void NativeTextureGLES::updateRegion(int x, int y, const ImageData& data_)
    {
        ImageData data = data_;
        assert(_width >= data.w - x);
        assert(_height >= data.h - y);
        glBindTexture(GL_TEXTURE_2D, (GLuint) _id);

        glPixel glp = SurfaceFormat2GL(_format);
        //saveImage(data, "test1.png");


        MemoryTexture mt;
        if (_format != data.format)
        {
            mt.init(data.w, data.h, _format);
            mt.fill_zero();
            mt.updateRegion(0, 0, data);
            data = mt.lock();
        }

        glTexSubImage2D(GL_TEXTURE_2D, 0,
                        x, y, data.w, data.h,
                        glp.format, glp.type, data.data);
        CHECKGL();
    }
Esempio n. 2
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 void ResAnim::init(const std::string& file, int columns, int rows, float scaleFactor)
 {
     file::buffer bf;
     file::read(file.c_str(), bf);
     MemoryTexture mt;
     mt.init(bf, true);
     init(&mt, columns, rows, scaleFactor);
 }
Esempio n. 3
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	ResAnim *CreateResAnim(const char *file, int rows, int cols)
	{
		ResAnim *rs = new ResAnim(0);

		MemoryTexture mt;
		file::buffer bf;
		file::read(file, bf);
		mt.init(bf);

		rs->init(&mt, cols, rows);

		return rs;
	}
Esempio n. 4
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void STDRenderer::restore()
{
    MemoryTexture memwhite;
    memwhite.init(4, 4, TF_R8G8B8A8);

    oxygine::operations::op_fill fill;
    ImageData im = memwhite.lock();
    oxygine::operations::applyOperation(fill, im);

    white = IVideoDriver::instance->createTexture();
    white->setName("!renderer. white");
    white->init(im, false);
    white->setLinearFilter(false);

    setDefaultSettings();
    _restored = true;
}
    void NativeTextureGLES::unlock()
    {
        if (!_lockFlags)
            return;

        if (_lockFlags & lock_write)
        {
            glBindTexture(GL_TEXTURE_2D, (GLuint) _id);
            GLenum er = glGetError();

            ImageData src = ImageData(_width, _height, (int)(_data.size() / _height), _format, &_data.front());
            ImageData locked = src.getRect(_lockRect);

            //glPixelStorei (GL_UNPACK_ALIGNMENT,  1);//byte align
            er = glGetError();

            //todo add EXT_unpack_subimage support

            MemoryTexture mt;
            mt.init(_lockRect.getWidth(), _lockRect.getHeight(), _format);
            ImageData q = mt.lock();
            operations::copy(locked, q);
            mt.unlock();

            glPixel glp = SurfaceFormat2GL(_format);



            glTexSubImage2D(GL_TEXTURE_2D, 0,
                            _lockRect.getX(), _lockRect.getY(), _lockRect.getWidth(), _lockRect.getHeight(),
                            glp.format, glp.type, locked.data);

            er = glGetError();

            _lockFlags = 0;
        }

        CHECKGL();
    }
	void apply_atlas(atlas_data &ad)
	{
		if (!ad.texture)
			return;
		

		MemoryTexture mt;
		const Rect &bounds = ad.atlas.getBounds();
		int w = nextPOT(bounds.getWidth());
		int h = nextPOT(bounds.getHeight());
		mt.init(ad.mt.lock().getRect(Rect(0, 0, w, h)));
		
		ImageData image_data = mt.lock();	
		ad.texture->init(image_data, false);
		ad.mt.unlock();

		ad.texture->apply();

		/*
		char str[255];
		sprintf(str, "%d.png", ad.texture.get());
		saveImage(image_data, str, "png");
		*/
	}
	void ResAtlas::loadAtlas(CreateResourceContext &context)
	{
		//string path = context.walker.getCurrentFolder();

		pugi::xml_node node = context.walker.getNode(); 
		pugi::xml_node meta = context.walker.getMeta();

        int w = node.attribute("width").as_int(defaultAtlasWidth);
        int h = node.attribute("height").as_int(defaultAtlasHeight);
		const char *format = node.attribute("format").as_string("8888");

		atlas_data ad;


