/*
* The ManaPlus Client
* Copyright (C) 2012-2019 The ManaPlus Developers
*
* This file is part of The ManaPlus Client.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* any later version.
*
* 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. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_OPENGL
#include "resources/atlas/atlasmanager.h"
#include "settings.h"
#ifdef DEBUG_IMAGES
#include "logger.h"
#endif // DEBUG_IMAGES
#include "fs/virtfs/rwops.h"
#include "utils/mathutils.h"
#include "utils/sdlcheckutils.h"
#include "resources/openglimagehelper.h"
#include "resources/atlas/atlasresource.h"
#include "resources/atlas/textureatlas.h"
#include "resources/dye/dye.h"
#include "resources/resourcemanager/resourcemanager.h"
PRAGMA48(GCC diagnostic push)
PRAGMA48(GCC diagnostic ignored "-Wshadow")
#ifndef SDL_BIG_ENDIAN
#include <SDL_endian.h>
#endif // SDL_BYTEORDER
PRAGMA48(GCC diagnostic pop)
#include "utils/checkutils.h"
#include "debug.h"
AtlasManager::AtlasManager()
{
}
AtlasResource *AtlasManager::loadTextureAtlas(const std::string &name,
const StringVect &files)
{
BLOCK_START("AtlasManager::loadTextureAtlas")
STD_VECTOR<TextureAtlas*> atlases;
STD_VECTOR<Image*> images;
AtlasResource *resource = new AtlasResource;
loadImages(files, images);
int maxSize = OpenGLImageHelper::getTextureSize();
#if !defined(ANDROID) && !defined(__APPLE__)
int sz = settings.textureSize;
if (maxSize > sz)
maxSize = sz;
#endif // !defined(ANDROID) && !defined(__APPLE__)
// sorting images on atlases.
simpleSort(name, atlases, images, maxSize);
FOR_EACH (STD_VECTOR<TextureAtlas*>::iterator, it, atlases)
{
TextureAtlas *const atlas = *it;
if (atlas == nullptr)
continue;
createSDLAtlas(atlas);
if (atlas->atlasImage == nullptr)
continue;
convertAtlas(atlas);
resource->atlases.push_back(atlas);
}
BLOCK_END("AtlasManager::loadTextureAtlas")
return resource;
}
AtlasResource *AtlasManager::loadEmptyAtlas(const std::string &name,
const StringVect &files)
{
STD_VECTOR<TextureAtlas*> atlases;
STD_VECTOR<Image*> images;
AtlasResource *resource = new AtlasResource;
loadEmptyImages(files, images);
// sorting images on atlases.
emptySort(name, atlases, images);
FOR_EACH (STD_VECTOR<TextureAtlas*>::iterator, it, atlases)
{
TextureAtlas *const atlas = *it;
if (atlas == nullptr)
continue;
atlas->atlasImage = new Image(0,
1024, 1024,
1024, 1024);
// convert SDL images to OpenGL
convertEmptyAtlas(atlas);
resource->atlases.push_back(atlas);
}
BLOCK_END("AtlasManager::loadTextureAtlas")
return resource;
}
void AtlasManager::loadImages(const StringVect &files,
STD_VECTOR<Image*> &images)
{
BLOCK_START("AtlasManager::loadImages")
FOR_EACH (StringVectCIter, it, files)
{
const std::string str = *it;
// check is image with same name already in cache
// and if yes, move it to deleted set
Resource *const res = ResourceManager::getTempResource(str);
if (res != nullptr)
{
// increase counter because in moveToDeleted it will be decreased.
res->incRef();
ResourceManager::moveToDeleted(res);
}
std::string path = str;
const size_t p = path.find('|');
Dye *d = nullptr;
if (p != std::string::npos)
{
d = new Dye(path.substr(p + 1));
path = path.substr(0, p);
}
SDL_RWops *const rw = VirtFs::rwopsOpenRead(path);
if (rw != nullptr)
{
Image *const image = d != nullptr ?
