815 lines
26 KiB
C++
815 lines
26 KiB
C++
//----------------------------------------------------------------------------
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// Anti-Grain Geometry - Version 2.4
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// Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
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//
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// Permission to copy, use, modify, sell and distribute this software
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// is granted provided this copyright notice appears in all copies.
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// This software is provided "as is" without express or implied
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// warranty, and with no claim as to its suitability for any purpose.
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//
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//----------------------------------------------------------------------------
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// Contact: mcseem@antigrain.com
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// mcseemagg@yahoo.com
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// http://www.antigrain.com
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//----------------------------------------------------------------------------
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//
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// Adaptation for 32-bit screen coordinates has been sponsored by
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// Liberty Technology Systems, Inc., visit http://lib-sys.com
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//
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// Liberty Technology Systems, Inc. is the provider of
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// PostScript and PDF technology for software developers.
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//
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//----------------------------------------------------------------------------
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#ifndef AGG_SCANLINE_STORAGE_AA_INCLUDED
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#define AGG_SCANLINE_STORAGE_AA_INCLUDED
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#include <cstring>
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#include <cstdlib>
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#include <cmath>
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#include "agg_array.h"
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namespace agg
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{
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//----------------------------------------------scanline_cell_storage
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template<class T> class scanline_cell_storage
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{
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struct extra_span
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{
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unsigned len;
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T* ptr;
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};
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public:
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typedef T value_type;
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//---------------------------------------------------------------
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~scanline_cell_storage()
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{
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remove_all();
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}
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//---------------------------------------------------------------
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scanline_cell_storage() :
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m_cells(128-2),
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m_extra_storage()
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{}
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// Copying
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//---------------------------------------------------------------
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scanline_cell_storage(const scanline_cell_storage<T>& v) :
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m_cells(v.m_cells),
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m_extra_storage()
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{
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copy_extra_storage(v);
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}
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//---------------------------------------------------------------
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const scanline_cell_storage<T>&
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operator = (const scanline_cell_storage<T>& v)
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{
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remove_all();
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m_cells = v.m_cells;
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copy_extra_storage(v);
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return *this;
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}
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//---------------------------------------------------------------
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void remove_all()
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{
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int i;
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for(i = m_extra_storage.size()-1; i >= 0; --i)
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{
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pod_allocator<T>::deallocate(m_extra_storage[i].ptr,
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m_extra_storage[i].len);
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}
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m_extra_storage.remove_all();
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m_cells.remove_all();
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}
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//---------------------------------------------------------------
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int add_cells(const T* cells, unsigned num_cells)
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{
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int idx = m_cells.allocate_continuous_block(num_cells);
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if(idx >= 0)
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{
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T* ptr = &m_cells[idx];
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memcpy(ptr, cells, sizeof(T) * num_cells);
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return idx;
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}
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extra_span s;