		TextureFormat tf = string2TextureFormat(format);

		pugi::xml_node meta_image = meta.child("atlas");
		
		bool compressed = false;

		while(meta_image)
		{
			const char *file = meta_image.attribute("file").value();

			int w = meta_image.attribute("w").as_int();
			int h = meta_image.attribute("h").as_int();

			const char *file_format = meta_image.attribute("format").as_string(0);
			TextureFormat ffmt = TF_UNDEFINED;
			if (file_format)
			{
				ffmt = string2TextureFormat(file_format);
				compressed = isCompressedFormat(ffmt);
			}

			std::string alpha_file = meta_image.attribute("alpha").as_string("");
			if (!alpha_file.empty())
			{
				alpha_file = *context.prebuilt_folder + alpha_file;
			}

			addAtlas(tf, *context.prebuilt_folder + file, alpha_file, w, h);

			meta_image = meta_image.next_sibling("atlas");
			context.walker.nextMeta();
		}

		//

		std::vector<ResAnim*> anims;
	
		
		while (true)
		{
			XmlWalker walker = context.walker.next();
			if (walker.empty())
				break;

			pugi::xml_node child_node = walker.getNode();
			pugi::xml_node meta_frames = walker.getMeta();

			const char *name = child_node.name();
			if (!strcmp(name, "image"))
			{
				std::string id = child_node.attribute("id").value();
				std::string file = child_node.attribute("file").value();

				if (file.empty())
				{
					ResAnim *ra = new ResAnim(this);
					ra->init(0, 0, 0, walker.getScaleFactor());
					init_resAnim(ra, file, child_node);
					ra->setParent(this);
					context.resources->add(ra);
					continue;
				}

				if (meta)
				{
					OX_ASSERT(meta_frames && "Did you recreate atlasses?");
				}
				
				MemoryTexture mt;
				ImageData im;

				int columns = 0;
				int rows = 0;
				int frame_width = 0;
				int frame_height = 0;
				float frame_scale = 1.0f;
				bool loaded = false;

				if (meta_frames  || meta)
				{
					const char *frame_size = meta_frames.attribute("fs").value();

					//int w = 0;
					//int h = 0;

					sscanf(frame_size, "%d,%d,%d,%d,%f", &columns, &rows, 
						&frame_width, &frame_height, 
						&frame_scale);
					loaded = true;
					//frame_scale = 0.
					//frame_scale /= walker.getScaleFactor();//todo! fix

					//im.w = w;
					//im.h = h;
				}
				else
				{
					file::buffer bf;
					file::read(walker.getPath("file").c_str(), bf);

					mt.init(bf, Renderer::getPremultipliedAlphaRender(), tf);
					im = mt.lock();
					if (im.w)
					{
						rows = child_node.attribute("rows").as_int();
						frame_width = child_node.attribute("frame_width").as_int();
						columns = child_node.attribute("cols").as_int();
						frame_height = child_node.attribute("frame_height").as_int();

						if (!rows)
							rows = 1;

						if (!columns)
							columns = 1;

						if (frame_width)
							columns = im.w / frame_width;				
						else
							frame_width = im.w / columns;


						if (frame_height)				
							rows = im.h / frame_height;
						else
							frame_height = im.h / rows;				

					}
				}

				if (columns)
				{
					animationFrames frames;
					int frames_count = rows * columns;
					frames.reserve(frames_count);
					
					ResAnim *ra = new ResAnim(this);

					if (meta)
					{
						OX_ASSERT(meta_frames);

						/*
						if (string(meta_frames.attribute("debug_image").as_string()) == "backleft.png")
						{

						}
						*/

						char *frames_data = (char*)meta_frames.first_child().value();

						const char *begin = frames_data;
						while(*frames_data)
						{
							if (*frames_data == ';')
							{
								*frames_data = 0;
								int id = 0;
								int x = 0;
								int y = 0;

								int bbox_x = 0;
								int bbox_y = 0;
								int bbox_w = 0;
								int bbox_h = 0;

								sscanf(begin, "%d,%d,%d,%d,%d,%d,%d", &id, &x, &y, &bbox_x, &bbox_y, &bbox_w, &bbox_h);

								begin = frames_data + 1;

								spNativeTexture &texture = _atlasses[id].base;
								spNativeTexture &alpha = _atlasses[id].alpha;

								float iw = 1.0f / texture->getWidth();
								float ih = 1.0f / texture->getHeight();

								RectF srcRect(x * iw, y * ih, bbox_w * iw, bbox_h * ih);

								float fs = frame_scale;
								RectF destRect(
									Vector2((float)bbox_x, (float)bbox_y) * fs,
									Vector2((float)bbox_w, (float)bbox_h) * fs
									);

								AnimationFrame frame;
								Diffuse df;
								df.base = texture;
								df.alpha = alpha;
								//compressed data could not be premultiplied 
								if (Renderer::getPremultipliedAlphaRender())
									df.premultiplied = !compressed;
								else
									df.premultiplied = true;//render should think that it is already premultiplied and don't worry about alpha

								frame.init(ra, df,
									srcRect, destRect, 
									Vector2((float)frame_width, (float)frame_height));

								frames.push_back(frame);
								if((int)frames.size() >= frames_count)
									break;
							}

							++frames_data;
						}
					}
					else
					{
						anims.push_back(ra);

						for (int y = 0; y < rows; ++y)
						{
							for (int x = 0; x < columns; ++x)
							{
								Rect src;
								src.pos = Point(x * frame_width, y * frame_height);
								src.size = Point(frame_width, frame_height);

								ImageData srcImage = im.getRect(src);

								Rect dest(0,0,0,0);

								if (!ad.texture)
								{
									std::string atlas_id = getName();
									next_atlas(w, h, tf, ad, atlas_id.c_str());
								}

								bool s = ad.atlas.add(&ad.mt, srcImage, dest);
								if (s == false)
								{
									apply_atlas(ad);
									next_atlas(w, h, tf, ad, walker.getCurrentFolder().c_str());
									s = ad.atlas.add(&ad.mt, srcImage, dest);
									OX_ASSERT(s);
								}

								/*
								float iw = 1.0f / ad.mt.getWidth();
								float ih = 1.0f / ad.mt.getHeight();
								*/

								float iw = 1.0f;
								float ih = 1.0f;
								
								RectF srcRect(dest.pos.x * iw, dest.pos.y * ih, dest.size.x * iw, dest.size.y * ih);

								Vector2 sizeScaled = Vector2((float)dest.size.x, (float)dest.size.y) * walker.getScaleFactor();
								RectF destRect(Vector2(0, 0), sizeScaled);

								AnimationFrame frame;
								Diffuse df;
								df.base = ad.texture;
								df.premultiplied = true;//!Renderer::getPremultipliedAlphaRender();
								frame.init(ra, df, srcRect, destRect, Vector2((float)frame_width, (float)frame_height) * walker.getScaleFactor());
								frames.push_back(frame);
							}
						}
					}	


					
					init_resAnim(ra, file, child_node);
					
					ra->init(frames, columns, walker.getScaleFactor());					
					ra->setParent(this);
					context.resources->add(ra);
				}
			}
		}

		apply_atlas(ad);

		for (std::vector<ResAnim*>::iterator i = anims.begin(); i != anims.end(); ++i)
		{
			ResAnim *rs = *i;
			int num = rs->getTotalFrames();

			for (int n = 0; n < num; ++n)
			{
				AnimationFrame &frame = const_cast<AnimationFrame&>(rs->getFrame(n));
				
				float iw = 1.0f / frame.getDiffuse().base->getWidth();
				float ih = 1.0f / frame.getDiffuse().base->getHeight();

