/*
* The ManaPlus Client
* Copyright (C) 2004-2009 The Mana World Development Team
* Copyright (C) 2009-2010 The Mana Developers
* Copyright (C) 2011-2016 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 .
*/
#include "resources/image/image.h"
#include "logger.h"
#ifdef USE_OPENGL
#include "resources/openglimagehelper.h"
#endif // USE_OPENGL
#include "resources/memorymanager.h"
#include "resources/sdlimagehelper.h"
#include "resources/image/subimage.h"
#include "resources/resourcemanager/resourcemanager.h"
#include "utils/sdlcheckutils.h"
#ifdef USE_SDL2
#include
#else // USE_SDL2
#include
#endif // USE_SDL2
#include "debug.h"
#ifdef UNITTESTS
Image::Image(const int width,
const int height) :
Resource(),
#ifdef USE_OPENGL
mGLImage(0),
mTexWidth(0),
mTexHeight(0),
#endif // USE_OPENGL
mBounds(),
mAlpha(1.0F),
mSDLSurface(nullptr),
#ifdef USE_SDL2
mTexture(nullptr),
#endif // USE_SDL2
mAlphaChannel(nullptr),
mAlphaCache(),
mLoaded(false),
mHasAlphaChannel(false),
mUseAlphaCache(false),
mIsAlphaVisible(true),
mIsAlphaCalculated(false)
{
mBounds.x = 0;
mBounds.y = 0;
mBounds.w = width;
mBounds.h = height;
}
#endif // UNITTESTS
#ifdef USE_SDL2
Image::Image(SDL_Texture *restrict const image,
const int width, const int height) :
Resource(),
#ifdef USE_OPENGL
mGLImage(0),
mTexWidth(0),
mTexHeight(0),
#endif // USE_OPENGL
mBounds(),
mAlpha(1.0F),
mSDLSurface(nullptr),
mTexture(image),
mAlphaChannel(nullptr),
mAlphaCache(),
mLoaded(false),
mHasAlphaChannel(false),
mUseAlphaCache(false),
mIsAlphaVisible(true),
mIsAlphaCalculated(false)
{
#ifdef DEBUG_IMAGES
logger->log("created image: %p", this);
#endif // DEBUG_IMAGES
mBounds.x = 0;
mBounds.y = 0;
if (mTexture)
{
mBounds.w = CAST_U16(width);
mBounds.h = CAST_U16(height);
mLoaded = true;
}
else
{
mBounds.w = 0;
mBounds.h = 0;
}
}
#endif // USE_SDL2
Image::Image(SDL_Surface *restrict const image, const bool hasAlphaChannel0,
uint8_t *restrict const alphaChannel) :
Resource(),
#ifdef USE_OPENGL
mGLImage(0),
mTexWidth(0),
mTexHeight(0),
#endif // USE_OPENGL
mBounds(),
mAlpha(1.0F),
mSDLSurface(image),
#ifdef USE_SDL2
mTexture(nullptr),
#endif // USE_SDL2
mAlphaChannel(alphaChannel),
mAlphaCache(),
mLoaded(false),
mHasAlphaChannel(hasAlphaChannel0),
mUseAlphaCache(SDLImageHelper::mEnableAlphaCache),
mIsAlphaVisible(hasAlphaChannel0),
mIsAlphaCalculated(false)
{
#ifdef DEBUG_IMAGES
logger->log("created image: %p", static_cast(this));
#endif // DEBUG_IMAGES
mBounds.x = 0;
mBounds.y = 0;
if (mSDLSurface)
{
mBounds.w = CAST_U16(mSDLSurface->w);
mBounds.h = CAST_U16(mSDLSurface->h);
mLoaded = true;
}
else
{
mBounds.w = 0;
mBounds.h = 0;
}
}
#ifdef USE_OPENGL
Image::Image(const GLuint glimage, const int width, const int height,
const int texWidth, const int texHeight) :
Resource(),
mGLImage(glimage),
mTexWidth(texWidth),
mTexHeight(texHeight),
mBounds(),
mAlpha(1.0F),
mSDLSurface(nullptr),
#ifdef USE_SDL2
mTexture(nullptr),
#endif // USE_SDL2
mAlphaChannel(nullptr),
mAlphaCache(),
mLoaded(false),
mHasAlphaChannel(true),
mUseAlphaCache(false),
mIsAlphaVisible(true),
mIsAlphaCalculated(false)
{
#ifdef DEBUG_IMAGES
logger->log("created image: %p", static_cast(this));
#endif // DEBUG_IMAGES
mBounds.x = 0;
mBounds.y = 0;
mBounds.w = CAST_U16(width);
mBounds.h = CAST_U16(height);
if (mGLImage)
{
mLoaded = true;
}
}
#endif // USE_OPENGL
Image::~Image()
{
#ifdef DEBUG_IMAGES
logger->log("delete image: %p", static_cast(this));
logger->log(" %s, %s", mIdPath.c_str(), mSource.c_str());
#endif // DEBUG_IMAGES
unload();
}
void Image::SDLCleanCache()
{
for (std::map::iterator
i = mAlphaCache.begin(), i_end = mAlphaCache.end();
i != i_end; ++i)
{
if (mSDLSurface != i->second)
resourceManager->scheduleDelete(i->second);
i->second = nullptr;
}
mAlphaCache.clear();
}
void Image::unload()
{
mLoaded = false;
if (mSDLSurface)
{
SDLCleanCache();
// Free the image surface.
