/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #ifndef __com_sun_star_rendering_XCanvas_idl__ #define __com_sun_star_rendering_XCanvas_idl__ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include module com { module sun { module star { module geometry { interface XMapping2D; }; }; }; }; module com { module sun { module star { module rendering { interface XCanvasFont; interface XPolyPolygon2D; interface XCachedPrimitive; interface XBitmap; interface XGraphicDevice; interface XTextLayout; /** Central interface for rendering.

This is the central interface for graphical output production, and the place where all draw methods are located.

Some notes are in order to explain the concepts used here. The XCanvas interface is free of client-modifiable state, i.e. it can be used safely and without external synchronization in a multi-threaded environment. On the other hand, this implies that for nearly every canvas operation, external state is required. This is provided by ViewState and RenderState in a unified fashion, supplemented by a few extra state parameters for some methods (e.g. textured polygons or text rendering).

When used careless, this scheme can be inefficient to some extend, because internally, view, render and other states have to be combined before rendering. This is especially expensive for complex clip polygons, i.e. when both ViewState and RenderState have a complex clip polygon set, which have to be intersected before rendering. It is therefore recommended to combine ViewState and RenderState already at the client side, when objects are organized in a hierarchical way: the classic example are grouped draw shapes, whose parent group object imposes a common clipping and a common transformation on its siblings. The group object would therefore merge the ViewState and the RenderState it is called with into a new ViewState, and call its siblings with a RenderState containing only the local offset (and no extra clipping).

Further on, this stateless nature provides easy ways for caching. Every non-trivial operation on XCanvas can return a cache object, which, when called to redraw, renders the primitive usually much more quickly than the original method. Note that such caching is a lot more complicated, should the actual rendering a method yields depend on internal state (which is the case e.g. for the ::com::sun::star::drawing::XGraphics interface). Please note, though, that deciding whether to return an XCachedPrimitive is completely up to the implementation - don't rely on the methods returning something (this is because there might be cases when returning such a cache object will actually be a pessimization, since it involves memory allocation and comparisons).

Things that need more than a small, fixed amount of data are encapsulated in own interfaces, e.g. polygons and bitmaps. You can, in principle, roll your own implementations of these interfaces, wrap it around your internal representation of polygons and bitmaps, and render them. It might just not be overly fast, because the XCanvas would need to convert for each render call. It is therefore recommended to create such objects via the XGraphicDevice factory (to be retrieved from every canvas object via the getDevice() call) - they will then internally optimize to the underlying graphics subsystem.

@since OOo 2.0 */ interface XCanvas : ::com::sun::star::uno::XInterface { /** Clear the whole canvas area.

This method clears the whole canvas area to the device default color (e.g. white for a printer, transparent for an XCustomSprite). */ void clear(); /** Draw a point in device resolution on the device. @param aPoint The point to draw. @param aViewState The view state to be used when drawing this point. @param aRenderState The render state to be used when drawing this point. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ void drawPoint( [in] ::com::sun::star::geometry::RealPoint2D aPoint, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException); /** Draw a line in device resolution width (i.e. one device pixel wide). @param aStartPoint The start point of the line to draw. @param aEndPoint The end point of the line to draw. @param aViewState The view state to be used when drawing this line. @param aRenderState The render state to be used when drawing this line. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ void drawLine( [in] ::com::sun::star::geometry::RealPoint2D aStartPoint, [in] ::com::sun::star::geometry::RealPoint2D aEndPoint, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException); /** Draw a cubic Bezier curve in device resolution width (i.e. one device pixel wide). @param aBezierSegment The start and the two control points of the Bezier curve. @param aEndPoint The end point of the Bezier curve. @param aViewState The view state to be used when drawing this curve. @param aRenderState The render state to be used when drawing this curve. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ void drawBezier( [in] ::com::sun::star::geometry::RealBezierSegment2D aBezierSegment, [in] ::com::sun::star::geometry::RealPoint2D aEndPoint, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException); /** Draw a poly-polygon in device resolution line width (i.e. the lines are one device pixel wide). @param xPolyPolygon The poly-polygon to draw. @param aViewState The view state to be used when drawing this polygon. @param aRenderState The render state to be used when drawing this polygon. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ XCachedPrimitive drawPolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException); /** Stroke each polygon of the provided poly-polygon with the specified stroke attributes.

This method considers the stroking of all polygons as an atomic operation in relation to the RenderState's CompositeOperationy operation. That means, overlapping strokes from distinct polygons will look exactly as overlapping segments of the same polygon, even with transparency.

@param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when stroking this polygon. @param aRenderState The render state to be used when stroking this polygon. @param aStrokeAttributes Further attributes used to parameterize the stroking. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ XCachedPrimitive strokePolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState, [in] StrokeAttributes aStrokeAttributes ) raises (com::sun::star::lang::IllegalArgumentException); /** Stroke each polygon of the provided poly-polygon with the specified stroke attributes, fill the stroked outline with the specified texture graphics.

