// Make Low DIT
for ( i = 0; i < TRANSITION_BYTES; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / LO_FREQUENCY) ) )
* ((double)i / TRANSITION_BYTES)
/ 2.0 + 0.5;
for ( i = TRANSITION_BYTES;
i < DIT_SIZE - TRANSITION_BYTES - COUNT_SIZE; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / LO_FREQUENCY) ) )
/ 2.0 + 0.5;
for ( i = DIT_SIZE - TRANSITION_BYTES - COUNT_SIZE;
i < DIT_SIZE - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / LO_FREQUENCY) ) )
* ((double)j / TRANSITION_BYTES) / 2.0 + 0.5;
--j;
// Make High DIT
for ( i = 0; i < TRANSITION_BYTES; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / HI_FREQUENCY)) )
* ((double)i / TRANSITION_BYTES) / 2.0 + 0.5;
for ( i = TRANSITION_BYTES;
i < DIT_SIZE - TRANSITION_BYTES - COUNT_SIZE; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / HI_FREQUENCY) ) )
/ 2.0 + 0.5;
for ( i = DIT_SIZE - TRANSITION_BYTES - COUNT_SIZE;
i < DIT_SIZE - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / HI_FREQUENCY) ) )
* ((double)j / TRANSITION_BYTES) / 2.0 + 0.5;
--j;
// Make Low DAH
for ( i = 0; i < TRANSITION_BYTES; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / LO_FREQUENCY) ) )
* ((double)i / TRANSITION_BYTES) / 2.0 + 0.5;
for ( i = TRANSITION_BYTES;
i < DAH_SIZE - TRANSITION_BYTES - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / LO_FREQUENCY) ) )
/ 2.0 + 0.5;
for ( i = DAH_SIZE - TRANSITION_BYTES - COUNT_SIZE;
i < DAH_SIZE - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / LO_FREQUENCY) ) )
* ((double)j / TRANSITION_BYTES) / 2.0 + 0.5;
--j;
// Make High DAH
for ( i = 0; i < TRANSITION_BYTES; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / HI_FREQUENCY) ) )
* ((double)i / TRANSITION_BYTES) / 2.0 + 0.5;
for ( i = TRANSITION_BYTES;
i < DAH_SIZE - TRANSITION_BYTES - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / HI_FREQUENCY) ) )
/ 2.0 + 0.5;
for ( i = DAH_SIZE - TRANSITION_BYTES - COUNT_SIZE;
i < DAH_SIZE - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI
+ float level = ( sin( (double) i * 2.0 * SG_PI
/ (8000.0 / HI_FREQUENCY) ) )
* ((double)j / TRANSITION_BYTES) / 2.0 + 0.5;
--j;
// Make DIT
for ( i = 0; i < TRANSITION_BYTES; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI / (8000.0 / freq)) )
+ float level = ( sin( (double) i * 2.0 * SG_PI / (8000.0 / freq)) )
* ((double)i / TRANSITION_BYTES) / 2.0 + 0.5;
/* Convert to unsigned byte */
for ( i = TRANSITION_BYTES;
i < DIT_SIZE - TRANSITION_BYTES - COUNT_SIZE; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI / (8000.0 / freq) ) )
+ float level = ( sin( (double) i * 2.0 * SG_PI / (8000.0 / freq) ) )
/ 2.0 + 0.5;
/* Convert to unsigned byte */
for ( i = DIT_SIZE - TRANSITION_BYTES - COUNT_SIZE;
i < DIT_SIZE - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI / (8000.0 / freq) ) )
+ float level = ( sin( (double) i * 2.0 * SG_PI / (8000.0 / freq) ) )
* ((double)j / TRANSITION_BYTES) / 2.0 + 0.5;
--j;
// Make DAH
for ( i = 0; i < TRANSITION_BYTES; ++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI / (8000.0 / freq) ) )
+ float level = ( sin( (double) i * 2.0 * SG_PI / (8000.0 / freq) ) )
* ((double)i / TRANSITION_BYTES) / 2.0 + 0.5;
/* Convert to unsigned byte */
for ( i = TRANSITION_BYTES;
i < DAH_SIZE - TRANSITION_BYTES - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI / (8000.0 / freq) ) )
+ float level = ( sin( (double) i * 2.0 * SG_PI / (8000.0 / freq) ) )
/ 2.0 + 0.5;
/* Convert to unsigned byte */
for ( i = DAH_SIZE - TRANSITION_BYTES - COUNT_SIZE;
i < DAH_SIZE - COUNT_SIZE;
++i ) {
- float level = ( sin( (double) i * 2.0 * FG_PI / (8000.0 / freq) ) )
+ float level = ( sin( (double) i * 2.0 * SG_PI / (8000.0 / freq) ) )
* ((double)j / TRANSITION_BYTES) / 2.0 + 0.5;
--j;