[FFmpeg-cvslog] af_hdcd: hdcd_scan() and hdcd_integrate() handle stereo and single channel
Burt P
git at videolan.org
Wed Oct 5 20:57:52 EEST 2016
ffmpeg | branch: master | Burt P <pburt0 at gmail.com> | Wed Sep 28 06:51:50 2016 -0500| [4f94f01414689cd833a13a0e394612427c48d3ae] | committer: Burt P
af_hdcd: hdcd_scan() and hdcd_integrate() handle stereo and single channel
New versions of hdcd_scan() and hdcd_integrate() that also do the
work of hdcd_scan_stereo() and hdcd_integrate_stereo().
Some code split into previously separate functions to remove
duplication is now merged back into each function in the single
place where it is used.
Signed-off-by: Burt P <pburt0 at gmail.com>
> http://git.videolan.org/gitweb.cgi/ffmpeg.git/?a=commit;h=4f94f01414689cd833a13a0e394612427c48d3ae
---
libavfilter/af_hdcd.c | 303 ++++++++++++++------------------------------------
1 file changed, 85 insertions(+), 218 deletions(-)
diff --git a/libavfilter/af_hdcd.c b/libavfilter/af_hdcd.c
index 6f35c09..b5aad85 100644
--- a/libavfilter/af_hdcd.c
+++ b/libavfilter/af_hdcd.c
@@ -1031,267 +1031,134 @@ static void hdcd_reset(hdcd_state *state, unsigned rate, unsigned cdt_ms)
state->_ana_snb = 0;
}
-/** update the user info/counters */
-static void hdcd_update_info(hdcd_state *state)
+static int hdcd_integrate(HDCDContext *ctx, hdcd_state *states, int channels, int *flag, const int32_t *samples, int count, int stride)
{
- if (state->control & 16) state->count_peak_extend++;
- if (state->control & 32) state->count_transient_filter++;
- state->gain_counts[state->control & 15]++;
- state->max_gain = FFMAX(state->max_gain, (state->control & 15));
-}
-
-typedef enum {
- HDCD_CODE_NONE=0,
- HDCD_CODE_A,
- HDCD_CODE_A_ALMOST,
- HDCD_CODE_B,
- HDCD_CODE_B_CHECKFAIL,
- HDCD_CODE_EXPECT_A,
- HDCD_CODE_EXPECT_B,
-} hdcd_code_result;
-
-static hdcd_code_result hdcd_code(const uint32_t bits, unsigned char *code)
-{
- if ((bits & 0x0fa00500) == 0x0fa00500) {
- /* A: 8-bit code 0x7e0fa005[..] */
- if ((bits & 0xc8) == 0) {
- /* [..pt gggg]
- * 0x0fa005[..] -> 0b[00.. 0...], gain part doubled */
- *code = (bits & 255) + (bits & 7);
- return HDCD_CODE_A;
- } else
- return HDCD_CODE_A_ALMOST; /* one of bits 3, 6, or 7 was not 0 */
- } else if ((bits & 0xa0060000) == 0xa0060000) {
- /* B: 8-bit code, 8-bit XOR check, 0x7e0fa006[....] */
- if (((bits ^ (~bits >> 8 & 255)) & 0xffff00ff) == 0xa0060000) {
- /* check: [..pt gggg ~(..pt gggg)]
- * 0xa006[....] -> 0b[.... .... .... .... ] */
- *code = bits >> 8 & 255;
- return HDCD_CODE_B;
- } else
- return HDCD_CODE_B_CHECKFAIL; /* XOR check failed */
- }
- if (bits == 0x7e0fa005)
- return HDCD_CODE_EXPECT_A;
- else if (bits == 0x7e0fa006)
- return HDCD_CODE_EXPECT_B;
-
- return HDCD_CODE_NONE;
-}
-
-static int hdcd_integrate(HDCDContext *ctx, hdcd_state *state, int *flag, const int32_t *samples, int count, int stride)
-{
- uint32_t bits = 0;
- int result = FFMIN(state->readahead, count);
- int i;
+ uint32_t bits[HDCD_MAX_CHANNELS];
+ int result = count;
+ int i, j, f;
*flag = 0;
- for (i = result - 1; i >= 0; i--) {
- bits |= (*samples & 1) << i; /* might be better as a conditional? */