This method considers the stroking of all polygons as an atomic operation in relation to the RenderState's CompositeOp operation. That means, overlapping strokes from distinct polygons will look exactly as overlapping segments of the same polygon, even with transparency.

@param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when strokes this polygon. @param aRenderState The render state to be used when stroking this polygon. @param aTextures A sequence of texture definitions, with which to fill the stroked area. @param aStrokeAttributes Further attributes used to parameterize the stroking. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. @throws VolatileContentDestroyedException if a texture bitmap was volatile, and the content was destroyed before the rendering could take place. */ XCachedPrimitive strokeTexturedPolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState, [in] sequence aTextures, [in] StrokeAttributes aStrokeAttributes ) raises (com::sun::star::lang::IllegalArgumentException, VolatileContentDestroyedException); /** Stroke each polygon of the provided poly-polygon with the specified stroke attributes, fill the stroked outline with the specified texture graphics, map the texture to the outline via the specified texture mapping.

This method considers the stroking of all polygons as an atomic operation in relation to the RenderState's CompositeOp operation. That means, overlapping strokes from distinct polygons will look exactly as overlapping segments of the same polygon, even with transparency. @param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when stroking this polygon. @param aRenderState The render state to be used when stroking this polygon. @param aTextures A sequence of texture definitions, with which to fill the stroked area. @param xMapping A bilinear mapping function which defines the warping of the textures on the output area. @param aStrokeAttributes Further attributes used to parameterize the stroking. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. @throws VolatileContentDestroyedException if a texture bitmap was volatile, and the content was destroyed before the rendering could take place. */ XCachedPrimitive strokeTextureMappedPolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState, [in] sequence aTextures, [in] ::com::sun::star::geometry::XMapping2D xMapping, [in] StrokeAttributes aStrokeAttributes ) raises (com::sun::star::lang::IllegalArgumentException, VolatileContentDestroyedException); // [TODO: Method misplaced at this interface?] /** Query the polygonal representation of the stroke outlines, as it would be generated by the strokePolyPolygon methods.

This method can be used to e.g. set a clipping which covers the same area as a stroke.

@param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when generating the outline. @param aRenderState The render state to be used when generating the outline. @param aStrokeAttributes Further attributes used to parameterize the stroking. @return a poly-polygon describing the outline of the stroked area. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ XPolyPolygon2D queryStrokeShapes( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState, [in] StrokeAttributes aStrokeAttributes ) raises (com::sun::star::lang::IllegalArgumentException); /** Fill the given poly-polygon.

This method fills the given poly-polygon according to the RenderState's color and the poly-polygon's fill rule.

@param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when filling this polygon. @param aRenderState The render state to be used when filling this polygon. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ XCachedPrimitive fillPolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException); /** Fill the given poly-polygon with a texture.

This method fills the given poly-polygon according to the RenderState's color, the given textures and poly-polygon's fill rule.

@param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when filling this polygon. @param aRenderState The render state to be used when filling this polygon. @param aTextures A sequence of texture definitions, with which to fill the polygonal area. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. @throws VolatileContentDestroyedException if a texture bitmap was volatile, and the content was destroyed before the rendering could take place. */ XCachedPrimitive fillTexturedPolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState, [in] sequence xTextures ) raises (com::sun::star::lang::IllegalArgumentException, VolatileContentDestroyedException); /** Fill the given poly-polygon with a mapped texture.

This method fills the given poly-polygon according to the RenderState's color, the given textures and poly-polygon's fill rule. The texture is mapped to the poly-polygon's interior via the given texture mapping.

@param xPolyPolygon The poly-polygon to render. @param aViewState The view state to be used when filling this polygon. @param aRenderState The render state to be used when filling this polygon. @param aTextures A sequence of texture definitions, with which to fill the polygonal area. @param xMapping A bilinear mapping function which defines the warping of the textures on the output area. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. @throws VolatileContentDestroyedException if a texture bitmap was volatile, and the content was destroyed before the rendering could take place. */ XCachedPrimitive fillTextureMappedPolyPolygon( [in] XPolyPolygon2D xPolyPolygon, [in] ViewState aViewState, [in] RenderState aRenderState, [in] sequence xTextures, [in] ::com::sun::star::geometry::XMapping2D xMapping ) raises (com::sun::star::lang::IllegalArgumentException, VolatileContentDestroyedException); /** Create a suitable font for the specified font description. @param aFontRequest @param aExtraFontProperties Additional font properties to be applied when selecting this font. Normally, you should not need this parameter. Currently, the following properties are recognized:

    Kerning: a double between 0 and 1, where 0 completely disables kerning. Whether kerning is on or off by default is font-dependent. IsEmphasisMarks: a boolean, where enables automatic placements of emphasis marks, e.g. for Hebrew. The default value, if this property is not specified, is . ExpandedSpacing: a double value which is added between all cell distances for this font. The default value for this property is zero. Use negative values for condensed output, and positive values for expanded output. OptionalLayoutFeatures: a sequence of PropertyValue listing font-specific optional layout features, like glyph variants.
@param aFontMatrix Font-specific transformation matrix, which affects both the glyphs as well as the advancement. @returns the requested font, or an invalid reference, if the request failed. @throws com::sun::star::lang::IllegalArgumentException if one of the parameters is not within the allowed range. */ XCanvasFont createFont( [in] FontRequest aFontRequest, [in] sequence< ::com::sun::star::beans::PropertyValue > aExtraFontProperties, [in] ::com::sun::star::geometry::Matrix2D aFontMatrix ) raises (com::sun::star::lang::IllegalArgumentException); /** Query font information, specific to this canvas.

