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authorMichael Sevakis <jethead71@rockbox.org>2007-03-25 04:03:44 +0000
committerMichael Sevakis <jethead71@rockbox.org>2007-03-25 04:03:44 +0000
commit369c2a37b7176e4f9c44f00a31b3b74e62b0b5d7 (patch)
tree7620c7da1d611d0d9a339487b6b264e44c6201bd
parentcd630c9e0a2e0aa259a6e53a5af1369f36984b1c (diff)
SWCODEC & Coldfire: Do some more DSP straigntening out. Do as much Coldfire optimizing as seems reasonably possible by jumping through some hoops to avoid stalls. Further boost reduction will just be fractional points if taken to extremes-- not worth it. Wrap up the ASM for awhile.
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@12905 a1c6a512-1295-4272-9138-f99709370657
-rw-r--r--apps/dsp.c354
-rw-r--r--apps/dsp_asm.h59
-rw-r--r--apps/dsp_cf.S424
3 files changed, 468 insertions, 369 deletions
diff --git a/apps/dsp.c b/apps/dsp.c
index be851e2305..3b95145b39 100644
--- a/apps/dsp.c
+++ b/apps/dsp.c
@@ -38,9 +38,14 @@
#define WORD_FRACBITS 27
#define NATIVE_DEPTH 16
+/* If the buffer sizes change, check the assembly code! */
#define SAMPLE_BUF_COUNT 256
#define RESAMPLE_BUF_COUNT (256 * 4) /* Enough for 11,025 Hz -> 44,100 Hz*/
#define DEFAULT_GAIN 0x01000000
+#define SAMPLE_BUF_LEFT_CHANNEL 0
+#define SAMPLE_BUF_RIGHT_CHANNEL (SAMPLE_BUF_COUNT/2)
+#define RESAMPLE_BUF_LEFT_CHANNEL 0
+#define RESAMPLE_BUF_RIGHT_CHANNEL (RESAMPLE_BUF_COUNT/2)
/* enums to index conversion properly with stereo mode and other settings */
enum
@@ -66,11 +71,10 @@ enum
* NOTE: Any assembly routines that use these structures must be updated
* if current data members are moved or changed.
*/
- /* 32-bit achitecture offset */
struct resample_data
{
- long delta; /* 00h */
- long phase; /* 04h */
+ uint32_t delta; /* 00h */
+ uint32_t phase; /* 04h */
int32_t last_sample[2]; /* 08h */
/* 10h */
};
@@ -93,9 +97,10 @@ struct dsp_data
int output_scale; /* 00h */
int num_channels; /* 04h */
struct resample_data resample_data; /* 08h */
- int clip_min; /* 18h */
- int clip_max; /* 2ch */
- /* 30h */
+ int32_t clip_min; /* 18h */
+ int32_t clip_max; /* 1ch */
+ int32_t gain; /* 20h - Note that this is in S8.23 format. */
+ /* 24h */
};
/* No asm...yet */
@@ -132,13 +137,18 @@ struct eq_state
#include <dsp_asm.h>
/* Typedefs keep things much neater in this case */
-typedef int (*sample_input_fn_type)(int count, const char *src[],
- int32_t *dst[]);
+typedef void (*sample_input_fn_type)(int count, const char *src[],
+ int32_t *dst[]);
typedef int (*resample_fn_type)(int count, struct dsp_data *data,
int32_t *src[], int32_t *dst[]);
typedef void (*sample_output_fn_type)(int count, struct dsp_data *data,
int32_t *src[], int16_t *dst);
+/* Single-DSP channel processing in place */
typedef void (*channels_process_fn_type)(int count, int32_t *buf[]);
+/* DSP local channel processing in place */
+typedef void (*channels_process_dsp_fn_type)(int count, struct dsp_data *data,
+ int32_t *buf[]);
+
/*
***************************************************************************/
@@ -152,16 +162,16 @@ struct dsp_config
int sample_bytes;
int stereo_mode;
int frac_bits;
- long gain; /* Note that this is in S8.23 format. */
/* Functions that change depending upon settings - NULL if stage is
disabled */
- sample_input_fn_type input_samples;
- resample_fn_type resample;
- sample_output_fn_type output_samples;
+ sample_input_fn_type input_samples;
+ resample_fn_type resample;
+ sample_output_fn_type output_samples;
/* These will be NULL for the voice codec and is more economical that
way */
- channels_process_fn_type apply_crossfeed;
- channels_process_fn_type channels_process;
+ channels_process_dsp_fn_type apply_gain;
+ channels_process_fn_type apply_crossfeed;
+ channels_process_fn_type channels_process;
};
/* General DSP config */
@@ -211,7 +221,7 @@ static struct dsp_config *dsp IDATA_ATTR = audio_dsp;
* of copying needed is minimized for that case.
*/
-static int32_t sample_buf[SAMPLE_BUF_COUNT] IBSS_ATTR;
+int32_t sample_buf[SAMPLE_BUF_COUNT] IBSS_ATTR;
static int32_t resample_buf[RESAMPLE_BUF_COUNT] IBSS_ATTR;
/* set a new dsp and return old one */
@@ -258,23 +268,20 @@ void sound_set_pitch(int permille)
dsp_configure(DSP_SWITCH_FREQUENCY, dsp->codec_frequency);
}
-/* Convert at most count samples to the internal format, if needed. Returns
- * number of samples ready for further processing. Updates src to point
- * past the samples "consumed" and dst is set to point to the samples to
- * consume. Note that for mono, dst[0] equals dst[1], as there is no point
- * in processing the same data twice.
+/* Convert count samples to the internal format, if needed. Updates src
+ * to point past the samples "consumed" and dst is set to point to the
+ * samples to consume. Note that for mono, dst[0] equals dst[1], as there
+ * is no point in processing the same data twice.
