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26*a58d3d2aSXin Li ***********************************************************************/
27*a58d3d2aSXin Li
28*a58d3d2aSXin Li /*! \file silk_Inlines.h
29*a58d3d2aSXin Li * \brief silk_Inlines.h defines OPUS_INLINE signal processing functions.
30*a58d3d2aSXin Li */
31*a58d3d2aSXin Li
32*a58d3d2aSXin Li #ifndef SILK_FIX_INLINES_H
33*a58d3d2aSXin Li #define SILK_FIX_INLINES_H
34*a58d3d2aSXin Li
35*a58d3d2aSXin Li #ifdef __cplusplus
36*a58d3d2aSXin Li extern "C"
37*a58d3d2aSXin Li {
38*a58d3d2aSXin Li #endif
39*a58d3d2aSXin Li
40*a58d3d2aSXin Li /* count leading zeros of opus_int64 */
silk_CLZ64(opus_int64 in)41*a58d3d2aSXin Li static OPUS_INLINE opus_int32 silk_CLZ64( opus_int64 in )
42*a58d3d2aSXin Li {
43*a58d3d2aSXin Li opus_int32 in_upper;
44*a58d3d2aSXin Li
45*a58d3d2aSXin Li in_upper = (opus_int32)silk_RSHIFT64(in, 32);
46*a58d3d2aSXin Li if (in_upper == 0) {
47*a58d3d2aSXin Li /* Search in the lower 32 bits */
48*a58d3d2aSXin Li return 32 + silk_CLZ32( (opus_int32) in );
49*a58d3d2aSXin Li } else {
50*a58d3d2aSXin Li /* Search in the upper 32 bits */
51*a58d3d2aSXin Li return silk_CLZ32( in_upper );
52*a58d3d2aSXin Li }
53*a58d3d2aSXin Li }
54*a58d3d2aSXin Li
55*a58d3d2aSXin Li /* get number of leading zeros and fractional part (the bits right after the leading one */
silk_CLZ_FRAC(opus_int32 in,opus_int32 * lz,opus_int32 * frac_Q7)56*a58d3d2aSXin Li static OPUS_INLINE void silk_CLZ_FRAC(
57*a58d3d2aSXin Li opus_int32 in, /* I input */
58*a58d3d2aSXin Li opus_int32 *lz, /* O number of leading zeros */
59*a58d3d2aSXin Li opus_int32 *frac_Q7 /* O the 7 bits right after the leading one */
60*a58d3d2aSXin Li )
61*a58d3d2aSXin Li {
62*a58d3d2aSXin Li opus_int32 lzeros = silk_CLZ32(in);
63*a58d3d2aSXin Li
64*a58d3d2aSXin Li * lz = lzeros;
65*a58d3d2aSXin Li * frac_Q7 = silk_ROR32(in, 24 - lzeros) & 0x7f;
66*a58d3d2aSXin Li }
67*a58d3d2aSXin Li
68*a58d3d2aSXin Li /* Approximation of square root */
69*a58d3d2aSXin Li /* Accuracy: < +/- 10% for output values > 15 */
70*a58d3d2aSXin Li /* < +/- 2.5% for output values > 120 */
silk_SQRT_APPROX(opus_int32 x)71*a58d3d2aSXin Li static OPUS_INLINE opus_int32 silk_SQRT_APPROX( opus_int32 x )
72*a58d3d2aSXin Li {
73*a58d3d2aSXin Li opus_int32 y, lz, frac_Q7;
74*a58d3d2aSXin Li
75*a58d3d2aSXin Li if( x <= 0 ) {
76*a58d3d2aSXin Li return 0;
77*a58d3d2aSXin Li }
78*a58d3d2aSXin Li
79*a58d3d2aSXin Li silk_CLZ_FRAC(x, &lz, &frac_Q7);
80*a58d3d2aSXin Li
81*a58d3d2aSXin Li if( lz & 1 ) {
82*a58d3d2aSXin Li y = 32768;
83*a58d3d2aSXin Li } else {
84*a58d3d2aSXin Li y = 46214; /* 46214 = sqrt(2) * 32768 */
85*a58d3d2aSXin Li }