@param aFilter Filter parameter to reduce the list of returned fonts. Every member of FontInfo that is not the empty string or the "don't care" value restricts the list of returned fonts to contain only those that have the specified attribute. @param xFontProperties This interface can provide additional font properties to filter the list of available fonts against. @returns the list of fonts matching the filter set. @throws com::sun::star::lang::IllegalArgumentException if one of the font properties are invalid or not recognized, or if one of the FontInfo members is not within the permitted range. */ sequence< FontInfo > queryAvailableFonts( [in] FontInfo aFilter, [in] sequence< ::com::sun::star::beans::PropertyValue > aFontProperties ) raises (com::sun::star::lang::IllegalArgumentException); /** Draw the text given by the substring of the specified string with the given font.

The local origin of this output operation is either the left end of the text baseline, for textDirection equal LEFT_TO_RIGHT, or the right end of the baseline, for textDirection equal to RIGHT_TO_LEFT, respectively.

@param aText The text to output. @param xFont The font retrieved from this canvas to be used when drawing the text. @param aViewState The view state to be used when drawing this text. @param aRenderState The render state to be used when drawing this text. @param nTextDirection A value from the TextDirection collection, denoting the main writing direction for this string. The main writing direction determines the origin of the text output, i.e. the left edge for left-to-right and the right edge for right-to-left text. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ XCachedPrimitive drawText( [in] StringContext aText, [in] XCanvasFont xFont, [in] ViewState aViewState, [in] RenderState aRenderState, [in] byte nTextDirection ) raises (com::sun::star::lang::IllegalArgumentException); /** Draw the formatted text given by the text layout.

The glyphs as represented by the text layout are always output with the reference position being the leftmost edge of the layout object's baseline. If the layout contains more than one baseline, the baseline of the first strong character in logical order is used here (strong in this context means that the character can be unambiguously assigned to a Unicode script).

@param xLayoutetText An interface to the readily layouted text, obtained from a XCanvasFont created at this canvas. The text layout already carries intrinsic font information. @param aViewState The view state to be used when drawing this text. @param aRenderState The render state to be used when drawing this text. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. */ XCachedPrimitive drawTextLayout( [in] XTextLayout xLayoutetText, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException); /** Render the given bitmap.

This method renders the bitmap, at a position and shape as specified by the combined view and render transformations. For fast render speed, the bitmap should be created by the corresponding XGraphicDevice's XGraphicDevice::createCompatibleBitmap() method.

@param xBitmap The bitmap to render. @param aViewState The view state to be used when drawing this text. @param aRenderState The render state to be used when drawing this text. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. @throws VolatileContentDestroyedException if a texture bitmap was volatile, and the content was destroyed before the rendering could take place. */ XCachedPrimitive drawBitmap( [in] XBitmap xBitmap, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException, VolatileContentDestroyedException); /** Render the given bitmap, with a global color modulation.

This method renders the bitmap, at a position and shape as specified by the combined view and render transformations. For fast render speed, the bitmap should be created by the corresponding XGraphicDevice's XGraphicDevice::createCompatibleBitmap() method. The bitmap's color channel values are multiplied with the device color values as specified in the render state.

@param xBitmap The bitmap to render. @param aViewState The view state to be used when drawing this text. @param aRenderState The render state to be used when drawing this text. The device color entry in the render state is multiplied with every pixel color value, and only the result is rendered into the canvas. If, for example, the bitmap should be rendered with increased global transparency, set all device color channels to 1.0, except for the alpha channel, which should be set to the desired transparency. @return a handle to the cached rendering output. @throws com::sun::star::lang::IllegalArgumentException if one of the view and render state parameters are outside the specified range. @throws VolatileContentDestroyedException if a texture bitmap was volatile, and the content was destroyed before the rendering could take place. */ XCachedPrimitive drawBitmapModulated( [in] XBitmap xBitmap, [in] ViewState aViewState, [in] RenderState aRenderState ) raises (com::sun::star::lang::IllegalArgumentException, VolatileContentDestroyedException); /** Request the associated graphic device for this canvas.

A graphic device provides methods specific to the underlying output device capabilities, which are common for all canvases rendering to such a device. This includes device resolution, color space, or bitmap formats. @return the associated XGraphicDevice. */ XGraphicDevice getDevice(); }; }; }; }; }; #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */