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source: GTP/trunk/App/Demos/Geom/include/OgreAxisAlignedBox.h @ 1030

Revision 1030, 12.0 KB checked in by gumbau, 18 years ago (diff)
Ogre Stuff initial import

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1	/*
2	-----------------------------------------------------------------------------
3	This source file is part of OGRE
4	(Object-oriented Graphics Rendering Engine)
5	For the latest info, see http://www.ogre3d.org/
6
7	Copyright (c) 2000-2005 The OGRE Team
8	Also see acknowledgements in Readme.html
9
10	This program is free software; you can redistribute it and/or modify it under
11	the terms of the GNU Lesser General Public License as published by the Free Software
12	Foundation; either version 2 of the License, or (at your option) any later
13	version.
14
15	This program is distributed in the hope that it will be useful, but WITHOUT
16	ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
17	FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
18
19	You should have received a copy of the GNU Lesser General Public License along with
20	this program; if not, write to the Free Software Foundation, Inc., 59 Temple
21	Place - Suite 330, Boston, MA 02111-1307, USA, or go to
22	http://www.gnu.org/copyleft/lesser.txt.
23	-----------------------------------------------------------------------------
24	*/
25	#ifndef __AxisAlignedBox_H_
26	#define __AxisAlignedBox_H_
27
28	// Precompiler options
29	#include "OgrePrerequisites.h"
30
31	#include "OgreVector3.h"
32	#include "OgreMatrix4.h"
33
34	namespace Ogre {
35
36	/** A 3D box aligned with the x/y/z axes.
37	@remarks
38	This class represents a simple box which is aligned with the
39	axes. Internally it only stores 2 points as the extremeties of
40	the box, one which is the minima of all 3 axes, and the other
41	which is the maxima of all 3 axes. This class is typically used
42	for an axis-aligned bounding box (AABB) for collision and
43	visibility determination.
44	*/
45	class _OgreExport AxisAlignedBox
46	{
47	protected:
48	Vector3 mMinimum;
49	Vector3 mMaximum;
50	bool mNull;
51
52	Vector3 mCorners[8];
53
54	/** Internal method for updating corner points.
55	*/
56	void updateCorners(void)
57	{
58	// The order of these items is, using right-handed co-ordinates:
59	// Minimum Z face, starting with Min(all), then anticlockwise
60	// around face (looking onto the face)
61	// Maximum Z face, starting with Max(all), then anticlockwise
62	// around face (looking onto the face)
63	mCorners[0] = mMinimum;
64	mCorners[1].x = mMinimum.x; mCorners[1].y = mMaximum.y; mCorners[1].z = mMinimum.z;
65	mCorners[2].x = mMaximum.x; mCorners[2].y = mMaximum.y; mCorners[2].z = mMinimum.z;
66	mCorners[3].x = mMaximum.x; mCorners[3].y = mMinimum.y; mCorners[3].z = mMinimum.z;
67
68	mCorners[4] = mMaximum;
69	mCorners[5].x = mMinimum.x; mCorners[5].y = mMaximum.y; mCorners[5].z = mMaximum.z;
70	mCorners[6].x = mMinimum.x; mCorners[6].y = mMinimum.y; mCorners[6].z = mMaximum.z;
71	mCorners[7].x = mMaximum.x; mCorners[7].y = mMinimum.y; mCorners[7].z = mMaximum.z;
72	}
73
74	public:
75	inline AxisAlignedBox()
76	{
77	// Default to null box
78	setMinimum( -0.5, -0.5, -0.5 );
79	setMaximum( 0.5, 0.5, 0.5 );
80	mNull = true;
81	}
82
83	inline AxisAlignedBox( const Vector3& min, const Vector3& max )
84	{
85	setExtents( min, max );
86	}
87
88	inline AxisAlignedBox(
89	Real mx, Real my, Real mz,
90	Real Mx, Real My, Real Mz )
91	{
92	setExtents( mx, my, mz, Mx, My, Mz );
93	}
94
95	/** Gets the minimum corner of the box.
96	*/
97	inline const Vector3& getMinimum(void) const
98	{
99	return mMinimum;
100	}
101
102	/** Gets the maximum corner of the box.
103	*/
104	inline const Vector3& getMaximum(void) const
105	{
106	return mMaximum;
107	}
108
109	/** Sets the minimum corner of the box.
110	*/
111	inline void setMinimum( const Vector3& vec )
112	{
113	mNull = false;
114	mMinimum = vec;
115	updateCorners();
116	}
117
118	inline void setMinimum( Real x, Real y, Real z )
119	{
120	mNull = false;
121	mMinimum.x = x;
122	mMinimum.y = y;
123	mMinimum.z = z;
124	updateCorners();
125	}
126
127	/** Sets the maximum corner of the box.