MSDL_FreeSurface(mSDLSurface);
mSDLSurface = nullptr;
delete [] mAlphaChannel;
mAlphaChannel = nullptr;
}
#ifdef USE_SDL2
if (mTexture)
{
SDL_DestroyTexture(mTexture);
mTexture = nullptr;
}
#endif // USE_SDL2
#ifdef USE_OPENGL
if (mGLImage)
{
glDeleteTextures(1, &mGLImage);
mGLImage = 0;
#ifdef DEBUG_OPENGL_LEAKS
if (textures_count > 0)
textures_count --;
#endif // DEBUG_OPENGL_LEAKS
}
#endif // USE_OPENGL
}
bool Image::hasAlphaChannel() const
{
if (mLoaded)
return mHasAlphaChannel;
#ifdef USE_OPENGL
if (OpenGLImageHelper::mUseOpenGL != RENDER_SOFTWARE)
return true;
#endif // USE_OPENGL
return false;
}
SDL_Surface *Image::getByAlpha(const float alpha)
{
const std::map::const_iterator
it = mAlphaCache.find(alpha);
if (it != mAlphaCache.end())
return (*it).second;
return nullptr;
}
void Image::setAlpha(const float alpha)
{
if (mAlpha == alpha || !ImageHelper::mEnableAlpha)
return;
if (alpha < 0.0F || alpha > 1.0F)
return;
if (mSDLSurface)
{
if (mUseAlphaCache)
{
SDL_Surface *surface = getByAlpha(mAlpha);
if (!surface)
{
if (mAlphaCache.size() > 100)
{
#ifdef DEBUG_ALPHA_CACHE
logger->log("cleanCache");
for (std::map::const_iterator
i = mAlphaCache.begin(), i_end = mAlphaCache.end();
i != i_end; ++i)
{
logger->log("alpha: " + toString(i->first));
}
#endif // DEBUG_ALPHA_CACHE
SDLCleanCache();
}
surface = mSDLSurface;
if (surface)
mAlphaCache[mAlpha] = surface;
}
else
{
logger->log("cache bug");
}
surface = getByAlpha(alpha);
if (surface)
{
if (mSDLSurface == surface)
logger->log("bug");
mAlphaCache.erase(alpha);
mSDLSurface = surface;
mAlpha = alpha;
return;
}
else
{
mSDLSurface = SDLImageHelper::SDLDuplicateSurface(mSDLSurface);
if (!mSDLSurface)
return;
}
}
mAlpha = alpha;
if (!mHasAlphaChannel)
{
#ifdef USE_SDL2
SDL_SetSurfaceAlphaMod(mSDLSurface,
CAST_U8(255 * mAlpha));
#else // USE_SDL2
// Set the alpha value this image is drawn at
SDL_SetAlpha(mSDLSurface, SDL_SRCALPHA,
CAST_U8(255 * mAlpha));
#endif // USE_SDL2
}
else
{
if (SDL_MUSTLOCK(mSDLSurface))
SDL_LockSurface(mSDLSurface);
const int bx = mBounds.x;
const int by = mBounds.y;
const int bw = mBounds.w;
const int bh = mBounds.h;
const int bxw = bx + bw;
const int sw = mSDLSurface->w;
const int maxHeight = std::min(by + bh, mSDLSurface->h);
const int maxWidth = std::min(bxw, sw);
const int i1 = by * sw + bx;
const SDL_PixelFormat * const fmt = mSDLSurface->format;
const uint32_t amask = fmt->Amask;
const uint32_t invMask = ~fmt->Amask;
const uint8_t aloss = fmt->Aloss;
const uint8_t ashift = fmt->Ashift;
if (!bx && bxw == sw)
{
const int i2 = (maxHeight - 1) * sw + maxWidth - 1;
for (int i = i1; i <= i2; i++)
{
const uint8_t sourceAlpha = mAlphaChannel[i];
if (sourceAlpha > 0)
{
const uint8_t a = CAST_U8(
static_cast(sourceAlpha) * mAlpha);
uint32_t c = (static_cast(
mSDLSurface->pixels))[i];
c &= invMask;