*/
/* convert count 16-bit mono to 32-bit mono */
-static int sample_input_lte_native_mono(
+static void sample_input_lte_native_mono(
int count, const char *src[], int32_t *dst[])
{
- count = MIN(SAMPLE_BUF_COUNT/2, count);
-
const int16_t *s = (int16_t *) src[0];
const int16_t * const send = s + count;
- int32_t *d = dst[0] = dst[1] = sample_buf;
- const int scale = WORD_SHIFT;
+ int32_t *d = dst[0] = dst[1] = &sample_buf[SAMPLE_BUF_LEFT_CHANNEL];
+ int scale = WORD_SHIFT;
do
{
@@ -283,21 +290,17 @@ static int sample_input_lte_native_mono(
while (s < send);
src[0] = (char *)s;
-
- return count;
}
/* convert count 16-bit interleaved stereo to 32-bit noninterleaved */
-static int sample_input_lte_native_i_stereo(
+static void sample_input_lte_native_i_stereo(
int count, const char *src[], int32_t *dst[])
{
- count = MIN(SAMPLE_BUF_COUNT/2, count);
-
const int32_t *s = (int32_t *) src[0];
const int32_t * const send = s + count;
- int32_t *dl = dst[0] = sample_buf;
- int32_t *dr = dst[1] = sample_buf + SAMPLE_BUF_COUNT/2;
- const int scale = WORD_SHIFT;
+ int32_t *dl = dst[0] = &sample_buf[SAMPLE_BUF_LEFT_CHANNEL];
+ int32_t *dr = dst[1] = &sample_buf[SAMPLE_BUF_RIGHT_CHANNEL];
+ int scale = WORD_SHIFT;
do
{
@@ -313,22 +316,18 @@ static int sample_input_lte_native_i_stereo(
while (s < send);
src[0] = (char *)s;
-
- return count;
}
/* convert count 16-bit noninterleaved stereo to 32-bit noninterleaved */
-static int sample_input_lte_native_ni_stereo(
+static void sample_input_lte_native_ni_stereo(
int count, const char *src[], int32_t *dst[])
{
- count = MIN(SAMPLE_BUF_COUNT/2, count);
-
const int16_t *sl = (int16_t *) src[0];
const int16_t *sr = (int16_t *) src[1];
const int16_t * const slend = sl + count;
- int32_t *dl = dst[0] = sample_buf;
- int32_t *dr = dst[1] = sample_buf + SAMPLE_BUF_COUNT/2;
- const int scale = WORD_SHIFT;
+ int32_t *dl = dst[0] = &sample_buf[SAMPLE_BUF_LEFT_CHANNEL];
+ int32_t *dr = dst[1] = &sample_buf[SAMPLE_BUF_RIGHT_CHANNEL];
+ int scale = WORD_SHIFT;
do
{
@@ -339,35 +338,24 @@ static int sample_input_lte_native_ni_stereo(
src[0] = (char *)sl;
src[1] = (char *)sr;
-
- return count;
}
/* convert count 32-bit mono to 32-bit mono */
-static int sample_input_gt_native_mono(
+static void sample_input_gt_native_mono(
int count, const char *src[], int32_t *dst[])
{
- count = MIN(SAMPLE_BUF_COUNT/2, count);
-
dst[0] = dst[1] = (int32_t *)src[0];
src[0] = (char *)(dst[0] + count);
-
- return count;
}
/* convert count 32-bit interleaved stereo to 32-bit noninterleaved stereo */
-static int sample_input_gt_native_i_stereo(
+static void sample_input_gt_native_i_stereo(
int count, const char *src[], int32_t *dst[])
{
- count = MIN(SAMPLE_BUF_COUNT/2, count);
-
const int32_t *s = (int32_t *)src[0];
const int32_t * const send = s + 2*count;
- int32_t *dl = sample_buf;
- int32_t *dr = sample_buf + SAMPLE_BUF_COUNT/2;
-
- dst[0] = dl;
- dst[1] = dr;
+ int32_t *dl = dst[0] = &sample_buf[SAMPLE_BUF_LEFT_CHANNEL];
+ int32_t *dr = dst[1] = &sample_buf[SAMPLE_BUF_RIGHT_CHANNEL];
do
{
@@ -377,22 +365,16 @@ static int sample_input_gt_native_i_stereo(
while (s < send);
src[0] = (char *)send;
-
- return count;
}
/* convert 32 bit-noninterleaved stereo to 32-bit noninterleaved stereo */
-static int sample_input_gt_native_ni_stereo(
+static void sample_input_gt_native_ni_stereo(
int count, const char *src[], int32_t *dst[])
{
- count = MIN(SAMPLE_BUF_COUNT/2, count);
-
dst[0] = (int32_t *)src[0];
dst[1] = (int32_t *)src[1];
src[0] = (char *)(dst[0] + count);
src[1] = (char *)(dst[1] + count);
-
- return count;
}
/**
@@ -573,12 +555,6 @@ static void sample_output_new_format(void)
dsp->output_samples = sample_output_functions[out];
}
-static void resampler_set_delta(int frequency)
-{
- dsp->data.resample_data.delta = (unsigned long)
- frequency * 65536LL / NATIVE_FREQUENCY;
-}
-
/**
* Linear interpolation resampling that introduces a one sample delay because
* of our inability to look into the future at the end of a frame.
@@ -587,9 +563,9 @@ static void resampler_set_delta(int frequency)
static int dsp_downsample(int count, struct dsp_data *data,
int32_t *src[], int32_t *dst[])
{
- int ch = data->num_channels - 1;
- long delta = data->resample_data.delta;
- long phase, pos;
+ int ch = data->num_channels - 1;
+ uint32_t delta = data->resample_data.delta;
+ uint32_t phase, pos;
int32_t *d;
/* Rolled channel loop actually showed slightly faster. */
@@ -610,7 +586,7 @@ static int dsp_downsample(int count, struct dsp_data *data,
if (pos > 0)
last = s[pos - 1];
- while (pos < count)
+ while (pos < (uint32_t)count)
{
*d++ = last + FRACMUL((phase & 0xffff) << 15, s[pos] - last);
phase += delta;
@@ -625,12 +601,12 @@ static int dsp_downsample(int count, struct dsp_data *data,
return d - dst[0];
}
-static int dsp_upsample(int count, struct dsp_data *data,
+static int dsp_upsample(int count, struct dsp_data *data,
int32_t *src[], int32_t *dst[])
{
int ch = data->num_channels - 1;
- long delta = data->resample_data.delta;
- long phase, pos;
+ uint32_t delta = data->resample_data.delta;
+ uint32_t phase, pos;
int32_t *d;
/* Rolled channel loop actually showed slightly faster. */
@@ -653,7 +629,7 @@ static int dsp_upsample(int count, struct dsp_data *data,
pos = phase >> 16;
}
- while (pos < count)
+ while (pos < (uint32_t)count)
{
last = s[pos - 1];
*d++ = last + FRACMUL((phase & 0xffff) << 15, s[pos] - last);
@@ -669,24 +645,43 @@ static int dsp_upsample(int count, struct dsp_data *data,
}
#endif /* DSP_HAVE_ASM_RESAMPLING */
+static void resampler_new_delta(void)
+{
+ dsp->data.resample_data.delta = (unsigned long)
+ dsp->frequency * 65536LL / NATIVE_FREQUENCY;
+
+ if (dsp->frequency == NATIVE_FREQUENCY)
+ {
+ /* NOTE: If fully glitch-free transistions from no resampling to
+ resampling are desired, last_sample history should be maintained
+ even when not resampling. */
+ dsp->resample = NULL;
+ dsp->data.resample_data.phase = 0;
+ dsp->data.resample_data.last_sample[0] = 0;
+ dsp->data.resample_data.last_sample[1] = 0;
+ }
+ else if (dsp->frequency < NATIVE_FREQUENCY)
+ dsp->resample = dsp_upsample;
+ else
+ dsp->resample = dsp_downsample;
+}
+
/* Resample count stereo samples. Updates the src array, if resampling is
* done, to refer to the resampled data. Returns number of stereo samples
* for further processing.