128	*/
129	inline void setMaximum( const Vector3& vec )
130	{
131	mNull = false;
132	mMaximum = vec;
133	updateCorners();
134	}
135
136	inline void setMaximum( Real x, Real y, Real z )
137	{
138	mNull = false;
139	mMaximum.x = x;
140	mMaximum.y = y;
141	mMaximum.z = z;
142	updateCorners();
143	}
144
145	/** Sets both minimum and maximum extents at once.
146	*/
147	inline void setExtents( const Vector3& min, const Vector3& max )
148	{
149	mNull = false;
150	mMinimum = min;
151	mMaximum = max;
152	updateCorners();
153	}
154
155	inline void setExtents(
156	Real mx, Real my, Real mz,
157	Real Mx, Real My, Real Mz )
158	{
159	mNull = false;
160
161	mMinimum.x = mx;
162	mMinimum.y = my;
163	mMinimum.z = mz;
164
165	mMaximum.x = Mx;
166	mMaximum.y = My;
167	mMaximum.z = Mz;
168
169	updateCorners();
170	}
171
172	/** Returns a pointer to an array of 8 corner points, useful for
173	collision vs. non-aligned objects.
174	@remarks
175	If the order of these corners is important, they are as
176	follows: The 4 points of the minimum Z face (note that
177	because Ogre uses right-handed coordinates, the minimum Z is
178	at the 'back' of the box) starting with the minimum point of
179	all, then anticlockwise around this face (if you are looking
180	onto the face from outside the box). Then the 4 points of the
181	maximum Z face, starting with maximum point of all, then
182	anticlockwise around this face (looking onto the face from
183	outside the box). Like this:
184	<pre>
185	1-----2
186	/\| /\|
187	/ \| / \|
188	5-----4 \|
189	\| 0--\|--3
190	\| / \| /
191	\|/ \|/
192	6-----7
193	</pre>
194	*/
195	inline const Vector3* getAllCorners(void) const
196	{
197	assert( !mNull && "Can't get corners of a null AAB" );
198	return (const Vector3*)mCorners;
199	}
200
201	friend std::ostream& operator<<( std::ostream& o, AxisAlignedBox aab )
202	{
203	if (aab.isNull())
204	{
205	o << "AxisAlignedBox(null)";
206	}
207	else
208	{
209	o << "AxisAlignedBox(min=" << aab.mMinimum << ", max=" << aab.mMaximum;
210	o << ", corners=";
211	for (int i = 0; i < 7; ++i)
212	o << aab.mCorners[i] << ", ";
213	o << aab.mCorners[7] << ")";
214	}
215	return o;
216	}
217
218	/** Merges the passed in box into the current box. The result is the
219	box which encompasses both.
220	*/
221	void merge( const AxisAlignedBox& rhs )
222	{
223	// Do nothing if rhs null
224	if (rhs.mNull)
225	{
226	return;
227	}
228	// Otherwise if current null, just take rhs
229	else if (mNull)
230	{
231	setExtents(rhs.mMinimum, rhs.mMaximum);
232	}
233	// Otherwise merge
234	else
235	{
236	Vector3 min = mMinimum;
237	Vector3 max = mMaximum;
238	max.makeCeil(rhs.mMaximum);
239	min.makeFloor(rhs.mMinimum);
240
241	setExtents(min, max);
242	}
243
244	}
245
246	/** Extends the box to encompass the specified point (if needed).
247	*/
248	void merge( const Vector3& point )
249	{
250	if (mNull){ // if null, use this point
251	setExtents(point, point);
252	} else {
253	mMaximum.makeCeil(point);
254	mMinimum.makeFloor(point);
255	updateCorners();
256	}
257	}
258
259	/** Transforms the box according to the matrix supplied.
260	@remarks
261	By calling this method you get the axis-aligned box which
262	surrounds the transformed version of this box. Therefore each
263	corner of the box is transformed by the matrix, then the
264	extents are mapped back onto the axes to produce another
265	AABB. Useful when you have a local AABB for an object which
266	is then transformed.
