src/common/abitmap.h

/* RCSid $Id: abitmap.h,v 2.2 2024/08/24 23:25:24 greg Exp $ */
/*
 *  abitmap.h
 *
 *  General bitmap class (mostly inline)
 *
 *  Created by gward on Tue May 15 2001.
 */
#ifndef _ABITMAP_H_
#define _ABITMAP_H_

#ifndef _TIFF_
#include "tiff.h"               /* needed for uint32 type */
#endif

#define ABMend          0xffffffff      // terminal return

// Inline bitmap class
class ABitMap {
private:
        uint32 *        bmap;           // bitmap storage
        uint32          len;            // bitmap size
public:
                        ABitMap() { len=0; bmap=0; }
                        ABitMap(uint32 n, bool clrset=false) {
                                bmap=0; len=0; NewBitMap(n,clrset);
                        }
                        ABitMap(const ABitMap &orig) {
                                bmap=0; len=0; *this=orig;
                        }
                        ~ABitMap() {
                                delete [] bmap;
                        }
                        // Access to raw word data
        uint32 *        base() {
                                return bmap;
                        }
                        // Read-only word access
        const uint32 *  base() const {
                                return bmap;
                        }
                        // Number of words from #bits
        static int32    bmlen(uint32 nbits) {
                                return (nbits+0x1f)>>5;
                        }
                        // Total number of words
        int32           bmlen() const {
                                return bmlen(len);
                        }
                        // Reallocate and clear bitmap
        bool            NewBitMap(uint32 n, bool clrset=false);
                        // Clear bitmap to all 0's or 1's
        void            ClearBitMap(bool clrset=false);
                        // Steal another bitmap's contents
        bool            Take(ABitMap *srcp) {
                                if (srcp == this) return false;
                                delete [] bmap; bmap=0; len=0;
                                if (!srcp) return false;
                                bmap=srcp->bmap; len=srcp->len;
                                srcp->bmap=0; srcp->len=0;
                                return len;
                        }
                        // Return number of bits in bitmap
        uint32          Length() const {
                                return len;
                        }
                        // Get original length if RLE (or 0)
        uint32          RLength() const;
                        // Compress into a run-length encoded bitmap
        bool            GetRLE(ABitMap *rlep) const;
                        // Reconstitute bits from RLE encoding
        bool            SetFromRLE(const ABitMap &rle);
                        // Extract bitmap section (true if some overlap)
        bool            GetBits(ABitMap *dp, uint32 i) const;
                        // Extract bitmap section (fill if past end)
        ABitMap         GetBits(uint32 i, uint32 n, bool fill=false) const {
                                ABitMap bm(n, fill);
                                GetBits(&bm, i);
                                return bm;
                        }
                        // Overlay bitmap section (ignores bits past end)
        bool            AssignBits(uint32 i, const ABitMap &src);
                        // Apply operation to bitmap section
        bool            OpBits(uint32 i, char op, const ABitMap &src);
                        // Clear bitmap section
        void            ClearBits(uint32 i, uint32 n, bool clrset=false);
                        // Clear bits set in second bitmap
        bool            ClearBitsFrom(const ABitMap &src);
                        // Count number of bits set in bitmap
        uint32          SumTotal(bool bit2cnt = true) const;
                        // Return the next bit position matching val (or ABMend)
        uint32          Find(uint32 i = 0, bool val = true) const;
        uint32          Find(int i, bool val = true) const {
                                return Find((uint32)i, val);
                        }
        uint32          Find(long i, bool val = true) const {
                                return Find((uint32)i, val);
                        }
                        // Different interface to find the next bit matching val
        bool            Find(uint32 *ip, bool val = true) const {
                                if (!ip) return false;
                                if (*ip >= len) return false;
                                *ip = Find(*ip, val);
                                return (*ip < len);
                        }
                        // Access word for i'th bit
        uint32 &        Word(uint32 i) {
                                static uint32   dummy;
                                if (i >= len) return dummy;
                                return bmap[i>>5];
                        }
                        // Get word value for i'th bit (0 if out of range)
        uint32          WordV(uint32 i) const {
                                if (i >= len) return 0;
                                return bmap[i>>5];
                        }
                        // Index corresponding bit in word
        static uint32   Bit(uint32 i) {
                                return 1 << (i & 0x1f);
                        }
                        // Return value of i'th bit in bitmap
        bool            Check(uint32 i) const {
                                return (WordV(i) & Bit(i));
                        }
                        // Set i'th bit
        void            Set(uint32 i) {
                                Word(i) |= Bit(i);
                        }
                        // Reset i'th bit
        void            Reset(uint32 i) {
                                Word(i) &= ~Bit(i);
                        }
                        // Set i'th bit explicitly on or off
        void            Set(uint32 i, bool switchon) {
                                uint32          b = Bit(i);
                                uint32 &        w = Word(i);
                                if (switchon) w |= b;
                                else w &= ~b;
                        }
                        // Toggle i'th bit
        void            Toggle(uint32 i) {
                                Word(i) ^= Bit(i);
                        }
                        // Set i'th bit if it's clear (or fail)
        bool            TestAndSet(uint32 i) {
                                if (i >= len) return false;
                                uint32          b = Bit(i);
                                uint32 &        w = Word(i);
                                uint32          wasset = w & b;
                                w |= b;
                                return !wasset;
                        }
                        // Clear i'th bit if it's set (or fail)
        bool            TestAndReset(uint32 i) {
                                if (i >= len) return false;
                                uint32          b = Bit(i);
                                uint32 &        w = Word(i);
                                uint32          wasset = w & b;
                                w &= ~b;
                                return wasset;
                        }
                        // Set i'th bit on/off (fail if no change)
        bool            TestAndSet(uint32 i, bool switchon) {
                                return switchon ? TestAndSet(i) : TestAndReset(i);
                        }
                        // Invert the entire bitmap
        void            Invert();
                        // Downward shift operator, zero fill
        ABitMap &       operator>>=(uint32 nbits);
                        // Upward shift operator, zero fill
        ABitMap &       operator<<=(uint32 nbits);
                        // Copy operator
        ABitMap &       operator=(const ABitMap &src);
                        // Bitwise OR-copy operator
        ABitMap &       operator|=(const ABitMap &src);
                        // Bitwise AND-assign operator
        ABitMap &       operator&=(const ABitMap &src);
                        // Bitwise XOR-assign operator
        ABitMap &       operator^=(const ABitMap &src);
                        // Subtraction operator, synonym for ClearBitsFrom()
        ABitMap &       operator-=(const ABitMap &src) {
                                ClearBitsFrom(src);
                                return *this;
                        }
                        // Compare two bitmaps for equality
        bool            operator==(const ABitMap &that) const;
};