- samples += stride;
- }
+ memset(bits, 0, sizeof(bits));
+ if (stride < channels) stride = channels;
- state->window = (state->window << result) | bits;
- state->readahead -= result;
- if (state->readahead > 0)
- return result;
+ for (i = 0; i < channels; i++)
+ result = FFMIN(states[i].readahead, result);
- bits = (state->window ^ state->window >> 5 ^ state->window >> 23);
-
- if (state->arg) {
- switch (hdcd_code(bits, &state->control)) {
- case HDCD_CODE_A:
- *flag = 1;
- state->code_counterA++;
- break;
- case HDCD_CODE_B:
- *flag = 1;
- state->code_counterB++;
- break;
- case HDCD_CODE_A_ALMOST:
- state->code_counterA_almost++;
- av_log(ctx->fctx, AV_LOG_VERBOSE,
- "hdcd error: Control A almost: 0x%02x near %d\n", bits & 0xff, ctx->sample_count);
- break;
- case HDCD_CODE_B_CHECKFAIL:
- state->code_counterB_checkfails++;
- av_log(ctx->fctx, AV_LOG_VERBOSE,
- "hdcd error: Control B check failed: 0x%04x (0x%02x vs 0x%02x) near %d\n", bits & 0xffff, (bits & 0xff00) >> 8, ~bits & 0xff, ctx->sample_count);
- break;
- case HDCD_CODE_NONE:
- state->code_counterC_unmatched++;
- av_log(ctx->fctx, AV_LOG_VERBOSE,
- "hdcd error: Unmatched code: 0x%08x near %d\n", bits, ctx->sample_count);
- default:
- av_log(ctx->fctx, AV_LOG_INFO,
- "hdcd error: Unexpected return value from hdcd_code()\n");
- av_assert0(0); /* die */
- }
- if (*flag) hdcd_update_info(state);
- state->arg = 0;
+ for (j = result - 1; j >= 0; j--) {
+ for (i = 0; i < channels; i++)
+ bits[i] |= (*(samples++) & 1) << j;
+ samples += stride - channels;
}
- if (bits == 0x7e0fa005 || bits == 0x7e0fa006) {
- /* 0x7e0fa00[.]-> [0b0101 or 0b0110] */
- state->readahead = (bits & 3) * 8;
- state->arg = 1;
- state->code_counterC++;
- } else {
- if (bits)
- state->readahead = readaheadtab[bits & 0xff];
- else
- state->readahead = 31; /* ffwd over digisilence */
- }
- return result;
-}
-
-static int hdcd_integrate_stereo(HDCDContext *ctx, int *flag, const int32_t *samples, int count)
-{
- uint32_t bits[2] = {0, 0};
- int result;
- int i;
- *flag = 0;
-
- /* result = min(count, s0ra, s1ra) */
- result = FFMIN(ctx->state[0].readahead, count);
- result = FFMIN(ctx->state[1].readahead, result);
- for (i = result - 1; i >= 0; i--) {
- bits[0] |= (*(samples++) & 1) << i;
- bits[1] |= (*(samples++) & 1) << i;
- }
-
- for (i = 0; i < 2; i++) {
- ctx->state[i].window = (ctx->state[i].window << result) | bits[i];
- ctx->state[i].readahead -= result;
-
- if (ctx->state[i].readahead == 0) {
- uint32_t wbits = (ctx->state[i].window ^ ctx->state[i].window >> 5 ^ ctx->state[i].window >> 23);
- if (ctx->state[i].arg) {
- switch (hdcd_code(wbits, &ctx->state[i].control)) {
- case HDCD_CODE_A:
- *flag |= i+1;
- ctx->state[i].code_counterA++;
- break;
- case HDCD_CODE_B:
- *flag |= i+1;
- ctx->state[i].code_counterB++;
- break;
- case HDCD_CODE_A_ALMOST:
- ctx->state[i].code_counterA_almost++;
+ for (i = 0; i < channels; i++) {
+ states[i].window = (states[i].window << result) | bits[i];
+ states[i].readahead -= result;
+
+ if (states[i].readahead == 0) {
+ uint32_t wbits = (uint32_t)(states[i].window ^ states[i].window >> 5 ^ states[i].window >> 23);
+ if (states[i].arg) {