*/
static inline int resample(int count, int32_t *src[])
{
- if (dsp->resample)
+ int32_t *dst[2] =
{
- int32_t *dst[2] =
- {
- resample_buf,
- resample_buf + RESAMPLE_BUF_COUNT/2,
- };
+ &resample_buf[RESAMPLE_BUF_LEFT_CHANNEL],
+ &resample_buf[RESAMPLE_BUF_RIGHT_CHANNEL],
+ };
- count = dsp->resample(count, &dsp->data, src, dst);
- src[0] = dst[0];
- src[1] = dst[dsp->data.num_channels - 1];
- }
+ count = dsp->resample(count, &dsp->data, src, dst);
+
+ src[0] = dst[0];
+ src[1] = dst[dsp->data.num_channels - 1];
return count;
}
@@ -810,30 +805,59 @@ void dsp_set_crossfeed_cross_params(long lf_gain, long hf_gain, long cutoff)
c[2] <<= 4;
}
+/* Apply a constant gain to the samples (e.g., for ReplayGain).
+ * Note that this must be called before the resampler.
+ */
+#ifndef DSP_HAVE_ASM_APPLY_GAIN
+static void dsp_apply_gain(int count, struct dsp_data *data, int32_t *buf[])
+{
+ const int32_t gain = data->gain;
+ int ch = data->num_channels - 1;
+
+ do
+ {
+ int32_t *s = buf[ch];
+ int32_t *d = buf[ch];
+ int32_t samp = *s++;
+ int i = 0;
+
+ do
+ {
+ FRACMUL_8_LOOP(samp, gain, s, d);
+ }
+ while (++i < count);
+ }
+ while (--ch >= 0);
+}
+#endif /* DSP_HAVE_ASM_APPLY_GAIN */
+
/* Combine all gains to a global gain. */
static void set_gain(struct dsp_config *dsp)
{
- dsp->gain = DEFAULT_GAIN;
+ dsp->data.gain = DEFAULT_GAIN;
/* Replay gain not relevant to voice */
if (dsp == audio_dsp && replaygain)
{
- dsp->gain = replaygain;
+ dsp->data.gain = replaygain;
}
if (eq_enabled && eq_precut)
{
- dsp->gain = (long) (((int64_t) dsp->gain * eq_precut) >> 24);
+ dsp->data.gain =
+ (long) (((int64_t) dsp->data.gain * eq_precut) >> 24);
}
- if (dsp->gain == DEFAULT_GAIN)
+ if (dsp->data.gain == DEFAULT_GAIN)
{
- dsp->gain = 0;
+ dsp->data.gain = 0;
}
else
{
- dsp->gain >>= 1;
+ dsp->data.gain >>= 1;
}
+
+ dsp->apply_gain = dsp->data.gain != 0 ? dsp_apply_gain : NULL;
}
/**
@@ -927,50 +951,6 @@ static void eq_process(int count, int32_t *buf[])
}
}
-/* Apply a constant gain to the samples (e.g., for ReplayGain). May update
- * the src array if gain was applied.
- * Note that this must be called before the resampler.
- */
-static void apply_gain(int count, int32_t *buf[])
-{
- int32_t *sl, *sr;
- int32_t s, *d;
- long gain;
- int i;
-
- if (new_gain)
- {
- /* Gain has changed */
- dsp_set_replaygain();
- if (dsp->gain == 0)
- return; /* No gain to apply now */
- }
-
- sl = buf[0], sr = buf[1];
- gain = dsp->gain;
-
- if (sl != sr)
- {
- d = &sample_buf[SAMPLE_BUF_COUNT / 2];
- buf[1] = d;
- s = *sr++;
-
- for (i = 0; i < count; i++)
- FRACMUL_8_LOOP(s, gain, sr, d);
- }
- else
- {
- buf[1] = &sample_buf[0];
- }
-
- d = &sample_buf[0];
- buf[0] = d;
- s = *sl++;
-
- for (i = 0; i < count; i++)
- FRACMUL_8_LOOP(s, gain, sl, d);
-}
-
void dsp_set_stereo_width(int value)
{
long width, straight, cross;
@@ -993,35 +973,6 @@ void dsp_set_stereo_width(int value)
dsp_sw_cross = cross << 8;
}
-/**
- * Implements the different channel configurations and stereo width.
- */
-
-/* SOUND_CHAN_STEREO mode is a noop so has no function - just outline one for
- * completeness. */
-#if 0
-static void channels_process_sound_chan_stereo(int count, int32_t *buf[])
-{
- /* The channels are each just themselves */
- (void)count; (void)buf;
-}
-#endif
-
-#ifndef DSP_HAVE_ASM_SOUND_CHAN_MONO
-static void channels_process_sound_chan_mono(int count, int32_t *buf[])
-{
- int32_t *sl = buf[0], *sr = buf[1];
-
- do
- {
- int32_t lr = *sl/2 + *sr/2;
- *sl++ = lr;
- *sr++ = lr;
- }
- while (--count > 0);
-}
-#endif /* DSP_HAVE_ASM_SOUND_CHAN_MONO */
-
#if CONFIG_CODEC == SWCODEC
#ifdef HAVE_SW_TONE_CONTROLS
@@ -1063,6 +1014,35 @@ int dsp_callback(int msg, intptr_t param)
}
#endif
+/**
+ * Implements the different channel configurations and stereo width.
