169de5a4cSAndrew Rist /**************************************************************
2cdf0e10cSrcweir *
369de5a4cSAndrew Rist * Licensed to the Apache Software Foundation (ASF) under one
469de5a4cSAndrew Rist * or more contributor license agreements. See the NOTICE file
569de5a4cSAndrew Rist * distributed with this work for additional information
669de5a4cSAndrew Rist * regarding copyright ownership. The ASF licenses this file
769de5a4cSAndrew Rist * to you under the Apache License, Version 2.0 (the
869de5a4cSAndrew Rist * "License"); you may not use this file except in compliance
969de5a4cSAndrew Rist * with the License. You may obtain a copy of the License at
10cdf0e10cSrcweir *
1169de5a4cSAndrew Rist * http://www.apache.org/licenses/LICENSE-2.0
12cdf0e10cSrcweir *
1369de5a4cSAndrew Rist * Unless required by applicable law or agreed to in writing,
1469de5a4cSAndrew Rist * software distributed under the License is distributed on an
1569de5a4cSAndrew Rist * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
1669de5a4cSAndrew Rist * KIND, either express or implied. See the License for the
1769de5a4cSAndrew Rist * specific language governing permissions and limitations
1869de5a4cSAndrew Rist * under the License.
19cdf0e10cSrcweir *
2069de5a4cSAndrew Rist *************************************************************/
2169de5a4cSAndrew Rist
22cdf0e10cSrcweir // FIXME: in vigra
23cdf0e10cSrcweir #if defined(__SUNPRO_CC) && (__SUNPRO_CC > 0x580)
24cdf0e10cSrcweir #include <math.h> // needed for fabs, hypot
25cdf0e10cSrcweir #endif
26cdf0e10cSrcweir #include "basebmp/bitmapdevice.hxx"
27cdf0e10cSrcweir
28cdf0e10cSrcweir #include "basebmp/compositeiterator.hxx"
29cdf0e10cSrcweir #include "basebmp/iteratortraits.hxx"
30cdf0e10cSrcweir
31cdf0e10cSrcweir #include "basebmp/accessor.hxx"
32cdf0e10cSrcweir #include "basebmp/accessortraits.hxx"
33cdf0e10cSrcweir #include "basebmp/accessoradapters.hxx"
34cdf0e10cSrcweir #include "basebmp/colorblendaccessoradapter.hxx"
35cdf0e10cSrcweir
36cdf0e10cSrcweir #include "basebmp/color.hxx"
37cdf0e10cSrcweir #include "basebmp/colormisc.hxx"
38cdf0e10cSrcweir #include "basebmp/colortraits.hxx"
39cdf0e10cSrcweir
40cdf0e10cSrcweir #include "basebmp/greylevelformats.hxx"
41cdf0e10cSrcweir #include "basebmp/paletteformats.hxx"
42cdf0e10cSrcweir #include "basebmp/rgbmaskpixelformats.hxx"
43cdf0e10cSrcweir #include "basebmp/rgb24pixelformats.hxx"
44cdf0e10cSrcweir
45cdf0e10cSrcweir #include "basebmp/scanlineformats.hxx"
46cdf0e10cSrcweir #include "basebmp/fillimage.hxx"
47cdf0e10cSrcweir #include "basebmp/scaleimage.hxx"
48cdf0e10cSrcweir #include "basebmp/clippedlinerenderer.hxx"
49cdf0e10cSrcweir #include "basebmp/polypolygonrenderer.hxx"
50cdf0e10cSrcweir #include "basebmp/genericcolorimageaccessor.hxx"
51cdf0e10cSrcweir
52cdf0e10cSrcweir #include "basebmp/tools.hxx"
53cdf0e10cSrcweir #include "intconversion.hxx"
54cdf0e10cSrcweir
55cdf0e10cSrcweir #include <rtl/alloc.h>
56cdf0e10cSrcweir #include <rtl/memory.h>
57cdf0e10cSrcweir #include <osl/diagnose.h>
58cdf0e10cSrcweir
59cdf0e10cSrcweir #include <basegfx/tools/tools.hxx>
60cdf0e10cSrcweir #include <basegfx/range/b2irange.hxx>
61cdf0e10cSrcweir #include <basegfx/range/b2drange.hxx>
62cdf0e10cSrcweir #include <basegfx/polygon/b2dpolygon.hxx>
63cdf0e10cSrcweir #include <basegfx/polygon/b2dpolygontools.hxx>
64cdf0e10cSrcweir #include <basegfx/polygon/b2dpolypolygontools.hxx>
65cdf0e10cSrcweir #include <basegfx/point/b2ipoint.hxx>
66cdf0e10cSrcweir #include <basegfx/vector/b2ivector.hxx>
67cdf0e10cSrcweir
68cdf0e10cSrcweir #include <vigra/iteratortraits.hxx>
69cdf0e10cSrcweir #include <vigra/rgbvalue.hxx>
70cdf0e10cSrcweir #include <vigra/copyimage.hxx>
71cdf0e10cSrcweir #include <vigra/tuple.hxx>
72cdf0e10cSrcweir
73cdf0e10cSrcweir namespace vigra
74cdf0e10cSrcweir {
75cdf0e10cSrcweir
76*1fd21976Smseidel // componentwise xor of an RGBValue (missing from rgbvalue.hxx)
77cdf0e10cSrcweir template< class Value, unsigned int RedIndex, unsigned int BlueIndex, unsigned int GreenIndex >
78cdf0e10cSrcweir inline RGBValue<Value, RedIndex, GreenIndex, BlueIndex>
operator ^(RGBValue<Value,RedIndex,GreenIndex,BlueIndex> const & lhs,RGBValue<Value,RedIndex,GreenIndex,BlueIndex> const & rhs)79cdf0e10cSrcweir operator^( RGBValue<Value, RedIndex, GreenIndex, BlueIndex> const& lhs,
80cdf0e10cSrcweir RGBValue<Value, RedIndex, GreenIndex, BlueIndex> const& rhs )
81cdf0e10cSrcweir {
82cdf0e10cSrcweir RGBValue<Value, RedIndex, GreenIndex, BlueIndex> res(
83cdf0e10cSrcweir lhs[0] ^ rhs[0],
84cdf0e10cSrcweir lhs[1] ^ rhs[1],
85cdf0e10cSrcweir lhs[2] ^ rhs[2]);
86cdf0e10cSrcweir return res;
87cdf0e10cSrcweir }
88cdf0e10cSrcweir }
89cdf0e10cSrcweir
90cdf0e10cSrcweir namespace basebmp
91cdf0e10cSrcweir {
92cdf0e10cSrcweir
93cdf0e10cSrcweir namespace
94cdf0e10cSrcweir {
95cdf0e10cSrcweir /** Create the type for an accessor that takes the (mask,bitmap)
96cdf0e10cSrcweir input value generated from a JoinImageAccessorAdapter, and
97cdf0e10cSrcweir pipe that through a mask functor.
98cdf0e10cSrcweir
99cdf0e10cSrcweir @tpl DestAccessor
100cdf0e10cSrcweir Destination bitmap accessor
101cdf0e10cSrcweir
102cdf0e10cSrcweir @tpl JoinedAccessor
103cdf0e10cSrcweir Input accessor, is expected to generate a std::pair as the
104cdf0e10cSrcweir value type
105cdf0e10cSrcweir
106cdf0e10cSrcweir @tpl MaskFunctorMode
107cdf0e10cSrcweir Either FastMask or NoFastMask, depending on whether the mask
108cdf0e10cSrcweir is guaranteed to contain only 0s and 1s.
109cdf0e10cSrcweir */
110cdf0e10cSrcweir template< class DestAccessor,
111cdf0e10cSrcweir class JoinedAccessor,
112cdf0e10cSrcweir bool polarity,
113cdf0e10cSrcweir typename MaskFunctorMode > struct masked_input_splitting_accessor
114cdf0e10cSrcweir {
115cdf0e10cSrcweir typedef BinarySetterFunctionAccessorAdapter<
116cdf0e10cSrcweir DestAccessor,
117cdf0e10cSrcweir BinaryFunctorSplittingWrapper<
118cdf0e10cSrcweir typename outputMaskFunctorSelector<
119cdf0e10cSrcweir typename JoinedAccessor::value_type::first_type,
120cdf0e10cSrcweir typename JoinedAccessor::value_type::second_type,
121cdf0e10cSrcweir polarity,
122cdf0e10cSrcweir MaskFunctorMode >::type > > type;
123cdf0e10cSrcweir };
124cdf0e10cSrcweir
125cdf0e10cSrcweir
126cdf0e10cSrcweir
127cdf0e10cSrcweir // Actual BitmapDevice implementation (templatized by accessor and iterator)
128cdf0e10cSrcweir //--------------------------------------------------------------------------
129cdf0e10cSrcweir
130cdf0e10cSrcweir /** Implementation of the BitmapDevice interface
131cdf0e10cSrcweir
132cdf0e10cSrcweir @tpl DestIterator
133cdf0e10cSrcweir Iterator to access bitmap memory
134cdf0e10cSrcweir
135cdf0e10cSrcweir @tpl RawAccessor
136cdf0e10cSrcweir Raw accessor, to access pixel values directly
137cdf0e10cSrcweir
138cdf0e10cSrcweir @tpl AccessorSelector
139cdf0e10cSrcweir Accessor adapter selector, which, when applying the nested
140cdf0e10cSrcweir template metafunction wrap_accessor to one of the raw bitmap
141cdf0e10cSrcweir accessors, yields a member type named 'type', which is a
142cdf0e10cSrcweir wrapped accessor that map color values.
143cdf0e10cSrcweir
144cdf0e10cSrcweir @tpl Masks
145cdf0e10cSrcweir Traits template, containing nested traits
146cdf0e10cSrcweir clipmask_format_traits and alphamask_format_traits, which
147cdf0e10cSrcweir determine what specialized formats are to be used for clip and
148cdf0e10cSrcweir alpha masks. With those mask formats, clipping and alpha
149cdf0e10cSrcweir blending is handled natively.
150cdf0e10cSrcweir */
151cdf0e10cSrcweir template< class DestIterator,
152cdf0e10cSrcweir class RawAccessor,
153cdf0e10cSrcweir class AccessorSelector,
154cdf0e10cSrcweir class Masks > class BitmapRenderer :
155cdf0e10cSrcweir public BitmapDevice
156cdf0e10cSrcweir {
157cdf0e10cSrcweir public:
158cdf0e10cSrcweir typedef DestIterator dest_iterator_type;
159cdf0e10cSrcweir typedef RawAccessor raw_accessor_type;
160cdf0e10cSrcweir typedef AccessorSelector accessor_selector;
161cdf0e10cSrcweir
162cdf0e10cSrcweir typedef typename Masks::clipmask_format_traits::iterator_type mask_iterator_type;
163cdf0e10cSrcweir typedef typename Masks::clipmask_format_traits::raw_accessor_type mask_rawaccessor_type;
164cdf0e10cSrcweir typedef typename Masks::clipmask_format_traits::accessor_selector mask_accessorselector_type;
165cdf0e10cSrcweir
166cdf0e10cSrcweir typedef typename Masks::alphamask_format_traits::iterator_type alphamask_iterator_type;
167cdf0e10cSrcweir typedef typename Masks::alphamask_format_traits::raw_accessor_type alphamask_rawaccessor_type;
168cdf0e10cSrcweir typedef typename Masks::alphamask_format_traits::accessor_selector alphamask_accessorselector_type;
169cdf0e10cSrcweir
170cdf0e10cSrcweir typedef typename AccessorSelector::template wrap_accessor<
171cdf0e10cSrcweir raw_accessor_type >::type dest_accessor_type;
172cdf0e10cSrcweir
173cdf0e10cSrcweir typedef AccessorTraits< dest_accessor_type > accessor_traits;
174cdf0e10cSrcweir typedef CompositeIterator2D< dest_iterator_type,
175cdf0e10cSrcweir mask_iterator_type > composite_iterator_type;
176cdf0e10cSrcweir typedef CompositeIterator2D< vigra::Diff2D,
177cdf0e10cSrcweir vigra::Diff2D > generic_composite_iterator_type;
178cdf0e10cSrcweir
179cdf0e10cSrcweir typedef BitmapRenderer<mask_iterator_type,
180cdf0e10cSrcweir mask_rawaccessor_type,
181cdf0e10cSrcweir mask_accessorselector_type,
182cdf0e10cSrcweir Masks> mask_bitmap_type;
183cdf0e10cSrcweir typedef BitmapRenderer<alphamask_iterator_type,
184cdf0e10cSrcweir alphamask_rawaccessor_type,
185cdf0e10cSrcweir alphamask_accessorselector_type,
186cdf0e10cSrcweir Masks> alphamask_bitmap_type;
187cdf0e10cSrcweir
188cdf0e10cSrcweir // -------------------------------------------------------
189cdf0e10cSrcweir
190cdf0e10cSrcweir typedef AccessorTraits< raw_accessor_type > raw_accessor_traits;
191cdf0e10cSrcweir typedef typename uInt32Converter<
192cdf0e10cSrcweir typename raw_accessor_type::value_type>::to to_uint32_functor;
193cdf0e10cSrcweir
194cdf0e10cSrcweir // -------------------------------------------------------
195cdf0e10cSrcweir
196cdf0e10cSrcweir typedef typename raw_accessor_traits::xor_accessor raw_xor_accessor_type;
197cdf0e10cSrcweir typedef AccessorTraits<raw_xor_accessor_type> raw_xor_accessor_traits;
198cdf0e10cSrcweir typedef typename accessor_selector::template wrap_accessor<
199cdf0e10cSrcweir raw_xor_accessor_type >::type xor_accessor_type;
200cdf0e10cSrcweir typedef AccessorTraits<xor_accessor_type> xor_accessor_traits;
201cdf0e10cSrcweir
202cdf0e10cSrcweir // -------------------------------------------------------
203cdf0e10cSrcweir
204cdf0e10cSrcweir typedef typename raw_accessor_traits::template masked_accessor<
205cdf0e10cSrcweir mask_rawaccessor_type,
206cdf0e10cSrcweir dest_iterator_type,
207cdf0e10cSrcweir mask_iterator_type,
208cdf0e10cSrcweir Masks::clipmask_polarity>::type raw_maskedaccessor_type;
209cdf0e10cSrcweir typedef typename accessor_selector::template wrap_accessor<
210cdf0e10cSrcweir raw_maskedaccessor_type >::type masked_accessor_type;
211cdf0e10cSrcweir typedef typename AccessorTraits<
212cdf0e10cSrcweir raw_maskedaccessor_type>::xor_accessor raw_maskedxor_accessor_type;
213cdf0e10cSrcweir typedef typename accessor_selector::template wrap_accessor<
214cdf0e10cSrcweir raw_maskedxor_accessor_type >::type masked_xoraccessor_type;
215cdf0e10cSrcweir
216cdf0e10cSrcweir // -------------------------------------------------------
217cdf0e10cSrcweir
218cdf0e10cSrcweir // ((iter,mask),mask) special case (e.g. for clipped
219cdf0e10cSrcweir // drawMaskedColor())
220cdf0e10cSrcweir typedef AccessorTraits< raw_maskedaccessor_type > raw_maskedaccessor_traits;
221cdf0e10cSrcweir typedef typename raw_maskedaccessor_traits::template masked_accessor<
222cdf0e10cSrcweir mask_rawaccessor_type,
223cdf0e10cSrcweir composite_iterator_type,
224cdf0e10cSrcweir mask_iterator_type,
225cdf0e10cSrcweir Masks::clipmask_polarity>::type raw_maskedmask_accessor_type;
226cdf0e10cSrcweir
227cdf0e10cSrcweir typedef CompositeIterator2D<
228cdf0e10cSrcweir composite_iterator_type,
229cdf0e10cSrcweir mask_iterator_type> composite_composite_mask_iterator_type;
230cdf0e10cSrcweir
231cdf0e10cSrcweir // -------------------------------------------------------
232cdf0e10cSrcweir
233cdf0e10cSrcweir typedef ConstantColorBlendSetterAccessorAdapter<
234cdf0e10cSrcweir dest_accessor_type,
235cdf0e10cSrcweir typename alphamask_rawaccessor_type::value_type,
236cdf0e10cSrcweir Masks::alphamask_polarity> colorblend_accessor_type;
237cdf0e10cSrcweir typedef AccessorTraits<colorblend_accessor_type> colorblend_accessor_traits;
238cdf0e10cSrcweir typedef typename colorblend_accessor_traits::template masked_accessor<
239cdf0e10cSrcweir mask_rawaccessor_type,
240cdf0e10cSrcweir dest_iterator_type,
241cdf0e10cSrcweir mask_iterator_type,
242cdf0e10cSrcweir Masks::clipmask_polarity>::type masked_colorblend_accessor_type;
243cdf0e10cSrcweir
244cdf0e10cSrcweir // -------------------------------------------------------
245cdf0e10cSrcweir
246cdf0e10cSrcweir typedef ConstantColorBlendSetterAccessorAdapter<
247cdf0e10cSrcweir dest_accessor_type,
248cdf0e10cSrcweir Color,
249cdf0e10cSrcweir Masks::alphamask_polarity> colorblend_generic_accessor_type;
250cdf0e10cSrcweir typedef AccessorTraits<colorblend_generic_accessor_type> colorblend_generic_accessor_traits;
251cdf0e10cSrcweir typedef typename colorblend_generic_accessor_traits::template masked_accessor<
252cdf0e10cSrcweir mask_rawaccessor_type,
253cdf0e10cSrcweir dest_iterator_type,
254cdf0e10cSrcweir mask_iterator_type,