inline bool
operator!=(const ABitMap &bm1, const ABitMap &bm2)
{
        return !(bm1 == bm2);
}

inline ABitMap
operator>>(ABitMap bmLeft, uint32 nbr)
{
        return bmLeft >>= nbr;
}

inline ABitMap
operator<<(ABitMap bmLeft, uint32 nbl)
{
        return bmLeft <<= nbl;
}

inline ABitMap
operator|(ABitMap bmLeft, const ABitMap &bmRight)
{
        return bmLeft |= bmRight;
}

inline ABitMap
operator&(ABitMap bmLeft, const ABitMap &bmRight)
{
        return bmLeft &= bmRight;
}

inline ABitMap
operator^(ABitMap bmLeft, const ABitMap &bmRight)
{
        return bmLeft ^= bmRight;
}

inline ABitMap
operator-(ABitMap bmLeft, const ABitMap &bmRight)
{
        return bmLeft -= bmRight;
}

inline ABitMap
operator~(ABitMap bmUnary)
{
        bmUnary.Invert();
        return bmUnary;
}

// 2-dimensional bitmap class
class ABitMap2 : protected ABitMap {
private:
        int             width, height;          // bitmap dimensions
protected:
        uint32          bmi(int x, int y) const {
                                if (OffBitMap(x, y)) return ABMend;
                                return (uint32)y*width + x;
                        }
public:
                        ABitMap2() { width=height=0; }
                        ABitMap2(int w, int h, bool clrset=false) :
                                        ABitMap((w>0)&(h>0)&&(w <= ABMend/h)
                                                ? (uint32)w*h : (uint32)0, clrset) {
                                if (Length()) {
                                        width=w; height=h;
                                } else { width=height=0; }
                        }
                        ABitMap2(const ABitMap2 &orig) {
                                *this=orig;
                        }
                        // Access to raw word data
        uint32 *        base() {
                                return ABitMap::base();
                        }
                        // Read-only word access
        const uint32 *  base() const {
                                return ABitMap::base();
                        }
                        // Total number of words
        int32           bmlen() const {
                                return ABitMap::bmlen();
                        }
                        // Return bitmap width
        int             Width() const {
                                return width;
                        }
                        // Return bitmap height
        int             Height() const {
                                return height;
                        }
                        // Is the indicated bit off our bitmap?
        bool            OffBitMap(int x, int y) const {
                                return ((x < 0) | (x >= width) |
                                        (y < 0) | (y >= height));
                        }
                        // Count number of bits set in bitmap
        uint32          SumTotal(bool bit2cnt = true) const {
                                return ABitMap::SumTotal(bit2cnt);
                        }
                        // Reallocate and clear bitmap
        bool            NewBitMap(int w, int h, bool clrset=false) {
                                if ((w <= 0) | (h <= 0) || w > ABMend/h)
                                        w = h = 0;
                                width=w; height=h;
                                return ABitMap::NewBitMap((uint32)w*h, clrset);
                        }
                        // Clear bitmap to all 0's or 1's
        void            ClearBitMap(bool clrset=false) {
                                ABitMap::ClearBitMap(clrset);
                        }
                        // Compress with run-length encoding into a 1-D bitmap
        bool            GetRLE(ABitMap *rlep) const {
                                return ABitMap::GetRLE(rlep);
                        }
                        // Reconstitute bits from RLE encoding (size must match)
        bool            SetFromRLE(int w, int h, const ABitMap &rle);
                        // Steal another bitmap's contents
        bool            Take(ABitMap2 *srcp) {
                                if (srcp == this) return false;
                                width=height=0;
                                if (!ABitMap::Take(srcp)) return false;
                                width=srcp->width; height=srcp->height;
                                srcp->width=srcp->height=0;
                                return true;
                        }
                        // Extract bitmap section (true if some overlap)
        bool            GetRect(ABitMap2 *dp, int sx, int sy) const;
                        // Extract bitmap section (fill outside overlap)
        ABitMap2        GetRect(int sx, int sy, int w, int h, bool fill=false) const {
                                ABitMap2        bm2(w, h, fill);
                                GetRect(&bm2, sx, sy);
                                return bm2;
                        }
                        // Assign bitmap section (ignores anything past edges)
        bool            AssignRect(int dx, int dy, const ABitMap2 &src);
                        // Apply operation to bitmap section
        bool            OpRect(int dx, int dy, char op, const ABitMap2 &src);