+ */
+
+/* SOUND_CHAN_STEREO mode is a noop so has no function - just outline one for
+ * completeness. */
+#if 0
+static void channels_process_sound_chan_stereo(int count, int32_t *buf[])
+{
+ /* The channels are each just themselves */
+ (void)count; (void)buf;
+}
+#endif
+
+#ifndef DSP_HAVE_ASM_SOUND_CHAN_MONO
+static void channels_process_sound_chan_mono(int count, int32_t *buf[])
+{
+ int32_t *sl = buf[0], *sr = buf[1];
+
+ do
+ {
+ int32_t lr = *sl/2 + *sr/2;
+ *sl++ = lr;
+ *sr++ = lr;
+ }
+ while (--count > 0);
+}
+#endif /* DSP_HAVE_ASM_SOUND_CHAN_MONO */
+
#ifndef DSP_HAVE_ASM_SOUND_CHAN_CUSTOM
static void channels_process_sound_chan_custom(int count, int32_t *buf[])
{
@@ -1151,30 +1131,47 @@ int dsp_process(char *dst, const char *src[], int count)
coldfire_set_macsr(EMAC_FRACTIONAL | EMAC_SATURATE);
#endif
+ if (new_gain)
+ dsp_set_replaygain(); /* Gain has changed */
+
+ /* Testing function pointers for NULL is preferred since the pointer
+ will be preloaded to be used for the call if not. */
while (count > 0)
{
- samples = dsp->input_samples(count, src, tmp);
+ samples = MIN(SAMPLE_BUF_COUNT/2, count);
count -= samples;
- if (dsp->gain != 0)
- apply_gain(samples, tmp);
- if ((samples = resample(samples, tmp)) <= 0)
+
+ dsp->input_samples(samples, src, tmp);
+
+ if (dsp->apply_gain)
+ dsp->apply_gain(samples, &dsp->data, tmp);
+
+ if (dsp->resample && (samples = resample(samples, tmp)) <= 0)
break; /* I'm pretty sure we're downsampling here */
+
if (dsp->apply_crossfeed)
dsp->apply_crossfeed(samples, tmp);
+
/* TODO: EQ and tone controls need separate structs for audio and voice
* DSP processing thanks to filter history. isn't really audible now, but
- * might be the day we start handling voice more delicately.
+ * might be the day we start handling voice more delicately. Planned
+ * changes may well run all relevent channels through the same EQ so
+ * perhaps not.
*/
if (eq_enabled)
eq_process(samples, tmp);
+
#ifdef HAVE_SW_TONE_CONTROLS
if ((bass | treble) != 0)
eq_filter(tmp, &tone_filter, samples, dsp->data.num_channels,
FILTER_BISHELF_SHIFT);
#endif
+
if (dsp->channels_process)
dsp->channels_process(samples, tmp);
+
dsp->output_samples(samples, &dsp->data, tmp, (int16_t *)dst);
+
written += samples;
dst += samples * sizeof (int16_t) * 2;
yield();
@@ -1245,9 +1242,6 @@ bool dsp_configure(int setting, intptr_t value)
if (dsp == audio_dsp)
{
*var = value;
- /* In case current gain is zero, force at least one call
- to apply_gain or apply_gain won't pick up on new_gain */
- audio_dsp->gain = -1;
new_gain = true;
}
}
@@ -1282,15 +1276,7 @@ bool dsp_configure(int setting, intptr_t value)
else
dsp->frequency = dsp->codec_frequency;
- resampler_set_delta(dsp->frequency);
-
- if (dsp->frequency == NATIVE_FREQUENCY)
- dsp->resample = NULL;
- else if (dsp->frequency < NATIVE_FREQUENCY)
- dsp->resample = dsp_upsample;
- else
- dsp->resample = dsp_downsample;
-
+ resampler_new_delta();
break;
case DSP_SET_SAMPLE_DEPTH:
@@ -1348,7 +1334,7 @@ bool dsp_configure(int setting, intptr_t value)
case DSP_FLUSH:
memset(&dsp->data.resample_data, 0,
sizeof (dsp->data.resample_data));
- resampler_set_delta(dsp->frequency);
+ resampler_new_delta();
dither_init();
break;
diff --git a/apps/dsp_asm.h b/apps/dsp_asm.h
index f8df337b37..14875d21d8 100644
--- a/apps/dsp_asm.h
+++ b/apps/dsp_asm.h
@@ -22,32 +22,61 @@
#ifndef _DSP_ASM_H
#define _DSP_ASM_H
+/* Set the appropriate #defines based on CPU or whatever matters */
#ifndef SIMULATOR
-#if defined(CPU_COLDFIRE) || defined(CPU_ARM)
+#if defined(CPU_ARM)
+#define DSP_HAVE_ASM_RESAMPLING
#define DSP_HAVE_ASM_CROSSFEED
-void apply_crossfeed(int count, int32_t *buf[]);
+#elif defined (CPU_COLDFIRE)
+#define DSP_HAVE_ASM_APPLY_GAIN
#define DSP_HAVE_ASM_RESAMPLING
-int dsp_downsample(int count, struct dsp_data *data, int32_t *src[], int32_t *dst[]);
-int dsp_upsample(int count, struct dsp_data *data, int32_t *src[], int32_t *dst[]);
-#endif /* defined(CPU_COLDFIRE) || defined(CPU_ARM) */
-
-#if defined (CPU_COLDFIRE)
+#define DSP_HAVE_ASM_CROSSFEED
#define DSP_HAVE_ASM_SOUND_CHAN_MONO
-void channels_process_sound_chan_mono(int count, int32_t *buf[]);
#define DSP_HAVE_ASM_SOUND_CHAN_CUSTOM
-void channels_process_sound_chan_custom(int count, int32_t *buf[]);
#define DSP_HAVE_ASM_SOUND_CHAN_KARAOKE
-void channels_process_sound_chan_karaoke(int count, int32_t *buf[]);
-
#define DSP_HAVE_ASM_SAMPLE_OUTPUT_MONO
-void sample_output_mono(int count, struct dsp_data *data,
- int32_t *src[], int16_t *dst);
#define DSP_HAVE_ASM_SAMPLE_OUTPUT_STEREO
-void sample_output_stereo(int count, struct dsp_data *data,
- int32_t *src[], int16_t *dst);
#endif /* CPU_COLDFIRE */
#endif /* SIMULATOR */
+/* Declare prototypes based upon what's #defined above */
+#ifdef DSP_HAVE_ASM_CROSSFEED
+void apply_crossfeed(int count, int32_t *buf[]);
+#endif
+
+#ifdef DSP_HAVE_ASM_APPLY_GAIN
+void dsp_apply_gain(int count, struct dsp_data *data, int32_t *buf[]);