255cdf0e10cSrcweir Masks::clipmask_polarity>::type masked_colorblend_generic_accessor_type;
256cdf0e10cSrcweir
257cdf0e10cSrcweir // -------------------------------------------------------
258cdf0e10cSrcweir
259cdf0e10cSrcweir typedef JoinImageAccessorAdapter< dest_accessor_type,
260cdf0e10cSrcweir mask_rawaccessor_type > joined_image_accessor_type;
261cdf0e10cSrcweir typedef JoinImageAccessorAdapter< GenericColorImageAccessor,
262cdf0e10cSrcweir GenericColorImageAccessor > joined_generic_image_accessor_type;
263cdf0e10cSrcweir
264cdf0e10cSrcweir // -------------------------------------------------------
265cdf0e10cSrcweir
266cdf0e10cSrcweir dest_iterator_type maBegin;
267cdf0e10cSrcweir typename accessor_traits::color_lookup maColorLookup;
268cdf0e10cSrcweir to_uint32_functor maToUInt32Converter;
269cdf0e10cSrcweir dest_accessor_type maAccessor;
270cdf0e10cSrcweir colorblend_accessor_type maColorBlendAccessor;
271cdf0e10cSrcweir colorblend_generic_accessor_type maGenericColorBlendAccessor;
272cdf0e10cSrcweir raw_accessor_type maRawAccessor;
273cdf0e10cSrcweir xor_accessor_type maXorAccessor;
274cdf0e10cSrcweir raw_xor_accessor_type maRawXorAccessor;
275cdf0e10cSrcweir masked_accessor_type maMaskedAccessor;
276cdf0e10cSrcweir masked_colorblend_accessor_type maMaskedColorBlendAccessor;
277cdf0e10cSrcweir masked_colorblend_generic_accessor_type maGenericMaskedColorBlendAccessor;
278cdf0e10cSrcweir masked_xoraccessor_type maMaskedXorAccessor;
279cdf0e10cSrcweir raw_maskedaccessor_type maRawMaskedAccessor;
280cdf0e10cSrcweir raw_maskedxor_accessor_type maRawMaskedXorAccessor;
281cdf0e10cSrcweir raw_maskedmask_accessor_type maRawMaskedMaskAccessor;
282cdf0e10cSrcweir
283cdf0e10cSrcweir // -------------------------------------------------------
284cdf0e10cSrcweir
BitmapRenderer(const basegfx::B2IRange & rBounds,sal_Int32 nScanlineFormat,sal_Int32 nScanlineStride,sal_uInt8 * pFirstScanline,dest_iterator_type begin,raw_accessor_type rawAccessor,dest_accessor_type accessor,const RawMemorySharedArray & rMem,const PaletteMemorySharedVector & rPalette)285cdf0e10cSrcweir BitmapRenderer( const basegfx::B2IRange& rBounds,
286cdf0e10cSrcweir sal_Int32 nScanlineFormat,
287cdf0e10cSrcweir sal_Int32 nScanlineStride,
288cdf0e10cSrcweir sal_uInt8* pFirstScanline,
289cdf0e10cSrcweir dest_iterator_type begin,
290cdf0e10cSrcweir raw_accessor_type rawAccessor,
291cdf0e10cSrcweir dest_accessor_type accessor,
292cdf0e10cSrcweir const RawMemorySharedArray& rMem,
293cdf0e10cSrcweir const PaletteMemorySharedVector& rPalette ) :
294cdf0e10cSrcweir BitmapDevice( rBounds, nScanlineFormat,
295cdf0e10cSrcweir nScanlineStride, pFirstScanline, rMem, rPalette ),
296cdf0e10cSrcweir maBegin( begin ),
297cdf0e10cSrcweir maColorLookup(),
298cdf0e10cSrcweir maToUInt32Converter(),
299cdf0e10cSrcweir maAccessor( accessor ),
300cdf0e10cSrcweir maColorBlendAccessor( accessor ),
301cdf0e10cSrcweir maGenericColorBlendAccessor( accessor ),
302cdf0e10cSrcweir maRawAccessor( rawAccessor ),
303cdf0e10cSrcweir maXorAccessor( accessor ),
304cdf0e10cSrcweir maRawXorAccessor( rawAccessor ),
305cdf0e10cSrcweir maMaskedAccessor( accessor ),
306cdf0e10cSrcweir maMaskedColorBlendAccessor( maColorBlendAccessor ),
307cdf0e10cSrcweir maGenericMaskedColorBlendAccessor( maGenericColorBlendAccessor ),
308cdf0e10cSrcweir maMaskedXorAccessor( accessor ),
309cdf0e10cSrcweir maRawMaskedAccessor( rawAccessor ),
310cdf0e10cSrcweir maRawMaskedXorAccessor( rawAccessor ),
311cdf0e10cSrcweir maRawMaskedMaskAccessor( rawAccessor )
312cdf0e10cSrcweir {}
313cdf0e10cSrcweir
314cdf0e10cSrcweir private:
getCompatibleBitmap(const BitmapDeviceSharedPtr & bmp) const315cdf0e10cSrcweir boost::shared_ptr<BitmapRenderer> getCompatibleBitmap( const BitmapDeviceSharedPtr& bmp ) const
316cdf0e10cSrcweir {
317cdf0e10cSrcweir return boost::dynamic_pointer_cast< BitmapRenderer >( bmp );
318cdf0e10cSrcweir }
319cdf0e10cSrcweir
isCompatibleBitmap(const BitmapDeviceSharedPtr & bmp) const320cdf0e10cSrcweir virtual bool isCompatibleBitmap( const BitmapDeviceSharedPtr& bmp ) const
321cdf0e10cSrcweir {
322cdf0e10cSrcweir // TODO(P1): dynamic_cast usually called twice for
323cdf0e10cSrcweir // compatible formats
324cdf0e10cSrcweir return getCompatibleBitmap(bmp).get() != NULL;
325cdf0e10cSrcweir }
326cdf0e10cSrcweir
getCompatibleClipMask(const BitmapDeviceSharedPtr & bmp) const327cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> getCompatibleClipMask( const BitmapDeviceSharedPtr& bmp ) const
328cdf0e10cSrcweir {
329cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pMask( boost::dynamic_pointer_cast<mask_bitmap_type>( bmp ));
330cdf0e10cSrcweir
331cdf0e10cSrcweir if( !pMask )
332cdf0e10cSrcweir return pMask;
333cdf0e10cSrcweir
334cdf0e10cSrcweir if( pMask->getSize() != getSize() )
335cdf0e10cSrcweir pMask.reset();
336cdf0e10cSrcweir
337cdf0e10cSrcweir return pMask;
338cdf0e10cSrcweir }
339cdf0e10cSrcweir
isCompatibleClipMask(const BitmapDeviceSharedPtr & bmp) const340cdf0e10cSrcweir virtual bool isCompatibleClipMask( const BitmapDeviceSharedPtr& bmp ) const
341cdf0e10cSrcweir {
342cdf0e10cSrcweir // TODO(P1): dynamic_cast usually called twice for
343cdf0e10cSrcweir // compatible formats
344cdf0e10cSrcweir return boost::dynamic_pointer_cast<mask_bitmap_type>( bmp ).get() != NULL;
345cdf0e10cSrcweir }
346cdf0e10cSrcweir
getCompatibleAlphaMask(const BitmapDeviceSharedPtr & bmp) const347cdf0e10cSrcweir boost::shared_ptr<alphamask_bitmap_type> getCompatibleAlphaMask( const BitmapDeviceSharedPtr& bmp ) const
348cdf0e10cSrcweir {
349cdf0e10cSrcweir return boost::dynamic_pointer_cast<alphamask_bitmap_type>( bmp );
350cdf0e10cSrcweir }
351cdf0e10cSrcweir
isCompatibleAlphaMask(const BitmapDeviceSharedPtr & bmp) const352cdf0e10cSrcweir virtual bool isCompatibleAlphaMask( const BitmapDeviceSharedPtr& bmp ) const
353cdf0e10cSrcweir {
354cdf0e10cSrcweir // TODO(P1): dynamic_cast usually called twice for
355cdf0e10cSrcweir // compatible formats
356cdf0e10cSrcweir return getCompatibleAlphaMask( bmp ).get() != NULL;
357cdf0e10cSrcweir }
358cdf0e10cSrcweir
clear_i(Color fillColor,const basegfx::B2IRange & rBounds)359cdf0e10cSrcweir virtual void clear_i( Color fillColor,
360cdf0e10cSrcweir const basegfx::B2IRange& rBounds )
361cdf0e10cSrcweir {
362cdf0e10cSrcweir fillImage(destIterRange(maBegin,
363cdf0e10cSrcweir maRawAccessor,
364cdf0e10cSrcweir rBounds),
365cdf0e10cSrcweir maColorLookup(
366cdf0e10cSrcweir maAccessor,
367cdf0e10cSrcweir fillColor) );
368cdf0e10cSrcweir }
369cdf0e10cSrcweir
setPixel_i(const basegfx::B2IPoint & rPt,Color pixelColor,DrawMode drawMode)370cdf0e10cSrcweir virtual void setPixel_i( const basegfx::B2IPoint& rPt,
371cdf0e10cSrcweir Color pixelColor,
372cdf0e10cSrcweir DrawMode drawMode )
373cdf0e10cSrcweir {
374cdf0e10cSrcweir const DestIterator pixel( maBegin +
375cdf0e10cSrcweir vigra::Diff2D(rPt.getX(),
376cdf0e10cSrcweir rPt.getY()) );
377cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
378cdf0e10cSrcweir maXorAccessor.set( pixelColor,
379cdf0e10cSrcweir pixel );
380cdf0e10cSrcweir else
381cdf0e10cSrcweir maAccessor.set( pixelColor,
382cdf0e10cSrcweir pixel );
383cdf0e10cSrcweir }
384cdf0e10cSrcweir
setPixel_i(const basegfx::B2IPoint & rPt,Color pixelColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)385cdf0e10cSrcweir virtual void setPixel_i( const basegfx::B2IPoint& rPt,
386cdf0e10cSrcweir Color pixelColor,
387cdf0e10cSrcweir DrawMode drawMode,
388cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
389cdf0e10cSrcweir {
390cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pMask( getCompatibleClipMask(rClip) );
391cdf0e10cSrcweir OSL_ASSERT( pMask );
392cdf0e10cSrcweir
393cdf0e10cSrcweir const vigra::Diff2D offset(rPt.getX(),
394cdf0e10cSrcweir rPt.getY());
395cdf0e10cSrcweir
396cdf0e10cSrcweir const composite_iterator_type aIter(
397cdf0e10cSrcweir maBegin + offset,
398cdf0e10cSrcweir pMask->maBegin + offset );
399cdf0e10cSrcweir
400cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
401cdf0e10cSrcweir maMaskedXorAccessor.set( pixelColor,
402cdf0e10cSrcweir aIter );
403cdf0e10cSrcweir else
404cdf0e10cSrcweir maMaskedAccessor.set( pixelColor,
405cdf0e10cSrcweir aIter );
406cdf0e10cSrcweir }
407cdf0e10cSrcweir
getPixel_i(const basegfx::B2IPoint & rPt)408cdf0e10cSrcweir virtual Color getPixel_i(const basegfx::B2IPoint& rPt )
409cdf0e10cSrcweir {
410cdf0e10cSrcweir const DestIterator pixel( maBegin +
411cdf0e10cSrcweir vigra::Diff2D(rPt.getX(),
412cdf0e10cSrcweir rPt.getY()) );
413cdf0e10cSrcweir return maAccessor(pixel);
414cdf0e10cSrcweir }
415cdf0e10cSrcweir
getPixelData_i(const basegfx::B2IPoint & rPt)416cdf0e10cSrcweir virtual sal_uInt32 getPixelData_i( const basegfx::B2IPoint& rPt )
417cdf0e10cSrcweir {
418cdf0e10cSrcweir const DestIterator pixel( maBegin +
419cdf0e10cSrcweir vigra::Diff2D(rPt.getX(),
420cdf0e10cSrcweir rPt.getY()) );
421cdf0e10cSrcweir return maToUInt32Converter(maRawAccessor(pixel));
422cdf0e10cSrcweir }
423cdf0e10cSrcweir
424cdf0e10cSrcweir template< typename Iterator, typename Col, typename RawAcc >
implRenderLine2(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,const basegfx::B2IRange & rBounds,Col col,const Iterator & begin,const RawAcc & rawAcc)425cdf0e10cSrcweir void implRenderLine2( const basegfx::B2IPoint& rPt1,
426cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
427cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
428cdf0e10cSrcweir Col col,
429cdf0e10cSrcweir const Iterator& begin,
430cdf0e10cSrcweir const RawAcc& rawAcc )
431cdf0e10cSrcweir {
432cdf0e10cSrcweir renderClippedLine( rPt1,
433cdf0e10cSrcweir rPt2,
434cdf0e10cSrcweir rBounds,
435cdf0e10cSrcweir col,
436cdf0e10cSrcweir begin,
437cdf0e10cSrcweir rawAcc );
438cdf0e10cSrcweir }
439cdf0e10cSrcweir
440cdf0e10cSrcweir template< typename Iterator, typename Accessor, typename RawAcc >
implRenderLine(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,const basegfx::B2IRange & rBounds,Color col,const Iterator & begin,const Accessor & acc,const RawAcc & rawAcc)441cdf0e10cSrcweir void implRenderLine( const basegfx::B2IPoint& rPt1,
442cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
443cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
444cdf0e10cSrcweir Color col,
445cdf0e10cSrcweir const Iterator& begin,
446cdf0e10cSrcweir const Accessor& acc,
447cdf0e10cSrcweir const RawAcc& rawAcc )
448cdf0e10cSrcweir {
449cdf0e10cSrcweir implRenderLine2( rPt1,rPt2,rBounds,
450cdf0e10cSrcweir maColorLookup( acc,
451cdf0e10cSrcweir col ),
452cdf0e10cSrcweir begin,
453cdf0e10cSrcweir rawAcc );
454cdf0e10cSrcweir }
455cdf0e10cSrcweir
456cdf0e10cSrcweir template< typename Iterator, typename RawAcc, typename XorAcc >
implDrawLine(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,const basegfx::B2IRange & rBounds,Color col,const Iterator & begin,const RawAcc & rawAcc,const XorAcc & xorAcc,DrawMode drawMode)457cdf0e10cSrcweir void implDrawLine( const basegfx::B2IPoint& rPt1,
458cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
459cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
460cdf0e10cSrcweir Color col,
461cdf0e10cSrcweir const Iterator& begin,
462cdf0e10cSrcweir const RawAcc& rawAcc,
463cdf0e10cSrcweir const XorAcc& xorAcc,
464cdf0e10cSrcweir DrawMode drawMode )
465cdf0e10cSrcweir {
466cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
467cdf0e10cSrcweir implRenderLine( rPt1, rPt2, rBounds, col,
468cdf0e10cSrcweir begin, maAccessor, xorAcc );
469cdf0e10cSrcweir else
470cdf0e10cSrcweir implRenderLine( rPt1, rPt2, rBounds, col,
471cdf0e10cSrcweir begin, maAccessor, rawAcc );
472cdf0e10cSrcweir }
473cdf0e10cSrcweir
drawLine_i(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,const basegfx::B2IRange & rBounds,Color lineColor,DrawMode drawMode)474cdf0e10cSrcweir virtual void drawLine_i(const basegfx::B2IPoint& rPt1,
475cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
476cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
477cdf0e10cSrcweir Color lineColor,
478cdf0e10cSrcweir DrawMode drawMode )
479cdf0e10cSrcweir {
480cdf0e10cSrcweir implDrawLine(rPt1,rPt2,rBounds,lineColor,
481cdf0e10cSrcweir maBegin,
482cdf0e10cSrcweir maRawAccessor,maRawXorAccessor,drawMode);
483cdf0e10cSrcweir }
484cdf0e10cSrcweir
getMaskedIter(const BitmapDeviceSharedPtr & rClip) const485cdf0e10cSrcweir composite_iterator_type getMaskedIter( const BitmapDeviceSharedPtr& rClip ) const
486cdf0e10cSrcweir {
487cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pMask( getCompatibleClipMask(rClip) );
488cdf0e10cSrcweir OSL_ASSERT( pMask );
489cdf0e10cSrcweir
490cdf0e10cSrcweir return composite_iterator_type( maBegin,
491cdf0e10cSrcweir pMask->maBegin );
492cdf0e10cSrcweir }
493cdf0e10cSrcweir
drawLine_i(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,const basegfx::B2IRange & rBounds,Color lineColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)494cdf0e10cSrcweir virtual void drawLine_i(const basegfx::B2IPoint& rPt1,
495cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
496cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
497cdf0e10cSrcweir Color lineColor,
498cdf0e10cSrcweir DrawMode drawMode,
499cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
500cdf0e10cSrcweir {
501cdf0e10cSrcweir implDrawLine(rPt1,rPt2,rBounds,lineColor,
502cdf0e10cSrcweir getMaskedIter(rClip),
503cdf0e10cSrcweir maRawMaskedAccessor,
504cdf0e10cSrcweir maRawMaskedXorAccessor,drawMode);
505cdf0e10cSrcweir }
506cdf0e10cSrcweir
507cdf0e10cSrcweir template< typename Iterator, typename RawAcc >
implDrawPolygon(const basegfx::B2DPolygon & rPoly,const basegfx::B2IRange & rBounds,Color col,const Iterator & begin,const RawAcc & acc)508cdf0e10cSrcweir void implDrawPolygon( const basegfx::B2DPolygon& rPoly,
509cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
510cdf0e10cSrcweir Color col,
511cdf0e10cSrcweir const Iterator& begin,
512cdf0e10cSrcweir const RawAcc& acc )
513cdf0e10cSrcweir {
514cdf0e10cSrcweir basegfx::B2DPolygon aPoly( rPoly );
515cdf0e10cSrcweir if( rPoly.areControlPointsUsed() )
516cdf0e10cSrcweir aPoly = basegfx::tools::adaptiveSubdivideByCount( rPoly );
517cdf0e10cSrcweir
518cdf0e10cSrcweir const typename dest_iterator_type::value_type colorIndex( maColorLookup(
519cdf0e10cSrcweir maAccessor,
520cdf0e10cSrcweir col));
521cdf0e10cSrcweir const sal_uInt32 nVertices( aPoly.count() );
522cdf0e10cSrcweir for( sal_uInt32 i=1; i<nVertices; ++i )
523cdf0e10cSrcweir implRenderLine2( basegfx::fround(aPoly.getB2DPoint(i-1)),
524cdf0e10cSrcweir basegfx::fround(aPoly.getB2DPoint(i)),
525cdf0e10cSrcweir rBounds,
526cdf0e10cSrcweir colorIndex,
527cdf0e10cSrcweir begin,
528cdf0e10cSrcweir acc );
529cdf0e10cSrcweir
530cdf0e10cSrcweir if( nVertices > 1 && aPoly.isClosed() )
531cdf0e10cSrcweir implRenderLine2( basegfx::fround(aPoly.getB2DPoint(nVertices-1)),
532cdf0e10cSrcweir basegfx::fround(aPoly.getB2DPoint(0)),
533cdf0e10cSrcweir rBounds,
534cdf0e10cSrcweir colorIndex,
535cdf0e10cSrcweir begin,
536cdf0e10cSrcweir acc );
537cdf0e10cSrcweir }
538cdf0e10cSrcweir
drawPolygon_i(const basegfx::B2DPolygon & rPoly,const basegfx::B2IRange & rBounds,Color lineColor,DrawMode drawMode)539cdf0e10cSrcweir virtual void drawPolygon_i(const basegfx::B2DPolygon& rPoly,
540cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
541cdf0e10cSrcweir Color lineColor,
542cdf0e10cSrcweir DrawMode drawMode )
543cdf0e10cSrcweir {
544cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
545cdf0e10cSrcweir implDrawPolygon( rPoly, rBounds, lineColor,
546cdf0e10cSrcweir maBegin,
547cdf0e10cSrcweir maRawXorAccessor );
548cdf0e10cSrcweir else
549cdf0e10cSrcweir implDrawPolygon( rPoly, rBounds, lineColor,
550cdf0e10cSrcweir maBegin,
551cdf0e10cSrcweir maRawAccessor );
552cdf0e10cSrcweir }
553cdf0e10cSrcweir
drawPolygon_i(const basegfx::B2DPolygon & rPoly,const basegfx::B2IRange & rBounds,Color lineColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)554cdf0e10cSrcweir virtual void drawPolygon_i(const basegfx::B2DPolygon& rPoly,
555cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
556cdf0e10cSrcweir Color lineColor,
557cdf0e10cSrcweir DrawMode drawMode,
558cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
559cdf0e10cSrcweir {
560cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
561cdf0e10cSrcweir implDrawPolygon( rPoly, rBounds, lineColor,
562cdf0e10cSrcweir getMaskedIter(rClip),
563cdf0e10cSrcweir maRawMaskedXorAccessor );
564cdf0e10cSrcweir else
565cdf0e10cSrcweir implDrawPolygon( rPoly, rBounds, lineColor,
566cdf0e10cSrcweir getMaskedIter(rClip),
567cdf0e10cSrcweir maRawMaskedAccessor );
568cdf0e10cSrcweir }
569cdf0e10cSrcweir
570cdf0e10cSrcweir template< typename Iterator, typename RawAcc >
implFillPolyPolygon(const basegfx::B2DPolyPolygon & rPoly,Color col,const Iterator & begin,const RawAcc & acc,const basegfx::B2IRange & rBounds)571cdf0e10cSrcweir void implFillPolyPolygon( const basegfx::B2DPolyPolygon& rPoly,
572cdf0e10cSrcweir Color col,
573cdf0e10cSrcweir const Iterator& begin,
574cdf0e10cSrcweir const RawAcc& acc,
575cdf0e10cSrcweir const basegfx::B2IRange& rBounds )
576cdf0e10cSrcweir {
577cdf0e10cSrcweir basegfx::B2DPolyPolygon aPoly( rPoly );
578cdf0e10cSrcweir if( rPoly.areControlPointsUsed() )
579cdf0e10cSrcweir aPoly = basegfx::tools::adaptiveSubdivideByCount( rPoly );
580cdf0e10cSrcweir
581cdf0e10cSrcweir renderClippedPolyPolygon( begin,
582cdf0e10cSrcweir acc,
583cdf0e10cSrcweir maColorLookup( maAccessor,
584cdf0e10cSrcweir col),
585cdf0e10cSrcweir rBounds,
586cdf0e10cSrcweir aPoly,
587cdf0e10cSrcweir basegfx::FillRule_EVEN_ODD );
588cdf0e10cSrcweir }
589cdf0e10cSrcweir
fillPolyPolygon_i(const basegfx::B2DPolyPolygon & rPoly,Color fillColor,DrawMode drawMode,const basegfx::B2IRange & rBounds)590cdf0e10cSrcweir virtual void fillPolyPolygon_i(const basegfx::B2DPolyPolygon& rPoly,
591cdf0e10cSrcweir Color fillColor,
592cdf0e10cSrcweir DrawMode drawMode,
593cdf0e10cSrcweir const basegfx::B2IRange& rBounds )
594cdf0e10cSrcweir {
595cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
596cdf0e10cSrcweir implFillPolyPolygon( rPoly, fillColor,
597cdf0e10cSrcweir maBegin,
598cdf0e10cSrcweir maRawXorAccessor,
599cdf0e10cSrcweir rBounds );
600cdf0e10cSrcweir else
601cdf0e10cSrcweir implFillPolyPolygon( rPoly, fillColor,
602cdf0e10cSrcweir maBegin,
603cdf0e10cSrcweir maRawAccessor,
604cdf0e10cSrcweir rBounds );
605cdf0e10cSrcweir }
606cdf0e10cSrcweir
fillPolyPolygon_i(const basegfx::B2DPolyPolygon & rPoly,Color fillColor,DrawMode drawMode,const basegfx::B2IRange & rBounds,const BitmapDeviceSharedPtr & rClip)607cdf0e10cSrcweir virtual void fillPolyPolygon_i(const basegfx::B2DPolyPolygon& rPoly,
608cdf0e10cSrcweir Color fillColor,
609cdf0e10cSrcweir DrawMode drawMode,
610cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
611cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
612cdf0e10cSrcweir {
613cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
614cdf0e10cSrcweir implFillPolyPolygon( rPoly, fillColor,
615cdf0e10cSrcweir getMaskedIter(rClip),
616cdf0e10cSrcweir maRawMaskedXorAccessor,
617cdf0e10cSrcweir rBounds );
618cdf0e10cSrcweir else
619cdf0e10cSrcweir implFillPolyPolygon( rPoly, fillColor,
620cdf0e10cSrcweir getMaskedIter(rClip),
621cdf0e10cSrcweir maRawMaskedAccessor,
622cdf0e10cSrcweir rBounds );
623cdf0e10cSrcweir }
624cdf0e10cSrcweir
625cdf0e10cSrcweir template< typename Iterator, typename RawAcc >
implDrawBitmap(const BitmapDeviceSharedPtr & rSrcBitmap,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,const Iterator & begin,const RawAcc & acc)626cdf0e10cSrcweir void implDrawBitmap(const BitmapDeviceSharedPtr& rSrcBitmap,
627cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
628cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
629cdf0e10cSrcweir const Iterator& begin,
630cdf0e10cSrcweir const RawAcc& acc)
631cdf0e10cSrcweir {
632cdf0e10cSrcweir boost::shared_ptr<BitmapRenderer> pSrcBmp( getCompatibleBitmap(rSrcBitmap) );
633cdf0e10cSrcweir OSL_ASSERT( pSrcBmp );
634cdf0e10cSrcweir
635cdf0e10cSrcweir scaleImage(
636cdf0e10cSrcweir srcIterRange(pSrcBmp->maBegin,
637cdf0e10cSrcweir pSrcBmp->maRawAccessor,
638cdf0e10cSrcweir rSrcRect),
639cdf0e10cSrcweir destIterRange(begin,
640cdf0e10cSrcweir acc,
641cdf0e10cSrcweir rDstRect),
642cdf0e10cSrcweir rSrcBitmap.get() == this );
643cdf0e10cSrcweir }
644cdf0e10cSrcweir
645cdf0e10cSrcweir template< typename Iterator, typename Acc >
implDrawBitmapGeneric(const BitmapDeviceSharedPtr & rSrcBitmap,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,const Iterator & begin,const Acc & acc)646cdf0e10cSrcweir void implDrawBitmapGeneric(const BitmapDeviceSharedPtr& rSrcBitmap,
647cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
648cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
649cdf0e10cSrcweir const Iterator& begin,
650cdf0e10cSrcweir const Acc& acc)
651cdf0e10cSrcweir {
652cdf0e10cSrcweir GenericColorImageAccessor aSrcAcc( rSrcBitmap );
653cdf0e10cSrcweir
654cdf0e10cSrcweir scaleImage(
655cdf0e10cSrcweir srcIterRange(vigra::Diff2D(),
656cdf0e10cSrcweir aSrcAcc,
657cdf0e10cSrcweir rSrcRect),
658cdf0e10cSrcweir destIterRange(begin,
659cdf0e10cSrcweir acc,
660cdf0e10cSrcweir rDstRect));
661cdf0e10cSrcweir }
662cdf0e10cSrcweir
drawBitmap_i(const BitmapDeviceSharedPtr & rSrcBitmap,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode)663cdf0e10cSrcweir virtual void drawBitmap_i(const BitmapDeviceSharedPtr& rSrcBitmap,
664cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
665cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
666cdf0e10cSrcweir DrawMode drawMode )
667cdf0e10cSrcweir {
668cdf0e10cSrcweir if( isCompatibleBitmap( rSrcBitmap ) )
669cdf0e10cSrcweir {
670cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
671cdf0e10cSrcweir implDrawBitmap(rSrcBitmap, rSrcRect, rDstRect,
672cdf0e10cSrcweir maBegin,
673cdf0e10cSrcweir maRawXorAccessor);
674cdf0e10cSrcweir else
675cdf0e10cSrcweir implDrawBitmap(rSrcBitmap, rSrcRect, rDstRect,
676cdf0e10cSrcweir maBegin,
677cdf0e10cSrcweir maRawAccessor);
678cdf0e10cSrcweir }
679cdf0e10cSrcweir else
680cdf0e10cSrcweir {
681cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
682cdf0e10cSrcweir implDrawBitmapGeneric(rSrcBitmap, rSrcRect, rDstRect,
683cdf0e10cSrcweir maBegin,
684cdf0e10cSrcweir maXorAccessor);
685cdf0e10cSrcweir else
686cdf0e10cSrcweir implDrawBitmapGeneric(rSrcBitmap, rSrcRect, rDstRect,
687cdf0e10cSrcweir maBegin,
688cdf0e10cSrcweir maAccessor);
689cdf0e10cSrcweir }
690cdf0e10cSrcweir }
691cdf0e10cSrcweir
drawBitmap_i(const BitmapDeviceSharedPtr & rSrcBitmap,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)692cdf0e10cSrcweir virtual void drawBitmap_i(const BitmapDeviceSharedPtr& rSrcBitmap,
693cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
694cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
695cdf0e10cSrcweir DrawMode drawMode,
696cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
697cdf0e10cSrcweir {
698cdf0e10cSrcweir if( isCompatibleBitmap( rSrcBitmap ) )
699cdf0e10cSrcweir {
700cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
701cdf0e10cSrcweir implDrawBitmap(rSrcBitmap, rSrcRect, rDstRect,
702cdf0e10cSrcweir getMaskedIter(rClip),
703cdf0e10cSrcweir maRawMaskedXorAccessor);
704cdf0e10cSrcweir else
705cdf0e10cSrcweir implDrawBitmap(rSrcBitmap, rSrcRect, rDstRect,
706cdf0e10cSrcweir getMaskedIter(rClip),
707cdf0e10cSrcweir maRawMaskedAccessor);
708cdf0e10cSrcweir }
709cdf0e10cSrcweir else
710cdf0e10cSrcweir {
711cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
712cdf0e10cSrcweir implDrawBitmapGeneric(rSrcBitmap, rSrcRect, rDstRect,
713cdf0e10cSrcweir getMaskedIter(rClip),
714cdf0e10cSrcweir maMaskedXorAccessor);
715cdf0e10cSrcweir else
716cdf0e10cSrcweir implDrawBitmapGeneric(rSrcBitmap, rSrcRect, rDstRect,
717cdf0e10cSrcweir getMaskedIter(rClip),
718cdf0e10cSrcweir maMaskedAccessor);
719cdf0e10cSrcweir }
720cdf0e10cSrcweir }
721cdf0e10cSrcweir
drawMaskedColor_i(Color aSrcColor,const BitmapDeviceSharedPtr & rAlphaMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IPoint & rDstPoint)722cdf0e10cSrcweir virtual void drawMaskedColor_i(Color aSrcColor,
723cdf0e10cSrcweir const BitmapDeviceSharedPtr& rAlphaMask,
724cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
725cdf0e10cSrcweir const basegfx::B2IPoint& rDstPoint )
726cdf0e10cSrcweir {
727cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pMask( getCompatibleClipMask(rAlphaMask) );
728cdf0e10cSrcweir boost::shared_ptr<alphamask_bitmap_type> pAlpha( getCompatibleAlphaMask(rAlphaMask) );
729cdf0e10cSrcweir
730cdf0e10cSrcweir if( pAlpha )
731cdf0e10cSrcweir {
732cdf0e10cSrcweir maColorBlendAccessor.setColor( aSrcColor );
733cdf0e10cSrcweir
734cdf0e10cSrcweir vigra::copyImage( srcIterRange(pAlpha->maBegin,
735cdf0e10cSrcweir pAlpha->maRawAccessor,
736cdf0e10cSrcweir rSrcRect),
737cdf0e10cSrcweir destIter(maBegin,
738cdf0e10cSrcweir maColorBlendAccessor,
739cdf0e10cSrcweir rDstPoint) );
740cdf0e10cSrcweir }
741cdf0e10cSrcweir else if( pMask )
742cdf0e10cSrcweir {
743cdf0e10cSrcweir const composite_iterator_type aBegin(
744cdf0e10cSrcweir maBegin + vigra::Diff2D(rDstPoint.getX(),
745cdf0e10cSrcweir rDstPoint.getY()),
746cdf0e10cSrcweir pMask->maBegin + topLeft(rSrcRect) );
747cdf0e10cSrcweir
748cdf0e10cSrcweir fillImage(aBegin,
749cdf0e10cSrcweir aBegin + vigra::Diff2D(rSrcRect.getWidth(),
750cdf0e10cSrcweir rSrcRect.getHeight()),
751cdf0e10cSrcweir maRawMaskedAccessor,
752cdf0e10cSrcweir maColorLookup(
753cdf0e10cSrcweir maAccessor,
754cdf0e10cSrcweir aSrcColor) );
755cdf0e10cSrcweir }
756cdf0e10cSrcweir else
757cdf0e10cSrcweir {
758cdf0e10cSrcweir GenericColorImageAccessor aSrcAcc( rAlphaMask );
759cdf0e10cSrcweir maGenericColorBlendAccessor.setColor( aSrcColor );
760cdf0e10cSrcweir
761cdf0e10cSrcweir vigra::copyImage( srcIterRange(vigra::Diff2D(),
762cdf0e10cSrcweir aSrcAcc,
763cdf0e10cSrcweir rSrcRect),
764cdf0e10cSrcweir destIter(maBegin,
765cdf0e10cSrcweir maGenericColorBlendAccessor,
766cdf0e10cSrcweir rDstPoint) );
767cdf0e10cSrcweir }
768cdf0e10cSrcweir }
769cdf0e10cSrcweir
drawMaskedColor_i(Color aSrcColor,const BitmapDeviceSharedPtr & rAlphaMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IPoint & rDstPoint,const BitmapDeviceSharedPtr & rClip)770cdf0e10cSrcweir virtual void drawMaskedColor_i(Color aSrcColor,
771cdf0e10cSrcweir const BitmapDeviceSharedPtr& rAlphaMask,
772cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
773cdf0e10cSrcweir const basegfx::B2IPoint& rDstPoint,
774cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
775cdf0e10cSrcweir {
776cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pMask( getCompatibleClipMask(rAlphaMask) );
777cdf0e10cSrcweir boost::shared_ptr<alphamask_bitmap_type> pAlpha( getCompatibleAlphaMask(rAlphaMask) );
778cdf0e10cSrcweir
779cdf0e10cSrcweir if( pAlpha )
780cdf0e10cSrcweir {
781cdf0e10cSrcweir const composite_iterator_type aBegin( getMaskedIter(rClip) );
782cdf0e10cSrcweir maMaskedColorBlendAccessor.get1stWrappedAccessor().setColor(
783cdf0e10cSrcweir aSrcColor );
784cdf0e10cSrcweir
785cdf0e10cSrcweir vigra::copyImage( srcIterRange(pAlpha->maBegin,
786cdf0e10cSrcweir pAlpha->maRawAccessor,
787cdf0e10cSrcweir rSrcRect),
788cdf0e10cSrcweir destIter(aBegin,
789cdf0e10cSrcweir maMaskedColorBlendAccessor,
790cdf0e10cSrcweir rDstPoint) );