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s.len = num_cells;
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s.ptr = pod_allocator<T>::allocate(num_cells);
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memcpy(s.ptr, cells, sizeof(T) * num_cells);
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m_extra_storage.add(s);
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return -int(m_extra_storage.size());
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}
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//---------------------------------------------------------------
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const T* operator [] (int idx) const
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{
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if(idx >= 0)
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{
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if((unsigned)idx >= m_cells.size()) return 0;
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return &m_cells[(unsigned)idx];
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}
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unsigned i = unsigned(-idx - 1);
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if(i >= m_extra_storage.size()) return 0;
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return m_extra_storage[i].ptr;
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}
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//---------------------------------------------------------------
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T* operator [] (int idx)
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{
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if(idx >= 0)
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{
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if((unsigned)idx >= m_cells.size()) return 0;
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return &m_cells[(unsigned)idx];
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}
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unsigned i = unsigned(-idx - 1);
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if(i >= m_extra_storage.size()) return 0;
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return m_extra_storage[i].ptr;
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}
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private:
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void copy_extra_storage(const scanline_cell_storage<T>& v)
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{
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unsigned i;
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for(i = 0; i < v.m_extra_storage.size(); ++i)
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{
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const extra_span& src = v.m_extra_storage[i];
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extra_span dst;
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dst.len = src.len;
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dst.ptr = pod_allocator<T>::allocate(dst.len);
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memcpy(dst.ptr, src.ptr, dst.len * sizeof(T));
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m_extra_storage.add(dst);
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}
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}
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pod_bvector<T, 12> m_cells;
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pod_bvector<extra_span, 6> m_extra_storage;
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};
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//-----------------------------------------------scanline_storage_aa
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template<class T> class scanline_storage_aa
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{
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public:
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typedef T cover_type;
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//---------------------------------------------------------------
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struct span_data
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{
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int32 x;
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int32 len; // If negative, it's a solid span, covers is valid
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int covers_id; // The index of the cells in the scanline_cell_storage
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};
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//---------------------------------------------------------------
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struct scanline_data
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{
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int y;
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unsigned num_spans;
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unsigned start_span;
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};
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//---------------------------------------------------------------
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class embedded_scanline
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{
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public:
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//-----------------------------------------------------------
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class const_iterator
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{
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public:
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struct span
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{
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int32 x;
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int32 len; // If negative, it's a solid span, covers is valid
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const T* covers;
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};
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const_iterator() : m_storage(0) {}
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const_iterator(const embedded_scanline& sl) :
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m_storage(sl.m_storage),
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m_span_idx(sl.m_scanline.start_span)
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{
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init_span();
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}
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const span& operator*() const { return m_span; }
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const span* operator->() const { return &m_span; }
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void operator ++ ()
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{
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++m_span_idx;
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init_span();
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}
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private:
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void init_span()
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{
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const span_data& s = m_storage->span_by_index(m_span_idx);
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m_span.x = s.x;
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m_span.len = s.len;
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m_span.covers = m_storage->covers_by_index(s.covers_id);
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}
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const scanline_storage_aa* m_storage;
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unsigned m_span_idx;
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span m_span;
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};
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friend class const_iterator;
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//-----------------------------------------------------------
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embedded_scanline(const scanline_storage_aa& storage) :
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m_storage(&storage)
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{
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init(0);
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}
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//-----------------------------------------------------------
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void reset(int, int) {}
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unsigned num_spans() const { return m_scanline.num_spans; }
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int y() const { return m_scanline.y; }
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const_iterator begin() const { return const_iterator(*this); }
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//-----------------------------------------------------------
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void init(unsigned scanline_idx)
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{
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m_scanline_idx = scanline_idx;
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m_scanline = m_storage->scanline_by_index(m_scanline_idx);
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}
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private:
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const scanline_storage_aa* m_storage;
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scanline_data m_scanline;
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unsigned m_scanline_idx;
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};
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//---------------------------------------------------------------
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scanline_storage_aa() :
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m_covers(),
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m_spans(256-2), // Block increment size
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m_scanlines(),
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m_min_x( 0x7FFFFFFF),
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m_min_y( 0x7FFFFFFF),
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m_max_x(-0x7FFFFFFF),
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m_max_y(-0x7FFFFFFF),
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m_cur_scanline(0)
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{
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m_fake_scanline.y = 0;
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m_fake_scanline.num_spans = 0;
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m_fake_scanline.start_span = 0;
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m_fake_span.x = 0;
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m_fake_span.len = 0;
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m_fake_span.covers_id = 0;
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}
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// Renderer Interface
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//---------------------------------------------------------------
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void prepare()
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{
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m_covers.remove_all();
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m_scanlines.remove_all();
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m_spans.remove_all();
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m_min_x = 0x7FFFFFFF;
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m_min_y = 0x7FFFFFFF;
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m_max_x = -0x7FFFFFFF;
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m_max_y = -0x7FFFFFFF;
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m_cur_scanline = 0;
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}
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//---------------------------------------------------------------
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template<class Scanline> void render(const Scanline& sl)
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{
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scanline_data sl_this;
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int y = sl.y();
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if(y < m_min_y) m_min_y = y;
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if(y > m_max_y) m_max_y = y;
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sl_this.y = y;
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sl_this.num_spans = sl.num_spans();
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sl_this.start_span = m_spans.size();
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typename Scanline::const_iterator span_iterator = sl.begin();
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unsigned num_spans = sl_this.num_spans;
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for(;;)
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{
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span_data sp;
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sp.x = span_iterator->x;
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sp.len = span_iterator->len;
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int len = std::abs(int(sp.len));
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sp.covers_id =
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m_covers.add_cells(span_iterator->covers,
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unsigned(len));
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m_spans.add(sp);
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int x1 = sp.x;
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int x2 = sp.x + len - 1;
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if(x1 < m_min_x) m_min_x = x1;
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if(x2 > m_max_x) m_max_x = x2;
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if(--num_spans == 0) break;
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++span_iterator;
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}