+#endif /* DSP_HAVE_ASM_APPLY_GAIN* */
+
+#ifdef DSP_HAVE_ASM_RESAMPLING
+int dsp_upsample(int count, struct dsp_data *data,
+ int32_t *src[], int32_t *dst[]);
+int dsp_downsample(int count, struct dsp_data *data,
+ int32_t *src[], int32_t *dst[]);
+#endif /* DSP_HAVE_ASM_RESAMPLING */
+
+#ifdef DSP_HAVE_ASM_SOUND_CHAN_MONO
+void channels_process_sound_chan_mono(int count, int32_t *buf[]);
+#endif
+
+#ifdef DSP_HAVE_ASM_SOUND_CHAN_CUSTOM
+void channels_process_sound_chan_custom(int count, int32_t *buf[]);
+#endif
+
+#ifdef DSP_HAVE_ASM_SOUND_CHAN_KARAOKE
+void channels_process_sound_chan_karaoke(int count, int32_t *buf[]);
+#endif
+
+#ifdef DSP_HAVE_ASM_SAMPLE_OUTPUT_STEREO
+void sample_output_stereo(int count, struct dsp_data *data,
+ int32_t *src[], int16_t *dst);
+#endif
+
+#ifdef DSP_HAVE_ASM_SAMPLE_OUTPUT_MONO
+void sample_output_mono(int count, struct dsp_data *data,
+ int32_t *src[], int16_t *dst);
+#endif
+
#endif /* _DSP_ASM_H */
diff --git a/apps/dsp_cf.S b/apps/dsp_cf.S
index af9ac1fa4b..e5d3ee8c55 100644
--- a/apps/dsp_cf.S
+++ b/apps/dsp_cf.S
@@ -19,68 +19,117 @@
****************************************************************************/
/****************************************************************************
- * void apply_crossfeed(int count, int32_t *src[])
+ * void dsp_apply_gain(int count, struct dsp_data *data, int32_t *buf[])
*/
.section .text
+ .align 2
+ .global dsp_apply_gain
+dsp_apply_gain:
+ lea.l -20(%sp), %sp | save registers
+ movem.l %d2-%d4/%a2-%a3, (%sp) |
+ movem.l 28(%sp), %a0-%a1 | %a0 = data,
+ | %a1 = buf
+ move.l 4(%a0), %d1 | %d1 = data->num_channels
+ move.l 32(%a0), %a0 | %a0 = data->gain (in s8.23)
+10: | channel loop |
+ move.l 24(%sp), %d0 | %d0 = count
+ move.l -4(%a1, %d1.l*4), %a2 | %a2 = s = buf[ch-1]
+ move.l %a2, %a3 | %a3 = d = s
+ move.l (%a2)+, %d2 | %d2 = *s++,
+ mac.l %a0, %d2, (%a2)+, %d2, %acc0 | %acc0 = S(n)*gain, load S(n+1)
+ subq.l #1, %d0 | --count > 0 ? : effectively n++
+ ble.b 30f | loop done | no? finish up
+20: | loop |
+ move.l %accext01, %d4 | fetch S(n-1)[7:0]
+ movclr.l %acc0, %d3 | fetch S(n-1)[40:8] in %d5[31:0]
+ asl.l #8, %d3 | *s++ = (S(n-1)[40:8] << 8) | S(n-1)[7:0]
+ mac.l %a0, %d2, (%a2)+, %d2, %acc0 | %acc0 = S(n)*gain, load S(n+1)
+ move.b %d4, %d3 |
+ move.l %d3, (%a3)+ |
+ subq.l #1, %d0 | --count > 0 ? : effectively n++
+ bgt.b 20b | loop | yes? do more samples
+30: | loop done |
+ move.l %accext01, %d4 | fetch S(n-1)[7:0]
+ movclr.l %acc0, %d3 | fetch S(n-1)[40:8] in %d5[31:0]
+ asl.l #8, %d3 | *s = (S(n-1)[40:8] << 8) | S(n-1)[7:0]
+ move.b %d4, %d3 |
+ move.l %d3, (%a3) |
+ subq.l #1, %d1 | next channel
+ bgt.b 10b | channel loop |
+ movem.l (%sp), %d2-%d4/%a2-%a3 | restore registers
+ lea.l 20(%sp), %sp | cleanup stack
+ rts |
+ .size dsp_apply_gain,.-dsp_apply_gain
+
+/****************************************************************************
+ * void apply_crossfeed(int count, int32_t *buf[])
+ */
+ .section .text
+ .align 2
.global apply_crossfeed
apply_crossfeed:
- lea.l -44(%sp), %sp
+ lea.l -44(%sp), %sp |
movem.l %d2-%d7/%a2-%a6, (%sp) | save all regs
movem.l 48(%sp), %d7/%a4 | %d7 = count, %a4 = src
movem.l (%a4), %a4-%a5 | %a4 = src[0], %a5 = src[1]
- lea.l crossfeed_data, %a1
- move.l (%a1)+, %a6 | a6 = direct gain
+ lea.l crossfeed_data, %a1 | %a1 = &crossfeed_data
+ move.l (%a1)+, %d6 | %d6 = direct gain
movem.l 12(%a1), %d0-%d3 | fetch filter history samples
move.l 132(%a1), %a0 | fetch delay line address
movem.l (%a1), %a1-%a3 | load filter coefs
+ lea.l crossfeed_data+136, %a6 | %a6 = delay line wrap limit
+ bra.b 20f | loop start | go to loop start point
/* Register usage in loop:
* %a0 = delay_p, %a1..%a3 = b0, b1, a1 (filter coefs),
- * %a4 = src[0], %a5 = src[1], %a6 = direct gain,
+ * %a4 = buf[0], %a5 = buf[1],
+ * %a6 = delay line pointer wrap limit,
* %d0..%d3 = history
- * %d4..%d6 = temp.
+ * %d4..%d5 = temp.
+ * %d6 = direct gain,
* %d7 = count
*/
-.cfloop:
- mac.l %a2, %d0, 4(%a0), %d0, %acc0 | acc = b1*dr[n - 1] d0 = dr[n]
- mac.l %a1, %d0 , %acc0 | acc += b0*dr[n]
- mac.l %a3, %d1, (%a4), %d4, %acc0 | acc += a1*y_l[n - 1], load L
- move.l %acc0, %d1 | get filtered delayed sample
- mac.l %a6, %d4, %acc0 | acc += gain*x_l[n]
- movclr.l %acc0, %d6 |
- move.l %d6, (%a4)+ | write result
-
- mac.l %a2, %d2, (%a0), %d2, %acc0 | acc = b1*dl[n - 1], d2 = dl[n]
- mac.l %a1, %d2 , %acc0 | acc += b0*dl[n]
- mac.l %a3, %d3, (%a5), %d5, %acc0 | acc += a1*y_r[n - 1], load R
- movem.l %d4-%d5, (%a0) | save left & right inputs to delay line
- move.l %acc0, %d3 | get filtered delayed sample
- mac.l %a6, %d5, %acc0 | acc += gain*x_r[n]
- lea.l 8(%a0), %a0 | increment delay pointer
- movclr.l %acc0, %d6 |
- move.l %d6, (%a5)+ | write result
-
- cmpa.l #crossfeed_data+136, %a0| wrap a0 if passed end
- bge.b .cfwrap |
- .word 0x51fb | tpf.l - trap the buffer wrap
-.cfwrap:
- lea.l -104(%a0), %a0 | wrap
- subq.l #1, %d7 | --count < 0 ?
