndex] = entry; if (delay <= 0) { if (last) delay += last->endTime - spAnimationStateData_getMix(self->data, last->animation, animation); else delay = 0; } entry->delay = delay; return entry; } spTrackEntry* spAnimationState_getCurrent (spAnimationState* self, int trackIndex) { if (trackIndex >= self->tracksCount) return 0; return self->tracks[trackIndex]; }