                        // Clear a rectangle
        void            ClearRect(int x, int y, int w, int h, bool clrset=false);
                        // Find the next bit matching val (scanline order)
        bool            Find(int *xp, int *yp, bool val=true) const {
                                if (!xp | !yp) return false;
                                if (width <= 0) return false;
                                if ((*xp < 0) | (*yp < 0)) *xp = *yp = 0;
                                else if (*xp >= width) { *xp=0; ++(*yp); }
                                uint32  i = ABitMap::Find(bmi(*xp,*yp), val);
                                if (i == ABMend) { *yp = height; return false; }
                                *yp = int(i / width);
                                *xp = int(i - *yp*width);
                                return true;
                        }
                        // Get bounds of assigned region
        bool            GetBoundRect(int xymin[2], int wh[2], bool val=true) const;
                        // Return value of bit in bitmap
        bool            Check(int x, int y) const {
                                return ABitMap::Check(bmi(x,y));
                        }
                        // Set bit
        void            Set(int x, int y) {
                                ABitMap::Set(bmi(x,y));
                        }
                        // Reset bit
        void            Reset(int x, int y) {
                                ABitMap::Reset(bmi(x,y));
                        }
                        // Set bit explicitly on or off
        void            Set(int x, int y, bool switchon) {
                                ABitMap::Set(bmi(x,y), switchon);
                        }
                        // Toggle bit
        void            Toggle(int x, int y) {
                                ABitMap::Toggle(bmi(x,y));
                        }
                        // Set bit if it's clear (or fail)
        bool            TestAndSet(int x, int y) {
                                return ABitMap::TestAndSet(bmi(x,y));
                        }
                        // Clear bit if it's set (or fail)
        bool            TestAndReset(int x, int y) {
                                return ABitMap::TestAndReset(bmi(x,y));
                        }
                        // Set bit on/off (fail if no change)
        bool            TestAndSet(int x, int y, bool switchon) {
                                return ABitMap::TestAndSet(bmi(x,y), switchon);
                        }
                        // Invert the entire bitmap
        void            Invert() {
                                ABitMap::Invert();
                        }
                        // Shift bitmap, filling uncovered area as indicated
        void            Shift(int dx, int dy, int fill=0);
                        // Dilate (or erode) selection by given radius
        void            Expand(double rad, bool val=true);
                        // Clear bits set in second map
        bool            ClearBitsFrom(const ABitMap2 &src) {
                                if (width != src.width)
                                        return false;
                                return ABitMap::ClearBitsFrom(src);
                        }
                        // Copy operator
        ABitMap2 &      operator=(const ABitMap2 &src) {
                                ABitMap::operator=(src);
                                width=src.width; height=src.height;
                                return *this;
                        }
                        // Bitwise OR-copy operator
        ABitMap2 &      operator|=(const ABitMap2 &src) {
                                ABitMap::operator|=(src);
                                width=src.width; height=src.height;
                                return *this;
                        }
                        // Bitwise AND-assign operator
        ABitMap2 &      operator&=(const ABitMap2 &src) {
                                if ((width!=src.width)|(height!=src.height))
                                        return *this;
                                ABitMap::operator&=(src);
                                return *this;
                        }
                        // Bitwise XOR-assign operator
        ABitMap2 &      operator^=(const ABitMap2 &src) {
                                if ((width!=src.width)|(height!=src.height))
                                        return *this;
                                ABitMap::operator^=(src);
                                return *this;
                        }
                        // Subtraction operator, synonym for ClearBitsFrom()
        ABitMap2 &      operator-=(const ABitMap2 &src) {
                                ClearBitsFrom(src);
                                return *this;
                        }
                        // Compare two bitmaps for equality
        bool            operator==(const ABitMap2 &that) const {
                                if (width != that.width)
                                        return false;
                                return ABitMap::operator==(that);
                        }
};