86*a58d3d2aSXin Li
87*a58d3d2aSXin Li /* get scaling right */
88*a58d3d2aSXin Li y >>= silk_RSHIFT(lz, 1);
89*a58d3d2aSXin Li
90*a58d3d2aSXin Li /* increment using fractional part of input */
91*a58d3d2aSXin Li y = silk_SMLAWB(y, y, silk_SMULBB(213, frac_Q7));
92*a58d3d2aSXin Li
93*a58d3d2aSXin Li return y;
94*a58d3d2aSXin Li }
95*a58d3d2aSXin Li
96*a58d3d2aSXin Li /* Divide two int32 values and return result as int32 in a given Q-domain */
silk_DIV32_varQ(const opus_int32 a32,const opus_int32 b32,const opus_int Qres)97*a58d3d2aSXin Li static OPUS_INLINE opus_int32 silk_DIV32_varQ( /* O returns a good approximation of "(a32 << Qres) / b32" */
98*a58d3d2aSXin Li const opus_int32 a32, /* I numerator (Q0) */
99*a58d3d2aSXin Li const opus_int32 b32, /* I denominator (Q0) */
100*a58d3d2aSXin Li const opus_int Qres /* I Q-domain of result (>= 0) */
101*a58d3d2aSXin Li )
102*a58d3d2aSXin Li {
103*a58d3d2aSXin Li opus_int a_headrm, b_headrm, lshift;
104*a58d3d2aSXin Li opus_int32 b32_inv, a32_nrm, b32_nrm, result;
105*a58d3d2aSXin Li
106*a58d3d2aSXin Li silk_assert( b32 != 0 );
107*a58d3d2aSXin Li silk_assert( Qres >= 0 );
108*a58d3d2aSXin Li
109*a58d3d2aSXin Li /* Compute number of bits head room and normalize inputs */
110*a58d3d2aSXin Li a_headrm = silk_CLZ32( silk_abs(a32) ) - 1;
111*a58d3d2aSXin Li a32_nrm = silk_LSHIFT(a32, a_headrm); /* Q: a_headrm */
112*a58d3d2aSXin Li b_headrm = silk_CLZ32( silk_abs(b32) ) - 1;
113*a58d3d2aSXin Li b32_nrm = silk_LSHIFT(b32, b_headrm); /* Q: b_headrm */
114*a58d3d2aSXin Li
115*a58d3d2aSXin Li /* Inverse of b32, with 14 bits of precision */
116*a58d3d2aSXin Li b32_inv = silk_DIV32_16( silk_int32_MAX >> 2, silk_RSHIFT(b32_nrm, 16) ); /* Q: 29 + 16 - b_headrm */
117*a58d3d2aSXin Li
118*a58d3d2aSXin Li /* First approximation */
119*a58d3d2aSXin Li result = silk_SMULWB(a32_nrm, b32_inv); /* Q: 29 + a_headrm - b_headrm */
120*a58d3d2aSXin Li
121*a58d3d2aSXin Li /* Compute residual by subtracting product of denominator and first approximation */
122*a58d3d2aSXin Li /* It's OK to overflow because the final value of a32_nrm should always be small */
123*a58d3d2aSXin Li a32_nrm = silk_SUB32_ovflw(a32_nrm, silk_LSHIFT_ovflw( silk_SMMUL(b32_nrm, result), 3 )); /* Q: a_headrm */
124*a58d3d2aSXin Li
125*a58d3d2aSXin Li /* Refinement */
126*a58d3d2aSXin Li result = silk_SMLAWB(result, a32_nrm, b32_inv); /* Q: 29 + a_headrm - b_headrm */
127*a58d3d2aSXin Li
128*a58d3d2aSXin Li /* Convert to Qres domain */
129*a58d3d2aSXin Li lshift = 29 + a_headrm - b_headrm - Qres;
130*a58d3d2aSXin Li if( lshift < 0 ) {
131*a58d3d2aSXin Li return silk_LSHIFT_SAT32(result, -lshift);
132*a58d3d2aSXin Li } else {