791cdf0e10cSrcweir }
792cdf0e10cSrcweir else if( pMask )
793cdf0e10cSrcweir {
794cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pClipMask( getCompatibleClipMask(rClip) );
795cdf0e10cSrcweir OSL_ASSERT( pClipMask );
796cdf0e10cSrcweir
797cdf0e10cSrcweir // setup a ((iter,mask),clipMask) composite composite
798cdf0e10cSrcweir // iterator, to pass both masks (clip and alpha mask)
799cdf0e10cSrcweir // to the algorithm
800cdf0e10cSrcweir const composite_composite_mask_iterator_type aBegin(
801cdf0e10cSrcweir composite_iterator_type(
802cdf0e10cSrcweir maBegin + vigra::Diff2D(rDstPoint.getX(),
803cdf0e10cSrcweir rDstPoint.getY()),
804cdf0e10cSrcweir pMask->maBegin + topLeft(rSrcRect)),
805cdf0e10cSrcweir pClipMask->maBegin + vigra::Diff2D(rDstPoint.getX(),
806cdf0e10cSrcweir rDstPoint.getY()) );
807cdf0e10cSrcweir
808cdf0e10cSrcweir fillImage(aBegin,
809cdf0e10cSrcweir aBegin + vigra::Diff2D(rSrcRect.getWidth(),
810cdf0e10cSrcweir rSrcRect.getHeight()),
811cdf0e10cSrcweir maRawMaskedMaskAccessor,
812cdf0e10cSrcweir maColorLookup(
813cdf0e10cSrcweir maAccessor,
814cdf0e10cSrcweir aSrcColor) );
815cdf0e10cSrcweir }
816cdf0e10cSrcweir else
817cdf0e10cSrcweir {
818cdf0e10cSrcweir GenericColorImageAccessor aSrcAcc( rAlphaMask );
819cdf0e10cSrcweir const composite_iterator_type aBegin( getMaskedIter(rClip) );
820cdf0e10cSrcweir maGenericMaskedColorBlendAccessor.get1stWrappedAccessor().setColor(
821cdf0e10cSrcweir aSrcColor );
822cdf0e10cSrcweir
823cdf0e10cSrcweir vigra::copyImage( srcIterRange(vigra::Diff2D(),
824cdf0e10cSrcweir aSrcAcc,
825cdf0e10cSrcweir rSrcRect),
826cdf0e10cSrcweir destIter(aBegin,
827cdf0e10cSrcweir maGenericMaskedColorBlendAccessor,
828cdf0e10cSrcweir rDstPoint) );
829cdf0e10cSrcweir }
830cdf0e10cSrcweir }
831cdf0e10cSrcweir
832cdf0e10cSrcweir template< typename Iterator, typename Acc >
implDrawMaskedBitmap(const BitmapDeviceSharedPtr & rSrcBitmap,const BitmapDeviceSharedPtr & rMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,const Iterator & begin,const Acc & acc)833cdf0e10cSrcweir void implDrawMaskedBitmap(const BitmapDeviceSharedPtr& rSrcBitmap,
834cdf0e10cSrcweir const BitmapDeviceSharedPtr& rMask,
835cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
836cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
837cdf0e10cSrcweir const Iterator& begin,
838cdf0e10cSrcweir const Acc& acc)
839cdf0e10cSrcweir {
840cdf0e10cSrcweir boost::shared_ptr<BitmapRenderer> pSrcBmp( getCompatibleBitmap(rSrcBitmap) );
841cdf0e10cSrcweir boost::shared_ptr<mask_bitmap_type> pMask( getCompatibleClipMask(rMask) );
842cdf0e10cSrcweir OSL_ASSERT( pMask && pSrcBmp );
843cdf0e10cSrcweir
844cdf0e10cSrcweir scaleImage(
845cdf0e10cSrcweir srcIterRange(composite_iterator_type(
846cdf0e10cSrcweir pSrcBmp->maBegin,
847cdf0e10cSrcweir pMask->maBegin),
848cdf0e10cSrcweir joined_image_accessor_type(
849cdf0e10cSrcweir pSrcBmp->maAccessor,
850cdf0e10cSrcweir pMask->maRawAccessor),
851cdf0e10cSrcweir rSrcRect),
852cdf0e10cSrcweir destIterRange(begin,
853cdf0e10cSrcweir typename masked_input_splitting_accessor<
854cdf0e10cSrcweir Acc,
855cdf0e10cSrcweir joined_image_accessor_type,
856cdf0e10cSrcweir Masks::clipmask_polarity,
857cdf0e10cSrcweir FastMask >::type(acc),
858cdf0e10cSrcweir rDstRect),
859cdf0e10cSrcweir rSrcBitmap.get() == this);
860cdf0e10cSrcweir }
861cdf0e10cSrcweir
862cdf0e10cSrcweir template< typename Iterator, typename Acc >
implDrawMaskedBitmapGeneric(const BitmapDeviceSharedPtr & rSrcBitmap,const BitmapDeviceSharedPtr & rMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,const Iterator & begin,const Acc & acc)863cdf0e10cSrcweir void implDrawMaskedBitmapGeneric(const BitmapDeviceSharedPtr& rSrcBitmap,
864cdf0e10cSrcweir const BitmapDeviceSharedPtr& rMask,
865cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
866cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
867cdf0e10cSrcweir const Iterator& begin,
868cdf0e10cSrcweir const Acc& acc)
869cdf0e10cSrcweir {
870cdf0e10cSrcweir GenericColorImageAccessor aSrcAcc( rSrcBitmap );
871cdf0e10cSrcweir GenericColorImageAccessor aMaskAcc( rMask );
872cdf0e10cSrcweir
873cdf0e10cSrcweir const vigra::Diff2D aTopLeft(rSrcRect.getMinX(),
874cdf0e10cSrcweir rSrcRect.getMinY());
875cdf0e10cSrcweir const vigra::Diff2D aBottomRight(rSrcRect.getMaxX(),
876cdf0e10cSrcweir rSrcRect.getMaxY());
877cdf0e10cSrcweir scaleImage(
878cdf0e10cSrcweir vigra::make_triple(
879cdf0e10cSrcweir generic_composite_iterator_type(
880cdf0e10cSrcweir aTopLeft,aTopLeft),
881cdf0e10cSrcweir generic_composite_iterator_type(
882cdf0e10cSrcweir aBottomRight,aBottomRight),
883cdf0e10cSrcweir joined_generic_image_accessor_type(
884cdf0e10cSrcweir aSrcAcc,
885cdf0e10cSrcweir aMaskAcc)),
886cdf0e10cSrcweir destIterRange(begin,
887cdf0e10cSrcweir typename masked_input_splitting_accessor<
888cdf0e10cSrcweir Acc,
889cdf0e10cSrcweir joined_generic_image_accessor_type,
890cdf0e10cSrcweir Masks::clipmask_polarity,
891cdf0e10cSrcweir NoFastMask >::type(acc),
892cdf0e10cSrcweir rDstRect));
893cdf0e10cSrcweir }
894cdf0e10cSrcweir
drawMaskedBitmap_i(const BitmapDeviceSharedPtr & rSrcBitmap,const BitmapDeviceSharedPtr & rMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode)895cdf0e10cSrcweir virtual void drawMaskedBitmap_i(const BitmapDeviceSharedPtr& rSrcBitmap,
896cdf0e10cSrcweir const BitmapDeviceSharedPtr& rMask,
897cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
898cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
899cdf0e10cSrcweir DrawMode drawMode )
900cdf0e10cSrcweir {
901cdf0e10cSrcweir if( isCompatibleClipMask(rMask) &&
902cdf0e10cSrcweir isCompatibleBitmap(rSrcBitmap) )
903cdf0e10cSrcweir {
904cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
905cdf0e10cSrcweir implDrawMaskedBitmap(rSrcBitmap, rMask,
906cdf0e10cSrcweir rSrcRect, rDstRect,
907cdf0e10cSrcweir maBegin,
908cdf0e10cSrcweir maXorAccessor);
909cdf0e10cSrcweir else
910cdf0e10cSrcweir implDrawMaskedBitmap(rSrcBitmap, rMask,
911cdf0e10cSrcweir rSrcRect, rDstRect,
912cdf0e10cSrcweir maBegin,
913cdf0e10cSrcweir maAccessor);
914cdf0e10cSrcweir }
915cdf0e10cSrcweir else
916cdf0e10cSrcweir {
917cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
918cdf0e10cSrcweir implDrawMaskedBitmapGeneric(rSrcBitmap, rMask,
919cdf0e10cSrcweir rSrcRect, rDstRect,
920cdf0e10cSrcweir maBegin,
921cdf0e10cSrcweir maXorAccessor);
922cdf0e10cSrcweir else
923cdf0e10cSrcweir implDrawMaskedBitmapGeneric(rSrcBitmap, rMask,
924cdf0e10cSrcweir rSrcRect, rDstRect,
925cdf0e10cSrcweir maBegin,
926cdf0e10cSrcweir maAccessor);
927cdf0e10cSrcweir }
928cdf0e10cSrcweir }
929cdf0e10cSrcweir
drawMaskedBitmap_i(const BitmapDeviceSharedPtr & rSrcBitmap,const BitmapDeviceSharedPtr & rMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)930cdf0e10cSrcweir virtual void drawMaskedBitmap_i(const BitmapDeviceSharedPtr& rSrcBitmap,
931cdf0e10cSrcweir const BitmapDeviceSharedPtr& rMask,
932cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
933cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
934cdf0e10cSrcweir DrawMode drawMode,
935cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
936cdf0e10cSrcweir {
937cdf0e10cSrcweir if( isCompatibleClipMask(rMask) &&
938cdf0e10cSrcweir isCompatibleBitmap(rSrcBitmap) )
939cdf0e10cSrcweir {
940cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
941cdf0e10cSrcweir implDrawMaskedBitmap(rSrcBitmap, rMask,
942cdf0e10cSrcweir rSrcRect, rDstRect,
943cdf0e10cSrcweir getMaskedIter(rClip),
944cdf0e10cSrcweir maMaskedXorAccessor);
945cdf0e10cSrcweir else
946cdf0e10cSrcweir implDrawMaskedBitmap(rSrcBitmap, rMask,
947cdf0e10cSrcweir rSrcRect, rDstRect,
948cdf0e10cSrcweir getMaskedIter(rClip),
949cdf0e10cSrcweir maMaskedAccessor);
950cdf0e10cSrcweir }
951cdf0e10cSrcweir else
952cdf0e10cSrcweir {
953cdf0e10cSrcweir if( drawMode == DrawMode_XOR )
954cdf0e10cSrcweir implDrawMaskedBitmapGeneric(rSrcBitmap, rMask,
955cdf0e10cSrcweir rSrcRect, rDstRect,
956cdf0e10cSrcweir getMaskedIter(rClip),
957cdf0e10cSrcweir maMaskedXorAccessor);
958cdf0e10cSrcweir else
959cdf0e10cSrcweir implDrawMaskedBitmapGeneric(rSrcBitmap, rMask,
960cdf0e10cSrcweir rSrcRect, rDstRect,
961cdf0e10cSrcweir getMaskedIter(rClip),
962cdf0e10cSrcweir maMaskedAccessor);
963cdf0e10cSrcweir }
964cdf0e10cSrcweir }
965cdf0e10cSrcweir };
966cdf0e10cSrcweir } // namespace
967cdf0e10cSrcweir
968cdf0e10cSrcweir struct ImplBitmapDevice
969cdf0e10cSrcweir {
970cdf0e10cSrcweir /** Bitmap memory plus deleter.
971cdf0e10cSrcweir
972cdf0e10cSrcweir Always points to the start of the mem
973cdf0e10cSrcweir */
974cdf0e10cSrcweir RawMemorySharedArray mpMem;
975cdf0e10cSrcweir
976*1fd21976Smseidel // Palette memory plus deleter (might be NULL)
977cdf0e10cSrcweir PaletteMemorySharedVector mpPalette;
978cdf0e10cSrcweir
979cdf0e10cSrcweir /** Bounds of the device.
980cdf0e10cSrcweir
981cdf0e10cSrcweir maBounds.getWidth()/getHeight() yield the true size of the
982cdf0e10cSrcweir device (i.e. the rectangle given by maBounds covers the device
983cdf0e10cSrcweir area under the excluding-bottommost-and-rightmost-pixels fill
984cdf0e10cSrcweir rule)
985cdf0e10cSrcweir */
986cdf0e10cSrcweir basegfx::B2IRange maBounds;
987cdf0e10cSrcweir
988cdf0e10cSrcweir /** Bounds of the device.
989cdf0e10cSrcweir
990cdf0e10cSrcweir maBounds.getWidth()/getHeight() yield the true size of the
991cdf0e10cSrcweir device minus 1 (i.e. the rectangle given by maBounds covers
992cdf0e10cSrcweir the device area under the
993cdf0e10cSrcweir including-the-bottommost-and-rightmost-pixels fill rule).
994cdf0e10cSrcweir
995cdf0e10cSrcweir The member is used to clip line stroking against the device
996cdf0e10cSrcweir bounds.
997cdf0e10cSrcweir */
998cdf0e10cSrcweir basegfx::B2IRange maLineClipRect;
999cdf0e10cSrcweir
1000*1fd21976Smseidel // Scanline format, as provided at the constructor
1001cdf0e10cSrcweir sal_Int32 mnScanlineFormat;
1002cdf0e10cSrcweir
1003*1fd21976Smseidel // Scanline stride. Negative for bottom-to-top formats
1004cdf0e10cSrcweir sal_Int32 mnScanlineStride;
1005cdf0e10cSrcweir
1006*1fd21976Smseidel // raw ptr to 0th scanline. used for cloning a generic renderer
1007cdf0e10cSrcweir sal_uInt8* mpFirstScanline;
1008cdf0e10cSrcweir
1009cdf0e10cSrcweir /** (Optional) device sharing the same memory, and used for input
1010cdf0e10cSrcweir clip masks/alpha masks/bitmaps that don't match our exact
1011cdf0e10cSrcweir bitmap format.
1012cdf0e10cSrcweir
1013cdf0e10cSrcweir This is to avoid the combinatorical explosion when dealing
1014cdf0e10cSrcweir with n bitmap formats, which could be combined with n clip
1015cdf0e10cSrcweir masks, alpha masks and bitmap masks (yielding a total of n^4
1016cdf0e10cSrcweir combinations). Since each BitmapRenderer is specialized for
1017cdf0e10cSrcweir one specific combination of said formats, a lot of duplicate
1018cdf0e10cSrcweir code would be generated, most of which probably never
1019cdf0e10cSrcweir used. Therefore, only the most common combinations are
1020cdf0e10cSrcweir specialized templates, the remainder gets handled by this
1021cdf0e10cSrcweir generic renderer (via runtime polymorphism).
1022cdf0e10cSrcweir */
1023cdf0e10cSrcweir BitmapDeviceSharedPtr mpGenericRenderer;
1024cdf0e10cSrcweir };
1025cdf0e10cSrcweir
1026cdf0e10cSrcweir
BitmapDevice(const basegfx::B2IRange & rBounds,sal_Int32 nScanlineFormat,sal_Int32 nScanlineStride,sal_uInt8 * pFirstScanline,const RawMemorySharedArray & rMem,const PaletteMemorySharedVector & rPalette)1027cdf0e10cSrcweir BitmapDevice::BitmapDevice( const basegfx::B2IRange& rBounds,
1028cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1029cdf0e10cSrcweir sal_Int32 nScanlineStride,
1030cdf0e10cSrcweir sal_uInt8* pFirstScanline,
1031cdf0e10cSrcweir const RawMemorySharedArray& rMem,
1032cdf0e10cSrcweir const PaletteMemorySharedVector& rPalette ) :
1033cdf0e10cSrcweir mpImpl( new ImplBitmapDevice )
1034cdf0e10cSrcweir {
1035cdf0e10cSrcweir mpImpl->mpMem = rMem;
1036cdf0e10cSrcweir mpImpl->mpPalette = rPalette;
1037cdf0e10cSrcweir mpImpl->maBounds = rBounds;
1038cdf0e10cSrcweir mpImpl->maLineClipRect = basegfx::B2IRange( rBounds.getMinX(),
1039cdf0e10cSrcweir rBounds.getMinY(),
1040cdf0e10cSrcweir rBounds.getMaxX()-1,
1041cdf0e10cSrcweir rBounds.getMaxY()-1 );
1042cdf0e10cSrcweir mpImpl->mnScanlineFormat = nScanlineFormat;
1043cdf0e10cSrcweir mpImpl->mnScanlineStride = nScanlineStride;
1044cdf0e10cSrcweir mpImpl->mpFirstScanline = pFirstScanline;
1045cdf0e10cSrcweir }
1046cdf0e10cSrcweir
~BitmapDevice()1047cdf0e10cSrcweir BitmapDevice::~BitmapDevice()
1048cdf0e10cSrcweir {
1049cdf0e10cSrcweir // outline, because of internal ImplBitmapDevice
1050cdf0e10cSrcweir }
1051cdf0e10cSrcweir
getSize() const1052cdf0e10cSrcweir basegfx::B2IVector BitmapDevice::getSize() const
1053cdf0e10cSrcweir {
1054cdf0e10cSrcweir
1055cdf0e10cSrcweir return basegfx::B2IVector(
1056cdf0e10cSrcweir mpImpl->maBounds.getMaxX() - mpImpl->maBounds.getMinX(),
1057cdf0e10cSrcweir mpImpl->maBounds.getMaxY() - mpImpl->maBounds.getMinY() );
1058cdf0e10cSrcweir }
1059cdf0e10cSrcweir
isTopDown() const1060cdf0e10cSrcweir bool BitmapDevice::isTopDown() const
1061cdf0e10cSrcweir {
1062cdf0e10cSrcweir return mpImpl->mnScanlineStride >= 0;
1063cdf0e10cSrcweir }
1064cdf0e10cSrcweir
getScanlineFormat() const1065cdf0e10cSrcweir sal_Int32 BitmapDevice::getScanlineFormat() const
1066cdf0e10cSrcweir {
1067cdf0e10cSrcweir return mpImpl->mnScanlineFormat;
1068cdf0e10cSrcweir }
1069cdf0e10cSrcweir
getScanlineStride() const1070cdf0e10cSrcweir sal_Int32 BitmapDevice::getScanlineStride() const
1071cdf0e10cSrcweir {
1072cdf0e10cSrcweir return mpImpl->mnScanlineStride < 0 ?