inline bool
operator!=(const ABitMap2 &bm1, const ABitMap2 &bm2)
{
        return !(bm1 == bm2);
}

inline ABitMap2
operator|(ABitMap2 bmLeft, const ABitMap2 &bmRight)
{
        return bmLeft |= bmRight;
}

inline ABitMap2
operator&(ABitMap2 bmLeft, const ABitMap2 &bmRight)
{
        return bmLeft &= bmRight;
}

inline ABitMap2
operator^(ABitMap2 bmLeft, const ABitMap2 &bmRight)
{
        return bmLeft ^= bmRight;
}

inline ABitMap2
operator-(ABitMap2 bmLeft, const ABitMap2 &bmRight)
{
        return bmLeft -= bmRight;
}

inline ABitMap2
operator~(ABitMap2 bmUnary)
{
        bmUnary.Invert();
        return bmUnary;
}

// Function to write a bitmap to a BMP file
extern bool     WriteBitMap(const ABitMap &bm, const char *fname);

// Function to write a 2-D bitmap to a BMP file
extern bool     WriteBitMap2(const ABitMap2 &bm2, const char *fname);

// Function to read a bitmap from a BMP file
extern bool     ReadBitMap(ABitMap *bmp, const char *fname);

// Function to read a 2-D bitmap from a BMP file
extern bool     ReadBitMap2(ABitMap2 *bm2p, const char *fname);