				RectF rect = frame.getSrcRect();
				rect.pos.x *= iw;
				rect.pos.y *= ih;
				rect.size.x *= iw;
				rect.size.y *= ih;
				frame.setSrcRect(rect);
			}
		}
	}
    void ResAtlasGeneric::loadAtlas2(CreateResourceContext& context)
    {
        _current = 0;
        pugi::xml_node node = context.walker.getNode();

        int w = node.attribute("width").as_int(defaultAtlasWidth);
        int h = node.attribute("height").as_int(defaultAtlasHeight);

        const char* format = node.attribute("format").as_string("8888");

        loadBase(node);

        atlas_data ad;


        TextureFormat tf = string2TextureFormat(format);


        bool compressed = false;


        std::vector<ResAnim*> anims;


        while (true)
        {
            XmlWalker walker = context.walker.next();
            if (walker.empty())
                break;

            pugi::xml_node child_node = walker.getNode();

            const char* name = child_node.name();
            if (strcmp(name, "image"))
                continue;


            std::string id = child_node.attribute("id").value();
            std::string file = child_node.attribute("file").value();

            if (file.empty())
            {
                createEmpty(walker, context);
                continue;
            }


            bool trim = child_node.attribute("trim").as_bool(true);
            bool extend = child_node.attribute("extend").as_bool(true);

            Point offset = extend ? Point(2, 2) : Point(0, 0);

            MemoryTexture mt;
            ImageData im;

            int columns = 0;
            int rows = 0;
            int frame_width = 0;
            int frame_height = 0;
            float frame_scale = 1.0f;
            bool loaded = false;


            file::buffer bf;
            file::read(walker.getPath("file"), bf);

            mt.init(bf, true, tf);
            im = mt.lock();
            if (im.w)
            {
                rows = child_node.attribute("rows").as_int();
                frame_width = child_node.attribute("frame_width").as_int();
                columns = child_node.attribute("cols").as_int();
                frame_height = child_node.attribute("frame_height").as_int();

                if (!rows)
                    rows = 1;

                if (!columns)
                    columns = 1;

                if (frame_width)
                    columns = im.w / frame_width;
                else
                    frame_width = im.w / columns;


                if (frame_height)
                    rows = im.h / frame_height;
                else
                    frame_height = im.h / rows;
            }


            if (columns)
            {
                animationFrames frames;
                int frames_count = rows * columns;
                frames.reserve(frames_count);

                ResAnim* ra = new ResAnim(this);


                anims.push_back(ra);

                for (int y = 0; y < rows; ++y)
                {
                    for (int x = 0; x < columns; ++x)
                    {
                        Rect frameRect;
                        frameRect.pos = Point(x * frame_width, y * frame_height);
                        frameRect.size = Point(frame_width, frame_height);

                        ImageData srcImage_ = im.getRect(frameRect);


                        HitTestData adata;
                        ImageData src;
                        Rect bounds(0, 0, im.w, im.h);
                        if (trim)
                            makeAlpha(srcImage_, bounds, _hitTestBuffer, adata, walker.getAlphaHitTest());
                        src = srcImage_.getRect(bounds);

                        Rect dest(0, 0, 0, 0);

                        if (!ad.texture)
                        {
                            std::string atlas_id = getName();
                            nextAtlas(w, h, tf, ad, atlas_id.c_str());
                        }

                        bool s = ad.atlas.add(&ad.mt, src, dest, offset);
                        if (s == false)
                        {
                            applyAtlas(ad, _linearFilter, _clamp2edge);

                            nextAtlas(w, h, tf, ad, walker.getCurrentFolder().c_str());
                            s = ad.atlas.add(&ad.mt, src, dest, offset);
                            OX_ASSERT(s);
                        }

                        //extend = false;
                        if (extend)
                        {
                            //duplicate image edges
                            MemoryTexture& mt = ad.mt;
                            ImageData tmp;

                            if (bounds.getY() == 0 && dest.pos.y != 0)
                            {
                                tmp = mt.lock(Rect(dest.pos.x, dest.pos.y - 1, src.w, 1));
                                operations::copy(src.getRect(Rect(0, 0, src.w, 1)), tmp);
                            }