1073cdf0e10cSrcweir -mpImpl->mnScanlineStride : mpImpl->mnScanlineStride;
1074cdf0e10cSrcweir }
1075cdf0e10cSrcweir
getBuffer() const1076cdf0e10cSrcweir RawMemorySharedArray BitmapDevice::getBuffer() const
1077cdf0e10cSrcweir {
1078cdf0e10cSrcweir return mpImpl->mpMem;
1079cdf0e10cSrcweir }
1080cdf0e10cSrcweir
getPalette() const1081cdf0e10cSrcweir PaletteMemorySharedVector BitmapDevice::getPalette() const
1082cdf0e10cSrcweir {
1083cdf0e10cSrcweir return mpImpl->mpPalette;
1084cdf0e10cSrcweir }
1085cdf0e10cSrcweir
getPaletteEntryCount() const1086cdf0e10cSrcweir sal_Int32 BitmapDevice::getPaletteEntryCount() const
1087cdf0e10cSrcweir {
1088cdf0e10cSrcweir return mpImpl->mpPalette ? mpImpl->mpPalette->size() : 0;
1089cdf0e10cSrcweir }
1090cdf0e10cSrcweir
clear(Color fillColor)1091cdf0e10cSrcweir void BitmapDevice::clear( Color fillColor )
1092cdf0e10cSrcweir {
1093cdf0e10cSrcweir clear_i( fillColor, mpImpl->maBounds );
1094cdf0e10cSrcweir }
1095cdf0e10cSrcweir
setPixel(const basegfx::B2IPoint & rPt,Color lineColor,DrawMode drawMode)1096cdf0e10cSrcweir void BitmapDevice::setPixel( const basegfx::B2IPoint& rPt,
1097cdf0e10cSrcweir Color lineColor,
1098cdf0e10cSrcweir DrawMode drawMode )
1099cdf0e10cSrcweir {
1100cdf0e10cSrcweir if( mpImpl->maLineClipRect.isInside(rPt) )
1101cdf0e10cSrcweir setPixel_i(rPt,lineColor,drawMode);
1102cdf0e10cSrcweir }
1103cdf0e10cSrcweir
setPixel(const basegfx::B2IPoint & rPt,Color lineColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)1104cdf0e10cSrcweir void BitmapDevice::setPixel( const basegfx::B2IPoint& rPt,
1105cdf0e10cSrcweir Color lineColor,
1106cdf0e10cSrcweir DrawMode drawMode,
1107cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1108cdf0e10cSrcweir {
1109cdf0e10cSrcweir if( !rClip )
1110cdf0e10cSrcweir {
1111cdf0e10cSrcweir setPixel(rPt,lineColor,drawMode);
1112cdf0e10cSrcweir return;
1113cdf0e10cSrcweir }
1114cdf0e10cSrcweir
1115cdf0e10cSrcweir if( mpImpl->maLineClipRect.isInside(rPt) )
1116cdf0e10cSrcweir {
1117cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1118cdf0e10cSrcweir setPixel_i(rPt,lineColor,drawMode,rClip);
1119cdf0e10cSrcweir else
1120cdf0e10cSrcweir getGenericRenderer()->setPixel( rPt, lineColor, drawMode, rClip );
1121cdf0e10cSrcweir }
1122cdf0e10cSrcweir }
1123cdf0e10cSrcweir
getPixel(const basegfx::B2IPoint & rPt)1124cdf0e10cSrcweir Color BitmapDevice::getPixel( const basegfx::B2IPoint& rPt )
1125cdf0e10cSrcweir {
1126cdf0e10cSrcweir if( mpImpl->maLineClipRect.isInside(rPt) )
1127cdf0e10cSrcweir return getPixel_i(rPt);
1128cdf0e10cSrcweir
1129cdf0e10cSrcweir return Color();
1130cdf0e10cSrcweir }
1131cdf0e10cSrcweir
getPixelData(const basegfx::B2IPoint & rPt)1132cdf0e10cSrcweir sal_uInt32 BitmapDevice::getPixelData( const basegfx::B2IPoint& rPt )
1133cdf0e10cSrcweir {
1134cdf0e10cSrcweir if( mpImpl->maLineClipRect.isInside(rPt) )
1135cdf0e10cSrcweir return getPixelData_i(rPt);
1136cdf0e10cSrcweir
1137cdf0e10cSrcweir return 0;
1138cdf0e10cSrcweir }
1139cdf0e10cSrcweir
drawLine(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,Color lineColor,DrawMode drawMode)1140cdf0e10cSrcweir void BitmapDevice::drawLine( const basegfx::B2IPoint& rPt1,
1141cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
1142cdf0e10cSrcweir Color lineColor,
1143cdf0e10cSrcweir DrawMode drawMode )
1144cdf0e10cSrcweir {
1145cdf0e10cSrcweir drawLine_i( rPt1,
1146cdf0e10cSrcweir rPt2,
1147cdf0e10cSrcweir mpImpl->maLineClipRect,
1148cdf0e10cSrcweir lineColor,
1149cdf0e10cSrcweir drawMode );
1150cdf0e10cSrcweir }
1151cdf0e10cSrcweir
drawLine(const basegfx::B2IPoint & rPt1,const basegfx::B2IPoint & rPt2,Color lineColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)1152cdf0e10cSrcweir void BitmapDevice::drawLine( const basegfx::B2IPoint& rPt1,
1153cdf0e10cSrcweir const basegfx::B2IPoint& rPt2,
1154cdf0e10cSrcweir Color lineColor,
1155cdf0e10cSrcweir DrawMode drawMode,
1156cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1157cdf0e10cSrcweir {
1158cdf0e10cSrcweir if( !rClip )
1159cdf0e10cSrcweir {
1160cdf0e10cSrcweir drawLine(rPt1,rPt2,lineColor,drawMode);
1161cdf0e10cSrcweir return;
1162cdf0e10cSrcweir }
1163cdf0e10cSrcweir
1164cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1165cdf0e10cSrcweir drawLine_i( rPt1,
1166cdf0e10cSrcweir rPt2,
1167cdf0e10cSrcweir mpImpl->maLineClipRect,
1168cdf0e10cSrcweir lineColor,
1169cdf0e10cSrcweir drawMode,
1170cdf0e10cSrcweir rClip );
1171cdf0e10cSrcweir else
1172cdf0e10cSrcweir getGenericRenderer()->drawLine( rPt1, rPt2, lineColor,
1173cdf0e10cSrcweir drawMode, rClip );
1174cdf0e10cSrcweir }
1175cdf0e10cSrcweir
drawPolygon(const basegfx::B2DPolygon & rPoly,Color lineColor,DrawMode drawMode)1176cdf0e10cSrcweir void BitmapDevice::drawPolygon( const basegfx::B2DPolygon& rPoly,
1177cdf0e10cSrcweir Color lineColor,
1178cdf0e10cSrcweir DrawMode drawMode )
1179cdf0e10cSrcweir {
1180cdf0e10cSrcweir const sal_uInt32 numVertices( rPoly.count() );
1181cdf0e10cSrcweir if( numVertices )
1182cdf0e10cSrcweir drawPolygon_i( rPoly,
1183cdf0e10cSrcweir mpImpl->maLineClipRect,
1184cdf0e10cSrcweir lineColor, drawMode );
1185cdf0e10cSrcweir }
1186cdf0e10cSrcweir
drawPolygon(const basegfx::B2DPolygon & rPoly,Color lineColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)1187cdf0e10cSrcweir void BitmapDevice::drawPolygon( const basegfx::B2DPolygon& rPoly,
1188cdf0e10cSrcweir Color lineColor,
1189cdf0e10cSrcweir DrawMode drawMode,
1190cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1191cdf0e10cSrcweir {
1192cdf0e10cSrcweir if( !rClip )
1193cdf0e10cSrcweir {
1194cdf0e10cSrcweir drawPolygon(rPoly,lineColor,drawMode);
1195cdf0e10cSrcweir return;
1196cdf0e10cSrcweir }
1197cdf0e10cSrcweir
1198cdf0e10cSrcweir const sal_uInt32 numVertices( rPoly.count() );
1199cdf0e10cSrcweir if( numVertices )
1200cdf0e10cSrcweir {
1201cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1202cdf0e10cSrcweir drawPolygon_i( rPoly,
1203cdf0e10cSrcweir mpImpl->maLineClipRect,
1204cdf0e10cSrcweir lineColor, drawMode, rClip );
1205cdf0e10cSrcweir else
1206cdf0e10cSrcweir getGenericRenderer()->drawPolygon( rPoly, lineColor,
1207cdf0e10cSrcweir drawMode, rClip );
1208cdf0e10cSrcweir }
1209cdf0e10cSrcweir }
1210cdf0e10cSrcweir
fillPolyPolygon(const basegfx::B2DPolyPolygon & rPoly,Color fillColor,DrawMode drawMode)1211cdf0e10cSrcweir void BitmapDevice::fillPolyPolygon( const basegfx::B2DPolyPolygon& rPoly,
1212cdf0e10cSrcweir Color fillColor,
1213cdf0e10cSrcweir DrawMode drawMode )
1214cdf0e10cSrcweir {
1215cdf0e10cSrcweir fillPolyPolygon_i( rPoly, fillColor, drawMode, mpImpl->maBounds );
1216cdf0e10cSrcweir }
1217cdf0e10cSrcweir
fillPolyPolygon(const basegfx::B2DPolyPolygon & rPoly,Color fillColor,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)1218cdf0e10cSrcweir void BitmapDevice::fillPolyPolygon( const basegfx::B2DPolyPolygon& rPoly,
1219cdf0e10cSrcweir Color fillColor,
1220cdf0e10cSrcweir DrawMode drawMode,
1221cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1222cdf0e10cSrcweir {
1223cdf0e10cSrcweir if( !rClip )
1224cdf0e10cSrcweir {
1225cdf0e10cSrcweir fillPolyPolygon(rPoly,fillColor,drawMode);
1226cdf0e10cSrcweir return;
1227cdf0e10cSrcweir }
1228cdf0e10cSrcweir
1229cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1230cdf0e10cSrcweir fillPolyPolygon_i( rPoly, fillColor, drawMode, mpImpl->maBounds, rClip );
1231cdf0e10cSrcweir else
1232cdf0e10cSrcweir getGenericRenderer()->fillPolyPolygon( rPoly, fillColor,
1233cdf0e10cSrcweir drawMode, rClip );
1234cdf0e10cSrcweir }
1235cdf0e10cSrcweir
1236cdf0e10cSrcweir
1237cdf0e10cSrcweir namespace
1238cdf0e10cSrcweir {
assertImagePoint(const basegfx::B2IPoint & rPt,const basegfx::B2IRange & rPermittedRange)1239cdf0e10cSrcweir void assertImagePoint( const basegfx::B2IPoint& rPt,
1240cdf0e10cSrcweir const basegfx::B2IRange& rPermittedRange )
1241cdf0e10cSrcweir {
1242cdf0e10cSrcweir (void)rPt; (void)rPermittedRange;
1243cdf0e10cSrcweir OSL_ASSERT( rPermittedRange.isInside(rPt) );
1244cdf0e10cSrcweir }
1245cdf0e10cSrcweir
assertImageRange(const basegfx::B2IRange & rRange,const basegfx::B2IRange & rPermittedRange)1246cdf0e10cSrcweir void assertImageRange( const basegfx::B2IRange& rRange,
1247cdf0e10cSrcweir const basegfx::B2IRange& rPermittedRange )
1248cdf0e10cSrcweir {
1249cdf0e10cSrcweir #if OSL_DEBUG_LEVEL > 0
1250cdf0e10cSrcweir basegfx::B2IRange aRange( rRange );
1251cdf0e10cSrcweir aRange.intersect( rPermittedRange );
1252cdf0e10cSrcweir
1253cdf0e10cSrcweir OSL_ASSERT( aRange == rRange );
1254cdf0e10cSrcweir #else
1255cdf0e10cSrcweir (void)rRange; (void)rPermittedRange;
1256cdf0e10cSrcweir #endif
1257cdf0e10cSrcweir }
1258cdf0e10cSrcweir
1259cdf0e10cSrcweir // TODO(Q3): Move canvas/canvastools.hxx clipBlit() down
1260cdf0e10cSrcweir // to basegfx, and use here!
clipAreaImpl(::basegfx::B2IRange & io_rSourceArea,::basegfx::B2IPoint & io_rDestPoint,const::basegfx::B2IRange & rSourceBounds,const::basegfx::B2IRange & rDestBounds)1261cdf0e10cSrcweir bool clipAreaImpl( ::basegfx::B2IRange& io_rSourceArea,
1262cdf0e10cSrcweir ::basegfx::B2IPoint& io_rDestPoint,
1263cdf0e10cSrcweir const ::basegfx::B2IRange& rSourceBounds,
1264cdf0e10cSrcweir const ::basegfx::B2IRange& rDestBounds )
1265cdf0e10cSrcweir {
1266cdf0e10cSrcweir const ::basegfx::B2IPoint aSourceTopLeft(
1267cdf0e10cSrcweir io_rSourceArea.getMinimum() );
1268cdf0e10cSrcweir
1269cdf0e10cSrcweir ::basegfx::B2IRange aLocalSourceArea( io_rSourceArea );
1270cdf0e10cSrcweir
1271cdf0e10cSrcweir // clip source area (which must be inside rSourceBounds)
1272cdf0e10cSrcweir aLocalSourceArea.intersect( rSourceBounds );
1273cdf0e10cSrcweir
1274cdf0e10cSrcweir if( aLocalSourceArea.isEmpty() )
1275cdf0e10cSrcweir return false;
1276cdf0e10cSrcweir
1277cdf0e10cSrcweir // calc relative new source area points (relative to orig
1278cdf0e10cSrcweir // source area)
1279cdf0e10cSrcweir const ::basegfx::B2IVector aUpperLeftOffset(
1280cdf0e10cSrcweir aLocalSourceArea.getMinimum()-aSourceTopLeft );
1281cdf0e10cSrcweir const ::basegfx::B2IVector aLowerRightOffset(
1282cdf0e10cSrcweir aLocalSourceArea.getMaximum()-aSourceTopLeft );
1283cdf0e10cSrcweir
1284cdf0e10cSrcweir ::basegfx::B2IRange aLocalDestArea( io_rDestPoint + aUpperLeftOffset,
1285cdf0e10cSrcweir io_rDestPoint + aLowerRightOffset );
1286cdf0e10cSrcweir
1287cdf0e10cSrcweir // clip dest area (which must be inside rDestBounds)
1288cdf0e10cSrcweir aLocalDestArea.intersect( rDestBounds );
1289cdf0e10cSrcweir
1290cdf0e10cSrcweir if( aLocalDestArea.isEmpty() )
1291cdf0e10cSrcweir return false;
1292cdf0e10cSrcweir
1293cdf0e10cSrcweir // calc relative new dest area points (relative to orig
1294cdf0e10cSrcweir // source area)
1295cdf0e10cSrcweir const ::basegfx::B2IVector aDestUpperLeftOffset(
1296cdf0e10cSrcweir aLocalDestArea.getMinimum()-io_rDestPoint );
1297cdf0e10cSrcweir const ::basegfx::B2IVector aDestLowerRightOffset(
1298cdf0e10cSrcweir aLocalDestArea.getMaximum()-io_rDestPoint );
1299cdf0e10cSrcweir
1300cdf0e10cSrcweir io_rSourceArea = ::basegfx::B2IRange( aSourceTopLeft + aDestUpperLeftOffset,
1301cdf0e10cSrcweir aSourceTopLeft + aDestLowerRightOffset );
1302cdf0e10cSrcweir io_rDestPoint = aLocalDestArea.getMinimum();
1303cdf0e10cSrcweir
1304cdf0e10cSrcweir return true;
1305cdf0e10cSrcweir }
1306cdf0e10cSrcweir
1307cdf0e10cSrcweir // TODO(Q3): Move canvas/canvastools.hxx clipBlit() down
1308cdf0e10cSrcweir // to basegfx, and use here!
