/****************************************************************************** * Spine Runtimes Software License v2.5 * * Copyright (c) 2013-2016, 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 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 develop new applications using the Spine Runtimes or otherwise * create derivative works or improvements of the Spine Runtimes 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, BUSINESS INTERRUPTION, OR LOSS OF * USE, DATA, OR PROFITS) 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 #include "Json.h" #include #include #include #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) #define strdup _strdup #endif typedef struct { const char* parent; const char* skin; int slotIndex; spMeshAttachment* mesh; } _spLinkedMesh; typedef struct { spSkeletonJson super; int ownsLoader; int linkedMeshCount; int linkedMeshCapacity; _spLinkedMesh* linkedMeshes; } _spSkeletonJson; spSkeletonJson* spSkeletonJson_createWithLoader (spAttachmentLoader* attachmentLoader) { spSkeletonJson* self = SUPER(NEW(_spSkeletonJson)); self->scale = 1; self->attachmentLoader = attachmentLoader; return self; } spSkeletonJson* spSkeletonJson_create (spAtlas* atlas) { spAtlasAttachmentLoader* attachmentLoader = spAtlasAttachmentLoader_create(atlas); spSkeletonJson* self = spSkeletonJson_createWithLoader(SUPER(attachmentLoader)); SUB_CAST(_spSkeletonJson, self)->ownsLoader = 1; return self; } void spSkeletonJson_dispose (spSkeletonJson* self) { _spSkeletonJson* internal = SUB_CAST(_spSkeletonJson, self); if (internal->ownsLoader) spAttachmentLoader_dispose(self->attachmentLoader); FREE(internal->linkedMeshes); FREE(self->error); FREE(self); } void _spSkeletonJson_setError (spSkeletonJson* self, Json* root, const char* value1, const char* value2) { char message[256]; int length; FREE(self->error); strcpy(message, value1); length = (int)strlen(value1); if (value2) strncat(message + length, value2, 255 - length); MALLOC_STR(self->error, message); if (root) Json_dispose(root); } static float toColor (const char* value, int index) { char digits[3]; char *error; int color; if (index >= strlen(value) / 2) return -1; value += index * 2; digits[0] = *value; digits[1] = *(value + 1); digits[2] = '\0'; color = (int)strtoul(digits, &error, 16); if (*error != 0) return -1; return color / (float)255; } static void readCurve (Json* frame, spCurveTimeline* timeline, int frameIndex) { Json* curve = Json_getItem(frame, "curve"); if (!curve) return; if (curve->type == Json_String && strcmp(curve->valueString, "stepped") == 0) spCurveTimeline_setStepped(timeline, frameIndex); else if (curve->type == Json_Array) { Json* child0 = curve->child; Json* child1 = child0->next; Json* child2 = child1->next; Json* child3 = child2->next; spCurveTimeline_setCurve(timeline, frameIndex, child0->valueFloat, child1->valueFloat, child2->valueFloat, child3->valueFloat); } } static void _spSkeletonJson_addLinkedMesh (spSkeletonJson* self, spMeshAttachment* mesh, const char* skin, int slotIndex, const char* parent) { _spLinkedMesh* linkedMesh; _spSkeletonJson* internal = SUB_CAST(_spSkeletonJson, self); if (internal->linkedMeshCount == internal->linkedMeshCapacity) { _spLinkedMesh* linkedMeshes; internal->linkedMeshCapacity *= 2; if (internal->linkedMeshCapacity < 8) internal->linkedMeshCapacity = 8; linkedMeshes = MALLOC(_spLinkedMesh, internal->linkedMeshCapacity); memcpy(linkedMeshes, internal->linkedMeshes, sizeof(_spLinkedMesh) * internal->linkedMeshCount); FREE(internal->linkedMeshes); internal->linkedMeshes = linkedMeshes; } linkedMesh = internal->linkedMeshes + internal->linkedMeshCount++; linkedMesh->mesh = mesh; linkedMesh->skin = skin; linkedMesh->slotIndex = slotIndex; linkedMesh->parent = parent; } static spAnimation* _spSkeletonJson_readAnimation (spSkeletonJson* self, Json* root, spSkeletonData *skeletonData) { int frameIndex; spAnimation* animation; Json* valueMap; int timelinesCount = 0; Json* bones = Json_getItem(root, "bones"); Json* slots = Json_getItem(root, "slots"); Json* ik = Json_getItem(root, "ik"); Json* transform = Json_getItem(root, "transform"); Json* paths = Json_getItem(root, "paths"); Json* deform = Json_getItem(root, "deform"); Json* drawOrder = Json_getItem(root, "drawOrder"); Json* events = Json_getItem(root, "events"); Json *boneMap, *slotMap, *constraintMap; if (!drawOrder) drawOrder = Json_getItem(root, "draworder"); for (boneMap = bones ? bones->child : 0; boneMap; boneMap = boneMap->next) timelinesCount += boneMap->size; for (slotMap = slots ? slots->child : 0; slotMap; slotMap = slotMap->next) timelinesCount += slotMap->size; timelinesCount += ik ? ik->size : 0; timelinesCount += transform ? transform->size : 0; for (constraintMap = paths ? paths->child : 0; constraintMap; constraintMap = constraintMap->next) timelinesCount += constraintMap->size; for (constraintMap = deform ? deform->child : 0; constraintMap; constraintMap = constraintMap->next) for (slotMap = constraintMap->child; slotMap; slotMap = slotMap->next) timelinesCount += slotMap->size; if (drawOrder) ++timelinesCount; if (events) ++timelinesCount; animation = spAnimation_create(root->name, timelinesCount); animation->timelinesCount = 0; /* Slot timelines. */ for (slotMap = slots ? slots->child : 0; slotMap; slotMap = slotMap->next) { Json *timelineMap; int slotIndex = spSkeletonData_findSlotIndex(skeletonData, slotMap->name); if (slotIndex == -1) { spAnimation_dispose(animation); _spSkeletonJson_setError(self, root, "Slot not found: ", slotMap->name); return 0; } for (timelineMap = slotMap->child; timelineMap; timelineMap = timelineMap->next) { if (strcmp(timelineMap->name, "attachment") == 0) { spAttachmentTimeline *timeline = spAttachmentTimeline_create(timelineMap->size); timeline->slotIndex = slotIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { Json* name = Json_getItem(valueMap, "name"); spAttachmentTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), name->type == Json_NULL ? 0 : name->valueString); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[timelineMap->size - 1]); } else if (strcmp(timelineMap->name, "color") == 0) { spColorTimeline *timeline = spColorTimeline_create(timelineMap->size); timeline->slotIndex = slotIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { const char* s = Json_getString(valueMap, "color", 0); spColorTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), toColor(s, 0), toColor(s, 1), toColor(s, 2), toColor(s, 3)); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(timelineMap->size - 1) * COLOR_ENTRIES]); } else if (strcmp(timelineMap->name, "twoColor") == 0) { spTwoColorTimeline *timeline = spTwoColorTimeline_create(timelineMap->size); timeline->slotIndex = slotIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { const char* s = Json_getString(valueMap, "light", 0); const char* ds = Json_getString(valueMap, "dark", 0); spTwoColorTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), toColor(s, 0), toColor(s, 1), toColor(s, 2), toColor(s, 3), toColor(ds, 0), toColor(ds, 1), toColor(ds, 2)); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(timelineMap->size - 1) * TWOCOLOR_ENTRIES]); } else { spAnimation_dispose(animation); _spSkeletonJson_setError(self, 0, "Invalid timeline type for a slot: ", timelineMap->name); return 0; } } } /* Bone timelines. */ for (boneMap = bones ? bones->child : 0; boneMap; boneMap = boneMap->next) { Json *timelineMap; int boneIndex = spSkeletonData_findBoneIndex(skeletonData, boneMap->name); if (boneIndex == -1) { spAnimation_dispose(animation); _spSkeletonJson_setError(self, root, "Bone not found: ", boneMap->name); return 0; } for (timelineMap = boneMap->child; timelineMap; timelineMap = timelineMap->next) { if (strcmp(timelineMap->name, "rotate") == 0) { spRotateTimeline *timeline = spRotateTimeline_create(timelineMap->size); timeline->boneIndex = boneIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spRotateTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), Json_getFloat(valueMap, "angle", 0)); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(timelineMap->size - 1) * ROTATE_ENTRIES]); } else { int isScale = strcmp(timelineMap->name, "scale") == 0; int isTranslate = strcmp(timelineMap->name, "translate") == 0; int isShear = strcmp(timelineMap->name, "shear") == 0; if (isScale || isTranslate || isShear) { float timelineScale = isTranslate ? self->scale: 1; spTranslateTimeline *timeline = 0; if (isScale) timeline = spScaleTimeline_create(timelineMap->size); else if (isTranslate) timeline = spTranslateTimeline_create(timelineMap->size); else if (isShear) timeline = spShearTimeline_create(timelineMap->size); timeline->boneIndex = boneIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spTranslateTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), Json_getFloat(valueMap, "x", 0) * timelineScale, Json_getFloat(valueMap, "y", 0) * timelineScale); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(timelineMap->size - 1) * TRANSLATE_ENTRIES]); } else { spAnimation_dispose(animation); _spSkeletonJson_setError(self, 0, "Invalid timeline type for a bone: ", timelineMap->name); return 0; } } } } /* IK constraint timelines. */ for (constraintMap = ik ? ik->child : 0; constraintMap; constraintMap = constraintMap->next) { spIkConstraintData* constraint = spSkeletonData_findIkConstraint(skeletonData, constraintMap->name); spIkConstraintTimeline* timeline = spIkConstraintTimeline_create(constraintMap->size); for (frameIndex = 0; frameIndex < skeletonData->ikConstraintsCount; ++frameIndex) { if (constraint == skeletonData->ikConstraints[frameIndex]) { timeline->ikConstraintIndex = frameIndex; break; } } for (valueMap = constraintMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spIkConstraintTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), Json_getFloat(valueMap, "mix", 1), Json_getInt(valueMap, "bendPositive", 1) ? 