#include "MFCCF32.h"
#include <stdio.h>
#include "Error.h"
#include "mfccdata.h"
#define SNR_THRESHOLD 115
/*
Reference patterns are generated with
a double precision computation.
*/
#define REL_ERROR (1.2e-3)
void MFCCF32::test_mfcc_f32()
{
const float32_t *inp1=input1.ptr();
float32_t *tmpinp=tmpin.ptr();
float32_t *outp=output.ptr();
float32_t *tmpp=tmp.ptr();
memcpy((void*)tmpinp,(void*)inp1,sizeof(float32_t)*this->fftLen);
arm_mfcc_f32(&mfcc,tmpinp,outp,tmpp);
ASSERT_EMPTY_TAIL(output);
ASSERT_SNR(output,ref,(float32_t)SNR_THRESHOLD);
ASSERT_REL_ERROR(output,ref,REL_ERROR);
}
void MFCCF32::setUp(Testing::testID_t id,std::vector<Testing::param_t>& params,Client::PatternMgr *mgr)
{
(void)params;
Testing::nbSamples_t nb=MAX_NB_SAMPLES;
switch(id)
{
case MFCCF32::TEST_MFCC_F32_1:
{
nb = 256;
this->fftLen = nb;
ref.reload(MFCCF32::REF_MFCC_NOISE_256_F32_ID,mgr,nb);
input1.reload(MFCCF32::INPUTS_MFCC_NOISE_256_F32_ID,mgr,nb);
arm_mfcc_init_f32(&mfcc,
nb,20,13,mfcc_dct_coefs_config1_f32,
mfcc_filter_pos_config3_f32,mfcc_filter_len_config3_f32,
mfcc_filter_coefs_config3_f32,
mfcc_window_coefs_config3_f32);
tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr);
tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr);
}
break;
case MFCCF32::TEST_MFCC_F32_2:
{
nb = 512;
this->fftLen = nb;
ref.reload(MFCCF32::REF_MFCC_NOISE_512_F32_ID,mgr,nb);
input1.reload(MFCCF32::INPUTS_MFCC_NOISE_512_F32_ID,mgr,nb);
arm_mfcc_init_f32(&mfcc,
nb,20,13,mfcc_dct_coefs_config1_f32,
mfcc_filter_pos_config2_f32,mfcc_filter_len_config2_f32,
mfcc_filter_coefs_config2_f32,
mfcc_window_coefs_config2_f32);
tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr);
tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr);
}
break;
case MFCCF32::TEST_MFCC_F32_3:
{
nb = 1024;
this->fftLen = nb;
ref.reload(MFCCF32::REF_MFCC_NOISE_1024_F32_ID,mgr,nb);
input1.reload(MFCCF32::INPUTS_MFCC_NOISE_1024_F32_ID,mgr,nb);
arm_mfcc_init_f32(&mfcc,
nb,20,13,mfcc_dct_coefs_config1_f32,
mfcc_filter_pos_config1_f32,mfcc_filter_len_config1_f32,
mfcc_filter_coefs_config1_f32,
mfcc_window_coefs_config1_f32);
tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr);
tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr);
}
break;
case MFCCF32::TEST_MFCC_F32_4:
{
nb = 256;
this->fftLen = nb;
ref.reload(MFCCF32::REF_MFCC_SINE_256_F32_ID,mgr,nb);
input1.reload(MFCCF32::INPUTS_MFCC_SINE_256_F32_ID,mgr,nb);
arm_mfcc_init_f32(&mfcc,
nb,20,13,mfcc_dct_coefs_config1_f32,
mfcc_filter_pos_config3_f32,mfcc_filter_len_config3_f32,
mfcc_filter_coefs_config3_f32,
mfcc_window_coefs_config3_f32);
tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr);
tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr);
}
break;
case MFCCF32::TEST_MFCC_F32_5:
{
nb = 512;
this->fftLen = nb;
ref.reload(MFCCF32::REF_MFCC_SINE_512_F32_ID,mgr,nb);
input1.reload(MFCCF32::INPUTS_MFCC_SINE_512_F32_ID,mgr,nb);
arm_mfcc_init_f32(&mfcc,
nb,20,13,mfcc_dct_coefs_config1_f32,
mfcc_filter_pos_config2_f32,mfcc_filter_len_config2_f32,
mfcc_filter_coefs_config2_f32,
mfcc_window_coefs_config2_f32);
tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr);
tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr);
}
break;
case MFCCF32::TEST_MFCC_F32_6:
{
nb = 1024;
this->fftLen = nb;
ref.reload(MFCCF32::REF_MFCC_SINE_1024_F32_ID,mgr,nb);
input1.reload(MFCCF32::INPUTS_MFCC_SINE_1024_F32_ID,mgr,nb);
arm_mfcc_init_f32(&mfcc,
nb,20,13,mfcc_dct_coefs_config1_f32,
mfcc_filter_pos_config1_f32,mfcc_filter_len_config1_f32,
mfcc_filter_coefs_config1_f32,
mfcc_window_coefs_config1_f32);
tmp.create(2*nb,MFCCF32::TMP_MFCC_F32_ID,mgr);
tmpin.create(nb,MFCCF32::TMPIN_MFCC_F32_ID,mgr);
}
break;
}
output.create(ref.nbSamples(),MFCCF32::OUTPUT_MFCC_F32_ID,mgr);
}
void MFCCF32::tearDown(Testing::testID_t id,Client::PatternMgr *mgr)
{
(void)id;
(void)mgr;
//output.dump(mgr);
}