267	*/
268	void transform( const Matrix4& matrix )
269	{
270	// Do nothing if current null
271	if( mNull )
272	return;
273
274	Vector3 min, max, temp;
275	bool first = true;
276	size_t i;
277
278	for( i = 0; i < 8; ++i )
279	{
280	// Transform and check extents
281	temp = matrix * mCorners[i];
282	if( first \|\| temp.x > max.x )
283	max.x = temp.x;
284	if( first \|\| temp.y > max.y )
285	max.y = temp.y;
286	if( first \|\| temp.z > max.z )
287	max.z = temp.z;
288	if( first \|\| temp.x < min.x )
289	min.x = temp.x;
290	if( first \|\| temp.y < min.y )
291	min.y = temp.y;
292	if( first \|\| temp.z < min.z )
293	min.z = temp.z;
294
295	first = false;
296	}
297
298	setExtents( min,max );
299
300	}
301
302	/** Sets the box to a 'null' value i.e. not a box.
303	*/
304	inline void setNull()
305	{
306	mNull = true;
307	}
308
309	/** Returns true if the box is null i.e. empty.
310	*/
311	bool isNull(void) const
312	{
313	return mNull;
314	}
315
316	/** Returns whether or not this box intersects another. */
317	inline bool intersects(const AxisAlignedBox& b2) const
318	{
319	// Early-fail for nulls
320	if (this->isNull() \|\| b2.isNull())
321	return false;
322
323	// Use up to 6 separating planes
324	if (mMaximum.x < b2.mMinimum.x)
325	return false;
326	if (mMaximum.y < b2.mMinimum.y)
327	return false;
328	if (mMaximum.z < b2.mMinimum.z)
329	return false;
330
331	if (mMinimum.x > b2.mMaximum.x)
332	return false;
333	if (mMinimum.y > b2.mMaximum.y)
334	return false;
335	if (mMinimum.z > b2.mMaximum.z)
336	return false;
337
338	// otherwise, must be intersecting
339	return true;
340
341	}
342
343	/// Calculate the area of intersection of this box and another
344	inline AxisAlignedBox intersection(const AxisAlignedBox& b2) const
345	{
346	if (!this->intersects(b2))
347	{
348	return AxisAlignedBox();
349	}
350	Vector3 intMin, intMax;
351
352	const Vector3& b2max = b2.getMaximum();
353	const Vector3& b2min = b2.getMinimum();
354
355	if (b2max.x > mMaximum.x && mMaximum.x > b2min.x)
356	intMax.x = mMaximum.x;
357	else
358	intMax.x = b2max.x;
359	if (b2max.y > mMaximum.y && mMaximum.y > b2min.y)
360	intMax.y = mMaximum.y;
361	else
362	intMax.y = b2max.y;
363	if (b2max.z > mMaximum.z && mMaximum.z > b2min.z)
364	intMax.z = mMaximum.z;
365	else
366	intMax.z = b2max.z;
367
368	if (b2min.x < mMinimum.x && mMinimum.x < b2max.x)
369	intMin.x = mMinimum.x;
370	else
371	intMin.x= b2min.x;
372	if (b2min.y < mMinimum.y && mMinimum.y < b2max.y)
373	intMin.y = mMinimum.y;
374	else
375	intMin.y= b2min.y;
376	if (b2min.z < mMinimum.z && mMinimum.z < b2max.z)
377	intMin.z = mMinimum.z;
378	else
379	intMin.z= b2min.z;
380
381	return AxisAlignedBox(intMin, intMax);
382
383	}
384
385	/// Calculate the volume of this box
386	Real volume(void) const
387	{
388	if (mNull)
389	{
390	return 0.0f;
391	}
392	else
393	{
394	Vector3 diff = mMaximum - mMinimum;
395	return diff.x * diff.y * diff.z;
396	}
397
398	}
399
400	/** Scales the AABB by the vector given. */
401	inline void scale(const Vector3& s)
402	{
403	// NB assumes centered on origin
404	Vector3 min = mMinimum * s;
405	Vector3 max = mMaximum * s;
406	setExtents(min, max);
407	}
408
409	/** Tests whether this box intersects a sphere. */
410	bool intersects(const Sphere& s) const
411	{
412	return Math::intersects(s, *this);
413	}
414	/** Tests whether this box intersects a plane. */
415	bool intersects(const Plane& p) const
416	{
417	return Math::intersects(p, *this);
418	}
419	/** Tests whether the vector point is within this box. */
420	bool intersects(const Vector3& v) const
421	{
422	return(v.x >= mMinimum.x && v.x <= mMaximum.x &&
423	v.y >= mMinimum.y && v.y <= mMaximum.y &&
424	v.z >= mMinimum.z && v.z <= mMaximum.z);
425	}
426	/// Gets the centre of the box
427	Vector3 getCenter(void) const
428	{
429	return Vector3((mMaximum + mMinimum) * 0.5);
430	}
431
432
433	};
434
435	} // namespace Ogre
436
437	#endif

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