axmol/cocos/editor-support/spine/SkeletonJson.cpp

417 lines
15 KiB
C++

/*******************************************************************************
* Copyright (c) 2013, Esoteric Software
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 THE COPYRIGHT OWNER OR CONTRIBUTORS 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 <spine/SkeletonJson.h>
#include <math.h>
#include <stdio.h>
#include <math.h>
#include "Json.h"
#include <spine/extension.h>
#include <spine/RegionAttachment.h>
#include <spine/AtlasAttachmentLoader.h>
namespace spine {
typedef struct {
SkeletonJson super;
int ownsLoader;
} _Internal;
SkeletonJson* SkeletonJson_createWithLoader (AttachmentLoader* attachmentLoader) {
SkeletonJson* self = SUPER(NEW(_Internal));
self->scale = 1;
self->attachmentLoader = attachmentLoader;
return self;
}
SkeletonJson* SkeletonJson_create (Atlas* atlas) {
AtlasAttachmentLoader* attachmentLoader = AtlasAttachmentLoader_create(atlas);
SkeletonJson* self = SkeletonJson_createWithLoader(SUPER(attachmentLoader));
SUB_CAST(_Internal, self) ->ownsLoader = 1;
return self;
}
void SkeletonJson_dispose (SkeletonJson* self) {
if (SUB_CAST(_Internal, self) ->ownsLoader) AttachmentLoader_dispose(self->attachmentLoader);
FREE(self->error);
FREE(self);
}
void _SkeletonJson_setError (SkeletonJson* self, Json* root, const char* value1, const char* value2) {
char message[256];
int length;
FREE(self->error);
strcpy(message, value1);
length = strlen(value1);
if (value2) strncat(message + length, value2, 256 - 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 (strlen(value) != 8) return -1;
value += index * 2;
digits[0] = *value;
digits[1] = *(value + 1);
digits[2] = '\0';
color = strtoul(digits, &error, 16);
if (*error != 0) return -1;
return color / (float)255;
}
static void readCurve (CurveTimeline* timeline, int frameIndex, Json* frame) {
Json* curve = Json_getItem(frame, "curve");
if (!curve) return;
if (curve->type == Json_String && strcmp(curve->valuestring, "stepped") == 0)
CurveTimeline_setStepped(timeline, frameIndex);
else if (curve->type == Json_Array) {
CurveTimeline_setCurve(timeline, frameIndex, Json_getItemAt(curve, 0)->valuefloat, Json_getItemAt(curve, 1)->valuefloat,
Json_getItemAt(curve, 2)->valuefloat, Json_getItemAt(curve, 3)->valuefloat);
}
}
static Animation* _SkeletonJson_readAnimation (SkeletonJson* self, Json* root, SkeletonData *skeletonData) {
Animation* animation;
Json* bones = Json_getItem(root, "bones");
int boneCount = bones ? Json_getSize(bones) : 0;
Json* slots = Json_getItem(root, "slots");
int slotCount = slots ? Json_getSize(slots) : 0;
int timelineCount = 0;
int i, ii, iii;
for (i = 0; i < boneCount; ++i)
timelineCount += Json_getSize(Json_getItemAt(bones, i));
for (i = 0; i < slotCount; ++i)
timelineCount += Json_getSize(Json_getItemAt(slots, i));
animation = Animation_create(root->name, timelineCount);
animation->timelineCount = 0;
skeletonData->animations[skeletonData->animationCount] = animation;
skeletonData->animationCount++;
for (i = 0; i < boneCount; ++i) {
timelineCount = 0;
Json* boneMap = Json_getItemAt(bones, i);
const char* boneName = boneMap->name;
int boneIndex = SkeletonData_findBoneIndex(skeletonData, boneName);
if (boneIndex == -1) {
Animation_dispose(animation);
_SkeletonJson_setError(self, root, "Bone not found: ", boneName);
return 0;
}
timelineCount = Json_getSize(boneMap);
for (ii = 0; ii < timelineCount; ++ii) {
float duration;
Json* timelineArray = Json_getItemAt(boneMap, ii);
int frameCount = Json_getSize(timelineArray);
const char* timelineType = timelineArray->name;
if (strcmp(timelineType, "rotate") == 0) {
RotateTimeline *timeline = RotateTimeline_create(frameCount);
timeline->boneIndex = boneIndex;
for (iii = 0; iii < frameCount; ++iii) {
Json* frame = Json_getItemAt(timelineArray, iii);
RotateTimeline_setFrame(timeline, iii, Json_getFloat(frame, "time", 0), Json_getFloat(frame, "angle", 0));
readCurve(SUPER(timeline), iii, frame);
}
animation->timelines[animation->timelineCount++] = (Timeline*)timeline;
duration = timeline->frames[frameCount * 2 - 2];
if (duration > animation->duration) animation->duration = duration;
} else {
int isScale = strcmp(timelineType, "scale") == 0;
if (isScale || strcmp(timelineType, "translate") == 0) {
