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lpctest.c
#include <sp/spBaseLib.h>
#include <sp/spLib.h>
#include <sp/spWave.h>
#include <sp/fft.h>
#include <sp/lpc.h>
#include <sp/spMain.h>
#define LPCTEST_BUF_LENGTH 2048
long buf_length = LPCTEST_BUF_LENGTH;
long order;
long frame_start;
long frame_length;
int debug_level;
spBool help_flag;
static spOptions options;
static spOption option[] = {
{"-order", NULL, "analysis order", NULL,
SP_TYPE_LONG, &order, "10"},
{"-st", "-start", "analysis start point", NULL,
SP_TYPE_LONG, &frame_start, "0"},
{"-frame", NULL, "frame length", NULL,
SP_TYPE_LONG, &frame_length, "256"},
{"-debug", NULL, "debug level", NULL,
SP_TYPE_INT, &debug_level, NULL},
{"-h", "-help", "display this message", NULL,
SP_TYPE_BOOLEAN, &help_flag, SP_FALSE_STRING},
};
static char *filelabel[] = {
"<input file>",
};
int spMain(int argc, char *argv[])
{
long k;
const char *input_file;
spPlugin *i_plugin;
spWaveInfo wave_info;
long read_length;
long fftl;
double resid;
spDVector ana_buf, window;
spDVector cor, cor2, alpha, parcor, psd, psdfft, vtar, logvtar, vta;
spDVector ovtar, ovta, oparcor, oalpha, ocor;
spFFTRec fftrec;
/* get command line options */
spSetHelpMessage(&help_flag, "LPC test");
options = spGetOptions(argc, argv, option, filelabel);
spGetOptionsValue(argc, argv, options);
spSetDebugLevel(debug_level);
spCheckNumFile(options);
if (frame_length <= 0) {
spError(1, "Frame length must be larger than 0.");
}
if (order <= 0) {
spError(1, "Analysis order must be larger than 0.");
}
frame_start = MAX(frame_start, 0);
input_file = spGetFile(options);
spDebug(-1, "main", "input_file = %s\n", input_file);
spInitWaveInfo(&wave_info);
if ((i_plugin = spOpenFilePluginArg(NULL, input_file, "r",
SP_PLUGIN_DEVICE_FILE,
&wave_info, NULL, 0, NULL, NULL)) != NULL) {
ana_buf = xdvalloc(frame_length);
spSeekPlugin(i_plugin, frame_start);
if ((read_length = spReadPluginDouble(i_plugin, ana_buf->data, ana_buf->length)) > 0) {
spDebug(-1, "main", "read_length = %ld, frame_length = %ld\n", read_length, frame_length);
for (k = read_length; k < ana_buf->length; k++) {
ana_buf->data[k] = 0.0;
}
#if 0
for (k = 0; k < read_length; k++) {
printf("%f\n", ana_buf->data[k]);
}
#endif
fftl = POW2(spNextPow2(frame_length));
cor = xdvalloc(order + 1);
alpha = xdvalloc(order);
psd = xdvalloc(fftl / 2 + 1);
psdfft = xdvalloc(fftl);
parcor = xdvalloc(order);
vtar = xdvalloc(order);
logvtar = xdvalloc(order);
vta = xdvalloc(order);
ovtar = xdvalloc(order);
ovta = xdvalloc(order);
oparcor = xdvalloc(order);
oalpha = xdvalloc(order);
ocor = xdvalloc(order + 1);
window = xdvhamming(frame_length);
dvoper(ana_buf, "*", window);
spSigToCor(ana_buf->data, frame_length, cor->data, order + 1);
#if 1
if ((fftrec = spInitFFT(spNextPow2(frame_length), SP_FFT_DOUBLE_PRECISION)) != NULL) {
cor2 = xdvalloc(order + 1);
#if 0
spSigToCorFFT(fftrec, ana_buf->data, frame_length, cor2->data, order + 1);
#else
{
spDVector spec;
spec = xdvalloc(spGetFFTLength(fftrec));
spCorToSpecFFT(fftrec, cor->data, cor->length, spec->data, spec->length, 0.0);
#if 0
for (k = 0; k < spec->length; k++) {
printf("%f\n", spec->data[k]);
}
#endif
spSpecToCorFFT(fftrec, spec->data, spec->length, cor2->data, cor2->length, 0.0);
xdvfree(spec);
}
#endif
#if 0
for (k = 0; k < cor->length; k++) {
printf("%f %f\n", cor->data[k], cor2->data[k]);
}
#endif
xdvfree(cor2);
spFreeFFT(fftrec);
}
