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1 /*
2  * Copyright (C) 2008 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #ifndef bbs_MATH_EM_H
18 #define bbs_MATH_EM_H
19 
20 /**
21  * This files contains mathematical functions.
22  */
23 
24 /* ---- includes ----------------------------------------------------------- */
25 
26 #include "b_BasicEm/Basic.h"
27 #ifdef HW_TMS320C5x
28 #include "Dsplib.h"
29 #endif
30 
31 /* ---- related objects  --------------------------------------------------- */
32 
33 /* ---- typedefs ----------------------------------------------------------- */
34 
35 /* ---- constants ---------------------------------------------------------- */
36 
37 /* ---- macros ------------------------------------------------------------- */
38 
39 /** computes the maximum of two variables */
40 #define bbs_max( val1A, val2A ) ( ( val1A ) > ( val2A ) ? ( val1A ) : ( val2A ) )
41 
42 /** computes the minimum of two variables */
43 #define bbs_min( val1A, val2A ) ( ( val1A ) < ( val2A ) ? ( val1A ) : ( val2A ) )
44 
45 /** computes the absolute value */
46 #define bbs_abs( valA ) ( ( valA ) > 0 ? ( valA ) : -( valA ) )
47 
48 /* ---- external functions ------------------------------------------------- */
49 
50 /**
51  * Computes square root from 32 bit value.
52  * The return value 'r' is the largest possible integer that
53  * satisfies r * r <= valA.
54  * This behavior is identical with (uint16)sqrt( valA ).
55  * C6201: 162 cycles
56  */
57 uint16 bbs_sqrt32( uint32 valA );
58 
59 /**
60  * Computes square root from 16 bit value.
61  * The return value 'r' is the largest possible integer that
62  * satisfies r * r <= valA.
63  * This behavior is identical with (uint8)sqrt( valA ).
64  */
65 uint8 bbs_sqrt16( uint16 valA );
66 
67 /** Sqrt approximation */
68 uint16 bbs_fastSqrt32( uint32 valA );
69 
70 /** sqrt(1/x) approximation
71  *  return format 1.31
72  */
73 uint32 bbs_invSqrt32( uint32 valA );
74 
75 /** 1/x approximation
76  * return format 2.30
77  */
78 int32 bbs_inv32( int32 valA );
79 
80 /** Returns integer log2 of valA
81  * C6201: 24 cycles
82  */
83 uint32 bbs_intLog2( uint32 valA );
84 
85 /**
86  * Returns (2^x) - 1 for a value range of [0,1[
87  * Format of valA: 0.32
88  * Format of return value: 0.32
89  */
90 uint32 bbs_pow2M1( uint32 valA );
91 
92 /**
93  * Returns (2^x) for a value range of [-16,16[
94  * Format of valA: 5.27
95  * Format of return value: 16.16
96  */
97 uint32 bbs_pow2( int32 valA );
98 
99 
100 /**
101  * Returns (e^x) for a value range of [-11.0903,11.0903]
102  * If valA is smaller than -11.0903, the function returns 0
103  * If valA is larger than 11.0903, the function returns ( 2^32 - 1 ) / ( 2^16 )
104  * Format of valA: 5.27
105  * Format of return value: 16.16
106  * C6201: 72 cycles
107  */
108 uint32 bbs_exp( int32 valA );
109 
110 /** saturates a signed 32 bit value to signed 16 bit */
111 int16 bbs_satS16( int32 valA );
112 
113 /**
114  * Returns the value after rounding to the nearest integer.
115  */
116 /*	int32 bbs_round( int32 valA, int32 bbpA );	*/
117 
118 /**
119  * Computes the dot product of vec1A with vec2A, both of size sizeA.