- bgt.b .cfloop |
+10: | loop |
+ movclr.l %acc0, %d4 | write outputs
+ move.l %d4, (%a4)+ | .
+ movclr.l %acc1, %d5 | .
+ move.l %d5, (%a5)+ | .
+20: | loop start |
+ mac.l %a2, %d0, (%a0)+, %d0, %acc0 | %acc0 = b1*dl[n - 1], %d0 = dl[n]
+ mac.l %a1, %d0 , %acc0 | %acc0 += b0*dl[n]
+ mac.l %a3, %d1, (%a5), %d5, %acc0 | %acc0 += a1*y_r[n - 1], load R
+ mac.l %a2, %d2, (%a0)+, %d2, %acc1 | %acc1 = b1*dr[n - 1], %d2 = dr[n]
+ mac.l %a1, %d2 , %acc1 | %acc1 += b0*dr[n]
+ mac.l %a3, %d3, (%a4), %d4, %acc1 | %acc1 += a1*y_l[n - 1], load L
+ movem.l %d4-%d5, -8(%a0) | save left & right inputs to delay line
+ move.l %acc0, %d3 | get filtered delayed left sample (y_l[n])
+ move.l %acc1, %d1 | get filtered delayed right sample (y_r[n])
+ mac.l %d6, %d4, %acc0 | %acc0 += gain*x_l[n]
+ mac.l %d6, %d5, %acc1 | %acc1 += gain*x_r[n]
+ cmp.l %a6, %a0 | wrap %a0 if passed end
+ bhs.b 30f | wrap buffer |
+ .word 0x51fb | tpf.l | trap the buffer wrap
+30: | wrap buffer | ...fwd taken branches more costly
+ lea.l -104(%a0), %a0 | wrap it up
+ subq.l #1, %d7 | --count > 0 ?
+ bgt.b 10b | loop | yes? do more
+ movclr.l %acc0, %d4 | write last outputs
+ move.l %d4, (%a4) | .
+ movclr.l %acc1, %d5 | .
+ move.l %d5, (%a5) | .
lea.l crossfeed_data+16, %a1 | save data back to struct
movem.l %d0-%d3, (%a1) | ...history
move.l %a0, 120(%a1) | ...delay_p
movem.l (%sp), %d2-%d7/%a2-%a6 | restore all regs
- lea.l 44(%sp), %sp
- rts
-.cfend:
- .size apply_crossfeed,.cfend-apply_crossfeed
-
+ lea.l 44(%sp), %sp |
+ rts |
+ .size apply_crossfeed,.-apply_crossfeed
/****************************************************************************
* int dsp_downsample(int count, struct dsp_data *data,
* in32_t *src[], int32_t *dst[])
*/
.section .text
+ .align 2
.global dsp_downsample
dsp_downsample:
lea.l -40(%sp), %sp | save non-clobberables
@@ -92,7 +141,7 @@ dsp_downsample:
movem.l 4(%a0), %d3-%d4 | %d3 = ch = data->num_channels
| %d4 = delta = data->resample_data.delta
moveq.l #16, %d7 | %d7 = shift
-.dschannel_loop:
+10: | channel loop |
move.l 12(%a0), %d5 | %d5 = phase = data->resample_data.phase
move.l -4(%a1, %d3.l*4), %a3 | %a3 = s = src[ch-1]
move.l -4(%a2, %d3.l*4), %a4 | %a4 = d = dst[ch-1]
@@ -102,15 +151,15 @@ dsp_downsample:
move.l %d5, %d6 | %d6 = pos = phase >> 16
lsr.l %d7, %d6 |
cmp.l %d2, %d6 | past end of samples?
- bge.b .dsloop_skip | yes? skip loop
+ bge.b 40f | skip resample loop| yes? skip loop
tst.l %d6 | need last sample of prev. frame?
- bne.b .dsloop | no? start main loop
+ bne.b 20f | resample loop | no? start main loop
move.l (%a3, %d6.l*4), %d1 | %d1 = s[pos]
- bra.b .dsuse_last_start | start with last (last in %d0)
-.dsloop:
+ bra.b 30f | resample start last | start with last (last in %d0)
+20: | resample loop |
lea.l -4(%a3, %d6.l*4), %a5 | load s[pos-1] and s[pos]
movem.l (%a5), %d0-%d1 |
-.dsuse_last_start:
+30: | resample start last |
sub.l %d0, %d1 | %d1 = diff = s[pos] - s[pos-1]
move.l %d0, %acc0 | %acc0 = previous sample
move.l %d5, %d0 | frac = (phase << 16) >> 1
@@ -123,11 +172,11 @@ dsp_downsample:
movclr.l %acc0, %d0 |
move.l %d0, (%a4)+ | *d++ = %d0
cmp.l %d2, %d6 | pos < count?
- blt.b .dsloop | yes? continue resampling
-.dsloop_skip:
+ blt.b 20b | resample loop | yes? continue resampling
+40: | skip resample loop |
subq.l #1, %d3 | ch > 0?
- bgt.b .dschannel_loop | yes? process next channel
- asl.l %d7, %d2 | wrap phase to start of next frame
+ bgt.b 10b | channel loop | yes? process next channel
+ lsl.l %d7, %d2 | wrap phase to start of next frame
sub.l %d2, %d5 | data->resample_data.phase =
move.l %d5, 12(%a0) | ... phase - (count << 16)
move.l %a4, %d0 | return d - d[0]
@@ -136,14 +185,14 @@ dsp_downsample:
movem.l (%sp), %d2-%d7/%a2-%a5 | restore non-clobberables
lea.l 40(%sp), %sp | cleanup stack
rts | buh-bye
-.dsend:
- .size dsp_downsample,.dsend-dsp_downsample
+ .size dsp_downsample,.-dsp_downsample
/****************************************************************************
* int dsp_upsample(int count, struct dsp_data *dsp,
- * in32_t *src[], int32_t *dst[])
+ * int32_t *src[], int32_t *dst[])
*/
.section .text
+ .align 2
.global dsp_upsample
dsp_upsample:
lea.l -40(%sp), %sp | save non-clobberables
@@ -154,47 +203,55 @@ dsp_upsample:
| %a2 = dst
movem.l 4(%a0), %d3-%d4 | %d3 = ch = channels
| %d4 = delta = data->resample_data.delta
- swap %d4 | swap delta to high word to use
- | carries to increment position
-.uschannel_loop:
+ swap %d4 | swap delta to high word to use...