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m_scanlines.add(sl_this);
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}
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//---------------------------------------------------------------
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// Iterate scanlines interface
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int min_x() const { return m_min_x; }
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int min_y() const { return m_min_y; }
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int max_x() const { return m_max_x; }
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int max_y() const { return m_max_y; }
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//---------------------------------------------------------------
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bool rewind_scanlines()
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{
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m_cur_scanline = 0;
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return m_scanlines.size() > 0;
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}
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//---------------------------------------------------------------
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template<class Scanline> bool sweep_scanline(Scanline& sl)
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{
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sl.reset_spans();
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for(;;)
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{
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if(m_cur_scanline >= m_scanlines.size()) return false;
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const scanline_data& sl_this = m_scanlines[m_cur_scanline];
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unsigned num_spans = sl_this.num_spans;
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unsigned span_idx = sl_this.start_span;
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do
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{
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const span_data& sp = m_spans[span_idx++];
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const T* covers = covers_by_index(sp.covers_id);
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if(sp.len < 0)
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{
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sl.add_span(sp.x, unsigned(-sp.len), *covers);
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}
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else
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{
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sl.add_cells(sp.x, sp.len, covers);
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}
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}
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while(--num_spans);
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++m_cur_scanline;
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if(sl.num_spans())
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{
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sl.finalize(sl_this.y);
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break;
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}
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}
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return true;
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}
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//---------------------------------------------------------------
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// Specialization for embedded_scanline
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bool sweep_scanline(embedded_scanline& sl)
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{
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do
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{
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if(m_cur_scanline >= m_scanlines.size()) return false;
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sl.init(m_cur_scanline);
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++m_cur_scanline;
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}
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while(sl.num_spans() == 0);
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return true;
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}
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//---------------------------------------------------------------
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unsigned byte_size() const
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{
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unsigned i;
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unsigned size = sizeof(int32) * 4; // min_x, min_y, max_x, max_y
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for(i = 0; i < m_scanlines.size(); ++i)
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{
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size += sizeof(int32) * 3; // scanline size in bytes, Y, num_spans
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const scanline_data& sl_this = m_scanlines[i];
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unsigned num_spans = sl_this.num_spans;
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unsigned span_idx = sl_this.start_span;
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do
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{
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const span_data& sp = m_spans[span_idx++];
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size += sizeof(int32) * 2; // X, span_len
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if(sp.len < 0)
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{
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size += sizeof(T); // cover
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}
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else
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{
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size += sizeof(T) * unsigned(sp.len); // covers
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}
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}
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while(--num_spans);
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}
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return size;
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}
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//---------------------------------------------------------------
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static void write_int32(int8u* dst, int32 val)
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{
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dst[0] = ((const int8u*)&val)[0];
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dst[1] = ((const int8u*)&val)[1];
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dst[2] = ((const int8u*)&val)[2];
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dst[3] = ((const int8u*)&val)[3];
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}
