1 #include "MFCCF32.h" 2 #include <stdio.h> 3 #include "Error.h" 4 5 #include "mfccdata.h" 6 7 #define SNR_THRESHOLD 115 8 9 /* 10 11 Reference patterns are generated with 12 a double precision computation. 13 14 */ 15 #define REL_ERROR (1.2e-3) 16 17 18 test_mfcc_f32()19 void MFCCF32::test_mfcc_f32() 20 { 21 const float32_t *inp1=input1.ptr(); 22 float32_t *tmpinp=tmpin.ptr(); 23 float32_t *outp=output.ptr(); 24 float32_t *tmpp=tmp.ptr(); 25 26 27 memcpy((void*)tmpinp,(void*)inp1,sizeof(float32_t)*this->fftLen); 28 arm_mfcc_f32(&mfcc,tmpinp,outp,tmpp); 29 30 ASSERT_EMPTY_TAIL(output); 31 32 ASSERT_SNR(output,ref,(float32_t)SNR_THRESHOLD); 33 34 ASSERT_REL_ERROR(output,ref,REL_ERROR); 35 36 } 37 38 setUp(Testing::testID_t id,std::vector<Testing::param_t> & params,Client::PatternMgr * mgr)39 void MFCCF32::setUp(Testing::testID_t id,std::vector<Testing::param_t>& params,Client::PatternMgr *mgr) 40 { 41 42 (void)params; 43 44 Testing::nbSamples_t nb=MAX_NB_SAMPLES; 45 46 47 switch(id) 48 { 49 case MFCCF32::TEST_MFCC_F32_1: 50 { 51 nb = 256; 52 this->fftLen = nb; 53 ref.reload(MFCCF32::REF_MFCC_NOISE_256_F32_ID,mgr,nb); 54 input1.reload(MFCCF32::INPUTS_MFCC_NOISE_256_F32_ID,mgr,nb); 55 arm_mfcc_init_f32(&mfcc, 56 nb,20,13,mfcc_dct_coefs_config1_f32, 57 mfcc_filter_pos_config3_f32,mfcc_filter_len_config3_f32, 58 mfcc_filter_coefs_config3_f32, 59 mfcc_window_coefs_config3_f32); 60 tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr); 61 tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr); 62 } 63 break; 64 65 case MFCCF32::TEST_MFCC_F32_2: 66 { 67 nb = 512; 68 this->fftLen = nb; 69 ref.reload(MFCCF32::REF_MFCC_NOISE_512_F32_ID,mgr,nb); 70 input1.reload(MFCCF32::INPUTS_MFCC_NOISE_512_F32_ID,mgr,nb); 71 arm_mfcc_init_f32(&mfcc, 72 nb,20,13,mfcc_dct_coefs_config1_f32, 73 mfcc_filter_pos_config2_f32,mfcc_filter_len_config2_f32, 74 mfcc_filter_coefs_config2_f32, 75 mfcc_window_coefs_config2_f32); 76 tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr); 77 tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr); 78 } 79 break; 80 case MFCCF32::TEST_MFCC_F32_3: 81 { 82 nb = 1024; 83 this->fftLen = nb; 84 ref.reload(MFCCF32::REF_MFCC_NOISE_1024_F32_ID,mgr,nb); 85 input1.reload(MFCCF32::INPUTS_MFCC_NOISE_1024_F32_ID,mgr,nb); 86 arm_mfcc_init_f32(&mfcc, 87 nb,20,13,mfcc_dct_coefs_config1_f32, 88 mfcc_filter_pos_config1_f32,mfcc_filter_len_config1_f32, 89 mfcc_filter_coefs_config1_f32, 90 mfcc_window_coefs_config1_f32); 91 tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr); 92 tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr); 93 94 } 95 break; 96 97 case MFCCF32::TEST_MFCC_F32_4: 98 { 99 nb = 256; 100 this->fftLen = nb; 101 ref.reload(MFCCF32::REF_MFCC_SINE_256_F32_ID,mgr,nb); 102 input1.reload(MFCCF32::INPUTS_MFCC_SINE_256_F32_ID,mgr,nb); 103 arm_mfcc_init_f32(&mfcc, 104 nb,20,13,mfcc_dct_coefs_config1_f32, 105 mfcc_filter_pos_config3_f32,mfcc_filter_len_config3_f32, 106 mfcc_filter_coefs_config3_f32, 107 mfcc_window_coefs_config3_f32); 108 tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr); 109 tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr); 110 } 111 break; 112 113 case MFCCF32::TEST_MFCC_F32_5: 114 { 115 nb = 512; 116 this->fftLen = nb; 117 ref.reload(MFCCF32::REF_MFCC_SINE_512_F32_ID,mgr,nb); 118 input1.reload(MFCCF32::INPUTS_MFCC_SINE_512_F32_ID,mgr,nb); 119 arm_mfcc_init_f32(&mfcc, 120 nb,20,13,mfcc_dct_coefs_config1_f32, 121 mfcc_filter_pos_config2_f32,mfcc_filter_len_config2_f32, 122 mfcc_filter_coefs_config2_f32, 123 mfcc_window_coefs_config2_f32); 124 tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr); 125 tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr); 126 } 127 break; 128 case MFCCF32::TEST_MFCC_F32_6: 129 { 130 nb = 1024; 131 this->fftLen = nb; 132 ref.reload(MFCCF32::REF_MFCC_SINE_1024_F32_ID,mgr,nb); 133 input1.reload(MFCCF32::INPUTS_MFCC_SINE_1024_F32_ID,mgr,nb); 134 arm_mfcc_init_f32(&mfcc, 135 nb,20,13,mfcc_dct_coefs_config1_f32, 136 mfcc_filter_pos_config1_f32,mfcc_filter_len_config1_f32, 137 mfcc_filter_coefs_config1_f32, 138 mfcc_window_coefs_config1_f32); 139 tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr); 140 tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr); 141 142 } 143 break; 144 145 } 146 147 148 output.create(ref.nbSamples(),MFCCF32::OUTPUT_MFCC_F32_ID,mgr); 149 150 } 151 tearDown(Testing::testID_t id,Client::PatternMgr * mgr)152 void MFCCF32::tearDown(Testing::testID_t id,Client::PatternMgr *mgr) 153 { 154 (void)id; 155 (void)mgr; 156 //output.dump(mgr); 157 } 158