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fix tones stuff on 64bit 

git-svn-id: http://svn.openzap.org/svn/openzap/trunk@263 a93c3328-9c30-0410-af19-c9cd2b2d52af
This commit is contained in:
Anthony Minessale 2007-06-16 00:18:56 +00:00
parent e06ddca9e7
commit ba4244b28b
2 changed files with 23 additions and 34 deletions
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19
libs/openzap/src/include/libteletone_detect.h
View File

@ -136,9 +136,9 @@ extern "C" {
/*! \brief A continer for the elements of a Goertzel Algorithm (The names are from his formula) */
typedef struct {
teletone_process_t v2;
teletone_process_t v3;
teletone_process_t fac;
float v2;
float v3;
double fac;
} teletone_goertzel_state_t;
/*! \brief A container for a DTMF detection state.*/
@ -153,7 +153,7 @@ extern "C" {
teletone_goertzel_state_t col_out[GRID_FACTOR];
teletone_goertzel_state_t row_out2nd[GRID_FACTOR];
teletone_goertzel_state_t col_out2nd[GRID_FACTOR];
teletone_process_t energy;
float energy;
int current_sample;
char digits[TELETONE_MAX_DTMF_DIGITS + 1];
@ -165,7 +165,7 @@ extern "C" {
/*! \brief An abstraction to store the coefficient of a tone frequency */
typedef struct {
teletone_process_t fac;
float fac;
} teletone_detection_descriptor_t;
/*! \brief A container for a single multi-tone detection
@ -180,7 +180,7 @@ extern "C" {
teletone_goertzel_state_t gs2[TELETONE_MAX_TONES];
int tone_count;
teletone_process_t energy;
float energy;
int current_sample;
int min_samples;
@ -253,13 +253,6 @@ extern "C" {
int16_t sample_buffer[],
int samples);
/*!
\brief Compute the result of the last applied step of the Goertzel Algorithm
\param goertzel_state the goertzel state to retrieve from
\return the computed value for consideration in furthur audio tests
*/
teletone_process_t teletone_goertzel_result (teletone_goertzel_state_t *goertzel_state);
#ifdef __cplusplus

38
libs/openzap/src/libteletone_detect.c
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@ -106,9 +106,8 @@ static teletone_detection_descriptor_t dtmf_detect_col[GRID_FACTOR];
static teletone_detection_descriptor_t dtmf_detect_row_2nd[GRID_FACTOR];
static teletone_detection_descriptor_t dtmf_detect_col_2nd[GRID_FACTOR];
static teletone_process_t dtmf_row[] = {697.0, 770.0, 852.0, 941.0};
static teletone_process_t dtmf_col[] = {1209.0, 1336.0, 1477.0, 1633.0};
static float dtmf_row[] = {697.0f, 770.0f, 852.0f, 941.0f};
static float dtmf_col[] = {1209.0f, 1336.0f, 1477.0f, 1633.0f};
static char dtmf_positions[] = "123A" "456B" "789C" "*0#D";
@ -122,7 +121,7 @@ void teletone_goertzel_update(teletone_goertzel_state_t *goertzel_state,
int samples)
{
int i;
teletone_process_t v1;
float v1;
for (i = 0; i < samples; i++) {
v1 = goertzel_state->v2;
@ -131,29 +130,26 @@ void teletone_goertzel_update(teletone_goertzel_state_t *goertzel_state,
}
}
teletone_process_t teletone_goertzel_result (teletone_goertzel_state_t *goertzel_state)
{
return goertzel_state->v3 * goertzel_state->v3 + goertzel_state->v2 * goertzel_state->v2 - goertzel_state->v2 * goertzel_state->v3 * goertzel_state->fac;
}
#define teletone_goertzel_result(gs) ((gs)->v3 * (gs)->v3 + (gs)->v2 * (gs)->v2 - (gs)->v2 * (gs)->v3 * (gs)->fac)
void teletone_dtmf_detect_init (teletone_dtmf_detect_state_t *dtmf_detect_state, int sample_rate)
{
int i;
teletone_process_t theta;
float theta;
dtmf_detect_state->hit1 = dtmf_detect_state->hit2 = 0;
for (i = 0; i < GRID_FACTOR; i++) {
theta = M_TWO_PI*(dtmf_row[i]/(teletone_process_t)sample_rate);
theta = M_TWO_PI*(dtmf_row[i]/(float)sample_rate);
dtmf_detect_row[i].fac = 2.0*cos(theta);
theta = M_TWO_PI*(dtmf_col[i]/(teletone_process_t)sample_rate);
theta = M_TWO_PI*(dtmf_col[i]/(float)sample_rate);
dtmf_detect_col[i].fac = 2.0*cos(theta);
theta = M_TWO_PI*(dtmf_row[i]*2.0/(teletone_process_t)sample_rate);
theta = M_TWO_PI*(dtmf_row[i]*2.0/(float)sample_rate);
dtmf_detect_row_2nd[i].fac = 2.0*cos(theta);
theta = M_TWO_PI*(dtmf_col[i]*2.0/(teletone_process_t)sample_rate);
theta = M_TWO_PI*(dtmf_col[i]*2.0/(float)sample_rate);
dtmf_detect_col_2nd[i].fac = 2.0*cos(theta);
goertzel_init (&dtmf_detect_state->row_out[i], &dtmf_detect_row[i]);
@ -172,7 +168,7 @@ void teletone_dtmf_detect_init (teletone_dtmf_detect_state_t *dtmf_detect_state,
void teletone_multi_tone_init(teletone_multi_tone_t *mt, teletone_tone_map_t *map)
{
teletone_process_t theta = 0;
float theta = 0;
int x = 0;
if(!mt->min_samples) {
@ -200,7 +196,7 @@ void teletone_multi_tone_init(teletone_multi_tone_t *mt, teletone_tone_map_t *ma
break;
}
mt->tone_count++;
theta = M_TWO_PI*(map->freqs[x]/(teletone_process_t)mt->sample_rate);
theta = M_TWO_PI*(map->freqs[x]/(float)mt->sample_rate);
mt->tdd[x].fac = 2.0 * cos(theta);
goertzel_init (&mt->gs[x], &mt->tdd[x]);
goertzel_init (&mt->gs2[x], &mt->tdd[x]);
@ -213,8 +209,8 @@ int teletone_multi_tone_detect (teletone_multi_tone_t *mt,
int samples)
{
int sample, limit, j, x = 0;
teletone_process_t v1, famp;
teletone_process_t eng_sum = 0, eng_all[TELETONE_MAX_TONES];
float v1, famp;
float eng_sum = 0, eng_all[TELETONE_MAX_TONES];
int gtest = 0, see_hit = 0;
for (sample = 0; sample < samples; sample = limit) {
@ -299,10 +295,10 @@ int teletone_dtmf_detect (teletone_dtmf_detect_state_t *dtmf_detect_state,
int16_t sample_buffer[],
int samples)
{
teletone_process_t row_energy[GRID_FACTOR];
teletone_process_t col_energy[GRID_FACTOR];
teletone_process_t famp;
teletone_process_t v1;
float row_energy[GRID_FACTOR];
float col_energy[GRID_FACTOR];
float famp;
float v1;
int i;
int j;
int sample;