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//---------------------------------------------------------------
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void serialize(int8u* data) const
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{
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unsigned i;
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write_int32(data, min_x()); // min_x
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data += sizeof(int32);
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write_int32(data, min_y()); // min_y
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data += sizeof(int32);
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write_int32(data, max_x()); // max_x
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data += sizeof(int32);
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write_int32(data, max_y()); // max_y
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data += sizeof(int32);
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for(i = 0; i < m_scanlines.size(); ++i)
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{
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const scanline_data& sl_this = m_scanlines[i];
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int8u* size_ptr = data;
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data += sizeof(int32); // Reserve space for scanline size in bytes
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write_int32(data, sl_this.y); // Y
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data += sizeof(int32);
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write_int32(data, sl_this.num_spans); // num_spans
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data += sizeof(int32);
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unsigned num_spans = sl_this.num_spans;
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unsigned span_idx = sl_this.start_span;
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do
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{
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const span_data& sp = m_spans[span_idx++];
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const T* covers = covers_by_index(sp.covers_id);
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write_int32(data, sp.x); // X
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data += sizeof(int32);
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write_int32(data, sp.len); // span_len
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data += sizeof(int32);
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if(sp.len < 0)
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{
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memcpy(data, covers, sizeof(T));
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data += sizeof(T);
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}
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else
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{
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memcpy(data, covers, unsigned(sp.len) * sizeof(T));
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data += sizeof(T) * unsigned(sp.len);
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}
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}
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while(--num_spans);
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write_int32(size_ptr, int32(unsigned(data - size_ptr)));
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}
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}
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//---------------------------------------------------------------
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const scanline_data& scanline_by_index(unsigned i) const
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{
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return (i < m_scanlines.size()) ? m_scanlines[i] : m_fake_scanline;
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}
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//---------------------------------------------------------------
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const span_data& span_by_index(unsigned i) const
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{
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return (i < m_spans.size()) ? m_spans[i] : m_fake_span;
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}
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//---------------------------------------------------------------
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const T* covers_by_index(int i) const
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{
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return m_covers[i];
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}
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private:
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scanline_cell_storage<T> m_covers;
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pod_bvector<span_data, 10> m_spans;
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pod_bvector<scanline_data, 8> m_scanlines;
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span_data m_fake_span;
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scanline_data m_fake_scanline;
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int m_min_x;
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int m_min_y;
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int m_max_x;
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int m_max_y;
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unsigned m_cur_scanline;
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};
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typedef scanline_storage_aa<int8u> scanline_storage_aa8; //--------scanline_storage_aa8
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typedef scanline_storage_aa<int16u> scanline_storage_aa16; //--------scanline_storage_aa16
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typedef scanline_storage_aa<int32u> scanline_storage_aa32; //--------scanline_storage_aa32
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//------------------------------------------serialized_scanlines_adaptor_aa
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template<class T> class serialized_scanlines_adaptor_aa
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{
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public:
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typedef T cover_type;
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//---------------------------------------------------------------------
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class embedded_scanline
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{
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public:
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typedef T cover_type;
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|
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//-----------------------------------------------------------------
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class const_iterator