1 : -1); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(constraintMap->size - 1) * IKCONSTRAINT_ENTRIES]); } /* Transform constraint timelines. */ for (constraintMap = transform ? transform->child : 0; constraintMap; constraintMap = constraintMap->next) { spTransformConstraintData* constraint = spSkeletonData_findTransformConstraint(skeletonData, constraintMap->name); spTransformConstraintTimeline* timeline = spTransformConstraintTimeline_create(constraintMap->size); for (frameIndex = 0; frameIndex < skeletonData->transformConstraintsCount; ++frameIndex) { if (constraint == skeletonData->transformConstraints[frameIndex]) { timeline->transformConstraintIndex = frameIndex; break; } } for (valueMap = constraintMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spTransformConstraintTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), Json_getFloat(valueMap, "rotateMix", 1), Json_getFloat(valueMap, "translateMix", 1), Json_getFloat(valueMap, "scaleMix", 1), Json_getFloat(valueMap, "shearMix", 1)); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(constraintMap->size - 1) * TRANSFORMCONSTRAINT_ENTRIES]); } /** Path constraint timelines. */ for(constraintMap = paths ? paths->child : 0; constraintMap; constraintMap = constraintMap->next ) { int constraintIndex, i; Json* timelineMap; spPathConstraintData* data = spSkeletonData_findPathConstraint(skeletonData, constraintMap->name); if (!data) { spAnimation_dispose(animation); _spSkeletonJson_setError(self, root, "Path constraint not found: ", constraintMap->name); return 0; } for (i = 0; i < skeletonData->pathConstraintsCount; i++) { if (skeletonData->pathConstraints[i] == data) { constraintIndex = i; break; } } for (timelineMap = constraintMap->child; timelineMap; timelineMap = timelineMap->next) { const char* timelineName = timelineMap->name; if (strcmp(timelineName, "position") == 0 || strcmp(timelineName, "spacing") == 0) { spPathConstraintPositionTimeline* timeline; float timelineScale = 1; if (strcmp(timelineName, "spacing") == 0) { timeline = (spPathConstraintPositionTimeline*)spPathConstraintSpacingTimeline_create(timelineMap->size); if (data->spacingMode == SP_SPACING_MODE_LENGTH || data->spacingMode == SP_SPACING_MODE_FIXED) timelineScale = self->scale; } else { timeline = spPathConstraintPositionTimeline_create(timelineMap->size); if (data->positionMode == SP_POSITION_MODE_FIXED) timelineScale = self->scale; } timeline->pathConstraintIndex = constraintIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spPathConstraintPositionTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), Json_getFloat(valueMap, timelineName, 0) * timelineScale); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(timelineMap->size - 1) * PATHCONSTRAINTPOSITION_ENTRIES]); } else if (strcmp(timelineName, "mix") == 0) { spPathConstraintMixTimeline* timeline = spPathConstraintMixTimeline_create(timelineMap->size); timeline->pathConstraintIndex = constraintIndex; for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spPathConstraintMixTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), Json_getFloat(valueMap, "rotateMix", 1), Json_getFloat(valueMap, "translateMix", 1)); readCurve(valueMap, SUPER(timeline), frameIndex); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[(timelineMap->size - 1) * PATHCONSTRAINTMIX_ENTRIES]); } } } /* Deform timelines. */ for (constraintMap = deform ? deform->child : 0; constraintMap; constraintMap = constraintMap->next) { spSkin* skin = spSkeletonData_findSkin(skeletonData, constraintMap->name); for (slotMap = constraintMap->child; slotMap; slotMap = slotMap->next) { int slotIndex = spSkeletonData_findSlotIndex(skeletonData, slotMap->name); Json* timelineMap; for (timelineMap = slotMap->child; timelineMap; timelineMap = timelineMap->next) { float* tempDeform; spDeformTimeline *timeline; int weighted, deformLength; spVertexAttachment* attachment = SUB_CAST(spVertexAttachment, spSkin_getAttachment(skin, slotIndex, timelineMap->name)); if (!attachment) { spAnimation_dispose(animation); _spSkeletonJson_setError(self, 0, "Attachment not found: ", timelineMap->name); return 0; } weighted = attachment->bones != 0; deformLength = weighted ? attachment->verticesCount / 3 * 2 : attachment->verticesCount; tempDeform = MALLOC(float, deformLength); timeline = spDeformTimeline_create(timelineMap->size, deformLength); timeline->slotIndex = slotIndex; timeline->attachment = SUPER(attachment); for (valueMap = timelineMap->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { Json* vertices = Json_getItem(valueMap, "vertices"); float* deform2; if (!vertices) { if (weighted) { deform2 = tempDeform; memset(deform2, 0, sizeof(float) * deformLength); } else deform2 = attachment->vertices; } else { int v, start = Json_getInt(valueMap, "offset", 