+ | ...carries to increment position
+10: | channel loop |
move.l 12(%a0), %d5 | %d5 = phase = data->resample_data.phase
move.l -4(%a1, %d3.l*4), %a3 | %a3 = s = src[ch-1]
lea.l 12(%a0, %d3.l*4), %a4 | %a4 = &data->resample_data.last_sample[ch-1]
- lea.l (%a3, %d2.l*4), %a5 | %a5 = src_end = &src[count]
+ lea.l -4(%a3, %d2.l*4), %a5 | %a5 = src_end = &src[count-1]
move.l (%a4), %d0 | %d0 = last = data->resample_data.last_sample[ch-1]
- move.l -(%a5), (%a4) | data->resample_data.last_sample[ch-1] = s[count-1]
+ move.l (%a5), (%a4) | data->resample_data.last_sample[ch-1] = s[count-1]
move.l -4(%a2, %d3.l*4), %a4 | %a4 = d = dst[ch-1]
+ move.l (%a3)+, %d1 | fetch first sample - might throw this...
+ | ...away later but we'll be preincremented
+ move.l %d1, %d6 | save sample value
+ sub.l %d0, %d1 | %d1 = diff = s[0] - last
swap %d5 | swap phase to high word to use
| carries to increment position
- move.l %d5, %d6 | %d6 = pos = phase >> 16
+ move.l %d5, %d7 | %d7 = pos = phase >> 16
clr.w %d5 |
- eor.l %d5, %d6 | pos == 0?
- beq.b .usstart_0 | no? transistion from down
- cmp.l %d2, %d6 | past end of samples?
- bge.b .usloop_skip | yes? skip loop
- lea.l -4(%a3, %d6.l*4), %a3 | %a3 = s = &s[pos-1] (previous)
- move.l (%a3)+, %d0 | %d0 = *s++
- .word 0x51fa | tpf.w - trap next instruction
-.usloop_1:
+ eor.l %d5, %d7 | pos == 0?
+ beq.b 40f | loop start | yes? start loop
+ cmp.l %d2, %d7 | past end of samples?
+ bge.b 50f | skip resample loop| yes? go to next channel and collect info
+ lea.l (%a3, %d7.l*4), %a3 | %a3 = s = &s[pos+1]
+ movem.l -8(%a3), %d0-%d1 | %d0 = s[pos-1], %d1 = s[pos]
+ move.l %d1, %d6 | save sample value
+ sub.l %d0, %d1 | %d1 = diff = s[pos] - s[pos-1]
+ bra.b 40f | loop start |
+20: | next sample loop |
move.l %d6, %d0 | move previous sample to %d0
-.usstart_0:
move.l (%a3)+, %d1 | fetch next sample
move.l %d1, %d6 | save sample value
sub.l %d0, %d1 | %d1 = diff = s[pos] - s[pos-1]
-.usloop_0:
+30: | same sample loop |
+ movclr.l %acc0, %d7 | %d7 = result
+ move.l %d7, (%a4)+ | *d++ = %d7
+40: | loop start |
lsr.l #1, %d5 | make phase into frac
+ move.l %d0, %acc0 | %acc0 = s[pos-1]
mac.l %d1, %d5, %acc0 | %acc0 = diff * frac
lsl.l #1, %d5 | restore frac to phase
- movclr.l %acc0, %d7 | %d7 = product
- add.l %d0, %d7 | %d7 = last + product
- move.l %d7, (%a4)+ | *d++ = %d7
add.l %d4, %d5 | phase += delta
- bcc.b .usloop_0 | load next values?
+ bcc.b 30b | same sample loop | load next values?
cmp.l %a5, %a3 | src <= src_end?
- ble.b .usloop_1 | yes? continue resampling
-.usloop_skip:
+ bls.b 20b | next sample loop | yes? continue resampling
+ movclr.l %acc0, %d7 | %d7 = result
+ move.l %d7, (%a4)+ | *d++ = %d7
+50: | skip resample loop |
subq.l #1, %d3 | ch > 0?
- bgt.b .uschannel_loop | yes? process next channel
+ bgt.b 10b | channel loop | yes? process next channel
swap %d5 | wrap phase to start of next frame
move.l %d5, 12(%a0) | ...and save in data->resample_data.phase
move.l %a4, %d0 | return d - d[0]
@@ -203,12 +260,7 @@ dsp_upsample:
asr.l #2, %d0 | convert bytes->samples
lea.l 40(%sp), %sp | cleanup stack
rts | buh-bye
-.usend:
- .size dsp_upsample,.usend-dsp_upsample
-
-/* These routines might benefit from burst transfers but we'll keep them
- * small for now since they're rather light weight
- */
+ .size dsp_upsample,.-dsp_upsample
/****************************************************************************
* void channels_process_sound_chan_mono(int count, int32_t *buf[])
@@ -216,31 +268,39 @@ dsp_upsample:
* Mix left and right channels 50/50 into a center channel.
*/
.section .text
+ .align 2
.global channels_process_sound_chan_mono
channels_process_sound_chan_mono:
movem.l 4(%sp), %d0/%a0 | %d0 = count, %a0 = buf
- lea.l -12(%sp), %sp | save registers
- move.l %macsr, %d1 |
- movem.l %d1-%d3, (%sp) |
- move.l #0xb0, %macsr | put emac in rounding fractional mode
+ lea.l -20(%sp), %sp | save registers
+ movem.l %d2-%d4/%a2-%a3, (%sp) |
movem.l (%a0), %a0-%a1 | get channel pointers
+ move.l %a0, %a2 | use separate dst pointers since read
+ move.l %a1, %a3 | pointers run one ahead of write
move.l #0x40000000, %d3 | %d3 = 0.5
-1:
- move.l (%a0), %d1 | L = R = l/2 + r/2
- mac.l %d1, %d3, (%a1), %d2, %acc0 |
- mac.l %d2, %d3, %acc0 |
- movclr.l %acc0, %d1 |
- move.l %d1, (%a0)+ | output to original buffer
- move.l %d1, (%a1)+ |
- subq.l #1, %d0 |
- bgt.s 1b |
- movem.l (%sp), %d1-%d3 | restore registers
- move.l %d1, %macsr |
- lea.l 12(%sp), %sp | cleanup
- rts
-.cpmono_end:
- .size channels_process_sound_chan_mono, .cpmono_end-channels_process_sound_chan_mono
-
+ move.l (%a0)+, %d1 | prime the input registers
+ move.l (%a1)+, %d2 |
+ mac.l %d1, %d3, (%a0)+, %d1, %acc0 |
+ mac.l %d2, %d3, (%a1)+, %d2, %acc0 |
+ subq.l #1, %d0 |
+ ble.s 20f | loop done |
+10: | loop |
+ movclr.l %acc0, %d4 | L = R = l/2 + r/2
+ mac.l %d1, %d3, (%a0)+, %d1, %acc0 |
+ mac.l %d2, %d3, (%a1)+, %d2, %acc0 |
+ move.l %d4, (%a2)+ | output to original buffer
+ move.l %d4, (%a3)+ |
+ subq.l #1, %d0 |
+ bgt.s 10b | loop |
+20: | loop done |
+ movclr.l %acc0, %d4 | output last sample
+ move.l %d4, (%a2) |
+ move.l %d4, (%a3) |
+ movem.l (%sp), %d2-%d4/%a2-%a3 | restore registers
+ lea.l 20(%sp), %sp | cleanup
+ rts |
+ .size channels_process_sound_chan_mono, \
+ .-channels_process_sound_chan_mono
/****************************************************************************
* void channels_process_sound_chan_custom(int count, int32_t *buf[])
@@ -248,34 +308,47 @@ channels_process_sound_chan_mono:
* Apply stereo width (narrowing/expanding) effect.