120  * (no overflow handling, slow for sizeA < 32 )
121  */
122 int32 bbs_dotProductInt16( const int16* vec1A, const int16* vec2A, uint32 sizeA );
123 
124 /** Fermi function ( 1.0 / ( 1.0 + exp( -valA ) ) )
125  *  Format valA: 16.16
126  *  Format return: 2.30
127  */
128 int32 bbs_fermi( int32 valA );
129 
130 /** reduces uint32 to N bits; if it has already <= N bits, nothing happens */
131 void bbs_uint32ReduceToNBits( uint32* argPtrA, int32* bbpPtrA, uint32 nBitsA );
132 
133 /** reduces int32 to N bits; if it has already <= N bits, nothing happens */
134 void bbs_int32ReduceToNBits( int32* argPtrA, int32* bbpPtrA, uint32 nBitsA );
135 
136 /** converts a number with source bbp to a 32 bit number with dst bbp;
137  *  applies appropriate shifting, rounding and saturation to minimize overflow-damage
138  */
139 uint32 bbs_convertU32( uint32 srcA, int32 srcBbpA, int32 dstBbpA );
140 
141 /** converts a number with source bbp to a 32 bit number with dst bbp;
142  *  applies appropriate shifting, rounding and saturation to minimize overflow-damage
143  */
144 int32 bbs_convertS32( int32 srcA, int32 srcBbpA, int32 dstBbpA );
145 
146 /** vector power return val = sum(xA_i^2), input 1.15, output 1.30 */
147 int32 bbs_vecPowerFlt16( const int16 *xA, int16 nxA );
148 
149 /** returns floating point squared norm of 32 bit vector (maximum accuracy - overflow-safe);
150  *  Function is slow
151  *  returned square norm = man * 2^exp
152  *  The returned exponent is always even
153  */
154 void bbs_vecSqrNorm32( const int32* vecA, uint32 sizeA, uint32* manPtrA, uint32* expPtrA );
155 
156 /** returns floating point squared norm of 16 bit vector (maximum accuracy - overflow-safe);
157  *  returned square norm = man * 2^exp
158  *  The returned exponent is always even
159  */
160 void bbs_vecSqrNorm16( const int16* vecA, uint32 sizeA, uint32* manPtrA, uint32* expPtrA );
161 
162 /** returns the norm of a 16 bit vector;
163  *  overflow-safe when sizeA < 65535
164  */
165 uint32 bbs_vecNorm16( const int16* vecA, uint32 sizeA );
166 
167 /** multiplies two unsigned 32 bit values and returns product decomposed to mantisse and exponent
168  *  maximum accuracy - overflow-safe
169  *  exponent is always >= 0
170  */
171 void bbs_mulU32( uint32 v1A, uint32 v2A, uint32* manPtrA, int32* expPtrA );
172 
173 /** multiplies two signed 32 bit values and returns product decomposed to mantisse and exponent
174  *  maximum accuracy - overflow-safe
175  *  exponent is always >= 0
176  */
177 void bbs_mulS32( int32 v1A, int32 v2A, int32* manPtrA, int32* expPtrA );
178 
179 /** matrix multiply rA = x1A * x2A, input/output 1.15, no overflow protection, in-place not allowed */
180 void bbs_matMultiplyFlt16( const int16 *x1A, int16 row1A, int16 col1A,
181 						   const int16 *x2A, int16 col2A, int16 *rA );
182 
183 /** matrix multiply rA = x1A * transposed( x2A ), input/output 1.15, no overflow protection, in-place not allowed */
184 void bbs_matMultiplyTranspFlt16( const int16 *x1A, int16 row1A, int16 col1A,
185 								 const int16 *x2A, int16 row2A, int16 *rA );
186 
187 /*
188 #ifdef mtrans
189 #define bbs_matTrans mtrans
190 #else
191 uint16 bbs_matTrans( int16 *xA, int16 rowA, int16 colA, int16 *rA );
192 #endif
193 
194 #ifdef atan2_16
195 #define bbs_vecPhase atan2_16
196 #else
197 uint16 bbs_vecPhase( int16* reA, int16* imA, int16* phaseA, uint16 sizeA );
198 #endif
199 */
200 
201 #endif /* bbs_MATH_EM_H */
202 
203