#endif  // ! _ABITMAP_H_
Revision:	2.3
Committed:	Fri Sep 12 00:44:38 2025 UTC (7 weeks ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	HEAD
Changes since 2.2:	+1 -4 lines
Log Message:	chore: Removed copyrights as these moved from panlib into Radiance distro.
#	Content
1	/* RCSid $Id: abitmap.h,v 2.2 2024/08/24 23:25:24 greg Exp $ */
2	/*
3	* abitmap.h
4	*
5	* General bitmap class (mostly inline)
6	*
7	* Created by gward on Tue May 15 2001.
8	*/
9	#ifndef _ABITMAP_H_
10	#define _ABITMAP_H_
11
12	#ifndef _TIFF_
13	#include "tiff.h" /* needed for uint32 type */
14	#endif
15
16	#define ABMend 0xffffffff // terminal return
17
18	// Inline bitmap class
19	class ABitMap {
20	private:
21	uint32 * bmap; // bitmap storage
22	uint32 len; // bitmap size
23	public:
24	ABitMap() { len=0; bmap=0; }
25	ABitMap(uint32 n, bool clrset=false) {
26	bmap=0; len=0; NewBitMap(n,clrset);
27	}
28	ABitMap(const ABitMap &orig) {
29	bmap=0; len=0; *this=orig;
30	}
31	~ABitMap() {
32	delete [] bmap;
33	}
34	// Access to raw word data
35	uint32 * base() {
36	return bmap;
37	}
38	// Read-only word access
39	const uint32 * base() const {
40	return bmap;
41	}
42	// Number of words from #bits
43	static int32 bmlen(uint32 nbits) {
44	return (nbits+0x1f)>>5;
45	}
46	// Total number of words
47	int32 bmlen() const {
48	return bmlen(len);
49	}
50	// Reallocate and clear bitmap
51	bool NewBitMap(uint32 n, bool clrset=false);
52	// Clear bitmap to all 0's or 1's
53	void ClearBitMap(bool clrset=false);
54	// Steal another bitmap's contents
55	bool Take(ABitMap *srcp) {
56	if (srcp == this) return false;
57	delete [] bmap; bmap=0; len=0;
58	if (!srcp) return false;
59	bmap=srcp->bmap; len=srcp->len;
60	srcp->bmap=0; srcp->len=0;
61	return len;
62	}
63	// Return number of bits in bitmap
64	uint32 Length() const {
65	return len;
66	}
67	// Get original length if RLE (or 0)
68	uint32 RLength() const;
69	// Compress into a run-length encoded bitmap
70	bool GetRLE(ABitMap *rlep) const;
71	// Reconstitute bits from RLE encoding
72	bool SetFromRLE(const ABitMap &rle);
73	// Extract bitmap section (true if some overlap)
74	bool GetBits(ABitMap *dp, uint32 i) const;
75	// Extract bitmap section (fill if past end)
76	ABitMap GetBits(uint32 i, uint32 n, bool fill=false) const {
77	ABitMap bm(n, fill);
78	GetBits(&bm, i);
79	return bm;
80	}
81	// Overlay bitmap section (ignores bits past end)
82	bool AssignBits(uint32 i, const ABitMap &src);
83	// Apply operation to bitmap section
84	bool OpBits(uint32 i, char op, const ABitMap &src);
85	// Clear bitmap section
86	void ClearBits(uint32 i, uint32 n, bool clrset=false);
87	// Clear bits set in second bitmap
88	bool ClearBitsFrom(const ABitMap &src);
89	// Count number of bits set in bitmap
90	uint32 SumTotal(bool bit2cnt = true) const;
91	// Return the next bit position matching val (or ABMend)
92	uint32 Find(uint32 i = 0, bool val = true) const;
93	uint32 Find(int i, bool val = true) const {
94	return Find((uint32)i, val);
95	}
96	uint32 Find(long i, bool val = true) const {
97	return Find((uint32)i, val);
98	}
99	// Different interface to find the next bit matching val
100	bool Find(uint32 *ip, bool val = true) const {
101	if (!ip) return false;
102	if (*ip >= len) return false;
103	ip = Find(ip, val);
104	return (*ip < len);
105	}
106	// Access word for i'th bit
107	uint32 & Word(uint32 i) {
108	static uint32 dummy;