                            if (bounds.getHeight() == im.h && dest.getBottom() != mt.getHeight())
                            {
                                tmp = mt.lock(Rect(dest.pos.x, dest.pos.y + src.h, src.w, 1));
                                operations::copy(src.getRect(Rect(0, src.h - 1, src.w, 1)), tmp);
                            }

                            if (bounds.getX() == 0 && dest.pos.x != 0)
                            {
                                tmp = mt.lock(Rect(dest.pos.x - 1, dest.pos.y, 1, src.h));
                                operations::copy(src.getRect(Rect(0, 0, 1, src.h)), tmp);
                            }

                            if (bounds.getWidth() == im.w && dest.getRight() != mt.getWidth())
                            {
                                tmp = mt.lock(Rect(dest.pos.x + src.w, dest.pos.y, 1, src.h));
                                operations::copy(src.getRect(Rect(src.w - 1, 0, 1, src.h)), tmp);
                            }
                        }


                        //operations::copy(src.getRect(Rect(0, 0, 1, 1)), mt.lock(&Rect(dest.pos.x - 1, dest.pos.y - 1, 1, 1)));
                        //operations::copy(src.getRect(Rect(src.w - 1, 0, 1, 1)), mt.lock(&Rect(dest.pos.x + src.w, dest.pos.y - 1, 1, 1)));

                        //operations::copy(src.getRect(Rect(0, src.h - 1, 1, 1)), mt.lock(&Rect(dest.pos.x - 1, dest.pos.y + src.h, 1, 1)));
                        //operations::copy(src.getRect(Rect(src.w - 1, src.h - 1, 1, 1)), mt.lock(&Rect(dest.pos.x + src.w, dest.pos.y + src.h, 1, 1)));


                        float iw = 1.0f;
                        float ih = 1.0f;

                        RectF srcRect(dest.pos.x * iw, dest.pos.y * ih, dest.size.x * iw, dest.size.y * ih);

                        Vector2 sizeScaled = Vector2((float)dest.size.x, (float)dest.size.y) * walker.getScaleFactor();
                        RectF destRect(bounds.pos.cast<Vector2>(), sizeScaled);

                        AnimationFrame frame;
                        Diffuse df;
                        df.base = ad.texture;
                        df.premultiplied = true;//!Renderer::getPremultipliedAlphaRender();

                        Vector2 fsize = Vector2((float)frame_width, (float)frame_height) * walker.getScaleFactor();
                        frame.init2(ra, x, y, df,
                                    srcRect, destRect, fsize);

                        frame.setHitTestData(adata);

                        frames.push_back(frame);
                    }
                }

                init_resAnim(ra, file, child_node);

                ra->init(frames, columns, walker.getScaleFactor(), 1.0f / walker.getScaleFactor());
                ra->setParent(this);
                context.resources->add(ra, context.options->_shortenIDS);
            }

        }

        applyAtlas(ad, _linearFilter, _clamp2edge);

        for (std::vector<ResAnim*>::iterator i = anims.begin(); i != anims.end(); ++i)
        {
            ResAnim* rs = *i;
            int num = rs->getTotalFrames();

            for (int n = 0; n < num; ++n)
            {
                AnimationFrame& frame = const_cast<AnimationFrame&>(rs->getFrame(n));

                float iw = 1.0f / frame.getDiffuse().base->getWidth();
                float ih = 1.0f / frame.getDiffuse().base->getHeight();

                RectF rect = frame.getSrcRect();
                rect.pos.x *= iw;
                rect.pos.y *= ih;
                rect.size.x *= iw;
                rect.size.y *= ih;
                frame.setSrcRect(rect);

                HitTestData ad = frame.getHitTestData();
                if (ad.pitch)
                {
                    ad.data = &_hitTestBuffer[reinterpret_cast<size_t>(ad.data)];
                    frame.setHitTestData(ad);
                }
            }
        }
    }