surfaceImageHelper->load(rw, *d)
: surfaceImageHelper->load(rw);
if (image != nullptr)
{
image->mIdPath = str;
#ifdef DEBUG_IMAGES
logger->log("set name %p, %s", static_cast<void*>(image),
image->mIdPath.c_str());
#endif // DEBUG_IMAGES
images.push_back(image);
}
}
delete d;
}
BLOCK_END("AtlasManager::loadImages")
}
void AtlasManager::loadEmptyImages(const StringVect &files,
STD_VECTOR<Image*> &images)
{
BLOCK_START("AtlasManager::loadEmptyImages")
FOR_EACH (StringVectCIter, it, files)
{
const std::string str = *it;
// check is image with same name already in cache
// and if yes, move it to deleted set
Resource *const res = ResourceManager::getTempResource(str);
if (res != nullptr)
{
// increase counter because in moveToDeleted it will be decreased.
res->incRef();
ResourceManager::moveToDeleted(res);
}
Image *const image = new Image(0,
2048, 2048,
2048, 2048);
image->mIdPath = str;
images.push_back(image);
}
BLOCK_END("AtlasManager::loadEmptyImages")
}
void AtlasManager::simpleSort(const std::string &restrict name,
STD_VECTOR<TextureAtlas*> &restrict atlases,
const STD_VECTOR<Image*> &restrict images,
int size)
{
BLOCK_START("AtlasManager::simpleSort")
int x = 0;
int y = 0;
int tempHeight = 0;
TextureAtlas *atlas = new TextureAtlas;
STD_VECTOR<Image*>::const_iterator it = images.begin();
const STD_VECTOR<Image*>::const_iterator it_end = images.end();
for (it = images.begin(); it != it_end; ++ it)
{
const Image *const img = *it;
if (img != nullptr)
{
atlas->name = std::string("atlas_").append(name).append(
"_").append(img->mIdPath);
break;
}
}
for (it = images.begin(); it != it_end; ++ it)
{
Image *const img = *it;
if (img != nullptr)
{
AtlasItem *const item = new AtlasItem(img);
item->name = img->mIdPath;
// start next line
if (x + img->mBounds.w > size)
{
x = 0;
y += tempHeight;
tempHeight = 0;
}
// can't put image with this height
if (y + img->mBounds.h > size)
{
x = 0;
y = 0;
atlases.push_back(atlas);
atlas = new TextureAtlas;
atlas->name = std::string("atlas_").append(name).append(
"_").append(img->mIdPath);
}
if (img->mBounds.h > tempHeight)
tempHeight = img->mBounds.h;
item->x = x;
item->y = y;
atlas->items.push_back(item);
// continue put textures in line
x += img->mBounds.w;
if (x > atlas->width)
atlas->width = x;
if (y + img->mBounds.h > atlas->height)
atlas->height = y + img->mBounds.h;
}
}
if (!atlas->items.empty())
atlases.push_back(atlas);
else
delete atlas;
BLOCK_END("AtlasManager::simpleSort")
}
void AtlasManager::emptySort(const std::string &restrict name,
STD_VECTOR<TextureAtlas*> &restrict atlases,
const STD_VECTOR<Image*> &restrict images)
{
BLOCK_START("AtlasManager::simpleSort")
TextureAtlas *atlas = new TextureAtlas;
STD_VECTOR<Image*>::const_iterator it = images.begin();
const STD_VECTOR<Image*>::const_iterator it_end = images.end();
for (it = images.begin(); it != it_end; ++ it)
{
const Image *const img = *it;
if (img != nullptr)
{
atlas->name = std::string("atlas_").append(name).append(
"_").append(img->mIdPath);
break;
}
}
for (it = images.begin(); it != it_end; ++ it)
{
Image *const img = *it;
if (img != nullptr)
{
AtlasItem *const item = new AtlasItem(img);