clipAreaImpl(::basegfx::B2IRange & io_rDestArea,::basegfx::B2IRange & io_rSourceArea,const::basegfx::B2IRange & rDestBounds,const::basegfx::B2IRange & rSourceBounds)1309cdf0e10cSrcweir bool clipAreaImpl( ::basegfx::B2IRange& io_rDestArea,
1310cdf0e10cSrcweir ::basegfx::B2IRange& io_rSourceArea,
1311cdf0e10cSrcweir const ::basegfx::B2IRange& rDestBounds,
1312cdf0e10cSrcweir const ::basegfx::B2IRange& rSourceBounds )
1313cdf0e10cSrcweir {
1314cdf0e10cSrcweir // extract inherent scale
1315cdf0e10cSrcweir const double nScaleX( io_rDestArea.getWidth() / (double)io_rSourceArea.getWidth() );
1316cdf0e10cSrcweir const double nScaleY( io_rDestArea.getHeight() / (double)io_rSourceArea.getHeight() );
1317cdf0e10cSrcweir
1318cdf0e10cSrcweir // extract range origins
1319cdf0e10cSrcweir const basegfx::B2IPoint aDestTopLeft(
1320cdf0e10cSrcweir io_rDestArea.getMinimum() );
1321cdf0e10cSrcweir const ::basegfx::B2IPoint aSourceTopLeft(
1322cdf0e10cSrcweir io_rSourceArea.getMinimum() );
1323cdf0e10cSrcweir
1324cdf0e10cSrcweir ::basegfx::B2IRange aLocalSourceArea( io_rSourceArea );
1325cdf0e10cSrcweir
1326cdf0e10cSrcweir // clip source area (which must be inside rSourceBounds)
1327cdf0e10cSrcweir aLocalSourceArea.intersect( rSourceBounds );
1328cdf0e10cSrcweir
1329cdf0e10cSrcweir if( aLocalSourceArea.isEmpty() )
1330cdf0e10cSrcweir return false;
1331cdf0e10cSrcweir
1332cdf0e10cSrcweir // calc relative new source area points (relative to orig
1333cdf0e10cSrcweir // source area)
1334cdf0e10cSrcweir const ::basegfx::B2IVector aUpperLeftOffset(
1335cdf0e10cSrcweir aLocalSourceArea.getMinimum()-aSourceTopLeft );
1336cdf0e10cSrcweir const ::basegfx::B2IVector aLowerRightOffset(
1337cdf0e10cSrcweir aLocalSourceArea.getMaximum()-aSourceTopLeft );
1338cdf0e10cSrcweir
1339cdf0e10cSrcweir ::basegfx::B2IRange aLocalDestArea( basegfx::fround(aDestTopLeft.getX() + nScaleX*aUpperLeftOffset.getX()),
1340cdf0e10cSrcweir basegfx::fround(aDestTopLeft.getY() + nScaleY*aUpperLeftOffset.getY()),
1341cdf0e10cSrcweir basegfx::fround(aDestTopLeft.getX() + nScaleX*aLowerRightOffset.getX()),
1342cdf0e10cSrcweir basegfx::fround(aDestTopLeft.getY() + nScaleY*aLowerRightOffset.getY()) );
1343cdf0e10cSrcweir
1344cdf0e10cSrcweir // clip dest area (which must be inside rDestBounds)
1345cdf0e10cSrcweir aLocalDestArea.intersect( rDestBounds );
1346cdf0e10cSrcweir
1347cdf0e10cSrcweir if( aLocalDestArea.isEmpty() )
1348cdf0e10cSrcweir return false;
1349cdf0e10cSrcweir
1350cdf0e10cSrcweir // calc relative new dest area points (relative to orig
1351cdf0e10cSrcweir // source area)
1352cdf0e10cSrcweir const ::basegfx::B2IVector aDestUpperLeftOffset(
1353cdf0e10cSrcweir aLocalDestArea.getMinimum()-aDestTopLeft );
1354cdf0e10cSrcweir const ::basegfx::B2IVector aDestLowerRightOffset(
1355cdf0e10cSrcweir aLocalDestArea.getMaximum()-aDestTopLeft );
1356cdf0e10cSrcweir
1357cdf0e10cSrcweir io_rSourceArea = ::basegfx::B2IRange( basegfx::fround(aSourceTopLeft.getX() + aDestUpperLeftOffset.getX()/nScaleX),
1358cdf0e10cSrcweir basegfx::fround(aSourceTopLeft.getY() + aDestUpperLeftOffset.getY()/nScaleY),
1359cdf0e10cSrcweir basegfx::fround(aSourceTopLeft.getX() + aDestLowerRightOffset.getX()/nScaleX),
1360cdf0e10cSrcweir basegfx::fround(aSourceTopLeft.getY() + aDestLowerRightOffset.getY()/nScaleY) );
1361cdf0e10cSrcweir io_rDestArea = aLocalDestArea;
1362cdf0e10cSrcweir
1363cdf0e10cSrcweir // final source area clip (chopping round-offs)
1364cdf0e10cSrcweir io_rSourceArea.intersect( rSourceBounds );
1365cdf0e10cSrcweir
1366cdf0e10cSrcweir if( io_rSourceArea.isEmpty() )
1367cdf0e10cSrcweir return false;
1368cdf0e10cSrcweir
1369cdf0e10cSrcweir
1370cdf0e10cSrcweir return true;
1371cdf0e10cSrcweir }
1372cdf0e10cSrcweir }
1373cdf0e10cSrcweir
drawBitmap(const BitmapDeviceSharedPtr & rSrcBitmap,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode)1374cdf0e10cSrcweir void BitmapDevice::drawBitmap( const BitmapDeviceSharedPtr& rSrcBitmap,
1375cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
1376cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
1377cdf0e10cSrcweir DrawMode drawMode )
1378cdf0e10cSrcweir {
1379cdf0e10cSrcweir const basegfx::B2IVector& rSrcSize( rSrcBitmap->getSize() );
1380cdf0e10cSrcweir const basegfx::B2IRange aSrcBounds( 0,0,rSrcSize.getX(),rSrcSize.getY() );
1381cdf0e10cSrcweir basegfx::B2IRange aSrcRange( rSrcRect );
1382cdf0e10cSrcweir basegfx::B2IRange aDestRange( rDstRect );
1383cdf0e10cSrcweir
1384cdf0e10cSrcweir if( clipAreaImpl( aDestRange,
1385cdf0e10cSrcweir aSrcRange,
1386cdf0e10cSrcweir mpImpl->maBounds,
1387cdf0e10cSrcweir aSrcBounds ))
1388cdf0e10cSrcweir {
1389cdf0e10cSrcweir assertImageRange(aDestRange,mpImpl->maBounds);
1390cdf0e10cSrcweir assertImageRange(aSrcRange,aSrcBounds);
1391cdf0e10cSrcweir
1392cdf0e10cSrcweir drawBitmap_i( rSrcBitmap, aSrcRange, aDestRange, drawMode );
1393cdf0e10cSrcweir }
1394cdf0e10cSrcweir }
1395cdf0e10cSrcweir
drawBitmap(const BitmapDeviceSharedPtr & rSrcBitmap,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)1396cdf0e10cSrcweir void BitmapDevice::drawBitmap( const BitmapDeviceSharedPtr& rSrcBitmap,
1397cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
1398cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
1399cdf0e10cSrcweir DrawMode drawMode,
1400cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1401cdf0e10cSrcweir {
1402cdf0e10cSrcweir if( !rClip )
1403cdf0e10cSrcweir {
1404cdf0e10cSrcweir drawBitmap(rSrcBitmap,rSrcRect,rDstRect,drawMode);
1405cdf0e10cSrcweir return;
1406cdf0e10cSrcweir }
1407cdf0e10cSrcweir
1408cdf0e10cSrcweir const basegfx::B2IVector& rSrcSize( rSrcBitmap->getSize() );
1409cdf0e10cSrcweir const basegfx::B2IRange aSrcBounds( 0,0,rSrcSize.getX(),rSrcSize.getY() );
1410cdf0e10cSrcweir basegfx::B2IRange aSrcRange( rSrcRect );
1411cdf0e10cSrcweir basegfx::B2IRange aDestRange( rDstRect );
1412cdf0e10cSrcweir
1413cdf0e10cSrcweir if( clipAreaImpl( aDestRange,
1414cdf0e10cSrcweir aSrcRange,
1415cdf0e10cSrcweir mpImpl->maBounds,
1416cdf0e10cSrcweir aSrcBounds ))
1417cdf0e10cSrcweir {
1418cdf0e10cSrcweir assertImageRange(aDestRange,mpImpl->maBounds);
1419cdf0e10cSrcweir assertImageRange(aSrcRange,aSrcBounds);
1420cdf0e10cSrcweir
1421cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1422cdf0e10cSrcweir {
1423cdf0e10cSrcweir drawBitmap_i( rSrcBitmap, aSrcRange, aDestRange, drawMode, rClip );
1424cdf0e10cSrcweir }
1425cdf0e10cSrcweir else
1426cdf0e10cSrcweir {
1427cdf0e10cSrcweir getGenericRenderer()->drawBitmap( rSrcBitmap, rSrcRect,
1428cdf0e10cSrcweir rDstRect, drawMode, rClip );
1429cdf0e10cSrcweir }
1430cdf0e10cSrcweir }
1431cdf0e10cSrcweir }
1432cdf0e10cSrcweir
drawMaskedColor(Color aSrcColor,const BitmapDeviceSharedPtr & rAlphaMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IPoint & rDstPoint)1433cdf0e10cSrcweir void BitmapDevice::drawMaskedColor( Color aSrcColor,
1434cdf0e10cSrcweir const BitmapDeviceSharedPtr& rAlphaMask,
1435cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
1436cdf0e10cSrcweir const basegfx::B2IPoint& rDstPoint )
1437cdf0e10cSrcweir {
1438cdf0e10cSrcweir const basegfx::B2IVector& rSrcSize( rAlphaMask->getSize() );
1439cdf0e10cSrcweir const basegfx::B2IRange aSrcBounds( 0,0,rSrcSize.getX(),rSrcSize.getY() );
1440cdf0e10cSrcweir basegfx::B2IRange aSrcRange( rSrcRect );
1441cdf0e10cSrcweir basegfx::B2IPoint aDestPoint( rDstPoint );
1442cdf0e10cSrcweir
1443cdf0e10cSrcweir if( clipAreaImpl( aSrcRange,
1444cdf0e10cSrcweir aDestPoint,
1445cdf0e10cSrcweir aSrcBounds,
1446cdf0e10cSrcweir mpImpl->maBounds ))
1447cdf0e10cSrcweir {
1448cdf0e10cSrcweir assertImagePoint(aDestPoint,mpImpl->maBounds);
1449cdf0e10cSrcweir assertImageRange(aSrcRange,aSrcBounds);
1450cdf0e10cSrcweir
1451cdf0e10cSrcweir if( rAlphaMask.get() == this )
1452cdf0e10cSrcweir {
1453cdf0e10cSrcweir // src == dest, copy rAlphaMask beforehand
1454cdf0e10cSrcweir // ---------------------------------------------------
1455cdf0e10cSrcweir
1456cdf0e10cSrcweir const basegfx::B2ITuple aSize( aSrcRange.getWidth(),
1457cdf0e10cSrcweir aSrcRange.getHeight() );
1458cdf0e10cSrcweir BitmapDeviceSharedPtr pAlphaCopy(
1459cdf0e10cSrcweir cloneBitmapDevice( aSize,
1460cdf0e10cSrcweir shared_from_this()) );
1461cdf0e10cSrcweir basegfx::B2ITuple aGcc3WorkaroundTemporary;
1462cdf0e10cSrcweir const basegfx::B2IRange aAlphaRange( aGcc3WorkaroundTemporary,
1463cdf0e10cSrcweir aSize );
1464cdf0e10cSrcweir pAlphaCopy->drawBitmap(rAlphaMask,
1465cdf0e10cSrcweir aSrcRange,
1466cdf0e10cSrcweir aAlphaRange,
1467cdf0e10cSrcweir DrawMode_PAINT);
1468cdf0e10cSrcweir drawMaskedColor_i( aSrcColor, pAlphaCopy, aAlphaRange, aDestPoint );
1469cdf0e10cSrcweir }
1470cdf0e10cSrcweir else
1471cdf0e10cSrcweir {
1472cdf0e10cSrcweir drawMaskedColor_i( aSrcColor, rAlphaMask, aSrcRange, aDestPoint );
1473cdf0e10cSrcweir }
1474cdf0e10cSrcweir }
1475cdf0e10cSrcweir }
1476cdf0e10cSrcweir
drawMaskedColor(Color aSrcColor,const BitmapDeviceSharedPtr & rAlphaMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IPoint & rDstPoint,const BitmapDeviceSharedPtr & rClip)1477cdf0e10cSrcweir void BitmapDevice::drawMaskedColor( Color aSrcColor,
1478cdf0e10cSrcweir const BitmapDeviceSharedPtr& rAlphaMask,
1479cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
1480cdf0e10cSrcweir const basegfx::B2IPoint& rDstPoint,
1481cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1482cdf0e10cSrcweir {
1483cdf0e10cSrcweir if( !rClip )
1484cdf0e10cSrcweir {
1485cdf0e10cSrcweir drawMaskedColor(aSrcColor,rAlphaMask,rSrcRect,rDstPoint);
1486cdf0e10cSrcweir return;
1487cdf0e10cSrcweir }
1488cdf0e10cSrcweir
1489cdf0e10cSrcweir const basegfx::B2IVector& rSrcSize( rAlphaMask->getSize() );
1490cdf0e10cSrcweir const basegfx::B2IRange aSrcBounds( 0,0,rSrcSize.getX(),rSrcSize.getY() );
1491cdf0e10cSrcweir basegfx::B2IRange aSrcRange( rSrcRect );
1492cdf0e10cSrcweir basegfx::B2IPoint aDestPoint( rDstPoint );
1493cdf0e10cSrcweir
1494cdf0e10cSrcweir if( clipAreaImpl( aSrcRange,
1495cdf0e10cSrcweir aDestPoint,
1496cdf0e10cSrcweir aSrcBounds,
1497cdf0e10cSrcweir mpImpl->maBounds ))
1498cdf0e10cSrcweir {
1499cdf0e10cSrcweir assertImagePoint(aDestPoint,mpImpl->maBounds);
1500cdf0e10cSrcweir assertImageRange(aSrcRange,aSrcBounds);
1501cdf0e10cSrcweir
1502cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1503cdf0e10cSrcweir {
1504cdf0e10cSrcweir if( rAlphaMask.get() == this )
1505cdf0e10cSrcweir {
1506cdf0e10cSrcweir // src == dest, copy rAlphaMask beforehand
1507cdf0e10cSrcweir // ---------------------------------------------------
1508cdf0e10cSrcweir
1509cdf0e10cSrcweir const basegfx::B2ITuple aSize( aSrcRange.getWidth(),
1510cdf0e10cSrcweir aSrcRange.getHeight() );
1511cdf0e10cSrcweir BitmapDeviceSharedPtr pAlphaCopy(
1512cdf0e10cSrcweir cloneBitmapDevice( aSize,
1513cdf0e10cSrcweir shared_from_this()) );
1514cdf0e10cSrcweir basegfx::B2ITuple aGcc3WorkaroundTemporary;
1515cdf0e10cSrcweir const basegfx::B2IRange aAlphaRange( aGcc3WorkaroundTemporary,
1516cdf0e10cSrcweir aSize );
1517cdf0e10cSrcweir pAlphaCopy->drawBitmap(rAlphaMask,
1518cdf0e10cSrcweir aSrcRange,
1519cdf0e10cSrcweir aAlphaRange,
1520cdf0e10cSrcweir DrawMode_PAINT);
1521cdf0e10cSrcweir drawMaskedColor_i( aSrcColor, pAlphaCopy, aAlphaRange, aDestPoint, rClip );
1522cdf0e10cSrcweir }
1523cdf0e10cSrcweir else
1524cdf0e10cSrcweir {
1525cdf0e10cSrcweir drawMaskedColor_i( aSrcColor, rAlphaMask, aSrcRange, aDestPoint, rClip );
1526cdf0e10cSrcweir }
1527cdf0e10cSrcweir }
1528cdf0e10cSrcweir else
1529cdf0e10cSrcweir {
1530cdf0e10cSrcweir getGenericRenderer()->drawMaskedColor( aSrcColor, rAlphaMask,
1531cdf0e10cSrcweir rSrcRect, rDstPoint, rClip );
1532cdf0e10cSrcweir }
1533cdf0e10cSrcweir }
1534cdf0e10cSrcweir }
1535cdf0e10cSrcweir
drawMaskedBitmap(const BitmapDeviceSharedPtr & rSrcBitmap,const BitmapDeviceSharedPtr & rMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode)1536cdf0e10cSrcweir void BitmapDevice::drawMaskedBitmap( const BitmapDeviceSharedPtr& rSrcBitmap,