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{
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public:
|
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struct span
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{
|
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int32 x;
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int32 len; // If negative, it's a solid span, "covers" is valid
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const T* covers;
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};
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|
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const_iterator() : m_ptr(0) {}
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const_iterator(const embedded_scanline& sl) :
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m_ptr(sl.m_ptr),
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m_dx(sl.m_dx)
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{
|
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init_span();
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}
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|
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const span& operator*() const { return m_span; }
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const span* operator->() const { return &m_span; }
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|
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void operator ++ ()
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|
{
|
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if(m_span.len < 0)
|
|
{
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m_ptr += sizeof(T);
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}
|
|
else
|
|
{
|
|
m_ptr += m_span.len * sizeof(T);
|
|
}
|
|
init_span();
|
|
}
|
|
|
|
private:
|
|
int read_int32()
|
|
{
|
|
int32 val;
|
|
((int8u*)&val)[0] = *m_ptr++;
|
|
((int8u*)&val)[1] = *m_ptr++;
|
|
((int8u*)&val)[2] = *m_ptr++;
|
|
((int8u*)&val)[3] = *m_ptr++;
|
|
return val;
|
|
}
|
|
|
|
void init_span()
|
|
{
|
|
m_span.x = read_int32() + m_dx;
|
|
m_span.len = read_int32();
|
|
m_span.covers = m_ptr;
|
|
}
|
|
|
|
const int8u* m_ptr;
|
|
span m_span;
|
|
int m_dx;
|
|
};
|
|
|
|
friend class const_iterator;
|
|
|
|
|
|
//-----------------------------------------------------------------
|
|
embedded_scanline() : m_ptr(0), m_y(0), m_num_spans(0) {}
|
|
|
|
//-----------------------------------------------------------------
|
|
void reset(int, int) {}
|
|
unsigned num_spans() const { return m_num_spans; }
|
|
int y() const { return m_y; }
|
|
const_iterator begin() const { return const_iterator(*this); }
|
|
|
|
|
|
private:
|
|
//-----------------------------------------------------------------
|
|
int read_int32()
|
|
{
|
|
int32 val;
|
|
((int8u*)&val)[0] = *m_ptr++;
|
|
((int8u*)&val)[1] = *m_ptr++;
|
|
((int8u*)&val)[2] = *m_ptr++;
|
|
((int8u*)&val)[3] = *m_ptr++;
|
|
return val;
|
|
}
|
|
|
|
public:
|
|
//-----------------------------------------------------------------
|
|
void init(const int8u* ptr, int dx, int dy)
|
|
{
|
|
m_ptr = ptr;
|
|
m_y = read_int32() + dy;
|
|
m_num_spans = unsigned(read_int32());
|
|
m_dx = dx;
|
|
}
|
|
|
|
private:
|
|
const int8u* m_ptr;
|
|
int m_y;
|
|
unsigned m_num_spans;
|
|
int m_dx;
|
|
};
|
|
|
|
|
|
|
|
public:
|
|
//--------------------------------------------------------------------
|
|
serialized_scanlines_adaptor_aa() :
|
|
m_data(0),
|
|
m_end(0),
|
|
m_ptr(0),
|
|
m_dx(0),
|
|
m_dy(0),
|
|
m_min_x(0x7FFFFFFF),
|
|
m_min_y(0x7FFFFFFF),
|
|
m_max_x(-0x7FFFFFFF),
|
|
m_max_y(-0x7FFFFFFF)
|
|
{}
|
|
|
|
//--------------------------------------------------------------------
|
|
serialized_scanlines_adaptor_aa(const int8u* data, unsigned size,
|
|
double dx, double dy) :
|
|
m_data(data),
|
|
m_end(data + size),
|
|
m_ptr(data),
|
|
m_dx(iround(dx)),
|
|
m_dy(iround(dy)),
|
|
m_min_x(0x7FFFFFFF),
|
|
m_min_y(0x7FFFFFFF),
|
|
m_max_x(-0x7FFFFFFF),
|
|
m_max_y(-0x7FFFFFFF)
|
|
{}
|
|
|
|
//--------------------------------------------------------------------
|
|
void init(const int8u* data, unsigned size, double dx, double dy)
|
|
{
|
|
m_data = data;
|
|
m_end = data + size;
|
|
m_ptr = data;
|
|
m_dx = iround(dx);
|
|
m_dy = iround(dy);
|
|
m_min_x = 0x7FFFFFFF;
|
|
m_min_y = 0x7FFFFFFF;
|
|
m_max_x = -0x7FFFFFFF;
|
|
m_max_y = -0x7FFFFFFF;
|
|
}
|
|
|
|
private:
|
|
//--------------------------------------------------------------------
|
|
int read_int32()
|
|
{
|
|
int32 val;
|
|
((int8u*)&val)[0] = *m_ptr++;
|
|
((int8u*)&val)[1] = *m_ptr++;
|
|
((int8u*)&val)[2] = *m_ptr++;
|
|
((int8u*)&val)[3] = *m_ptr++;
|
|
return val;
|
|
}
|
|
|
|
//--------------------------------------------------------------------
|
|
unsigned read_int32u()
|
|
{
|
|
int32u val;
|
|
((int8u*)&val)[0] = *m_ptr++;
|
|
((int8u*)&val)[1] = *m_ptr++;
|
|
((int8u*)&val)[2] = *m_ptr++;
|
|
((int8u*)&val)[3] = *m_ptr++;
|
|
return val;
|
|
}
|
|
|
|
public:
|
|
// Iterate scanlines interface
|
|
//--------------------------------------------------------------------
|
|
bool rewind_scanlines()
|
|
{
|
|
m_ptr = m_data;
|
|
if(m_ptr < m_end)
|
|
{
|
|
m_min_x = read_int32() + m_dx;
|
|
m_min_y = read_int32() + m_dy;
|
|
m_max_x = read_int32() + m_dx;
|
|
m_max_y = read_int32() + m_dy;
|
|
}
|
|
return m_ptr < m_end;
|
|
}
|
|
|
|
//--------------------------------------------------------------------
|
|
int min_x() const { return m_min_x; }
|
|
int min_y() const { return m_min_y; }
|
|
int max_x() const { return m_max_x; }
|
|
int max_y() const { return m_max_y; }
|
|
|
|
//--------------------------------------------------------------------
|
|
template<class Scanline> bool sweep_scanline(Scanline& sl)
|
|
{
|
|
sl.reset_spans();
|
|
for(;;)
|
|
{
|
|
if(m_ptr >= m_end) return false;
|
|
|
|
read_int32(); // Skip scanline size in bytes
|
|
int y = read_int32() + m_dy;
|
|
unsigned num_spans = read_int32();
|
|
|
|
do
|
|
{
|
|
int x = read_int32() + m_dx;
|
|
int len = read_int32();
|
|
|
|
if(len < 0)
|
|
{
|
|
sl.add_span(x, unsigned(-len), *m_ptr);
|
|
m_ptr += sizeof(T);
|
|
}
|
|
else
|
|
{
|
|
sl.add_cells(x, len, m_ptr);
|
|
m_ptr += len * sizeof(T);
|
|
}
|
|
}
|
|
while(--num_spans);
|
|
|
|
if(sl.num_spans())
|
|
{
|
|
sl.finalize(y);
|
|
break;
|
|
}
|
|
}
|
|
return true;
|
|
}
|
|
|
|
|
|
//--------------------------------------------------------------------
|
|
// Specialization for embedded_scanline
|
|
bool sweep_scanline(embedded_scanline& sl)
|
|
{
|
|
do
|
|
{
|
|
if(m_ptr >= m_end) return false;
|
|
|
|
unsigned byte_size = read_int32u();
|
|
sl.init(m_ptr, m_dx, m_dy);
|
|
m_ptr += byte_size - sizeof(int32);
|
|
}
|
|
while(sl.num_spans() == 0);
|
|
return true;
|
|
}
|
|
|
|
private:
|
|
const int8u* m_data;
|
|
const int8u* m_end;
|
|
const int8u* m_ptr;
|
|
int m_dx;
|
|
int m_dy;
|
|
int m_min_x;
|
|
int m_min_y;
|
|
int m_max_x;
|
|
int m_max_y;
|
|
};
|
|
|
|
|
|
|
|
typedef serialized_scanlines_adaptor_aa<int8u> serialized_scanlines_adaptor_aa8; //----serialized_scanlines_adaptor_aa8
|
|
typedef serialized_scanlines_adaptor_aa<int16u> serialized_scanlines_adaptor_aa16; //----serialized_scanlines_adaptor_aa16
|
|
typedef serialized_scanlines_adaptor_aa<int32u> serialized_scanlines_adaptor_aa32; //----serialized_scanlines_adaptor_aa32
|
|
|
|
}
|
|
|
|
|
|
#endif
|
|
|