diff options
Diffstat (limited to 'src/crossfade.c')
| -rw-r--r-- | src/crossfade.c | 94 |
1 files changed, 85 insertions, 9 deletions
diff --git a/src/crossfade.c b/src/crossfade.c index 57a6c0d1..50a35f69 100644 --- a/src/crossfade.c +++ b/src/crossfade.c @@ -26,34 +26,111 @@ #include <assert.h> #include <string.h> +#include <stdlib.h> +#include <glib.h> + +#undef G_LOG_DOMAIN +#define G_LOG_DOMAIN "crossfade" + +static float mixramp_interpolate(char *ramp_list, float required_db) +{ + float db, secs, last_db = nan(""), last_secs = 0; + char *ramp_str, *save_str = NULL; + + /* ramp_list is a string of pairs of dBs and seconds that describe the + * volume profile. Delimiters are semi-colons between pairs and spaces + * between the dB and seconds of a pair. + * The dB values must be monotonically increasing for this to work. */ + + while (1) { + /* Parse the dB tokens out of the input string. */ + ramp_str = strtok_r(ramp_list, " ", &save_str); + + /* Tell strtok to continue next time round. */ + ramp_list = NULL; + + /* Parse the dB value. */ + if (NULL == ramp_str) { + return nan(""); + } + db = (float)atof(ramp_str); + + /* Parse the time. */ + ramp_str = strtok_r(NULL, ";", &save_str); + if (NULL == ramp_str) { + return nan(""); + } + secs = (float)atof(ramp_str); + + /* Check for exact match. */ + if (db == required_db) { + return secs; + } + + /* Save if too quiet. */ + if (db < required_db) { + last_db = db; + last_secs = secs; + continue; + } + + /* If required db < any stored value, use the least. */ + if (isnan(last_db)) { + return secs; + } + + /* Finally, interpolate linearly. */ + secs = last_secs + (required_db - last_db) * (secs - last_secs) / (db - last_db); + return secs; + } +} unsigned cross_fade_calc(float duration, float total_time, + float mixramp_db, float mixramp_delay, + char *mixramp_start, char *mixramp_prev_end, const struct audio_format *af, const struct audio_format *old_format, unsigned max_chunks) { - unsigned int chunks; + unsigned int chunks = 0; + float chunks_f; + float mixramp_overlap; - if (duration <= 0 || duration >= total_time || + if (duration < 0 || duration >= total_time || /* we can't crossfade when the audio formats are different */ !audio_format_equals(af, old_format)) return 0; - assert(duration > 0); + assert(duration >= 0); assert(audio_format_valid(af)); - chunks = audio_format_time_to_size(af) / CHUNK_SIZE; - chunks = (chunks * duration + 0.5); + chunks_f = (float)audio_format_time_to_size(af) / (float)CHUNK_SIZE; + + if (isnan(mixramp_delay) || !(mixramp_start) || !(mixramp_prev_end)) { + chunks = (chunks_f * duration + 0.5); + } else { + /* Calculate mixramp overlap. + * FIXME factor in ReplayGain for both songs. */ + mixramp_overlap = mixramp_interpolate(mixramp_start, mixramp_db) + + mixramp_interpolate(mixramp_prev_end, mixramp_db); + if (!isnan(mixramp_overlap) && (mixramp_delay <= mixramp_overlap)) { + chunks = (chunks_f * (mixramp_overlap - mixramp_delay)); + g_debug("will overlap %d chunks, %fs", chunks, + mixramp_overlap - mixramp_delay); + } + } - if (chunks > max_chunks) + if (chunks > max_chunks) { chunks = max_chunks; + g_warning("audio_buffer_size too small for computed MixRamp overlap"); + } return chunks; } void cross_fade_apply(struct music_chunk *a, const struct music_chunk *b, const struct audio_format *format, - unsigned int current_chunk, unsigned int num_chunks) + float mix_ratio) { size_t size; @@ -61,7 +138,6 @@ void cross_fade_apply(struct music_chunk *a, const struct music_chunk *b, assert(b != NULL); assert(a->length == 0 || b->length == 0 || audio_format_equals(&a->audio_format, &b->audio_format)); - assert(current_chunk <= num_chunks); if (a->tag == NULL && b->tag != NULL) /* merge the tag into the destination chunk */ @@ -75,7 +151,7 @@ void cross_fade_apply(struct music_chunk *a, const struct music_chunk *b, b->data, size, format, - ((float)current_chunk) / num_chunks); + mix_ratio); if (b->length > a->length) { /* the second buffer is larger than the first one: |