add step processgin

locaal-ai · Sep 16, 2023 · 231825a · 231825a
1 parent cd4dbdb
commit 231825a
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Showing 4 changed files with 79 additions and 65 deletions.
diff --git a/src/transcription-filter-data.h b/src/transcription-filter-data.h
@@ -30,6 +30,8 @@ struct transcription_filter_data {
 	size_t overlap_ms;
 	// How many frames were processed in the last whisper frame (this is dynamic)
 	size_t last_num_frames;
+	// Milliseconds per processing step (e.g. rest of the whisper buffer may be filled with silence)
+	size_t step_size_msec;
 
 	/* PCM buffers */
 	float *copy_buffers[MAX_PREPROC_CHANNELS];

diff --git a/src/transcription-filter.cpp b/src/transcription-filter.cpp
@@ -77,9 +77,6 @@ struct obs_audio_data *transcription_filter_filter_audio(void *data, struct obs_
 
 	{
 		std::lock_guard<std::mutex> lock(*gf->whisper_buf_mutex); // scoped lock
-		obs_log(gf->log_level,
-			"pushing %lu frames to input buffer. current size: %lu (bytes)",
-			(size_t)(audio->frames), gf->input_buffers[0].size);
 		// push back current audio data to input circlebuf
 		for (size_t c = 0; c < gf->channels; c++) {
 			circlebuf_push_back(&gf->input_buffers[c], audio->data[c],
@@ -229,6 +226,9 @@ void transcription_filter_update(void *data, obs_data_t *s)
 	gf->vad_enabled = obs_data_get_bool(s, "vad_enabled");
 	gf->log_words = obs_data_get_bool(s, "log_words");
 	gf->caption_to_stream = obs_data_get_bool(s, "caption_to_stream");
+	bool step_by_step_processing = obs_data_get_bool(s, "step_by_step_processing");
+	gf->step_size_msec = step_by_step_processing ? (int)obs_data_get_int(s, "step_size_msec")
+						     : BUFFER_SIZE_MSEC;
 
 	obs_log(gf->log_level, "transcription_filter: update text source");
 	// update the text source
@@ -382,6 +382,10 @@ void *transcription_filter_create(obs_data_t *settings, obs_source_t *filter)
 	gf->sample_rate = audio_output_get_sample_rate(obs_get_audio());
 	gf->frames = (size_t)((float)gf->sample_rate / (1000.0f / (float)BUFFER_SIZE_MSEC));
 	gf->last_num_frames = 0;
+	bool step_by_step_processing = obs_data_get_bool(settings, "step_by_step_processing");
+	gf->step_size_msec = step_by_step_processing
+				     ? (int)obs_data_get_int(settings, "step_size_msec")
+				     : BUFFER_SIZE_MSEC;
 
 	for (size_t i = 0; i < MAX_AUDIO_CHANNELS; i++) {
 		circlebuf_init(&gf->input_buffers[i]);
@@ -469,6 +473,8 @@ void transcription_filter_defaults(obs_data_t *s)
 	obs_data_set_default_string(s, "whisper_model_path", "models/ggml-tiny.en.bin");
 	obs_data_set_default_string(s, "whisper_language_select", "en");
 	obs_data_set_default_string(s, "subtitle_sources", "none");
+	obs_data_set_default_bool(s, "step_by_step_processing", false);
+	obs_data_set_default_int(s, "step_size_msec", 1000);
 
 	// Whisper parameters
 	obs_data_set_default_int(s, "whisper_sampling_method", WHISPER_SAMPLING_BEAM_SEARCH);
@@ -508,6 +514,20 @@ obs_properties_t *transcription_filter_properties(void *data)
 	obs_property_list_add_int(list, "WARNING", LOG_WARNING);
 	obs_properties_add_bool(ppts, "log_words", "Log output words");
 	obs_properties_add_bool(ppts, "caption_to_stream", "Stream captions");
+	obs_property_t *step_by_step_processing =
+		obs_properties_add_bool(ppts, "step_by_step_processing", "Step-by-step processing");
+	obs_properties_add_int_slider(ppts, "step_size_msec", "Step size (ms)", 500,
+				      BUFFER_SIZE_MSEC, 50);
+
+	obs_property_set_modified_callback(step_by_step_processing, [](obs_properties_t *props,
+								       obs_property_t *property,
+								       obs_data_t *settings) {
+		UNUSED_PARAMETER(property);
+		// Show/Hide the step size input
+		obs_property_set_visible(obs_properties_get(props, "step_size_msec"),
+					 obs_data_get_bool(settings, "step_by_step_processing"));
+		return true;
+	});
 
 	obs_property_t *subs_output =
 		obs_properties_add_list(ppts, "subtitle_sources", "Subtitles Output",

diff --git a/src/whisper-processing.cpp b/src/whisper-processing.cpp
@@ -148,7 +148,7 @@ struct DetectionResultWithText run_whisper_inference(struct transcription_filter
 				to_timestamp(t1).c_str(), sentence_p, text_lower.c_str());
 		}
 