109	if (i >= len) return dummy;
110	return bmap[i>>5];
111	}
112	// Get word value for i'th bit (0 if out of range)
113	uint32 WordV(uint32 i) const {
114	if (i >= len) return 0;
115	return bmap[i>>5];
116	}
117	// Index corresponding bit in word
118	static uint32 Bit(uint32 i) {
119	return 1 << (i & 0x1f);
120	}
121	// Return value of i'th bit in bitmap
122	bool Check(uint32 i) const {
123	return (WordV(i) & Bit(i));
124	}
125	// Set i'th bit
126	void Set(uint32 i) {
127	Word(i) \|= Bit(i);
128	}
129	// Reset i'th bit
130	void Reset(uint32 i) {
131	Word(i) &= ~Bit(i);
132	}
133	// Set i'th bit explicitly on or off
134	void Set(uint32 i, bool switchon) {
135	uint32 b = Bit(i);
136	uint32 & w = Word(i);
137	if (switchon) w \|= b;
138	else w &= ~b;
139	}
140	// Toggle i'th bit
141	void Toggle(uint32 i) {
142	Word(i) ^= Bit(i);
143	}
144	// Set i'th bit if it's clear (or fail)
145	bool TestAndSet(uint32 i) {
146	if (i >= len) return false;
147	uint32 b = Bit(i);
148	uint32 & w = Word(i);
149	uint32 wasset = w & b;
150	w \|= b;
151	return !wasset;
152	}
153	// Clear i'th bit if it's set (or fail)
154	bool TestAndReset(uint32 i) {
155	if (i >= len) return false;
156	uint32 b = Bit(i);
157	uint32 & w = Word(i);
158	uint32 wasset = w & b;
159	w &= ~b;
160	return wasset;
161	}
162	// Set i'th bit on/off (fail if no change)
163	bool TestAndSet(uint32 i, bool switchon) {
164	return switchon ? TestAndSet(i) : TestAndReset(i);
165	}
166	// Invert the entire bitmap
167	void Invert();
168	// Downward shift operator, zero fill
169	ABitMap & operator>>=(uint32 nbits);
170	// Upward shift operator, zero fill
171	ABitMap & operator<<=(uint32 nbits);
172	// Copy operator
173	ABitMap & operator=(const ABitMap &src);
174	// Bitwise OR-copy operator
175	ABitMap & operator\|=(const ABitMap &src);
176	// Bitwise AND-assign operator
177	ABitMap & operator&=(const ABitMap &src);
178	// Bitwise XOR-assign operator
179	ABitMap & operator^=(const ABitMap &src);
180	// Subtraction operator, synonym for ClearBitsFrom()
181	ABitMap & operator-=(const ABitMap &src) {
182	ClearBitsFrom(src);
183	return *this;
184	}
185	// Compare two bitmaps for equality
186	bool operator==(const ABitMap &that) const;
187	};
188
189	inline bool
190	operator!=(const ABitMap &bm1, const ABitMap &bm2)
191	{
192	return !(bm1 == bm2);
193	}
194
195	inline ABitMap
196	operator>>(ABitMap bmLeft, uint32 nbr)
197	{
198	return bmLeft >>= nbr;
199	}
200
201	inline ABitMap
202	operator<<(ABitMap bmLeft, uint32 nbl)
203	{
204	return bmLeft <<= nbl;
205	}
206
207	inline ABitMap
208	operator\|(ABitMap bmLeft, const ABitMap &bmRight)
209	{
210	return bmLeft \|= bmRight;
211	}
212
213	inline ABitMap
214	operator&(ABitMap bmLeft, const ABitMap &bmRight)
215	{
216	return bmLeft &= bmRight;
217	}
218
219	inline ABitMap
220	operator^(ABitMap bmLeft, const ABitMap &bmRight)
221	{
222	return bmLeft ^= bmRight;
223	}
224
225	inline ABitMap
226	operator-(ABitMap bmLeft, const ABitMap &bmRight)
227	{
228	return bmLeft -= bmRight;
229	}
230
231	inline ABitMap
232	operator~(ABitMap bmUnary)
233	{
234	bmUnary.Invert();
235	return bmUnary;
236	}
237
238	// 2-dimensional bitmap class
239	class ABitMap2 : protected ABitMap {
240	private:
241	int width, height; // bitmap dimensions
242	protected:
243	uint32 bmi(int x, int y) const {
244	if (OffBitMap(x, y)) return ABMend;
245	return (uint32)y*width + x;
