package funkin.graphics.framebuffer; import flixel.FlxCamera; import flixel.graphics.FlxGraphic; import flixel.graphics.frames.FlxFrame; import flixel.math.FlxMatrix; import flixel.math.FlxRect; import openfl.Lib; import openfl.display.BitmapData; import openfl.display3D.textures.TextureBase; /** * A camera, but grabbable. */ @:access(openfl.display.DisplayObject) @:access(openfl.display.BitmapData) @:access(openfl.display3D.Context3D) @:access(openfl.display3D.textures.TextureBase) @:access(flixel.graphics.FlxGraphic) @:access(flixel.graphics.frames.FlxFrame) class GrabbableCamera extends FlxCamera { final grabbed:Array = []; final texturePool:Array = []; final bgTexture:TextureBase; final bgBitmap:BitmapData; final bgFrame:FlxFrame; public function new(x:Int = 0, y:Int = 0, width:Int = 0, height:Int = 0, zoom:Float = 0) { super(x, y, width, height, zoom); bgTexture = pickTexture(width, height); bgBitmap = FixedBitmapData.fromTexture(bgTexture); bgFrame = new FlxFrame(new FlxGraphic('', null)); bgFrame.parent.bitmap = bgBitmap; bgFrame.frame = new FlxRect(); } /** * Grabs the camera screen and returns it as a `BitmapData`. The returned bitmap * will not be referred by the camera, so changing it will not affect the scene. * @param applyFilters if this is `true`, the camera's filters will be applied to the grabbed bitmap * @return the grabbed bitmap data */ public function grabScreen(applyFilters:Bool):BitmapData { final texture = pickTexture(width, height); final bitmap = FixedBitmapData.fromTexture(texture); squashTo(bitmap, applyFilters); return bitmap; } function squashTo(bitmap:BitmapData, applyFilters:Bool):Void { static final matrix = new FlxMatrix(); // resize the background bitmap if needed if (bgTexture.__width != width || bgTexture.__height != height) { resizeTexture(bgTexture, width, height); bgBitmap.__resize(width, height); bgFrame.parent.bitmap = bgBitmap; } // grab the bitmap render(); bitmap.fillRect(bitmap.rect, 0); matrix.setTo(1, 0, 0, 1, flashSprite.x, flashSprite.y); if (applyFilters) { bitmap.draw(flashSprite, matrix); } else { final tmp = flashSprite.filters; flashSprite.filters = null; bitmap.draw(flashSprite, matrix); flashSprite.filters = tmp; } // also copy to the background bitmap bgBitmap.fillRect(bgBitmap.rect, 0); bgBitmap.draw(bitmap); // clear graphics data super.clearDrawStack(); canvas.graphics.clear(); // render the background bitmap bgFrame.frame.set(0, 0, width, height); matrix.setTo(viewWidth / width, 0, 0, viewHeight / height, viewMarginLeft, viewMarginTop); drawPixels(bgFrame, matrix); } function resizeTexture(texture:TextureBase, width:Int, height:Int):Void { texture.__width = width; texture.__height = height; final context = texture.__context; final gl = context.gl; context.__bindGLTexture2D(texture.__textureID); gl.texImage2D(gl.TEXTURE_2D, 0, texture.__internalFormat, width, height, 0, texture.__format, gl.UNSIGNED_BYTE, null); context.__bindGLTexture2D(null); } override function destroy():Void { super.destroy(); disposeTextures(); } override function clearDrawStack():Void { super.clearDrawStack(); // also clear grabbed bitmaps for (bitmap in grabbed) { texturePool.push(bitmap.__texture); bitmap.dispose(); // this doesn't release the texture } grabbed.clear(); } function pickTexture(width:Int, height:Int):TextureBase { // zero-sized textures will be problematic width = width < 1 ? 1 : width; height = height < 1 ? 1 : height; if (texturePool.length > 0) { final res = texturePool.pop(); if (res.__width != width || res.__height != height) { resizeTexture(res, width, height); } return res; } return Lib.current.stage.context3D.createTexture(width, height, BGRA, true); } function disposeTextures():Void { trace('disposing textures'); for (bitmap in grabbed) { bitmap.dispose(); } grabbed.clear(); for (texture in texturePool) { texture.dispose(); } texturePool.resize(0); bgTexture.dispose(); bgBitmap.dispose(); } }