float scale = isScale ? 1 : self->scale;
TranslateTimeline *timeline = isScale ? ScaleTimeline_create(frameCount) : TranslateTimeline_create(frameCount);
timeline->boneIndex = boneIndex;
for (iii = 0; iii < frameCount; ++iii) {
Json* frame = Json_getItemAt(timelineArray, iii);
TranslateTimeline_setFrame(timeline, iii, Json_getFloat(frame, "time", 0), Json_getFloat(frame, "x", 0) * scale,
Json_getFloat(frame, "y", 0) * scale);
readCurve(SUPER(timeline), iii, frame);
}
animation->timelines[animation->timelineCount++] = (Timeline*)timeline;
duration = timeline->frames[frameCount * 3 - 3];
if (duration > animation->duration) animation->duration = duration;
} else {
Animation_dispose(animation);
_SkeletonJson_setError(self, 0, "Invalid timeline type for a bone: ", timelineType);
return 0;
}
}
}
}
for (i = 0; i < slotCount; ++i) {
timelineCount = 0;
Json* slotMap = Json_getItemAt(slots, i);
const char* slotName = slotMap->name;
int slotIndex = SkeletonData_findSlotIndex(skeletonData, slotName);
if (slotIndex == -1) {
Animation_dispose(animation);
_SkeletonJson_setError(self, root, "Slot not found: ", slotName);
return 0;
}
timelineCount = Json_getSize(slotMap);
for (ii = 0; ii < timelineCount; ++ii) {
float duration;
Json* timelineArray = Json_getItemAt(slotMap, ii);
int frameCount = Json_getSize(timelineArray);
const char* timelineType = timelineArray->name;
if (strcmp(timelineType, "color") == 0) {
ColorTimeline *timeline = ColorTimeline_create(frameCount);
timeline->slotIndex = slotIndex;
for (iii = 0; iii < frameCount; ++iii) {
Json* frame = Json_getItemAt(timelineArray, iii);
const char* s = Json_getString(frame, "color", 0);
ColorTimeline_setFrame(timeline, iii, Json_getFloat(frame, "time", 0), toColor(s, 0), toColor(s, 1), toColor(s, 2),
toColor(s, 3));
readCurve(SUPER(timeline), iii, frame);
}
animation->timelines[animation->timelineCount++] = (Timeline*)timeline;
duration = timeline->frames[frameCount * 5 - 5];
if (duration > animation->duration) animation->duration = duration;
} else if (strcmp(timelineType, "attachment") == 0) {
AttachmentTimeline *timeline = AttachmentTimeline_create(frameCount);
timeline->slotIndex = slotIndex;
for (iii = 0; iii < frameCount; ++iii) {
Json* frame = Json_getItemAt(timelineArray, iii);
Json* name = Json_getItem(frame, "name");
AttachmentTimeline_setFrame(timeline, iii, Json_getFloat(frame, "time", 0),
name->type == Json_NULL ? 0 : name->valuestring);
}
animation->timelines[animation->timelineCount++] = (Timeline*)timeline;
duration = timeline->frames[frameCount - 1];
if (duration > animation->duration) animation->duration = duration;
} else {
Animation_dispose(animation);
_SkeletonJson_setError(self, 0, "Invalid timeline type for a slot: ", timelineType);
return 0;
}
}
}
return animation;
}
SkeletonData* SkeletonJson_readSkeletonDataFile (SkeletonJson* self, const char* path) {
int length;
SkeletonData* skeletonData;
const char* json = _Util_readFile(path, &length);
if (!json) {
_SkeletonJson_setError(self, 0, "Unable to read skeleton file: ", path);
return 0;
}
skeletonData = SkeletonJson_readSkeletonData(self, json);
FREE(json);
return skeletonData;
}
SkeletonData* SkeletonJson_readSkeletonData (SkeletonJson* self, const char* json) {
SkeletonData* skeletonData;
Json *root, *bones;
int i, ii, iii, boneCount;
Json* slots;
Json* skinsMap;
Json* animations;
FREE(self->error);
CONST_CAST(char*, self->error) = 0;
root = Json_create(json);
if (!root) {
_SkeletonJson_setError(self, 0, "Invalid skeleton JSON: ", Json_getError());
return 0;
}
skeletonData = SkeletonData_create();
bones = Json_getItem(root, "bones");
boneCount = Json_getSize(bones);
skeletonData->bones = MALLOC(BoneData*, boneCount);
for (i = 0; i < boneCount; ++i) {
Json* boneMap = Json_getItemAt(bones, i);
BoneData* boneData;
const char* boneName = Json_getString(boneMap, "name", 0);
BoneData* parent = 0;
const char* parentName = Json_getString(boneMap, "parent", 0);
if (parentName) {
parent = SkeletonData_findBone(skeletonData, parentName);
if (!parent) {
SkeletonData_dispose(skeletonData);
_SkeletonJson_setError(self, root, "Parent bone not found: ", parentName);
return 0;
}
}
boneData = BoneData_create(boneName, parent);
boneData->length = Json_getFloat(boneMap, "length", 0) * self->scale;
boneData->x = Json_getFloat(boneMap, "x", 0) * self->scale;