-		if (text_lower.empty()) {
+		if (text_lower.empty() || text_lower == ".") {
 			return {DETECTION_RESULT_SILENCE, ""};
 		}
 
@@ -160,68 +160,66 @@ void process_audio_from_buffer(struct transcription_filter_data *gf)
 {
 	uint32_t num_new_frames_from_infos = 0;
 	uint64_t start_timestamp = 0;
+	bool last_step_in_segment = false;
 
 	{
 		// scoped lock the buffer mutex
 		std::lock_guard<std::mutex> lock(*gf->whisper_buf_mutex);
 
-		// We need (gf->frames - gf->overlap_frames) new frames to run inference,
-		// except for the first segment, where we need the whole gf->frames frames
-		size_t how_many_frames_needed = gf->frames - gf->overlap_frames;
-		if (gf->last_num_frames == 0) {
-			how_many_frames_needed = gf->frames;
-		}
+		// We need (gf->frames - gf->last_num_frames) new frames for a full segment,
+		const size_t remaining_frames_to_full_segment = gf->frames - gf->last_num_frames;
 
 		// pop infos from the info buffer and mark the beginning timestamp from the first
 		// info as the beginning timestamp of the segment
 		struct transcription_filter_audio_info info_from_buf = {0};
-		while (gf->info_buffer.size >= sizeof(struct transcription_filter_audio_info)) {
-			circlebuf_pop_front(&gf->info_buffer, &info_from_buf,
-					    sizeof(struct transcription_filter_audio_info));
+		const size_t size_of_audio_info = sizeof(struct transcription_filter_audio_info);
+		while (gf->info_buffer.size >= size_of_audio_info) {
+			circlebuf_pop_front(&gf->info_buffer, &info_from_buf, size_of_audio_info);
 			num_new_frames_from_infos += info_from_buf.frames;
 			if (start_timestamp == 0) {
 				start_timestamp = info_from_buf.timestamp;
 			}
-			obs_log(gf->log_level, "popped %d frames from info buffer, %lu needed",
-				num_new_frames_from_infos, how_many_frames_needed);
 			// Check if we're within the needed segment length
-			if (num_new_frames_from_infos > how_many_frames_needed) {
+			if (num_new_frames_from_infos > remaining_frames_to_full_segment) {
 				// too big, push the last info into the buffer's front where it was
 				num_new_frames_from_infos -= info_from_buf.frames;
-				circlebuf_push_front(
-					&gf->info_buffer, &info_from_buf,
-					sizeof(struct transcription_filter_audio_info));
+				circlebuf_push_front(&gf->info_buffer, &info_from_buf,
+						     size_of_audio_info);
+				last_step_in_segment =
+					true; // this is the final step in the segment
 				break;
 			}
 		}
 
+		obs_log(gf->log_level,
+			"with %lu remaining to full segment, popped %d info-frames, pushing into buffer at %lu",
+			remaining_frames_to_full_segment, num_new_frames_from_infos,
+			gf->last_num_frames);
+
 		/* Pop from input circlebuf */
 		for (size_t c = 0; c < gf->channels; c++) {
-			if (gf->last_num_frames > 0) {
-				// move overlap frames from the end of the last copy_buffers to the beginning
-				memcpy(gf->copy_buffers[c],
-				       gf->copy_buffers[c] + gf->last_num_frames -
-					       gf->overlap_frames,
-				       gf->overlap_frames * sizeof(float));
-				// copy new data to the end of copy_buffers[c]
-				circlebuf_pop_front(&gf->input_buffers[c],
-						    gf->copy_buffers[c] + gf->overlap_frames,
-						    num_new_frames_from_infos * sizeof(float));
-			} else {
-				// Very first time, just copy data to copy_buffers[c]
-				circlebuf_pop_front(&gf->input_buffers[c], gf->copy_buffers[c],
-						    num_new_frames_from_infos * sizeof(float));
-			}
+			// Push the new data to the end of the existing buffer copy_buffers[c]
+			circlebuf_pop_front(&gf->input_buffers[c],
+					    gf->copy_buffers[c] + gf->last_num_frames,
+					    num_new_frames_from_infos * sizeof(float));
 		}
-		obs_log(gf->log_level,
-			"popped %u frames from input buffer. input_buffer[0] size is %lu",
-			num_new_frames_from_infos, gf->input_buffers[0].size);
+	}
 