133*a58d3d2aSXin Li if( lshift < 32){
134*a58d3d2aSXin Li return silk_RSHIFT(result, lshift);
135*a58d3d2aSXin Li } else {
136*a58d3d2aSXin Li /* Avoid undefined result */
137*a58d3d2aSXin Li return 0;
138*a58d3d2aSXin Li }
139*a58d3d2aSXin Li }
140*a58d3d2aSXin Li }
141*a58d3d2aSXin Li
142*a58d3d2aSXin Li /* Invert int32 value and return result as int32 in a given Q-domain */
silk_INVERSE32_varQ(const opus_int32 b32,const opus_int Qres)143*a58d3d2aSXin Li static OPUS_INLINE opus_int32 silk_INVERSE32_varQ( /* O returns a good approximation of "(1 << Qres) / b32" */
144*a58d3d2aSXin Li const opus_int32 b32, /* I denominator (Q0) */
145*a58d3d2aSXin Li const opus_int Qres /* I Q-domain of result (> 0) */
146*a58d3d2aSXin Li )
147*a58d3d2aSXin Li {
148*a58d3d2aSXin Li opus_int b_headrm, lshift;
149*a58d3d2aSXin Li opus_int32 b32_inv, b32_nrm, err_Q32, result;
150*a58d3d2aSXin Li
151*a58d3d2aSXin Li silk_assert( b32 != 0 );
152*a58d3d2aSXin Li silk_assert( Qres > 0 );
153*a58d3d2aSXin Li
154*a58d3d2aSXin Li /* Compute number of bits head room and normalize input */
155*a58d3d2aSXin Li b_headrm = silk_CLZ32( silk_abs(b32) ) - 1;
156*a58d3d2aSXin Li b32_nrm = silk_LSHIFT(b32, b_headrm); /* Q: b_headrm */
157*a58d3d2aSXin Li
158*a58d3d2aSXin Li /* Inverse of b32, with 14 bits of precision */
159*a58d3d2aSXin Li b32_inv = silk_DIV32_16( silk_int32_MAX >> 2, silk_RSHIFT(b32_nrm, 16) ); /* Q: 29 + 16 - b_headrm */
160*a58d3d2aSXin Li
161*a58d3d2aSXin Li /* First approximation */
162*a58d3d2aSXin Li result = silk_LSHIFT(b32_inv, 16); /* Q: 61 - b_headrm */
163*a58d3d2aSXin Li
164*a58d3d2aSXin Li /* Compute residual by subtracting product of denominator and first approximation from one */
165*a58d3d2aSXin Li err_Q32 = silk_LSHIFT( ((opus_int32)1<<29) - silk_SMULWB(b32_nrm, b32_inv), 3 ); /* Q32 */
166*a58d3d2aSXin Li
167*a58d3d2aSXin Li /* Refinement */
168*a58d3d2aSXin Li result = silk_SMLAWW(result, err_Q32, b32_inv); /* Q: 61 - b_headrm */
169*a58d3d2aSXin Li
170*a58d3d2aSXin Li /* Convert to Qres domain */
171*a58d3d2aSXin Li lshift = 61 - b_headrm - Qres;
172*a58d3d2aSXin Li if( lshift <= 0 ) {
173*a58d3d2aSXin Li return silk_LSHIFT_SAT32(result, -lshift);
174*a58d3d2aSXin Li } else {
175*a58d3d2aSXin Li if( lshift < 32){
176*a58d3d2aSXin Li return silk_RSHIFT(result, lshift);
177*a58d3d2aSXin Li }else{
178*a58d3d2aSXin Li /* Avoid undefined result */
179*a58d3d2aSXin Li return 0;
180*a58d3d2aSXin Li }
181*a58d3d2aSXin Li }
182*a58d3d2aSXin Li }
183*a58d3d2aSXin Li
184*a58d3d2aSXin Li #ifdef __cplusplus
185*a58d3d2aSXin Li }
186*a58d3d2aSXin Li #endif
187*a58d3d2aSXin Li
188*a58d3d2aSXin Li #endif /* SILK_FIX_INLINES_H */
189