boneData->y = Json_getFloat(boneMap, "y", 0) * self->scale;
boneData->rotation = Json_getFloat(boneMap, "rotation", 0);
boneData->scaleX = Json_getFloat(boneMap, "scaleX", 1);
boneData->scaleY = Json_getFloat(boneMap, "scaleY", 1);
skeletonData->bones[i] = boneData;
skeletonData->boneCount++;
}
slots = Json_getItem(root, "slots");
if (slots) {
int slotCount = Json_getSize(slots);
skeletonData->slots = MALLOC(SlotData*, slotCount);
for (i = 0; i < slotCount; ++i) {
SlotData* slotData;
const char* color;
Json *attachmentItem;
Json* slotMap = Json_getItemAt(slots, i);
const char* slotName = Json_getString(slotMap, "name", 0);
const char* boneName = Json_getString(slotMap, "bone", 0);
BoneData* boneData = SkeletonData_findBone(skeletonData, boneName);
if (!boneData) {
SkeletonData_dispose(skeletonData);
_SkeletonJson_setError(self, root, "Slot bone not found: ", boneName);
return 0;
}
slotData = SlotData_create(slotName, boneData);
color = Json_getString(slotMap, "color", 0);
if (color) {
slotData->r = toColor(color, 0);
slotData->g = toColor(color, 1);
slotData->b = toColor(color, 2);
slotData->a = toColor(color, 3);
}
attachmentItem = Json_getItem(slotMap, "attachment");
if (attachmentItem) SlotData_setAttachmentName(slotData, attachmentItem->valuestring);
skeletonData->slots[i] = slotData;
skeletonData->slotCount++;
}
}
skinsMap = Json_getItem(root, "skins");
if (skinsMap) {
int skinCount = Json_getSize(skinsMap);
skeletonData->skins = MALLOC(Skin*, skinCount);
for (i = 0; i < skinCount; ++i) {
Json* slotMap = Json_getItemAt(skinsMap, i);
const char* skinName = slotMap->name;
Skin *skin = Skin_create(skinName);
int slotNameCount;
skeletonData->skins[i] = skin;
skeletonData->skinCount++;
if (strcmp(skinName, "default") == 0) skeletonData->defaultSkin = skin;
slotNameCount = Json_getSize(slotMap);
for (ii = 0; ii < slotNameCount; ++ii) {
Json* attachmentsMap = Json_getItemAt(slotMap, ii);
const char* slotName = attachmentsMap->name;
int slotIndex = SkeletonData_findSlotIndex(skeletonData, slotName);
int attachmentCount = Json_getSize(attachmentsMap);
for (iii = 0; iii < attachmentCount; ++iii) {
Attachment* attachment;
Json* attachmentMap = Json_getItemAt(attachmentsMap, iii);
const char* skinAttachmentName = attachmentMap->name;
const char* attachmentName = Json_getString(attachmentMap, "name", skinAttachmentName);
const char* typeString = Json_getString(attachmentMap, "type", "region");
AttachmentType type;
if (strcmp(typeString, "region") == 0)
type = ATTACHMENT_REGION;
else if (strcmp(typeString, "regionSequence") == 0)
type = ATTACHMENT_REGION_SEQUENCE;
else {
SkeletonData_dispose(skeletonData);
_SkeletonJson_setError(self, root, "Unknown attachment type: ", typeString);
return 0;
}
attachment = AttachmentLoader_newAttachment(self->attachmentLoader, skin, type, attachmentName);
if (!attachment) {
if (self->attachmentLoader->error1) {
SkeletonData_dispose(skeletonData);
_SkeletonJson_setError(self, root, self->attachmentLoader->error1, self->attachmentLoader->error2);
return 0;
}
continue;
}
if (attachment->type == ATTACHMENT_REGION || attachment->type == ATTACHMENT_REGION_SEQUENCE) {
RegionAttachment* regionAttachment = (RegionAttachment*)attachment;
regionAttachment->x = Json_getFloat(attachmentMap, "x", 0) * self->scale;
regionAttachment->y = Json_getFloat(attachmentMap, "y", 0) * self->scale;
regionAttachment->scaleX = Json_getFloat(attachmentMap, "scaleX", 1);
regionAttachment->scaleY = Json_getFloat(attachmentMap, "scaleY", 1);
regionAttachment->rotation = Json_getFloat(attachmentMap, "rotation", 0);
regionAttachment->width = Json_getFloat(attachmentMap, "width", 32) * self->scale;
regionAttachment->height = Json_getFloat(attachmentMap, "height", 32) * self->scale;
RegionAttachment_updateOffset(regionAttachment);
}
Skin_addAttachment(skin, slotIndex, skinAttachmentName, attachment);
}
}
}
}
animations = Json_getItem(root, "animations");
if (animations) {
int animationCount = Json_getSize(animations);
skeletonData->animations = MALLOC(Animation*, animationCount);
for (i = 0; i < animationCount; ++i) {
Json* animationMap = Json_getItemAt(animations, i);
_SkeletonJson_readAnimation(self, animationMap, skeletonData);
}
}
Json_dispose(root);
return skeletonData;
}
} // namespace spine {