item->name = img->mIdPath;
item->x = 0;
item->y = 0;
atlas->items.push_back(item);
}
}
if (!atlas->items.empty())
atlases.push_back(atlas);
else
delete atlas;
BLOCK_END("AtlasManager::simpleSort")
}
void AtlasManager::createSDLAtlas(TextureAtlas *const atlas)
{
BLOCK_START("AtlasManager::createSDLAtlas")
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
const uint32_t rmask = 0xff000000U;
const uint32_t gmask = 0x00ff0000U;
const uint32_t bmask = 0x0000ff00U;
const uint32_t amask = 0x000000ffU;
#else // SDL_BYTEORDER == SDL_BIG_ENDIAN
const uint32_t rmask = 0x000000ffU;
const uint32_t gmask = 0x0000ff00U;
const uint32_t bmask = 0x00ff0000U;
const uint32_t amask = 0xff000000U;
#endif // SDL_BYTEORDER == SDL_BIG_ENDIAN
// do not create atlas based on only one image
if (atlas->items.size() == 1)
{
logger->log("Skip atlas creation because only one image in atlas.");
BLOCK_END("AtlasManager::createSDLAtlas")
return;
}
// using only power of two sizes.
atlas->width = powerOfTwo(atlas->width);
atlas->height = powerOfTwo(atlas->height);
const int width = atlas->width;
const int height = atlas->height;
BLOCK_START("AtlasManager::createSDLAtlas create surface")
// temp SDL surface for atlas
SDL_Surface *const surface = MSDL_CreateRGBSurface(SDL_SWSURFACE,
width, height, 32U, rmask, gmask, bmask, amask);
if (surface == nullptr)
{
reportAlways("Error creating surface for atlas. Size: %dx%d",
width,
height)
BLOCK_END("AtlasManager::createSDLAtlas")
return;
}
BLOCK_END("AtlasManager::createSDLAtlas create surface")
#ifdef OPENGLERRORS
logger->log("OpenGL debug: creating atlase %dx%d", width, height);
#endif // OPENGLERRORS
Image *image = imageHelper->loadSurface(surface);
// free SDL atlas surface
MSDL_FreeSurface(surface);
if (image == nullptr)
{
reportAlways("Error converting surface to texture. Size: %dx%d",
width,
height)
return;
}
// drawing SDL images to surface
FOR_EACH (STD_VECTOR<AtlasItem*>::iterator, it, atlas->items)
{
AtlasItem *const item = *it;
imageHelper->copySurfaceToImage(image, item->x, item->y,
item->image->mSDLSurface);
#ifdef OPENGLERRORS
logger->log("OpenGL debug: put atlas image %s (size %dx%d),"
" into %d,%d to %d,%d",
item->name.c_str(),
item->image->mSDLSurface->w,
item->image->mSDLSurface->h,
item->x,
item->y,
item->x + item->image->mSDLSurface->w - 1,
item->y + item->image->mSDLSurface->h - 1);
if (item->x >= width)
logger->log("OpenGL error: start x position outside of atlas");
if (item->y >= height)
logger->log("OpenGL error: start y position outside of atlas");
if (item->x + item->image->mSDLSurface->w - 1 >= width)
logger->log("OpenGL error: end x position outside of atlas");
if (item->y + item->image->mSDLSurface->h - 1 >= height)
logger->log("OpenGL error: end y position outside of atlas");
#endif // OPENGLERRORS
}
atlas->atlasImage = image;
BLOCK_END("AtlasManager::createSDLAtlas")
}
void AtlasManager::convertEmptyAtlas(TextureAtlas *const atlas)
{
// no check for null pointer in atlas because it was in caller
// convert surface to OpemGL image
Image *const oldImage = atlas->atlasImage;
if (oldImage->mSDLSurface != nullptr)
{
atlas->atlasImage = imageHelper->loadSurface(
