#include "main_FIX.h"
#include "tuning_parameters.h"
-/* Compute gain to make warped filter coefficients have a zero mean log frequency response on a */
-/* non-warped frequency scale. (So that it can be implemented with a minimum-phase monic filter.) */
-/* Note: A monic filter is one with the first coefficient equal to 1.0. In Silk
- we omit the first coefficient in an array of coefficients, for monic filters.
-*/
+/* Compute gain to make warped filter coefficients have a zero mean log frequency response on a */
+/* non-warped frequency scale. (So that it can be implemented with a minimum-phase monic filter.) */
+/* Note: A monic filter is one with the first coefficient equal to 1.0. In Silk we omit the first */
+/* coefficient in an array of coefficients, for monic filters. */
static inline opus_int32 warped_gain( /* gain in Q16*/
const opus_int32 *coefs_Q24,
opus_int lambda_Q16,
#include "main_FLP.h"
#include "tuning_parameters.h"
-/* Compute gain to make warped filter coefficients have a zero mean log frequency response on a */
-/* non-warped frequency scale. (So that it can be implemented with a minimum-phase monic filter.) */
-/* Note: A monic filter is one with the first coefficient equal to 1.0. In Silk
- we omit the first coefficient in an array of coefficients, for monic filters.
-*/
+/* Compute gain to make warped filter coefficients have a zero mean log frequency response on a */
+/* non-warped frequency scale. (So that it can be implemented with a minimum-phase monic filter.) */
+/* Note: A monic filter is one with the first coefficient equal to 1.0. In Silk we omit the first */
+/* coefficient in an array of coefficients, for monic filters. */
static inline silk_float warped_gain(
const silk_float *coefs,
silk_float lambda,
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