246	}
247	public:
248	ABitMap2() { width=height=0; }
249	ABitMap2(int w, int h, bool clrset=false) :
250	ABitMap((w>0)&(h>0)&&(w <= ABMend/h)
251	? (uint32)w*h : (uint32)0, clrset) {
252	if (Length()) {
253	width=w; height=h;
254	} else { width=height=0; }
255	}
256	ABitMap2(const ABitMap2 &orig) {
257	*this=orig;
258	}
259	// Access to raw word data
260	uint32 * base() {
261	return ABitMap::base();
262	}
263	// Read-only word access
264	const uint32 * base() const {
265	return ABitMap::base();
266	}
267	// Total number of words
268	int32 bmlen() const {
269	return ABitMap::bmlen();
270	}
271	// Return bitmap width
272	int Width() const {
273	return width;
274	}
275	// Return bitmap height
276	int Height() const {
277	return height;
278	}
279	// Is the indicated bit off our bitmap?
280	bool OffBitMap(int x, int y) const {
281	return ((x < 0) \| (x >= width) \|
282	(y < 0) \| (y >= height));
283	}
284	// Count number of bits set in bitmap
285	uint32 SumTotal(bool bit2cnt = true) const {
286	return ABitMap::SumTotal(bit2cnt);
287	}
288	// Reallocate and clear bitmap
289	bool NewBitMap(int w, int h, bool clrset=false) {
290	if ((w <= 0) \| (h <= 0) \|\| w > ABMend/h)
291	w = h = 0;
292	width=w; height=h;
293	return ABitMap::NewBitMap((uint32)w*h, clrset);
294	}
295	// Clear bitmap to all 0's or 1's
296	void ClearBitMap(bool clrset=false) {
297	ABitMap::ClearBitMap(clrset);
298	}
299	// Compress with run-length encoding into a 1-D bitmap
300	bool GetRLE(ABitMap *rlep) const {
301	return ABitMap::GetRLE(rlep);
302	}
303	// Reconstitute bits from RLE encoding (size must match)
304	bool SetFromRLE(int w, int h, const ABitMap &rle);
305	// Steal another bitmap's contents
306	bool Take(ABitMap2 *srcp) {
307	if (srcp == this) return false;
308	width=height=0;
309	if (!ABitMap::Take(srcp)) return false;
310	width=srcp->width; height=srcp->height;
311	srcp->width=srcp->height=0;
312	return true;
313	}
314	// Extract bitmap section (true if some overlap)
315	bool GetRect(ABitMap2 *dp, int sx, int sy) const;
316	// Extract bitmap section (fill outside overlap)
317	ABitMap2 GetRect(int sx, int sy, int w, int h, bool fill=false) const {
318	ABitMap2 bm2(w, h, fill);
319	GetRect(&bm2, sx, sy);
320	return bm2;
321	}
322	// Assign bitmap section (ignores anything past edges)
323	bool AssignRect(int dx, int dy, const ABitMap2 &src);
324	// Apply operation to bitmap section
325	bool OpRect(int dx, int dy, char op, const ABitMap2 &src);
326	// Clear a rectangle
327	void ClearRect(int x, int y, int w, int h, bool clrset=false);
328	// Find the next bit matching val (scanline order)
329	bool Find(int xp, int yp, bool val=true) const {
330	if (!xp \| !yp) return false;
331	if (width <= 0) return false;
332	if ((xp < 0) \| (yp < 0)) xp = yp = 0;
333	else if (xp >= width) { xp=0; ++(*yp); }
334	uint32 i = ABitMap::Find(bmi(xp,yp), val);
335	if (i == ABMend) { *yp = height; return false; }
336	*yp = int(i / width);
337	xp = int(i - yp*width);
338	return true;
339	}
340	// Get bounds of assigned region
341	bool GetBoundRect(int xymin[2], int wh[2], bool val=true) const;
342	// Return value of bit in bitmap
343	bool Check(int x, int y) const {
344	return ABitMap::Check(bmi(x,y));
345	}
346	// Set bit
347	void Set(int x, int y) {
348	ABitMap::Set(bmi(x,y));
349	}
350	// Reset bit
351	void Reset(int x, int y) {
352	ABitMap::Reset(bmi(x,y));
353	}