1537cdf0e10cSrcweir const BitmapDeviceSharedPtr& rMask,
1538cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
1539cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
1540cdf0e10cSrcweir DrawMode drawMode )
1541cdf0e10cSrcweir {
1542cdf0e10cSrcweir OSL_ASSERT( rMask->getSize() == rSrcBitmap->getSize() );
1543cdf0e10cSrcweir
1544cdf0e10cSrcweir const basegfx::B2IVector& rSrcSize( rSrcBitmap->getSize() );
1545cdf0e10cSrcweir const basegfx::B2IRange aSrcBounds( 0,0,rSrcSize.getX(),rSrcSize.getY() );
1546cdf0e10cSrcweir basegfx::B2IRange aSrcRange( rSrcRect );
1547cdf0e10cSrcweir basegfx::B2IRange aDestRange( rDstRect );
1548cdf0e10cSrcweir
1549cdf0e10cSrcweir if( clipAreaImpl( aDestRange,
1550cdf0e10cSrcweir aSrcRange,
1551cdf0e10cSrcweir mpImpl->maBounds,
1552cdf0e10cSrcweir aSrcBounds ))
1553cdf0e10cSrcweir {
1554cdf0e10cSrcweir assertImageRange(aDestRange,mpImpl->maBounds);
1555cdf0e10cSrcweir assertImageRange(aSrcRange,aSrcBounds);
1556cdf0e10cSrcweir
1557cdf0e10cSrcweir drawMaskedBitmap_i( rSrcBitmap, rMask, aSrcRange, aDestRange, drawMode );
1558cdf0e10cSrcweir }
1559cdf0e10cSrcweir }
1560cdf0e10cSrcweir
drawMaskedBitmap(const BitmapDeviceSharedPtr & rSrcBitmap,const BitmapDeviceSharedPtr & rMask,const basegfx::B2IRange & rSrcRect,const basegfx::B2IRange & rDstRect,DrawMode drawMode,const BitmapDeviceSharedPtr & rClip)1561cdf0e10cSrcweir void BitmapDevice::drawMaskedBitmap( const BitmapDeviceSharedPtr& rSrcBitmap,
1562cdf0e10cSrcweir const BitmapDeviceSharedPtr& rMask,
1563cdf0e10cSrcweir const basegfx::B2IRange& rSrcRect,
1564cdf0e10cSrcweir const basegfx::B2IRange& rDstRect,
1565cdf0e10cSrcweir DrawMode drawMode,
1566cdf0e10cSrcweir const BitmapDeviceSharedPtr& rClip )
1567cdf0e10cSrcweir {
1568cdf0e10cSrcweir if( !rClip )
1569cdf0e10cSrcweir {
1570cdf0e10cSrcweir drawMaskedBitmap(rSrcBitmap,rMask,rSrcRect,rDstRect,drawMode);
1571cdf0e10cSrcweir return;
1572cdf0e10cSrcweir }
1573cdf0e10cSrcweir
1574cdf0e10cSrcweir OSL_ASSERT( rMask->getSize() == rSrcBitmap->getSize() );
1575cdf0e10cSrcweir
1576cdf0e10cSrcweir const basegfx::B2IVector& rSrcSize( rSrcBitmap->getSize() );
1577cdf0e10cSrcweir const basegfx::B2IRange aSrcBounds( 0,0,rSrcSize.getX(),rSrcSize.getY() );
1578cdf0e10cSrcweir basegfx::B2IRange aSrcRange( rSrcRect );
1579cdf0e10cSrcweir basegfx::B2IRange aDestRange( rDstRect );
1580cdf0e10cSrcweir
1581cdf0e10cSrcweir if( clipAreaImpl( aDestRange,
1582cdf0e10cSrcweir aSrcRange,
1583cdf0e10cSrcweir mpImpl->maBounds,
1584cdf0e10cSrcweir aSrcBounds ))
1585cdf0e10cSrcweir {
1586cdf0e10cSrcweir assertImageRange(aDestRange,mpImpl->maBounds);
1587cdf0e10cSrcweir assertImageRange(aSrcRange,aSrcBounds);
1588cdf0e10cSrcweir
1589cdf0e10cSrcweir if( isCompatibleClipMask( rClip ) )
1590cdf0e10cSrcweir {
1591cdf0e10cSrcweir drawMaskedBitmap_i( rSrcBitmap, rMask, aSrcRange, aDestRange, drawMode, rClip );
1592cdf0e10cSrcweir }
1593cdf0e10cSrcweir else
1594cdf0e10cSrcweir {
1595cdf0e10cSrcweir getGenericRenderer()->drawMaskedBitmap( rSrcBitmap, rMask, rSrcRect,
1596cdf0e10cSrcweir rDstRect, drawMode, rClip );
1597cdf0e10cSrcweir }
1598cdf0e10cSrcweir }
1599cdf0e10cSrcweir }
1600cdf0e10cSrcweir
1601cdf0e10cSrcweir
1602cdf0e10cSrcweir //----------------------------------------------------------------------------------
1603cdf0e10cSrcweir
1604cdf0e10cSrcweir /** Standard clip and alpha masks
1605cdf0e10cSrcweir */
1606cdf0e10cSrcweir struct StdMasks
1607cdf0e10cSrcweir {
1608cdf0e10cSrcweir typedef PixelFormatTraits_GREY1_MSB clipmask_format_traits;
1609cdf0e10cSrcweir typedef PixelFormatTraits_GREY8 alphamask_format_traits;
1610cdf0e10cSrcweir
1611*1fd21976Smseidel // Clipmask: 0 means opaque
1612cdf0e10cSrcweir static const bool clipmask_polarity = false;
1613cdf0e10cSrcweir
1614*1fd21976Smseidel // Alpha mask: 0 means fully transparent
1615cdf0e10cSrcweir static const bool alphamask_polarity = true;
1616cdf0e10cSrcweir };
1617cdf0e10cSrcweir
1618cdf0e10cSrcweir #if 0
1619cdf0e10cSrcweir /** Clip and alpha masks for the generic renderer (of course, those
1620cdf0e10cSrcweir need to be generic, too)
1621cdf0e10cSrcweir */
1622cdf0e10cSrcweir struct MaskTraitsGeneric
1623cdf0e10cSrcweir {
1624cdf0e10cSrcweir typedef PixelFormatTraits_GenericInteger clipmask_format_traits;
1625cdf0e10cSrcweir typedef PixelFormatTraits_GenericInteger alphamask_format_traits;
1626cdf0e10cSrcweir };
1627cdf0e10cSrcweir #endif
1628cdf0e10cSrcweir
1629cdf0e10cSrcweir //----------------------------------------------------------------------------------
1630cdf0e10cSrcweir
1631cdf0e10cSrcweir // Some compilers don't like the nested template wrap_accessor
1632cdf0e10cSrcweir // reference in the parameter list - being slightly less type safe,
1633cdf0e10cSrcweir // then.
1634cdf0e10cSrcweir #ifndef BASEBMP_NO_NESTED_TEMPLATE_PARAMETER
1635cdf0e10cSrcweir
1636*1fd21976Smseidel // Produces a specialized renderer for the given pixel format
1637cdf0e10cSrcweir template< class FormatTraits, class MaskTraits >
createRenderer(const basegfx::B2IRange & rBounds,sal_Int32 nScanlineFormat,sal_Int32 nScanlineStride,sal_uInt8 * pFirstScanline,typename FormatTraits::raw_accessor_type const & rRawAccessor,typename FormatTraits::accessor_selector::template wrap_accessor<typename FormatTraits::raw_accessor_type>::type const & rAccessor,boost::shared_array<sal_uInt8> pMem,const PaletteMemorySharedVector & pPal)1638cdf0e10cSrcweir BitmapDeviceSharedPtr createRenderer(
1639cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
1640cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1641cdf0e10cSrcweir sal_Int32 nScanlineStride,
1642cdf0e10cSrcweir sal_uInt8* pFirstScanline,
1643cdf0e10cSrcweir typename FormatTraits::raw_accessor_type const& rRawAccessor,
1644cdf0e10cSrcweir typename FormatTraits::accessor_selector::template wrap_accessor<
1645cdf0e10cSrcweir typename FormatTraits::raw_accessor_type>::type const& rAccessor,
1646cdf0e10cSrcweir boost::shared_array< sal_uInt8 > pMem,
1647cdf0e10cSrcweir const PaletteMemorySharedVector& pPal )
1648cdf0e10cSrcweir
1649cdf0e10cSrcweir #else
1650cdf0e10cSrcweir
1651cdf0e10cSrcweir template< class FormatTraits, class MaskTraits, class Accessor >
1652cdf0e10cSrcweir BitmapDeviceSharedPtr createRenderer(
1653cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
1654cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1655cdf0e10cSrcweir sal_Int32 nScanlineStride,
1656cdf0e10cSrcweir sal_uInt8* pFirstScanline,
1657cdf0e10cSrcweir typename FormatTraits::raw_accessor_type const& rRawAccessor,
1658cdf0e10cSrcweir Accessor const& rAccessor,
1659cdf0e10cSrcweir boost::shared_array< sal_uInt8 > pMem,
1660cdf0e10cSrcweir const PaletteMemorySharedVector& pPal )
1661cdf0e10cSrcweir
1662cdf0e10cSrcweir #endif
1663cdf0e10cSrcweir {
1664cdf0e10cSrcweir typedef typename FormatTraits::iterator_type Iterator;
1665cdf0e10cSrcweir typedef BitmapRenderer< Iterator,
1666cdf0e10cSrcweir typename FormatTraits::raw_accessor_type,
1667cdf0e10cSrcweir typename FormatTraits::accessor_selector,
1668cdf0e10cSrcweir MaskTraits > Renderer;
1669cdf0e10cSrcweir
1670cdf0e10cSrcweir return BitmapDeviceSharedPtr(
1671cdf0e10cSrcweir new Renderer( rBounds,
1672cdf0e10cSrcweir nScanlineFormat,
1673cdf0e10cSrcweir nScanlineStride,
1674cdf0e10cSrcweir pFirstScanline,
1675cdf0e10cSrcweir Iterator(
1676cdf0e10cSrcweir reinterpret_cast<typename Iterator::value_type*>(
1677cdf0e10cSrcweir pFirstScanline),
1678cdf0e10cSrcweir nScanlineStride),
1679cdf0e10cSrcweir rRawAccessor,
1680cdf0e10cSrcweir rAccessor,
1681cdf0e10cSrcweir pMem,
1682cdf0e10cSrcweir pPal ));
1683cdf0e10cSrcweir }
1684cdf0e10cSrcweir
1685*1fd21976Smseidel // Create standard gray level palette
createStandardPalette(const PaletteMemorySharedVector & pPal,sal_Int32 nNumEntries)1686cdf0e10cSrcweir PaletteMemorySharedVector createStandardPalette(
1687cdf0e10cSrcweir const PaletteMemorySharedVector& pPal,
1688cdf0e10cSrcweir sal_Int32 nNumEntries )
1689cdf0e10cSrcweir {
1690cdf0e10cSrcweir if( pPal || nNumEntries <= 0 )
1691cdf0e10cSrcweir return pPal;
1692cdf0e10cSrcweir
1693cdf0e10cSrcweir boost::shared_ptr< std::vector<Color> > pLocalPal(
1694cdf0e10cSrcweir new std::vector<Color>(nNumEntries) );
1695cdf0e10cSrcweir
1696cdf0e10cSrcweir const sal_Int32 nIncrement( 0x00FFFFFF/nNumEntries );
1697cdf0e10cSrcweir --nNumEntries;
1698cdf0e10cSrcweir for( sal_Int32 i=0, c=0; i<nNumEntries; ++i,c+=nIncrement )
1699cdf0e10cSrcweir pLocalPal->at(i) = Color(0xFF000000 | c);
1700cdf0e10cSrcweir
1701cdf0e10cSrcweir pLocalPal->at(nNumEntries) = Color(0xFFFFFFFF);
1702cdf0e10cSrcweir
1703cdf0e10cSrcweir return pLocalPal;
1704cdf0e10cSrcweir }
1705cdf0e10cSrcweir
1706cdf0e10cSrcweir template< class FormatTraits, class MaskTraits >
createRenderer(const basegfx::B2IRange & rBounds,sal_Int32 nScanlineFormat,sal_Int32 nScanlineStride,sal_uInt8 * pFirstScanline,boost::shared_array<sal_uInt8> pMem,const PaletteMemorySharedVector & pPal)1707cdf0e10cSrcweir BitmapDeviceSharedPtr createRenderer(
1708cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
1709cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1710cdf0e10cSrcweir sal_Int32 nScanlineStride,
1711cdf0e10cSrcweir sal_uInt8* pFirstScanline,
1712cdf0e10cSrcweir boost::shared_array< sal_uInt8 > pMem,
1713cdf0e10cSrcweir const PaletteMemorySharedVector& pPal )
1714cdf0e10cSrcweir {
1715cdf0e10cSrcweir return createRenderer<FormatTraits,
1716cdf0e10cSrcweir MaskTraits>(rBounds,
1717cdf0e10cSrcweir nScanlineFormat,
1718cdf0e10cSrcweir nScanlineStride,
1719cdf0e10cSrcweir pFirstScanline,
1720cdf0e10cSrcweir typename FormatTraits::raw_accessor_type(),
1721cdf0e10cSrcweir typename FormatTraits::accessor_selector::template
1722cdf0e10cSrcweir wrap_accessor<
1723cdf0e10cSrcweir typename FormatTraits::raw_accessor_type>::type(),
1724cdf0e10cSrcweir pMem,
1725cdf0e10cSrcweir pPal);
1726cdf0e10cSrcweir }
1727cdf0e10cSrcweir
1728cdf0e10cSrcweir template< class FormatTraits, class MaskTraits >
createRenderer(const basegfx::B2IRange & rBounds,sal_Int32 nScanlineFormat,sal_Int32 nScanlineStride,sal_uInt8 * pFirstScanline,boost::shared_array<sal_uInt8> pMem,PaletteMemorySharedVector pPal,int nBitsPerPixel)1729cdf0e10cSrcweir BitmapDeviceSharedPtr createRenderer(
1730cdf0e10cSrcweir const basegfx::B2IRange& rBounds,
1731cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1732cdf0e10cSrcweir sal_Int32 nScanlineStride,
1733cdf0e10cSrcweir sal_uInt8* pFirstScanline,
1734cdf0e10cSrcweir boost::shared_array< sal_uInt8 > pMem,
1735cdf0e10cSrcweir PaletteMemorySharedVector pPal,
1736cdf0e10cSrcweir int nBitsPerPixel )
1737cdf0e10cSrcweir {
1738cdf0e10cSrcweir pPal = createStandardPalette(pPal,
1739cdf0e10cSrcweir 1UL << nBitsPerPixel);
1740cdf0e10cSrcweir
1741cdf0e10cSrcweir OSL_ASSERT(pPal);
1742cdf0e10cSrcweir return createRenderer<FormatTraits,
1743cdf0e10cSrcweir MaskTraits>(rBounds,
1744cdf0e10cSrcweir nScanlineFormat,
1745cdf0e10cSrcweir nScanlineStride,
1746cdf0e10cSrcweir pFirstScanline,
1747cdf0e10cSrcweir typename FormatTraits::raw_accessor_type(),
1748cdf0e10cSrcweir typename FormatTraits::accessor_selector::template
1749cdf0e10cSrcweir wrap_accessor<
1750cdf0e10cSrcweir typename FormatTraits::raw_accessor_type>::type(
1751cdf0e10cSrcweir &pPal->at(0),
1752cdf0e10cSrcweir pPal->size()),
1753cdf0e10cSrcweir pMem,
1754cdf0e10cSrcweir pPal);
1755cdf0e10cSrcweir }
1756cdf0e10cSrcweir
1757cdf0e10cSrcweir //----------------------------------------------------------------------------------
1758cdf0e10cSrcweir
1759cdf0e10cSrcweir // TODO(Q3): consolidate with canvas/canvastools.hxx! Best move this
1760cdf0e10cSrcweir // to o3tl or sal/bithacks.hxx ...
1761cdf0e10cSrcweir
1762cdf0e10cSrcweir /** Compute the next highest power of 2 of a 32-bit value
1763cdf0e10cSrcweir
1764cdf0e10cSrcweir Code devised by Sean Anderson, in good ole HAKMEM
1765cdf0e10cSrcweir tradition.
