GNU Radio 3.7.3 C++ API
volk_32fc_magnitude_32f.h
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1 #ifndef INCLUDED_volk_32fc_magnitude_32f_u_H
2 #define INCLUDED_volk_32fc_magnitude_32f_u_H
3 
4 #include <inttypes.h>
5 #include <stdio.h>
6 #include <math.h>
7 
8 #ifdef LV_HAVE_SSE3
9 #include <pmmintrin.h>
10  /*!
11  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
12  \param complexVector The vector containing the complex input values
13  \param magnitudeVector The vector containing the real output values
14  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
15  */
16 static inline void volk_32fc_magnitude_32f_u_sse3(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
17  unsigned int number = 0;
18  const unsigned int quarterPoints = num_points / 4;
19 
20  const float* complexVectorPtr = (float*)complexVector;
21  float* magnitudeVectorPtr = magnitudeVector;
22 
23  __m128 cplxValue1, cplxValue2, result;
24  for(;number < quarterPoints; number++){
25  cplxValue1 = _mm_loadu_ps(complexVectorPtr);
26  complexVectorPtr += 4;
27 
28  cplxValue2 = _mm_loadu_ps(complexVectorPtr);
29  complexVectorPtr += 4;
30 
31  cplxValue1 = _mm_mul_ps(cplxValue1, cplxValue1); // Square the values
32  cplxValue2 = _mm_mul_ps(cplxValue2, cplxValue2); // Square the Values
33 
34  result = _mm_hadd_ps(cplxValue1, cplxValue2); // Add the I2 and Q2 values
35 
36  result = _mm_sqrt_ps(result);
37 
38  _mm_storeu_ps(magnitudeVectorPtr, result);
39  magnitudeVectorPtr += 4;
40  }
41 
42  number = quarterPoints * 4;
43  for(; number < num_points; number++){
44  float val1Real = *complexVectorPtr++;
45  float val1Imag = *complexVectorPtr++;
46  *magnitudeVectorPtr++ = sqrtf((val1Real * val1Real) + (val1Imag * val1Imag));
47  }
48 }
49 #endif /* LV_HAVE_SSE3 */
50 
51 #ifdef LV_HAVE_SSE
52 #include <xmmintrin.h>
53  /*!
54  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
55  \param complexVector The vector containing the complex input values
56  \param magnitudeVector The vector containing the real output values
57  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
58  */
59 static inline void volk_32fc_magnitude_32f_u_sse(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
60  unsigned int number = 0;
61  const unsigned int quarterPoints = num_points / 4;
62 
63  const float* complexVectorPtr = (float*)complexVector;
64  float* magnitudeVectorPtr = magnitudeVector;
65 
66  __m128 cplxValue1, cplxValue2, iValue, qValue, result;
67  for(;number < quarterPoints; number++){
68  cplxValue1 = _mm_loadu_ps(complexVectorPtr);
69  complexVectorPtr += 4;
70 
71  cplxValue2 = _mm_loadu_ps(complexVectorPtr);
72  complexVectorPtr += 4;
73 
74  // Arrange in i1i2i3i4 format
75  iValue = _mm_shuffle_ps(cplxValue1, cplxValue2, _MM_SHUFFLE(2,0,2,0));
76  // Arrange in q1q2q3q4 format
77  qValue = _mm_shuffle_ps(cplxValue1, cplxValue2, _MM_SHUFFLE(3,1,3,1));
78 
79  iValue = _mm_mul_ps(iValue, iValue); // Square the I values
80  qValue = _mm_mul_ps(qValue, qValue); // Square the Q Values
81 
82  result = _mm_add_ps(iValue, qValue); // Add the I2 and Q2 values
83 
84  result = _mm_sqrt_ps(result);
85 
86  _mm_storeu_ps(magnitudeVectorPtr, result);
87  magnitudeVectorPtr += 4;
88  }
89 
90  number = quarterPoints * 4;
91  for(; number < num_points; number++){
92  float val1Real = *complexVectorPtr++;
93  float val1Imag = *complexVectorPtr++;
94  *magnitudeVectorPtr++ = sqrtf((val1Real * val1Real) + (val1Imag * val1Imag));
95  }
96 }
97 #endif /* LV_HAVE_SSE */
98 
99 #ifdef LV_HAVE_GENERIC
100  /*!
101  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
102  \param complexVector The vector containing the complex input values
103  \param magnitudeVector The vector containing the real output values
104  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
105  */
106 static inline void volk_32fc_magnitude_32f_generic(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
107  const float* complexVectorPtr = (float*)complexVector;
108  float* magnitudeVectorPtr = magnitudeVector;
109  unsigned int number = 0;
110  for(number = 0; number < num_points; number++){
111  const float real = *complexVectorPtr++;
112  const float imag = *complexVectorPtr++;
113  *magnitudeVectorPtr++ = sqrtf((real*real) + (imag*imag));
114  }
115 }
116 #endif /* LV_HAVE_GENERIC */
117 
118 #endif /* INCLUDED_volk_32fc_magnitude_32f_u_H */
119 #ifndef INCLUDED_volk_32fc_magnitude_32f_a_H
120 #define INCLUDED_volk_32fc_magnitude_32f_a_H
121 
122 #include <inttypes.h>
123 #include <stdio.h>
124 #include <math.h>
125 
126 #ifdef LV_HAVE_SSE3
127 #include <pmmintrin.h>
128  /*!