+ f = 0;
+ if ((wbits & 0x0fa00500) == 0x0fa00500) {
+ /* A: 8-bit code 0x7e0fa005[..] */
+ if ((wbits & 0xc8) == 0) {
+ /* [..pt gggg]
+ * 0x0fa005[..] -> 0b[00.. 0...], gain part doubled (shifted left 1) */
+ states[i].control = (wbits & 255) + (wbits & 7);
+ f = 1;
+ states[i].code_counterA++;
+ } else {
+ /* one of bits 3, 6, or 7 was not 0 */
+ states[i].code_counterA_almost++;
av_log(ctx->fctx, AV_LOG_VERBOSE,
"hdcd error: Control A almost: 0x%02x near %d\n", wbits & 0xff, ctx->sample_count);
- break;
- case HDCD_CODE_B_CHECKFAIL:
- ctx->state[i].code_counterB_checkfails++;
+ }
+ } else if ((wbits & 0xa0060000) == 0xa0060000) {
+ /* B: 8-bit code, 8-bit XOR check, 0x7e0fa006[....] */
+ if (((wbits ^ (~wbits >> 8 & 255)) & 0xffff00ff) == 0xa0060000) {
+ /* check: [..pt gggg ~(..pt gggg)]
+ * 0xa006[....] -> 0b[.... .... .... .... ] */
+ states[i].control = wbits >> 8 & 255;
+ f = 1;
+ states[i].code_counterB++;
+ } else {
+ /* XOR check failed */
+ states[i].code_counterB_checkfails++;
av_log(ctx->fctx, AV_LOG_VERBOSE,
"hdcd error: Control B check failed: 0x%04x (0x%02x vs 0x%02x) near %d\n", wbits & 0xffff, (wbits & 0xff00) >> 8, ~wbits & 0xff, ctx->sample_count);
- break;
- case HDCD_CODE_NONE:
- ctx->state[i].code_counterC_unmatched++;
- av_log(ctx->fctx, AV_LOG_VERBOSE,
- "hdcd error: Unmatched code: 0x%08x near %d\n", wbits, ctx->sample_count);
- default:
- av_log(ctx->fctx, AV_LOG_INFO,
- "hdcd error: Unexpected return value from hdcd_code()\n");
- av_assert0(0); /* die */
+ }
+ }
+ if (f) {
+ *flag |= (1<<i);
+ /* update counters */
+ if (states[i].control & 16) states[i].count_peak_extend++;
+ if (states[i].control & 32) states[i].count_transient_filter++;
+ states[i].gain_counts[states[i].control & 15]++;
+ states[i].max_gain = FFMAX(states[i].max_gain, (states[i].control & 15));
}
- if (*flag&(i+1)) hdcd_update_info(&ctx->state[i]);
- ctx->state[i].arg = 0;
+ states[i].arg = 0;
}
if (wbits == 0x7e0fa005 || wbits == 0x7e0fa006) {
/* 0x7e0fa00[.]-> [0b0101 or 0b0110] */
- ctx->state[i].readahead = (wbits & 3) * 8;
- ctx->state[i].arg = 1;
- ctx->state[i].code_counterC++;
+ states[i].readahead = (wbits & 3) * 8;
+ states[i].arg = 1;
+ states[i].code_counterC++;
} else {
if (wbits)
- ctx->state[i].readahead = readaheadtab[wbits & 0xff];
+ states[i].readahead = readaheadtab[wbits & 0xff];
else
- ctx->state[i].readahead = 31; /* ffwd over digisilence */
+ states[i].readahead = 31; /* ffwd over digisilence */
}
}
}
return result;
}
-static void hdcd_sustain_reset(hdcd_state *state)
-{
- state->sustain = state->sustain_reset;
- /* if this is the first reset then change
- * from never set, to never expired */
- if (state->count_sustain_expired == -1)
- state->count_sustain_expired = 0;
-}
-
-static int hdcd_scan(HDCDContext *ctx, hdcd_state *state, const int32_t *samples, int max, int stride)
-{
- int result;
- int cdt_active = 0;
- /* code detect timer */
- if (state->sustain > 0) {
- cdt_active = 1;
- if (state->sustain <= max) {
- state->control = 0;
- max = state->sustain;
- }
- state->sustain -= max;
- }
-
- result = 0;
- while (result < max) {
- int flag;