-		if (gf->last_num_frames > 0) {
-			gf->last_num_frames = num_new_frames_from_infos + gf->overlap_frames;
+	if (gf->last_num_frames > 0) {
+		gf->last_num_frames += num_new_frames_from_infos;
+		if (!last_step_in_segment) {
+			// Mid-segment process
+			obs_log(gf->log_level, "mid-segment, now %d frames left to full segment",
+				(int)(gf->frames - gf->last_num_frames));
 		} else {
-			gf->last_num_frames = num_new_frames_from_infos;
+			// Final step in segment
+			obs_log(gf->log_level, "full segment, %d frames to process",
+				(int)(gf->last_num_frames));
 		}
+	} else {
+		gf->last_num_frames = num_new_frames_from_infos;
+		obs_log(gf->log_level, "first segment, %d frames to process",
+			(int)(gf->last_num_frames));
 	}
 
 	obs_log(gf->log_level, "processing %d frames (%d ms), start timestamp %llu ",
@@ -271,28 +269,21 @@ void process_audio_from_buffer(struct transcription_filter_data *gf)
 	// end of timer
 	auto end = std::chrono::high_resolution_clock::now();
 	auto duration = std::chrono::duration_cast<std::chrono::milliseconds>(end - start).count();
-	const uint32_t new_frames_from_infos_ms =
-		num_new_frames_from_infos * 1000 /
-		gf->sample_rate; // number of frames in this packet
-	obs_log(gf->log_level, "audio processing of %u ms new data took %d ms",
-		new_frames_from_infos_ms, (int)duration);
-
-	if (duration > new_frames_from_infos_ms) {
-		// try to decrease overlap down to minimum of 100 ms
-		gf->overlap_ms = std::max((uint64_t)gf->overlap_ms - 10, (uint64_t)100);
-		gf->overlap_frames = gf->overlap_ms * gf->sample_rate / 1000;
-		obs_log(gf->log_level,
-			"audio processing took too long (%d ms), reducing overlap to %lu ms",
-			(int)duration, gf->overlap_ms);
-	} else if (!skipped_inference) {
-		if (gf->overlap_ms < OVERLAP_SIZE_MSEC) {
-			// try to increase overlap up to OVERLAP_SIZE_MSEC
-			gf->overlap_ms = std::min((uint64_t)gf->overlap_ms + 10,
-						  (uint64_t)OVERLAP_SIZE_MSEC);
-			gf->overlap_frames = gf->overlap_ms * gf->sample_rate / 1000;
-			obs_log(gf->log_level,
-				"audio processing took %d ms, increasing overlap to %lu ms",
-				(int)duration, gf->overlap_ms);
+	const uint64_t last_num_frames_ms = gf->last_num_frames * 1000 / gf->sample_rate;
+	obs_log(gf->log_level, "audio processing of %lu ms data took %d ms", last_num_frames_ms,
+		(int)duration);
+
+	if (last_step_in_segment) {
+		for (size_t c = 0; c < gf->channels; c++) {
+			// This is the last step in the segment - reset the copy buffer (include overlap frames)
+			// move overlap frames from the end of the last copy_buffers to the beginning
+			memcpy(gf->copy_buffers[c],
+			       gf->copy_buffers[c] + gf->last_num_frames - gf->overlap_frames,
+			       gf->overlap_frames * sizeof(float));
+			// zero out the rest of the buffer, just in case
+			memset(gf->copy_buffers[c] + gf->overlap_frames, 0,
+			       (gf->frames - gf->overlap_frames) * sizeof(float));
+			gf->last_num_frames = gf->overlap_frames;
 		}
 	}
 }
@@ -306,7 +297,6 @@ void whisper_loop(void *data)
 
 	struct transcription_filter_data *gf =
 		static_cast<struct transcription_filter_data *>(data);
-	const size_t segment_size = gf->frames * sizeof(float);
 
 	obs_log(LOG_INFO, "starting whisper thread");
 
@@ -327,6 +317,8 @@ void whisper_loop(void *data)
 				std::lock_guard<std::mutex> lock(*gf->whisper_buf_mutex);
 				input_buf_size = gf->input_buffers[0].size;
 			}
+			const size_t step_size_frames = gf->step_size_msec * gf->sample_rate / 1000;
+			const size_t segment_size = step_size_frames * sizeof(float);
 
 			if (input_buf_size >= segment_size) {
 				obs_log(gf->log_level,

diff --git a/src/whisper-processing.h b/src/whisper-processing.h
@@ -3,10 +3,10 @@
 
 // buffer size in msec
 #define BUFFER_SIZE_MSEC 3000
-// at 16Khz, 3000 msec is 48000 samples
+// at 16Khz, BUFFER_SIZE_MSEC is WHISPER_FRAME_SIZE samples
 #define WHISPER_FRAME_SIZE 48000
 // overlap in msec
-#define OVERLAP_SIZE_MSEC 200
+#define OVERLAP_SIZE_MSEC 100
 
 void whisper_loop(void *data);
 struct whisper_context *init_whisper_context(const std::string &model_path);