129  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
130  \param complexVector The vector containing the complex input values
131  \param magnitudeVector The vector containing the real output values
132  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
133  */
134 static inline void volk_32fc_magnitude_32f_a_sse3(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
135  unsigned int number = 0;
136  const unsigned int quarterPoints = num_points / 4;
137 
138  const float* complexVectorPtr = (float*)complexVector;
139  float* magnitudeVectorPtr = magnitudeVector;
140 
141  __m128 cplxValue1, cplxValue2, result;
142  for(;number < quarterPoints; number++){
143  cplxValue1 = _mm_load_ps(complexVectorPtr);
144  complexVectorPtr += 4;
145 
146  cplxValue2 = _mm_load_ps(complexVectorPtr);
147  complexVectorPtr += 4;
148 
149  cplxValue1 = _mm_mul_ps(cplxValue1, cplxValue1); // Square the values
150  cplxValue2 = _mm_mul_ps(cplxValue2, cplxValue2); // Square the Values
151 
152  result = _mm_hadd_ps(cplxValue1, cplxValue2); // Add the I2 and Q2 values
153 
154  result = _mm_sqrt_ps(result);
155 
156  _mm_store_ps(magnitudeVectorPtr, result);
157  magnitudeVectorPtr += 4;
158  }
159 
160  number = quarterPoints * 4;
161  for(; number < num_points; number++){
162  float val1Real = *complexVectorPtr++;
163  float val1Imag = *complexVectorPtr++;
164  *magnitudeVectorPtr++ = sqrtf((val1Real * val1Real) + (val1Imag * val1Imag));
165  }
166 }
167 #endif /* LV_HAVE_SSE3 */
168 
169 #ifdef LV_HAVE_SSE
170 #include <xmmintrin.h>
171  /*!
172  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
173  \param complexVector The vector containing the complex input values
174  \param magnitudeVector The vector containing the real output values
175  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
176  */
177 static inline void volk_32fc_magnitude_32f_a_sse(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
178  unsigned int number = 0;
179  const unsigned int quarterPoints = num_points / 4;
180 
181  const float* complexVectorPtr = (float*)complexVector;
182  float* magnitudeVectorPtr = magnitudeVector;
183 
184  __m128 cplxValue1, cplxValue2, iValue, qValue, result;
185  for(;number < quarterPoints; number++){
186  cplxValue1 = _mm_load_ps(complexVectorPtr);
187  complexVectorPtr += 4;
188 
189  cplxValue2 = _mm_load_ps(complexVectorPtr);
190  complexVectorPtr += 4;
191 
192  // Arrange in i1i2i3i4 format
193  iValue = _mm_shuffle_ps(cplxValue1, cplxValue2, _MM_SHUFFLE(2,0,2,0));
194  // Arrange in q1q2q3q4 format
195  qValue = _mm_shuffle_ps(cplxValue1, cplxValue2, _MM_SHUFFLE(3,1,3,1));
196 
197  iValue = _mm_mul_ps(iValue, iValue); // Square the I values
198  qValue = _mm_mul_ps(qValue, qValue); // Square the Q Values
199 
200  result = _mm_add_ps(iValue, qValue); // Add the I2 and Q2 values
201 
202  result = _mm_sqrt_ps(result);
203 
204  _mm_store_ps(magnitudeVectorPtr, result);
205  magnitudeVectorPtr += 4;
206  }
207 
208  number = quarterPoints * 4;
209  for(; number < num_points; number++){
210  float val1Real = *complexVectorPtr++;
211  float val1Imag = *complexVectorPtr++;
212  *magnitudeVectorPtr++ = sqrtf((val1Real * val1Real) + (val1Imag * val1Imag));
213  }
214 }
215 #endif /* LV_HAVE_SSE */
216 
217 #ifdef LV_HAVE_GENERIC
218  /*!
219  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
220  \param complexVector The vector containing the complex input values
221  \param magnitudeVector The vector containing the real output values
222  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
223  */
224 static inline void volk_32fc_magnitude_32f_a_generic(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
225  const float* complexVectorPtr = (float*)complexVector;
226  float* magnitudeVectorPtr = magnitudeVector;
227  unsigned int number = 0;
228  for(number = 0; number < num_points; number++){
229  const float real = *complexVectorPtr++;
230  const float imag = *complexVectorPtr++;
231  *magnitudeVectorPtr++ = sqrtf((real*real) + (imag*imag));
232  }
233 }
234 #endif /* LV_HAVE_GENERIC */
235 
236 #ifdef LV_HAVE_ORC
237  /*!
238  \brief Calculates the magnitude of the complexVector and stores the results in the magnitudeVector
239  \param complexVector The vector containing the complex input values
240  \param magnitudeVector The vector containing the real output values
241  \param num_points The number of complex values in complexVector to be calculated and stored into cVector
242  */
243 extern void volk_32fc_magnitude_32f_a_orc_impl(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points);
244 static inline void volk_32fc_magnitude_32f_u_orc(float* magnitudeVector, const lv_32fc_t* complexVector, unsigned int num_points){
245  volk_32fc_magnitude_32f_a_orc_impl(magnitudeVector, complexVector, num_points);
246 }
247 #endif /* LV_HAVE_ORC */
248 
249 
250 #endif /* INCLUDED_volk_32fc_magnitude_32f_a_H */
float complex lv_32fc_t
Definition: volk_complex.h:56