- int consumed = hdcd_integrate(ctx, state, &flag, samples, max - result, stride);
- result += consumed;
- if (flag > 0) {
- /* reset timer if code detected in channel */
- hdcd_sustain_reset(state);
- break;
- }
- samples += consumed * stride;
- }
- /* code detect timer expired */
- if (cdt_active && state->sustain == 0)
- state->count_sustain_expired++;
-
- return result;
-}
-
-static int hdcd_scan_stereo(HDCDContext *ctx, const int32_t *samples, int max)
+static int hdcd_scan(HDCDContext *ctx, hdcd_state *states, int channels, const int32_t *samples, int max, int stride)
{
int result;
int i;
- int cdt_active[2] = {0, 0};
+ int cdt_active[HDCD_MAX_CHANNELS];
+ memset(cdt_active, 0, sizeof(cdt_active));
+
+ if (stride < channels) stride = channels;
/* code detect timers for each channel */
- for(i=0; i<2; i++) {
- if (ctx->state[i].sustain > 0) {
+ for(i = 0; i < channels; i++) {
+ if (states[i].sustain > 0) {
cdt_active[i] = 1;
- if (ctx->state[i].sustain <= max) {
- ctx->state[i].control = 0;
- max = ctx->state[i].sustain;
+ if (states[i].sustain <= (unsigned)max) {
+ states[i].control = 0;
+ max = states[i].sustain;
}
- ctx->state[i].sustain -= max;
+ states[i].sustain -= max;
}
}
result = 0;
while (result < max) {
int flag;
- int consumed = hdcd_integrate_stereo(ctx, &flag, samples, max - result);
+ int consumed = hdcd_integrate(ctx, states, channels, &flag, samples, max - result, stride);
result += consumed;
if (flag) {
/* reset timer if code detected in a channel */
- if (flag & 1) hdcd_sustain_reset(&ctx->state[0]);
- if (flag & 2) hdcd_sustain_reset(&ctx->state[1]);
+ for(i = 0; i < channels; i++) {
+ if (flag & (1<<i)) {
+ states[i].sustain = states[i].sustain_reset;
+ /* if this is the first reset then change
+ * from never set, to never expired */
+ if (states[i].count_sustain_expired == -1)
+ states[i].count_sustain_expired = 0;
+ }
+ }
break;
}
- samples += consumed * 2;
+ samples += consumed * stride;
}
- for(i=0; i<2; i++) {
+ for(i = 0; i < channels; i++) {
/* code detect timer expired */
- if (cdt_active[i] && ctx->state[i].sustain == 0)
- ctx->state[i].count_sustain_expired++;
+ if (cdt_active[i] && states[i].sustain == 0)
+ states[i].count_sustain_expired++;
}
return result;
@@ -1496,7 +1363,7 @@ static void hdcd_process(HDCDContext *ctx, hdcd_state *state, int32_t *samples,
int run;
av_assert0(samples + lead * stride + stride * (count - lead) <= samples_end);
- run = hdcd_scan(ctx, state, samples + lead * stride, count - lead, stride) + lead;
+ run = hdcd_scan(ctx, state, 1, samples + lead * stride, count - lead, 0) + lead;
envelope_run = run - 1;
av_assert0(samples + envelope_run * stride <= samples_end);
@@ -1540,7 +1407,7 @@ static void hdcd_process_stereo(HDCDContext *ctx, int32_t *samples, int count)
int envelope_run, run;
av_assert0(samples + lead * stride + stride * (count - lead) <= samples_end);
- run = hdcd_scan_stereo(ctx, samples + lead * stride, count - lead) + lead;
+ run = hdcd_scan(ctx, ctx->state, 2, samples + lead * stride, count - lead, 0) + lead;
envelope_run = run - 1;
av_assert0(samples + envelope_run * stride <= samples_end);
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