0); Json* vertex; deform2 = tempDeform; memset(deform2, 0, sizeof(float) * start); if (self->scale == 1) { for (vertex = vertices->child, v = start; vertex; vertex = vertex->next, ++v) deform2[v] = vertex->valueFloat; } else { for (vertex = vertices->child, v = start; vertex; vertex = vertex->next, ++v) deform2[v] = vertex->valueFloat * self->scale; } memset(deform2 + v, 0, sizeof(float) * (deformLength - v)); if (!weighted) { float* verticesAttachment = attachment->vertices; for (v = 0; v < deformLength; ++v) deform2[v] += verticesAttachment[v]; } } spDeformTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), deform2); readCurve(valueMap, SUPER(timeline), frameIndex); } FREE(tempDeform); animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[timelineMap->size - 1]); } } } /* Draw order timeline. */ if (drawOrder) { spDrawOrderTimeline* timeline = spDrawOrderTimeline_create(drawOrder->size, skeletonData->slotsCount); for (valueMap = drawOrder->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { int ii; int* drawOrder2 = 0; Json* offsets = Json_getItem(valueMap, "offsets"); if (offsets) { Json* offsetMap; int* unchanged = MALLOC(int, skeletonData->slotsCount - offsets->size); int originalIndex = 0, unchangedIndex = 0; drawOrder2 = MALLOC(int, skeletonData->slotsCount); for (ii = skeletonData->slotsCount - 1; ii >= 0; --ii) drawOrder2[ii] = -1; for (offsetMap = offsets->child; offsetMap; offsetMap = offsetMap->next) { int slotIndex = spSkeletonData_findSlotIndex(skeletonData, Json_getString(offsetMap, "slot", 0)); if (slotIndex == -1) { spAnimation_dispose(animation); _spSkeletonJson_setError(self, 0, "Slot not found: ", Json_getString(offsetMap, "slot", 0)); return 0; } /* Collect unchanged items. */ while (originalIndex != slotIndex) unchanged[unchangedIndex++] = originalIndex++; /* Set changed items. */ drawOrder2[originalIndex + Json_getInt(offsetMap, "offset", 0)] = originalIndex; originalIndex++; } /* Collect remaining unchanged items. */ while (originalIndex < skeletonData->slotsCount) unchanged[unchangedIndex++] = originalIndex++; /* Fill in unchanged items. */ for (ii = skeletonData->slotsCount - 1; ii >= 0; ii--) if (drawOrder2[ii] == -1) drawOrder2[ii] = unchanged[--unchangedIndex]; FREE(unchanged); } spDrawOrderTimeline_setFrame(timeline, frameIndex, Json_getFloat(valueMap, "time", 0), drawOrder2); FREE(drawOrder2); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[drawOrder->size - 1]); } /* Event timeline. */ if (events) { spEventTimeline* timeline = spEventTimeline_create(events->size); for (valueMap = events->child, frameIndex = 0; valueMap; valueMap = valueMap->next, ++frameIndex) { spEvent* event; const char* stringValue; spEventData* eventData = spSkeletonData_findEvent(skeletonData, Json_getString(valueMap, "name", 0)); if (!eventData) { spAnimation_dispose(animation); _spSkeletonJson_setError(self, 0, "Event not found: ", Json_getString(valueMap, "name", 0)); return 0; } event = spEvent_create(Json_getFloat(valueMap, "time", 0), eventData); event->intValue = Json_getInt(valueMap, "int", eventData->intValue); event->floatValue = Json_getFloat(valueMap, "float", eventData->floatValue); stringValue = Json_getString(valueMap, "string", eventData->stringValue); if (stringValue) MALLOC_STR(event->stringValue, stringValue); spEventTimeline_setFrame(timeline, frameIndex, event); } animation->timelines[animation->timelinesCount++] = SUPER_CAST(spTimeline, timeline); animation->duration = MAX(animation->duration, timeline->frames[events->size - 1]); } return animation; } static void _readVertices (spSkeletonJson* self, Json* attachmentMap, spVertexAttachment* attachment, int verticesLength) { Json* entry; float* vertices; int i, n, nn, entrySize; spFloatArray* weights; spIntArray* bones; attachment->worldVerticesLength = verticesLength; entry = Json_getItem(attachmentMap, "vertices"); entrySize = entry->size; vertices = MALLOC(float, entrySize); for (entry = entry->child, i = 0; entry; entry = entry->next, ++i) vertices[i] = entry->valueFloat; if (verticesLength == entrySize) { if (self->scale != 1) for (i = 0; i < entrySize; ++i) vertices[i] *= self->scale; attachment->verticesCount = verticesLength; attachment->vertices = vertices; attachment->bonesCount = 0; attachment->bones = 0; return; } weights = spFloatArray_create(verticesLength * 3 * 3); bones = spIntArray_create(verticesLength * 3); for (i = 0, n = entrySize; i < n;) { int boneCount = (int)vertices[i++]; spIntArray_add(bones, boneCount); for (nn = i + boneCount * 4; i < nn; i += 4) { spIntArray_add(bones, (int)vertices[i]); spFloatArray_add(weights, vertices[i + 1] * self->scale); spFloatArray_add(weights, vertices[i + 2] * self->scale); spFloatArray_add(weights, vertices[i + 3]); } } attachment->verticesCount = weights->size; attachment->vertices = weights->items; FREE(weights); attachment->bonesCount = bones->size; attachment->bones = bones->items; FREE(bones); FREE(vertices); } spSkeletonData* spSkeletonJson_readSkeletonDataFile (spSkeletonJson* self, const char* path) { int length; spSkeletonData* skeletonData; const char* json = _spUtil_readFile(path, &length); if (length == 0 || !json) { _spSkeletonJson_setError(self, 0, "Unable to read skeleton file: ", path); return 0; } skeletonData = spSkeletonJson_readSkeletonData(self, json); FREE(json); return skeletonData; } spSkeletonData* spSkeletonJson_readSkeletonData (spSkeletonJson* self, const char* json) { int i, ii; spSkeletonData* skeletonData; Json *root, *skeleton, *bones, *boneMap, *ik, *transform, *path, *slots, *skins, *animations, *events; char* oldLocale; _spSkeletonJson* internal = SUB_CAST(_spSkeletonJson, self); FREE(self->error); CONST_CAST(char*, self->error) = 0; internal->linkedMeshCount = 0; #ifndef __ANDROID__ oldLocale = strdup(setlocale(LC_NUMERIC, NULL)); setlocale(LC_NUMERIC, "C"); #endif root = Json_create(json); #ifndef __ANDROID__ setlocale(LC_NUMERIC, oldLocale); free(oldLocale); #endif if (!root) { _spSkeletonJson_setError(self, 0, "Invalid skeleton JSON: ", Json_getError()); return 0; } skeletonData = spSkeletonData_create(); skeleton = Json_getItem(root, "skeleton"); if (skeleton) { MALLOC_STR(skeletonData->hash, Json_getString(skeleton, "hash", 0)); MALLOC_STR(skeletonData->version, Json_getString(skeleton, "spine", 0)); skeletonData->width = Json_getFloat(skeleton, "width", 0); skeletonData->height = Json_getFloat(skeleton, "height", 0); } /* Bones. */ bones = Json_getItem(root, "bones"); skeletonData->bones = MALLOC(spBoneData*, bones->size); for (boneMap = bones->child, i = 0; boneMap; boneMap = boneMap->next, ++i) { spBoneData* data; const char* transformMode; spBoneData* parent = 0; const char* parentName = Json_getString(boneMap, "parent", 0); if (parentName) { parent = spSkeletonData_findBone(skeletonData, parentName); if (!parent) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Parent bone not found: ", parentName); return 0; } } data = spBoneData_create(skeletonData->bonesCount, Json_getString(boneMap, "name", 0), parent); data->length = Json_getFloat(boneMap, "length", 0) * self->scale; data->x = Json_getFloat(boneMap, "x", 0) * self->scale; data->y = Json_getFloat(boneMap, "y", 0) * self->scale; data->rotation = Json_getFloat(boneMap, "rotation", 0); data->scaleX = Json_getFloat(boneMap, "scaleX", 1); data->scaleY = Json_getFloat(boneMap, "scaleY", 1); data->shearX = Json_getFloat(boneMap, "shearX", 0); data->shearY = Json_getFloat(boneMap, "shearY", 0); transformMode = Json_getString(boneMap, "transform", "normal"); data->transformMode = SP_TRANSFORMMODE_NORMAL; if (strcmp(transformMode, "normal") == 0) data->transformMode = SP_TRANSFORMMODE_NORMAL; if (strcmp(transformMode, "onlyTranslation") == 0) data->transformMode = SP_TRANSFORMMODE_ONLYTRANSLATION; if (strcmp(transformMode, "noRotationOrReflection") == 0) data->transformMode = SP_TRANSFORMMODE_NOROTATIONORREFLECTION; if (strcmp(transformMode, "noScale") == 0) data->transformMode = SP_TRANSFORMMODE_NOSCALE; if (strcmp(transformMode, "noScaleOrReflection") == 0) data->transformMode = SP_TRANSFORMMODE_NOSCALEORREFLECTION; skeletonData->bones[i] = data; skeletonData->bonesCount++; } /* Slots. */ slots = Json_getItem(root, "slots"); if (slots) { Json *slotMap; skeletonData->slotsCount = slots->size; skeletonData->slots = MALLOC(spSlotData*, slots->size); for (slotMap = slots->child, i = 0; slotMap; slotMap = slotMap->next, ++i) { spSlotData* data; const char* color; const char* dark; Json *item; const char* boneName = Json_getString(slotMap, "bone", 0); spBoneData* boneData = spSkeletonData_findBone(skeletonData, boneName); if (!boneData) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Slot bone not found: ", boneName); return 0; } data = spSlotData_create(i, Json_getString(slotMap, "name", 0), boneData); color = Json_getString(slotMap, "color", 0); if (color) { spColor_setFromFloats(&data->color, toColor(color, 0), toColor(color, 1), toColor(color, 2), toColor(color, 3)); } dark = Json_getString(slotMap, "dark", 0); if (dark) { data->darkColor = spColor_create(); spColor_setFromFloats(data->darkColor, toColor(dark, 0), toColor(dark, 1), toColor(dark, 2), toColor(dark, 3)); } item = Json_getItem(slotMap, "attachment"); if (item) spSlotData_setAttachmentName(data, item->valueString); item = Json_getItem(slotMap, "blend"); if (item) { if (strcmp(item->valueString, "additive") == 0) data->blendMode = SP_BLEND_MODE_ADDITIVE; else if (strcmp(item->valueString, "multiply") == 0) data->blendMode = SP_BLEND_MODE_MULTIPLY; else if (strcmp(item->valueString, "screen") == 0) data->blendMode = SP_BLEND_MODE_SCREEN; } skeletonData->slots[i] = data; } } /* IK constraints. */ ik = Json_getItem(root, "ik"); if (ik) { Json *constraintMap; skeletonData->ikConstraintsCount = ik->size; skeletonData->ikConstraints = MALLOC(spIkConstraintData*, ik->size); for (constraintMap = ik->child, i = 0; constraintMap; constraintMap = constraintMap->next, ++i) { const char* targetName; spIkConstraintData* data = spIkConstraintData_create(Json_getString(constraintMap, "name", 0)); data->order = Json_getInt(constraintMap, "order", 0); boneMap = Json_getItem(constraintMap, "bones"); data->bonesCount = boneMap->size; data->bones = MALLOC(spBoneData*, boneMap->size); for (boneMap = boneMap->child, ii = 0; boneMap; boneMap = boneMap->next, ++ii) { data->bones[ii] = spSkeletonData_findBone(skeletonData, boneMap->valueString); if (!data->bones[ii]) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "IK bone not found: ", boneMap->valueString); return 0; } } targetName = Json_getString(constraintMap, "target", 0); data->target = spSkeletonData_findBone(skeletonData, targetName); if (!data->target) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Target bone not found: ", boneMap->name); return 0; } data->bendDirection = Json_getInt(constraintMap, "bendPositive", 1) ? 1 : -1; data->mix = Json_getFloat(constraintMap, "mix", 1); skeletonData->ikConstraints[i] = data; } } /* Transform constraints. */ transform = Json_getItem(root, "transform"); if (transform) { Json *constraintMap; skeletonData->transformConstraintsCount = transform->size; skeletonData->transformConstraints = MALLOC(spTransformConstraintData*, transform->size); for (constraintMap = transform->child, i = 0; constraintMap; constraintMap = constraintMap->next, ++i) { const char* name; spTransformConstraintData* data = spTransformConstraintData_create(Json_getString(constraintMap, "name", 0)); data->order = Json_getInt(constraintMap, "order", 0); boneMap = Json_getItem(constraintMap, "bones"); data->bonesCount = boneMap->size; CONST_CAST(spBoneData**, data->bones) = MALLOC(spBoneData*, boneMap->size); for (boneMap = boneMap->child, ii = 0; boneMap; boneMap = boneMap->next, ++ii) { data->bones[ii] = spSkeletonData_findBone(skeletonData, boneMap->valueString); if (!data->bones[ii]) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Transform bone not found: ", boneMap->valueString); return 0; } } name = Json_getString(constraintMap, "target", 0); data->target = spSkeletonData_findBone(skeletonData, name); if (!data->target) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Target bone not found: ", boneMap->name); return 0; } data->local = Json_getInt(constraintMap, "local", 0); data->relative = Json_getInt(constraintMap, "relative", 0); data->offsetRotation = Json_getFloat(constraintMap, "rotation", 0); data->offsetX = Json_getFloat(constraintMap, "x", 0) * self->scale; data->offsetY = Json_getFloat(constraintMap, "y", 0) * self->scale; data->offsetScaleX = Json_getFloat(constraintMap, "scaleX", 0); data->offsetScaleY = Json_getFloat(constraintMap, "scaleY", 0); data->offsetShearY = Json_getFloat(constraintMap, "shearY", 0); data->rotateMix = Json_getFloat(constraintMap, "rotateMix", 1); data->translateMix = Json_getFloat(constraintMap, "translateMix", 1); data->scaleMix = Json_getFloat(constraintMap, "scaleMix", 1); data->shearMix = Json_getFloat(constraintMap, "shearMix", 1); skeletonData->transformConstraints[i] = data; } } /* Path constraints */ path = Json_getItem(root, "path"); if (path) { Json *constraintMap; skeletonData->pathConstraintsCount = path->size; skeletonData->pathConstraints = MALLOC(spPathConstraintData*, path->size); for (constraintMap = path->child, i = 0; constraintMap; constraintMap = constraintMap->next, ++i) { const char* name; const char* item; spPathConstraintData* data = spPathConstraintData_create(Json_getString(constraintMap, "name", 0)); data->order = Json_getInt(constraintMap, "order", 0); boneMap = Json_getItem(constraintMap, "bones"); data->bonesCount = boneMap->size; CONST_CAST(spBoneData**, data->bones) = MALLOC(spBoneData*, boneMap->size); for (boneMap = boneMap->child, ii = 0; boneMap; boneMap = boneMap->next, ++ii) { data->bones[ii] = spSkeletonData_findBone(skeletonData, boneMap->valueString); if (!data->bones[ii]) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Path bone not found: ", boneMap->valueString); return 0; } } name = Json_getString(constraintMap, "target", 0); data->target = spSkeletonData_findSlot(skeletonData, name); if (!data->target) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Target slot not found: ", boneMap->name); return 0; } item = Json_getString(constraintMap, "positionMode", "percent"); if (strcmp(item, "fixed") == 0) data->positionMode = SP_POSITION_MODE_FIXED; else if (strcmp(item, "percent") == 0) data->positionMode = SP_POSITION_MODE_PERCENT; item = Json_getString(constraintMap, "spacingMode", "length"); if (strcmp(item, "length") == 0) data->spacingMode = SP_SPACING_MODE_LENGTH; else if (strcmp(item, "fixed") == 0) data->spacingMode = SP_SPACING_MODE_FIXED; else if (strcmp(item, "percent") == 0) data->spacingMode = SP_SPACING_MODE_PERCENT; item = Json_getString(constraintMap, "rotateMode", "tangent"); if (strcmp(item, "tangent") == 0) data->rotateMode = SP_ROTATE_MODE_TANGENT; else if (strcmp(item, "chain") == 0) data->rotateMode = SP_ROTATE_MODE_CHAIN; else if (strcmp(item, "chainScale") == 0) data->rotateMode = SP_ROTATE_MODE_CHAIN_SCALE; data->offsetRotation = Json_getFloat(constraintMap, "rotation", 0); data->position = Json_getFloat(constraintMap, "position", 0); if (data->positionMode == SP_POSITION_MODE_FIXED) data->position *= self->scale; data->spacing = Json_getFloat(constraintMap, "spacing", 0); if (data->spacingMode == SP_SPACING_MODE_LENGTH || data->spacingMode == SP_SPACING_MODE_FIXED) data->spacing *= self->scale; data->rotateMix = Json_getFloat(constraintMap, "rotateMix", 1); data->translateMix = Json_getFloat(constraintMap, "translateMix", 1); skeletonData->pathConstraints[i] = data; } } /* Skins. */ skins = Json_getItem(root, "skins"); if (skins) { Json *skinMap; skeletonData->skins = MALLOC(spSkin*, skins->size); for (skinMap = skins->child, i = 0; skinMap; skinMap = skinMap->next, ++i) { Json *attachmentsMap; Json *curves; spSkin *skin = spSkin_create(skinMap->name); skeletonData->skins[skeletonData->skinsCount++] = skin; if (strcmp(skinMap->name, "default") == 0) skeletonData->defaultSkin = skin; for (attachmentsMap = skinMap->child; attachmentsMap; attachmentsMap = attachmentsMap->next) { int slotIndex = spSkeletonData_findSlotIndex(skeletonData, attachmentsMap->name); Json *attachmentMap; for (attachmentMap = attachmentsMap->child; attachmentMap; attachmentMap = attachmentMap->next) { spAttachment* attachment; const char* skinAttachmentName = attachmentMap->name; const char* attachmentName = Json_getString(attachmentMap, "name", skinAttachmentName); const char* attachmentPath = Json_getString(attachmentMap, "path", attachmentName); const char* color; Json* entry; const char* typeString = Json_getString(attachmentMap, "type", "region"); spAttachmentType type; if (strcmp(typeString, "region") == 0) type = SP_ATTACHMENT_REGION; else if (strcmp(typeString, "mesh") == 0) type = SP_ATTACHMENT_MESH; else if (strcmp(typeString, "linkedmesh") == 0) type = SP_ATTACHMENT_LINKED_MESH; else if (strcmp(typeString, "boundingbox") == 0) type = SP_ATTACHMENT_BOUNDING_BOX; else if (strcmp(typeString, "path") == 0) type = SP_ATTACHMENT_PATH; else if (strcmp(typeString, "clipping") == 0) type = SP_ATTACHMENT_CLIPPING; else { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, "Unknown attachment type: ", typeString); return 0; } attachment = spAttachmentLoader_createAttachment(self->attachmentLoader, skin, type, attachmentName, attachmentPath); if (!attachment) { if (self->attachmentLoader->error1) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, root, self->attachmentLoader->error1, self->attachmentLoader->error2); return 0; } continue; } switch (attachment->type) { case SP_ATTACHMENT_REGION: { spRegionAttachment* region = SUB_CAST(spRegionAttachment, attachment); if (path) MALLOC_STR(region->path, attachmentPath); region->x = Json_getFloat(attachmentMap, "x", 0) * self->scale; region->y = Json_getFloat(attachmentMap, "y", 0) * self->scale; region->scaleX = Json_getFloat(attachmentMap, "scaleX", 1); region->scaleY = Json_getFloat(attachmentMap, "scaleY", 1); region->rotation = Json_getFloat(attachmentMap, "rotation", 0); region->width = Json_getFloat(attachmentMap, "width", 32) * self->scale; region->height = Json_getFloat(attachmentMap, "height", 32) * self->scale; color = Json_getString(attachmentMap, "color", 0); if (color) { spColor_setFromFloats(®ion->color, toColor(color, 0), toColor(color, 1), toColor(color, 2), toColor(color, 3)); } spRegionAttachment_updateOffset(region); spAttachmentLoader_configureAttachment(self->attachmentLoader, attachment); break; } case SP_ATTACHMENT_MESH: case SP_ATTACHMENT_LINKED_MESH: { spMeshAttachment* mesh = SUB_CAST(spMeshAttachment, attachment); MALLOC_STR(mesh->path, attachmentPath); color = Json_getString(attachmentMap, "color", 0); if (color) { spColor_setFromFloats(&mesh->color, toColor(color, 0), toColor(color, 1), toColor(color, 2), toColor(color, 3)); } mesh->width = Json_getFloat(attachmentMap, "width", 32) * self->scale; mesh->height = Json_getFloat(attachmentMap, "height", 32) * self->scale; entry = Json_getItem(attachmentMap, "parent"); if (!entry) { int verticesLength; entry = Json_getItem(attachmentMap, "triangles"); mesh->trianglesCount = entry->size; mesh->triangles = MALLOC(unsigned short, entry->size); for (entry = entry->child, ii = 0; entry; entry = entry->next, ++ii) mesh->triangles[ii] = (unsigned short)entry->valueInt; entry = Json_getItem(attachmentMap, "uvs"); verticesLength = entry->size; mesh->regionUVs = MALLOC(float, verticesLength); for (entry = entry->child, ii = 0; entry; entry = entry->next, ++ii) mesh->regionUVs[ii] = entry->valueFloat; _readVertices(self, attachmentMap, SUPER(mesh), verticesLength); spMeshAttachment_updateUVs(mesh); mesh->hullLength = Json_getInt(attachmentMap, "hull", 0); entry = Json_getItem(attachmentMap, "edges"); if (entry) { mesh->edgesCount = entry->size; mesh->edges = MALLOC(int, entry->size); for (entry = entry->child, ii = 0; entry; entry = entry->next, ++ii) mesh->edges[ii] = entry->valueInt; } spAttachmentLoader_configureAttachment(self->attachmentLoader, attachment); } else { mesh->inheritDeform = Json_getInt(attachmentMap, "deform", 1); _spSkeletonJson_addLinkedMesh(self, SUB_CAST(spMeshAttachment, attachment), Json_getString(attachmentMap, "skin", 0), slotIndex, entry->valueString); } break; } case SP_ATTACHMENT_BOUNDING_BOX: { spBoundingBoxAttachment* box = SUB_CAST(spBoundingBoxAttachment, attachment); int vertexCount = Json_getInt(attachmentMap, "vertexCount", 0) << 1; _readVertices(self, attachmentMap, SUPER(box), vertexCount); box->super.verticesCount = vertexCount; spAttachmentLoader_configureAttachment(self->attachmentLoader, attachment); break; } case SP_ATTACHMENT_PATH: { spPathAttachment* pathAttatchment = SUB_CAST(spPathAttachment, attachment); int vertexCount = 0; pathAttatchment->closed = Json_getInt(attachmentMap, "closed", 0); pathAttatchment->constantSpeed = Json_getInt(attachmentMap, "constantSpeed", 1); vertexCount = Json_getInt(attachmentMap, "vertexCount", 0); _readVertices(self, attachmentMap, SUPER(pathAttatchment), vertexCount << 1); pathAttatchment->lengthsLength = vertexCount / 3; pathAttatchment->lengths = MALLOC(float, pathAttatchment->lengthsLength); curves = Json_getItem(attachmentMap, "lengths"); for (curves = curves->child, ii = 0; curves; curves = curves->next, ++ii) { pathAttatchment->lengths[ii] = curves->valueFloat * self->scale; } break; } case SP_ATTACHMENT_POINT: { spPointAttachment* point = SUB_CAST(spPointAttachment, attachment); point->x = Json_getFloat(attachmentMap, "x", 0) * self->scale; point->y = Json_getFloat(attachmentMap, "y", 0) * self->scale; point->rotation = Json_getFloat(attachmentMap, "rotation", 0); color = Json_getString(attachmentMap, "color", 0); if (color) { spColor_setFromFloats(&point->color, toColor(color, 0), toColor(color, 1), toColor(color, 2), toColor(color, 3)); } break; } case SP_ATTACHMENT_CLIPPING: { spClippingAttachment* clip = SUB_CAST(spClippingAttachment, attachment); int vertexCount = 0; const char* end = Json_getString(attachmentMap, "end", 0); if (end) { spSlotData* slot = spSkeletonData_findSlot(skeletonData, end); clip->endSlot = slot; } vertexCount = Json_getInt(attachmentMap, "vertexCount", 0) << 1; _readVertices(self, attachmentMap, SUPER(clip), vertexCount); spAttachmentLoader_configureAttachment(self->attachmentLoader, attachment); break; } } spSkin_addAttachment(skin, slotIndex, skinAttachmentName, attachment); } } } } /* Linked meshes. */ for (i = 0; i < internal->linkedMeshCount; i++) { spAttachment* parent; _spLinkedMesh* linkedMesh = internal->linkedMeshes + i; spSkin* skin = !linkedMesh->skin ? skeletonData->defaultSkin : spSkeletonData_findSkin(skeletonData, linkedMesh->skin); if (!skin) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, 0, "Skin not found: ", linkedMesh->skin); return 0; } parent = spSkin_getAttachment(skin, linkedMesh->slotIndex, linkedMesh->parent); if (!parent) { spSkeletonData_dispose(skeletonData); _spSkeletonJson_setError(self, 0, "Parent mesh not found: ", linkedMesh->parent); return 0; } spMeshAttachment_setParentMesh(linkedMesh->mesh, SUB_CAST(spMeshAttachment, parent)); spMeshAttachment_updateUVs(linkedMesh->mesh); spAttachmentLoader_configureAttachment(self->attachmentLoader, SUPER(SUPER(linkedMesh->mesh))); } /* Events. */ events = Json_getItem(root, "events"); if (events) { Json *eventMap; const char* stringValue; skeletonData->eventsCount = events->size; skeletonData->events = MALLOC(spEventData*, events->size); for (eventMap = events->child, i = 0; eventMap; eventMap = eventMap->next, ++i) { spEventData* eventData = spEventData_create(eventMap->name); eventData->intValue = Json_getInt(eventMap, "int", 0); eventData->floatValue = Json_getFloat(eventMap, "float", 0); stringValue = Json_getString(eventMap, "string", 0); if (stringValue) MALLOC_STR(eventData->stringValue, stringValue); skeletonData->events[i] = eventData; } } /* Animations. */ animations = Json_getItem(root, "animations"); if (animations) { Json *animationMap; skeletonData->animations = MALLOC(spAnimation*, animations->size); for (animationMap = animations->child; animationMap; animationMap = animationMap->next) { spAnimation* animation = _spSkeletonJson_readAnimation(self, animationMap, skeletonData); if (!animation) { spSkeletonData_dispose(skeletonData); return 0; } skeletonData->animations[skeletonData->animationsCount++] = animation; } } Json_dispose(root); return skeletonData; }