c |= ((a >> aloss) << ashift & amask);
(static_cast(mSDLSurface->pixels))[i] = c;
}
}
}
else
{
for (int y = by; y < maxHeight; y ++)
{
const int idx = y * sw;
const int x1 = idx + bx;
const int x2 = idx + maxWidth;
for (int i = x1; i < x2; i ++)
{
const uint8_t sourceAlpha = mAlphaChannel[i];
if (sourceAlpha > 0)
{
const uint8_t a = CAST_U8(
static_cast(sourceAlpha) * mAlpha);
uint32_t c = (static_cast(
mSDLSurface->pixels))[i];
c &= invMask;
c |= ((a >> aloss) << ashift & amask);
(static_cast(
mSDLSurface->pixels))[i] = c;
}
}
}
}
if (SDL_MUSTLOCK(mSDLSurface))
SDL_UnlockSurface(mSDLSurface);
}
}
#ifdef USE_SDL2
else if (mTexture)
{
mAlpha = alpha;
SDL_SetTextureAlphaMod(mTexture,
CAST_U8(255 * mAlpha));
}
#endif // USE_SDL2
else
{
mAlpha = alpha;
}
}
Image* Image::SDLgetScaledImage(const int width, const int height) const
{
// No scaling on incorrect new values.
if (width == 0 || height == 0)
return nullptr;
// No scaling when there is ... no different given size ...
if (width == mBounds.w && height == mBounds.h)
return nullptr;
Image* scaledImage = nullptr;
if (mSDLSurface)
{
SDL_Surface *const scaledSurface = zoomSurface(mSDLSurface,
static_cast(width) / mBounds.w,
static_cast(height) / mBounds.h,
1);
// The load function takes care of the SDL<->OpenGL implementation
// and about freeing the given SDL_surface*.
if (scaledSurface)
{
scaledImage = imageHelper->loadSurface(scaledSurface);
MSDL_FreeSurface(scaledSurface);
}
}
return scaledImage;
}
Image *Image::getSubImage(const int x, const int y,
const int width, const int height)
{
// Create a new clipped sub-image
#ifdef USE_OPENGL
const RenderType mode = OpenGLImageHelper::mUseOpenGL;
if (mode == RENDER_NORMAL_OPENGL ||
mode == RENDER_SAFE_OPENGL ||
mode == RENDER_GLES_OPENGL ||
mode == RENDER_GLES2_OPENGL ||
mode == RENDER_MODERN_OPENGL)
{
return new SubImage(this,
mGLImage,
x, y,
width, height,
mTexWidth, mTexHeight);
}
#endif // USE_OPENGL
#ifdef USE_SDL2
#ifndef USE_OPENGL
const RenderType mode = ImageHelper::mUseOpenGL;
#endif // USE_OPENGL
if (mode == RENDER_SOFTWARE)
return new SubImage(this, mSDLSurface, x, y, width, height);
else
return new SubImage(this, mTexture, x, y, width, height);
#else // USE_SDL2
return new SubImage(this, mSDLSurface, x, y, width, height);
#endif // USE_SDL2
}
void Image::SDLTerminateAlphaCache()
{
SDLCleanCache();
mUseAlphaCache = false;
}
int Image::calcMemoryLocal() const
{
// +++ this calculation can be wrong for SDL2
int sz = static_cast(sizeof(Image) +
sizeof(std::map)) +
Resource::calcMemoryLocal();
if (mSDLSurface)
{
sz += CAST_S32(mAlphaCache.size()) *
memoryManager.getSurfaceSize(mSDLSurface);
}
return sz;
}
#ifdef USE_OPENGL
void Image::decRef()
{
if (mGLImage && getRefCount() <= 1)
OpenGLImageHelper::invalidate(mGLImage);
Resource::decRef();
}
#endif // USE_OPENGL