354	// Set bit explicitly on or off
355	void Set(int x, int y, bool switchon) {
356	ABitMap::Set(bmi(x,y), switchon);
357	}
358	// Toggle bit
359	void Toggle(int x, int y) {
360	ABitMap::Toggle(bmi(x,y));
361	}
362	// Set bit if it's clear (or fail)
363	bool TestAndSet(int x, int y) {
364	return ABitMap::TestAndSet(bmi(x,y));
365	}
366	// Clear bit if it's set (or fail)
367	bool TestAndReset(int x, int y) {
368	return ABitMap::TestAndReset(bmi(x,y));
369	}
370	// Set bit on/off (fail if no change)
371	bool TestAndSet(int x, int y, bool switchon) {
372	return ABitMap::TestAndSet(bmi(x,y), switchon);
373	}
374	// Invert the entire bitmap
375	void Invert() {
376	ABitMap::Invert();
377	}
378	// Shift bitmap, filling uncovered area as indicated
379	void Shift(int dx, int dy, int fill=0);
380	// Dilate (or erode) selection by given radius
381	void Expand(double rad, bool val=true);
382	// Clear bits set in second map
383	bool ClearBitsFrom(const ABitMap2 &src) {
384	if (width != src.width)
385	return false;
386	return ABitMap::ClearBitsFrom(src);
387	}
388	// Copy operator
389	ABitMap2 & operator=(const ABitMap2 &src) {
390	ABitMap::operator=(src);
391	width=src.width; height=src.height;
392	return *this;
393	}
394	// Bitwise OR-copy operator
395	ABitMap2 & operator\|=(const ABitMap2 &src) {
396	ABitMap::operator\|=(src);
397	width=src.width; height=src.height;
398	return *this;
399	}
400	// Bitwise AND-assign operator
401	ABitMap2 & operator&=(const ABitMap2 &src) {
402	if ((width!=src.width)\|(height!=src.height))
403	return *this;
404	ABitMap::operator&=(src);
405	return *this;
406	}
407	// Bitwise XOR-assign operator
408	ABitMap2 & operator^=(const ABitMap2 &src) {
409	if ((width!=src.width)\|(height!=src.height))
410	return *this;
411	ABitMap::operator^=(src);
412	return *this;
413	}
414	// Subtraction operator, synonym for ClearBitsFrom()
415	ABitMap2 & operator-=(const ABitMap2 &src) {
416	ClearBitsFrom(src);
417	return *this;
418	}
419	// Compare two bitmaps for equality
420	bool operator==(const ABitMap2 &that) const {
421	if (width != that.width)
422	return false;
423	return ABitMap::operator==(that);
424	}
425	};
426
427	inline bool
428	operator!=(const ABitMap2 &bm1, const ABitMap2 &bm2)
429	{
430	return !(bm1 == bm2);
431	}
432
433	inline ABitMap2
434	operator\|(ABitMap2 bmLeft, const ABitMap2 &bmRight)
435	{
436	return bmLeft \|= bmRight;
437	}
438
439	inline ABitMap2
440	operator&(ABitMap2 bmLeft, const ABitMap2 &bmRight)
441	{
442	return bmLeft &= bmRight;
443	}
444
445	inline ABitMap2
446	operator^(ABitMap2 bmLeft, const ABitMap2 &bmRight)
447	{
448	return bmLeft ^= bmRight;
449	}
450
451	inline ABitMap2
452	operator-(ABitMap2 bmLeft, const ABitMap2 &bmRight)
453	{
454	return bmLeft -= bmRight;
455	}
456
457	inline ABitMap2
458	operator~(ABitMap2 bmUnary)
459	{
460	bmUnary.Invert();
461	return bmUnary;
462	}
463
464	// Function to write a bitmap to a BMP file
465	extern bool WriteBitMap(const ABitMap &bm, const char *fname);
466
467	// Function to write a 2-D bitmap to a BMP file
468	extern bool WriteBitMap2(const ABitMap2 &bm2, const char *fname);
469
470	// Function to read a bitmap from a BMP file
471	extern bool ReadBitMap(ABitMap bmp, const char fname);
472
473	// Function to read a 2-D bitmap from a BMP file
474	extern bool ReadBitMap2(ABitMap2 bm2p, const char fname);
475
476	#endif // ! _ABITMAP_H_