#endif
/* auto-correlation --> PARCOR coefficients */
spCorToParcor(cor->data, alpha->data, parcor->data, order, &resid);
spDebug(-1, "main", "resid = %f\n", resid);
/* alpha --> power spectrum density */
spAlphaToPSD(alpha->data, order, /*resid*/1.0, psd->data, psd->length);
spAlphaToPSDFFT(alpha->data, order, /*resid*/1.0, psdfft->data, psdfft->length);
#if 0
for (k = 0; k < psd->length; k++) {
printf("%f %f\n", psd->data[k], psdfft->data[k]);
}
#endif
#if 0
/* PARCOR coefficients --> vocal tract area ratio function */
spParcorToVTAreaRatio(parcor->data, vtar->data, order, SP_TRUE);
spParcorToVTAreaRatio(parcor->data, logvtar->data, order, SP_FALSE);
/* PARCOR coefficients --> vocal tract area function */
spParcorToVTArea(parcor->data, ovta->data, order, 1.0);
/* vocal tract area ratio function --> vocal tract area function */
spVTRatioToArea(vtar->data, vta->data, order, 1.0, SP_TRUE);
/* vocal tract area function --> vocal tract area ratio function */
spVTAreaToRatio(vta->data, ovtar->data, order, 1.0, SP_TRUE);
/* vocal tract area ratio function --> PARCOR coefficients */
spVTAreaRatioToParcor(ovtar->data, oparcor->data, order, SP_TRUE);
#else
/* PARCOR coefficients --> vocal tract area ratio function */
spParcorToVTAreaRatio(parcor->data, vtar->data, order, SP_TRUE);
/* PARCOR coefficients --> vocal tract area function */
spParcorToVTArea(parcor->data, vta->data, order, 1.0);
/* vocal tract area function --> vocal tract area ratio function */
spVTAreaToRatio(vta->data, ovtar->data, order, 1.0, SP_TRUE);
spVTAreaToRatio(vta->data, logvtar->data, order, 1.0, SP_FALSE);
/* vocal tract area ratio function --> vocal tract area function */
spVTRatioToArea(ovtar->data, ovta->data, order, 1.0, SP_TRUE);
/* vocal tract area function --> PARCOR coefficients */
spVTAreaToParcor(ovta->data, oparcor->data, order, 1.0);
#endif
/* PARCOR coefficients --> alpha parameter & auto-correlation */
spParcorToCor(oparcor->data, oalpha->data, order, cor->data[0], ocor->data, order + 1, NULL);
#if 1
for (k = 0; k < order; k++) {
printf("%f %f %f %f %f %f %f %f %f %f %f\n",
cor->data[k], ocor->data[k],
alpha->data[k], oalpha->data[k],
parcor->data[k], oparcor->data[k],
vtar->data[k], ovtar->data[k],
vta->data[k], ovta->data[k],
logvtar->data[k]);
}
printf("%f %f\n", cor->data[k], ocor->data[k]);
#endif
xdvfree(window);
xdvfree(cor);
xdvfree(alpha);
xdvfree(psd);
xdvfree(psdfft);
xdvfree(parcor);
xdvfree(vtar);
xdvfree(logvtar);
xdvfree(vta);
xdvfree(ovtar);
xdvfree(ovta);
xdvfree(oparcor);
xdvfree(ocor);
xdvfree(oalpha);
}
xdvfree(ana_buf);
}
return 0;
}
FFTの実行を制御するクラスです.
#define SP_FFT_DOUBLE_PRECISION
Definition fft.h:28
long spGetFFTLength(spFFTRec fftrec)
spFFTRec spInitFFT(long order, spFFTPrecision precision)
spBool spFreeFFT(spFFTRec fftrec)
long spNextPow2(long n)
void spError(int status, const char *format,...)
void spSetDebugLevel(int level)
void spDebug(int level, const char *func_name, const char *format,...)
#define SP_FALSE_STRING
int spBool
#define spGetOptions(argc, argv, option, file_label)
void spCheckNumFile(spOptions options)
struct _spOptions * spOptions
void spGetOptionsValue(int argc, char **argv, spOptions options)
const char * spGetFile(spOptions options)
void spSetHelpMessage(spBool *flag, const char *format,...)
double型を扱うためのベクトル型です.
Definition vector.h:248
double * data
Definition vector.h:256
long length
Definition vector.h:251