1766cdf0e10cSrcweir
1767cdf0e10cSrcweir @return 1 << (lg(x - 1) + 1)
1768cdf0e10cSrcweir */
nextPow2(sal_uInt32 x)1769cdf0e10cSrcweir inline sal_uInt32 nextPow2( sal_uInt32 x )
1770cdf0e10cSrcweir {
1771cdf0e10cSrcweir --x;
1772cdf0e10cSrcweir x |= x >> 1;
1773cdf0e10cSrcweir x |= x >> 2;
1774cdf0e10cSrcweir x |= x >> 4;
1775cdf0e10cSrcweir x |= x >> 8;
1776cdf0e10cSrcweir x |= x >> 16;
1777cdf0e10cSrcweir
1778cdf0e10cSrcweir return ++x;
1779cdf0e10cSrcweir }
1780cdf0e10cSrcweir
1781cdf0e10cSrcweir //----------------------------------------------------------------------------------
1782cdf0e10cSrcweir
1783cdf0e10cSrcweir namespace
1784cdf0e10cSrcweir {
createBitmapDeviceImpl(const basegfx::B2IVector & rSize,bool bTopDown,sal_Int32 nScanlineFormat,boost::shared_array<sal_uInt8> pMem,PaletteMemorySharedVector pPal,const basegfx::B2IRange * pSubset)1785cdf0e10cSrcweir BitmapDeviceSharedPtr createBitmapDeviceImpl( const basegfx::B2IVector& rSize,
1786cdf0e10cSrcweir bool bTopDown,
1787cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1788cdf0e10cSrcweir boost::shared_array< sal_uInt8 > pMem,
1789cdf0e10cSrcweir PaletteMemorySharedVector pPal,
1790cdf0e10cSrcweir const basegfx::B2IRange* pSubset )
1791cdf0e10cSrcweir {
1792cdf0e10cSrcweir if( nScanlineFormat <= Format::NONE ||
1793cdf0e10cSrcweir nScanlineFormat > Format::MAX )
1794cdf0e10cSrcweir return BitmapDeviceSharedPtr();
1795cdf0e10cSrcweir
1796cdf0e10cSrcweir static const sal_uInt8 bitsPerPixel[] =
1797cdf0e10cSrcweir {
1798cdf0e10cSrcweir 0, // NONE
1799cdf0e10cSrcweir 1, // ONE_BIT_MSB_GREY
1800cdf0e10cSrcweir 1, // ONE_BIT_LSB_GREY
1801cdf0e10cSrcweir 1, // ONE_BIT_MSB_PAL
1802cdf0e10cSrcweir 1, // ONE_BIT_LSB_PAL
1803cdf0e10cSrcweir 4, // FOUR_BIT_MSB_GREY
1804cdf0e10cSrcweir 4, // FOUR_BIT_LSB_GREY
1805cdf0e10cSrcweir 4, // FOUR_BIT_MSB_PAL
1806cdf0e10cSrcweir 4, // FOUR_BIT_LSB_PAL
1807cdf0e10cSrcweir 8, // EIGHT_BIT_PAL
1808cdf0e10cSrcweir 8, // EIGHT_BIT_GREY
1809cdf0e10cSrcweir 16, // SIXTEEN_BIT_LSB_TC_MASK
1810cdf0e10cSrcweir 16, // SIXTEEN_BIT_MSB_TC_MASK
1811cdf0e10cSrcweir 24, // TWENTYFOUR_BIT_TC_MASK
1812cdf0e10cSrcweir 32, // THIRTYTWO_BIT_TC_MASK
1813cdf0e10cSrcweir 32, // THIRTYTWO_BIT_TC_MASK_ARGB
1814cdf0e10cSrcweir };
1815cdf0e10cSrcweir
1816cdf0e10cSrcweir sal_Int32 nScanlineStride(0);
1817cdf0e10cSrcweir
1818cdf0e10cSrcweir // round up to full 8 bit, divide by 8
1819cdf0e10cSrcweir nScanlineStride = (rSize.getX()*bitsPerPixel[nScanlineFormat] + 7) >> 3;
1820cdf0e10cSrcweir
1821cdf0e10cSrcweir // rounded up to next full power-of-two number of bytes
1822cdf0e10cSrcweir const sal_uInt32 bytesPerPixel = nextPow2(
1823cdf0e10cSrcweir (bitsPerPixel[nScanlineFormat] + 7) >> 3);
1824cdf0e10cSrcweir
1825cdf0e10cSrcweir // now make nScanlineStride a multiple of bytesPerPixel
1826cdf0e10cSrcweir nScanlineStride = (nScanlineStride + bytesPerPixel - 1) / bytesPerPixel * bytesPerPixel;
1827cdf0e10cSrcweir
1828cdf0e10cSrcweir // factor in bottom-up scanline order case
1829cdf0e10cSrcweir nScanlineStride *= bTopDown ? 1 : -1;
1830cdf0e10cSrcweir
1831cdf0e10cSrcweir const std::size_t nMemSize(
1832cdf0e10cSrcweir (nScanlineStride < 0 ? -nScanlineStride : nScanlineStride)*rSize.getY() );
1833cdf0e10cSrcweir
1834cdf0e10cSrcweir if( !pMem )
1835cdf0e10cSrcweir {
1836cdf0e10cSrcweir pMem.reset(
1837cdf0e10cSrcweir reinterpret_cast<sal_uInt8*>(rtl_allocateMemory( nMemSize )),
1838cdf0e10cSrcweir &rtl_freeMemory );
1839cdf0e10cSrcweir rtl_zeroMemory(pMem.get(),nMemSize);
1840cdf0e10cSrcweir }
1841cdf0e10cSrcweir
1842cdf0e10cSrcweir sal_uInt8* pFirstScanline = nScanlineStride < 0 ?
1843cdf0e10cSrcweir pMem.get() + nMemSize + nScanlineStride : pMem.get();
1844cdf0e10cSrcweir
1845cdf0e10cSrcweir // shrink render area to given subset, if given
1846cdf0e10cSrcweir basegfx::B2IRange aBounds(0,0,rSize.getX(),rSize.getY());
1847cdf0e10cSrcweir if( pSubset )
1848cdf0e10cSrcweir aBounds.intersect( *pSubset );
1849cdf0e10cSrcweir
1850cdf0e10cSrcweir switch( nScanlineFormat )
1851cdf0e10cSrcweir {
1852cdf0e10cSrcweir // ----------------------------------------------------------------------
1853cdf0e10cSrcweir // one bit formats
1854cdf0e10cSrcweir
1855cdf0e10cSrcweir case Format::ONE_BIT_MSB_GREY:
1856cdf0e10cSrcweir return createRenderer<PixelFormatTraits_GREY1_MSB,StdMasks>(
1857cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1858cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1859cdf0e10cSrcweir
1860cdf0e10cSrcweir case Format::ONE_BIT_LSB_GREY:
1861cdf0e10cSrcweir return createRenderer<PixelFormatTraits_GREY1_LSB,StdMasks>(
1862cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1863cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1864cdf0e10cSrcweir
1865cdf0e10cSrcweir case Format::ONE_BIT_MSB_PAL:
1866cdf0e10cSrcweir return createRenderer<PixelFormatTraits_PAL1_MSB,StdMasks>(
1867cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1868cdf0e10cSrcweir pFirstScanline, pMem, pPal,
1869cdf0e10cSrcweir bitsPerPixel[nScanlineFormat] );
1870cdf0e10cSrcweir
1871cdf0e10cSrcweir case Format::ONE_BIT_LSB_PAL:
1872cdf0e10cSrcweir return createRenderer<PixelFormatTraits_PAL1_LSB,StdMasks>(
1873cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1874cdf0e10cSrcweir pFirstScanline, pMem, pPal,
1875cdf0e10cSrcweir bitsPerPixel[nScanlineFormat] );
1876cdf0e10cSrcweir
1877cdf0e10cSrcweir
1878cdf0e10cSrcweir // ----------------------------------------------------------------------
1879cdf0e10cSrcweir // four bit formats
1880cdf0e10cSrcweir
1881cdf0e10cSrcweir case Format::FOUR_BIT_MSB_GREY:
1882cdf0e10cSrcweir return createRenderer<PixelFormatTraits_GREY4_MSB,StdMasks>(
1883cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1884cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1885cdf0e10cSrcweir
1886cdf0e10cSrcweir case Format::FOUR_BIT_LSB_GREY:
1887cdf0e10cSrcweir return createRenderer<PixelFormatTraits_GREY4_LSB,StdMasks>(
1888cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1889cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1890cdf0e10cSrcweir
1891cdf0e10cSrcweir case Format::FOUR_BIT_MSB_PAL:
1892cdf0e10cSrcweir return createRenderer<PixelFormatTraits_PAL4_MSB,StdMasks>(
1893cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1894cdf0e10cSrcweir pFirstScanline, pMem, pPal,
1895cdf0e10cSrcweir bitsPerPixel[nScanlineFormat] );
1896cdf0e10cSrcweir
1897cdf0e10cSrcweir case Format::FOUR_BIT_LSB_PAL:
1898cdf0e10cSrcweir return createRenderer<PixelFormatTraits_PAL4_LSB,StdMasks>(
1899cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1900cdf0e10cSrcweir pFirstScanline, pMem, pPal,
1901cdf0e10cSrcweir bitsPerPixel[nScanlineFormat] );
1902cdf0e10cSrcweir
1903cdf0e10cSrcweir
1904cdf0e10cSrcweir // ----------------------------------------------------------------------
1905cdf0e10cSrcweir // eight bit formats
1906cdf0e10cSrcweir
1907cdf0e10cSrcweir case Format::EIGHT_BIT_GREY:
1908cdf0e10cSrcweir return createRenderer<PixelFormatTraits_GREY8,StdMasks>(
1909cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1910cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1911cdf0e10cSrcweir
1912cdf0e10cSrcweir case Format::EIGHT_BIT_PAL:
1913cdf0e10cSrcweir return createRenderer<PixelFormatTraits_PAL8,StdMasks>(
1914cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1915cdf0e10cSrcweir pFirstScanline, pMem, pPal,
1916cdf0e10cSrcweir bitsPerPixel[nScanlineFormat] );
1917cdf0e10cSrcweir
1918cdf0e10cSrcweir
1919cdf0e10cSrcweir // ----------------------------------------------------------------------
1920cdf0e10cSrcweir // sixteen bit formats
1921cdf0e10cSrcweir
1922cdf0e10cSrcweir case Format::SIXTEEN_BIT_LSB_TC_MASK:
1923cdf0e10cSrcweir return createRenderer<PixelFormatTraits_RGB16_565_LSB,StdMasks>(
1924cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1925cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1926cdf0e10cSrcweir
1927cdf0e10cSrcweir case Format::SIXTEEN_BIT_MSB_TC_MASK:
1928cdf0e10cSrcweir return createRenderer<PixelFormatTraits_RGB16_565_MSB,StdMasks>(
1929cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1930cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1931cdf0e10cSrcweir
1932cdf0e10cSrcweir
1933cdf0e10cSrcweir // ----------------------------------------------------------------------
1934cdf0e10cSrcweir // twentyfour bit formats
1935cdf0e10cSrcweir case Format::TWENTYFOUR_BIT_TC_MASK:
1936cdf0e10cSrcweir return createRenderer<PixelFormatTraits_BGR24,StdMasks>(
1937cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1938cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1939cdf0e10cSrcweir
1940cdf0e10cSrcweir
1941cdf0e10cSrcweir // ----------------------------------------------------------------------
1942cdf0e10cSrcweir // thirtytwo bit formats
1943cdf0e10cSrcweir
1944cdf0e10cSrcweir case Format::THIRTYTWO_BIT_TC_MASK:
1945cdf0e10cSrcweir return createRenderer<PixelFormatTraits_RGB32_888,StdMasks>(
1946cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1947cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1948cdf0e10cSrcweir
1949cdf0e10cSrcweir case Format::THIRTYTWO_BIT_TC_MASK_ARGB:
1950cdf0e10cSrcweir return createRenderer<PixelFormatTraits_BGR32_888,StdMasks>(
1951cdf0e10cSrcweir aBounds, nScanlineFormat, nScanlineStride,
1952cdf0e10cSrcweir pFirstScanline, pMem, pPal );
1953cdf0e10cSrcweir }
1954cdf0e10cSrcweir
1955cdf0e10cSrcweir // TODO(F3): other formats not yet implemented
1956cdf0e10cSrcweir return BitmapDeviceSharedPtr();
1957cdf0e10cSrcweir }
1958cdf0e10cSrcweir } // namespace
1959cdf0e10cSrcweir
1960cdf0e10cSrcweir
createBitmapDevice(const basegfx::B2IVector & rSize,bool bTopDown,sal_Int32 nScanlineFormat)1961cdf0e10cSrcweir BitmapDeviceSharedPtr createBitmapDevice( const basegfx::B2IVector& rSize,
1962cdf0e10cSrcweir bool bTopDown,
1963cdf0e10cSrcweir sal_Int32 nScanlineFormat )
1964cdf0e10cSrcweir {
1965cdf0e10cSrcweir return createBitmapDeviceImpl( rSize,
1966cdf0e10cSrcweir bTopDown,
1967cdf0e10cSrcweir nScanlineFormat,
1968cdf0e10cSrcweir boost::shared_array< sal_uInt8 >(),
1969cdf0e10cSrcweir PaletteMemorySharedVector(),
1970cdf0e10cSrcweir NULL );
1971cdf0e10cSrcweir }
1972cdf0e10cSrcweir
createBitmapDevice(const basegfx::B2IVector & rSize,bool bTopDown,sal_Int32 nScanlineFormat,const PaletteMemorySharedVector & rPalette)1973cdf0e10cSrcweir BitmapDeviceSharedPtr createBitmapDevice( const basegfx::B2IVector& rSize,
1974cdf0e10cSrcweir bool bTopDown,
1975cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1976cdf0e10cSrcweir const PaletteMemorySharedVector& rPalette )
1977cdf0e10cSrcweir {
1978cdf0e10cSrcweir return createBitmapDeviceImpl( rSize,
1979cdf0e10cSrcweir bTopDown,
1980cdf0e10cSrcweir nScanlineFormat,
1981cdf0e10cSrcweir boost::shared_array< sal_uInt8 >(),
1982cdf0e10cSrcweir rPalette,
1983cdf0e10cSrcweir NULL );
1984cdf0e10cSrcweir }
1985cdf0e10cSrcweir
createBitmapDevice(const basegfx::B2IVector & rSize,bool bTopDown,sal_Int32 nScanlineFormat,const RawMemorySharedArray & rMem,const PaletteMemorySharedVector & rPalette)1986cdf0e10cSrcweir BitmapDeviceSharedPtr createBitmapDevice( const basegfx::B2IVector& rSize,
1987cdf0e10cSrcweir bool bTopDown,
1988cdf0e10cSrcweir sal_Int32 nScanlineFormat,
1989cdf0e10cSrcweir const RawMemorySharedArray& rMem,
1990cdf0e10cSrcweir const PaletteMemorySharedVector& rPalette )
1991cdf0e10cSrcweir {
1992cdf0e10cSrcweir return createBitmapDeviceImpl( rSize,
1993cdf0e10cSrcweir bTopDown,
1994cdf0e10cSrcweir nScanlineFormat,
1995cdf0e10cSrcweir rMem,
1996cdf0e10cSrcweir rPalette,
1997cdf0e10cSrcweir NULL );
1998cdf0e10cSrcweir }
1999cdf0e10cSrcweir
subsetBitmapDevice(const BitmapDeviceSharedPtr & rProto,const basegfx::B2IRange & rSubset)2000cdf0e10cSrcweir BitmapDeviceSharedPtr subsetBitmapDevice( const BitmapDeviceSharedPtr& rProto,
2001cdf0e10cSrcweir const basegfx::B2IRange& rSubset )
2002cdf0e10cSrcweir {
2003cdf0e10cSrcweir return createBitmapDeviceImpl( rProto->getSize(),
2004cdf0e10cSrcweir rProto->isTopDown(),
2005cdf0e10cSrcweir rProto->getScanlineFormat(),
2006cdf0e10cSrcweir rProto->getBuffer(),
2007cdf0e10cSrcweir rProto->getPalette(),
2008cdf0e10cSrcweir &rSubset );
2009cdf0e10cSrcweir }
2010cdf0e10cSrcweir
cloneBitmapDevice(const basegfx::B2IVector & rSize,const BitmapDeviceSharedPtr & rProto)2011cdf0e10cSrcweir BitmapDeviceSharedPtr cloneBitmapDevice( const basegfx::B2IVector& rSize,
2012cdf0e10cSrcweir const BitmapDeviceSharedPtr& rProto )
2013cdf0e10cSrcweir {
2014cdf0e10cSrcweir return createBitmapDeviceImpl( rSize,
2015cdf0e10cSrcweir rProto->isTopDown(),
2016cdf0e10cSrcweir rProto->getScanlineFormat(),
2017cdf0e10cSrcweir boost::shared_array< sal_uInt8 >(),
2018cdf0e10cSrcweir rProto->getPalette(),
2019cdf0e10cSrcweir NULL );
2020cdf0e10cSrcweir }
2021cdf0e10cSrcweir
2022cdf0e10cSrcweir //----------------------------------------------------------------------------------
2023cdf0e10cSrcweir
2024*1fd21976Smseidel // Clone our device, with GenericImageAccessor to handle all formats
getGenericRenderer() const2025cdf0e10cSrcweir BitmapDeviceSharedPtr BitmapDevice::getGenericRenderer() const
2026cdf0e10cSrcweir {
2027cdf0e10cSrcweir #if 0
2028cdf0e10cSrcweir // xxx TODO
2029cdf0e10cSrcweir typedef BitmapRenderer< PixelFormatTraits_GenericInteger::iterator_type,
2030cdf0e10cSrcweir PixelFormatTraits_GenericInteger::raw_accessor_type,
2031cdf0e10cSrcweir PixelFormatTraits_GenericInteger::accessor_selector,
2032cdf0e10cSrcweir MaskTraitsGeneric >
2033cdf0e10cSrcweir Renderer;
2034cdf0e10cSrcweir
2035cdf0e10cSrcweir if( !mpImpl->mpGenericRenderer )
2036cdf0e10cSrcweir {
2037cdf0e10cSrcweir mpImpl->mpGenericRenderer.reset(
2038cdf0e10cSrcweir new Renderer(
2039cdf0e10cSrcweir mpImpl->maBounds,
2040cdf0e10cSrcweir isTopDown(),
2041cdf0e10cSrcweir getScanlineFormat(),
2042cdf0e10cSrcweir getScanlineStride(),
2043cdf0e10cSrcweir mpImpl->mpFirstScanline,
2044cdf0e10cSrcweir PixelFormatTraits_GenericInteger::iterator_type(),
2045cdf0e10cSrcweir GenericIntegerImageRawAccessor<Color>(
2046cdf0e10cSrcweir const_cast<BitmapDevice*>(this)->shared_from_this()),
2047cdf0e10cSrcweir GenericIntegerImageAccessor<Color>(
2048cdf0e10cSrcweir const_cast<BitmapDevice*>(this)->shared_from_this()),
2049cdf0e10cSrcweir getBuffer(),
2050cdf0e10cSrcweir getPalette() ));
2051cdf0e10cSrcweir }
2052cdf0e10cSrcweir #endif
2053cdf0e10cSrcweir
2054cdf0e10cSrcweir return mpImpl->mpGenericRenderer;
2055cdf0e10cSrcweir }
2056cdf0e10cSrcweir
2057cdf0e10cSrcweir } // namespace basebmp
2058*1fd21976Smseidel
2059*1fd21976Smseidel /* vim: set noet sw=4 ts=4: */
2060