atlas->atlasImage->mSDLSurface);
oldImage->decRef();
}
Image *const image = atlas->atlasImage;
if (image == nullptr)
return;
image->mIdPath = atlas->name;
#ifdef DEBUG_IMAGES
logger->log("set name %p, %s", static_cast<void*>(image),
image->mIdPath.c_str());
#endif // DEBUG_IMAGES
image->incRef();
FOR_EACH (STD_VECTOR<AtlasItem*>::iterator, it, atlas->items)
{
AtlasItem *const item = *it;
// delete SDL Image
delete item->image;
// store OpenGL image
item->image = image->getSubImage(item->x, item->y,
item->width, item->height);
Image *const image2 = item->image;
if (image2 != nullptr)
{
image2->mIdPath = item->name;
#ifdef DEBUG_IMAGES
logger->log("set empty name %p, %s", static_cast<void*>(image2),
image2->mIdPath.c_str());
#endif // DEBUG_IMAGES
image2->incRef();
}
}
}
void AtlasManager::convertAtlas(TextureAtlas *const atlas)
{
// no check for null pointer in atlas because it was in caller
// convert surface to OpemGL image
Image *const oldImage = atlas->atlasImage;
if (oldImage->mSDLSurface != nullptr)
{
atlas->atlasImage = imageHelper->loadSurface(
atlas->atlasImage->mSDLSurface);
oldImage->decRef();
}
Image *const image = atlas->atlasImage;
if (image == nullptr)
return;
image->mIdPath = atlas->name;
#ifdef DEBUG_IMAGES
logger->log("set name %p, %s", static_cast<void*>(image),
image->mIdPath.c_str());
#endif // DEBUG_IMAGES
image->incRef();
FOR_EACH (STD_VECTOR<AtlasItem*>::iterator, it, atlas->items)
{
AtlasItem *const item = *it;
// delete SDL Image
delete item->image;
// store OpenGL image
item->image = image->getSubImage(item->x, item->y,
item->width, item->height);
Image *const image2 = item->image;
if (image2 != nullptr)
{
image2->mIdPath = item->name;
#ifdef DEBUG_IMAGES
logger->log("set name %p, %s", static_cast<void*>(image2),
image2->mIdPath.c_str());
#endif // DEBUG_IMAGES
image2->incRef();
}
}
}
void AtlasManager::injectToResources(const AtlasResource *const resource)
{
if (resource == nullptr)
return;
FOR_EACH (STD_VECTOR<TextureAtlas*>::const_iterator,
it, resource->atlases)
{
// add each atlas image to resources
TextureAtlas *const atlas = *it;
if (atlas != nullptr)
{
Image *const image = atlas->atlasImage;
if (image != nullptr)
ResourceManager::addResource(atlas->name, image);
FOR_EACH (STD_VECTOR<AtlasItem*>::iterator, it2, atlas->items)
{
AtlasItem *const item = *it2;
if (item == nullptr)
continue;
// add each atlas sub image to resources
ResourceManager::addResource(item->name, item->image);
}
}
}
}
void AtlasManager::moveToDeleted(AtlasResource *const resource)
{
if (resource == nullptr)
return;
FOR_EACH (STD_VECTOR<TextureAtlas*>::iterator, it, resource->atlases)
{
// move each atlas image to deleted
TextureAtlas *const atlas = *it;
if (atlas != nullptr)
{
Image *const image = atlas->atlasImage;
if (image != nullptr)
{
// move each atlas image to deleted
ResourceManager::moveToDeleted(image);
}
FOR_EACH (STD_VECTOR<AtlasItem*>::iterator, it2, atlas->items)
{
AtlasItem *const item = *it2;
if (item != nullptr)
{
Image *const image2 = item->image;
if (image2 != nullptr)
{
// move each atlas sub image to deleted
ResourceManager::moveToDeleted(image2);
}
}
}
}
}
}
#endif // USE_OPENGL