*/
.section .text
+ .align 2
.global channels_process_sound_chan_custom
channels_process_sound_chan_custom:
movem.l 4(%sp), %d0/%a0 | %d0 = count, %a0 = buf
- lea.l -16(%sp), %sp | save registers
- move.l %macsr, %d1 |
- movem.l %d1-%d4, (%sp) |
- move.l #0xb0, %macsr | put emac in rounding fractional mode
+ lea.l -28(%sp), %sp | save registers
+ movem.l %d2-%d6/%a2-%a3, (%sp) |
movem.l (%a0), %a0-%a1 | get channel pointers
+ move.l %a0, %a2 | use separate dst pointers since read
+ move.l %a1, %a3 | pointers run one ahead of write
move.l dsp_sw_gain, %d3 | load straight (mid) gain
move.l dsp_sw_cross, %d4 | load cross (side) gain
-1:
- move.l (%a0), %d1 |
- mac.l %d1, %d3, (%a1), %d2, %acc0 | L = l*gain + r*cross
- mac.l %d1, %d4 , %acc1 | R = r*gain + l*cross
- mac.l %d2, %d4 , %acc0 |
- mac.l %d2, %d3 , %acc1 |
- movclr.l %acc0, %d1 |
- movclr.l %acc1, %d2 |
- move.l %d1, (%a0)+ |
- move.l %d2, (%a1)+ |
+ move.l (%a0)+, %d1 | prime the input registers
+ move.l (%a1)+, %d2 |
+ mac.l %d1, %d3 , %acc0 | L = l*gain + r*cross
+ mac.l %d1, %d4, (%a0)+, %d1, %acc1 | R = r*gain + l*cross
+ mac.l %d2, %d4 , %acc0 |
+ mac.l %d2, %d3, (%a1)+, %d2, %acc1 |
subq.l #1, %d0 |
- bgt.s 1b |
- movem.l (%sp), %d1-%d4 | restore registers
- move.l %d1, %macsr |
- lea.l 16(%sp), %sp | cleanup
- rts
-.cpcustom_end:
- .size channels_process_sound_chan_custom, .cpcustom_end-channels_process_sound_chan_custom
+ ble.b 20f | loop done |
+10: | loop |
+ movclr.l %acc0, %d5 |
+ movclr.l %acc1, %d6 |
+15: | loop start |
+ mac.l %d1, %d3 , %acc0 | L = l*gain + r*cross
+ mac.l %d1, %d4, (%a0)+, %d1, %acc1 | R = r*gain + l*cross
+ mac.l %d2, %d4 , %acc0 |
+ mac.l %d2, %d3, (%a1)+, %d2, %acc1 |
+ move.l %d5, (%a2)+ |
+ move.l %d6, (%a3)+ |
+ subq.l #1, %d0 |
+ bgt.s 10b | loop |
+20: | loop done |
+ movclr.l %acc0, %d5 | output last sample
+ movclr.l %acc1, %d6 |
+ move.l %d5, (%a2) |
+ move.l %d6, (%a3) |
+ movem.l (%sp), %d2-%d6/%a2-%a3 | restore registers
+ lea.l 28(%sp), %sp | cleanup
+ rts |
+ .size channels_process_sound_chan_custom, \
+ .-channels_process_sound_chan_custom
/****************************************************************************
* void channels_process_sound_chan_karaoke(int count, int32_t *buf[])
@@ -283,31 +356,42 @@ channels_process_sound_chan_custom:
* Separate channels into side channels.
*/
.section .text
+ .align 2
.global channels_process_sound_chan_karaoke
channels_process_sound_chan_karaoke:
movem.l 4(%sp), %d0/%a0 | %d0 = count, %a0 = buf
- lea.l -16(%sp), %sp | save registers
- move.l %macsr, %d1 |
- movem.l %d1-%d4, (%sp) |
- move.l #0xb0, %macsr | put emac in rounding fractional mode
- movem.l (%a0), %a0-%a1 | get channel pointers
- move.l #0x40000000, %d4 | %d3 = 0.5
-1:
- move.l (%a0), %d1 |
- msac.l %d1, %d4, (%a1), %d2, %acc0 | R = r/2 - l/2
- mac.l %d2, %d4 , %acc0 |
- movclr.l %acc0, %d1 |
- move.l %d1, (%a1)+ |
- neg.l %d1 | L = -R = -(r/2 - l/2) = l/2 - r/2
- move.l %d1, (%a0)+ |
- subq.l #1, %d0 |
- bgt.s 1b |
- movem.l (%sp), %d1-%d4 | restore registers
- move.l %d1, %macsr |
- lea.l 16(%sp), %sp | cleanup
- rts
-.cpkaraoke_end:
- .size channels_process_sound_chan_karaoke, .cpkaraoke_end-channels_process_sound_chan_karaoke
+ lea.l -20(%sp), %sp | save registers
+ movem.l %d2-%d4/%a2-%a3, (%sp) |
+ movem.l (%a0), %a0-%a1 | get channel src pointers
+ move.l %a0, %a2 | use separate dst pointers since read
+ move.l %a1, %a3 | pointers run one ahead of write
+ move.l #0x40000000, %d3 | %d3 = 0.5
+ move.l (%a0)+, %d1 | prime the input registers
+ move.l (%a1)+, %d2 |
+ mac.l %d1, %d3, (%a0)+, %d1, %acc0 | L = l/2 - r/2
+ msac.l %d2, %d3, (%a1)+, %d2, %acc0 |
+ subq.l #1, %d0 |
+ ble.b 20f | loop done |
+10: | loop |
+ movclr.l %acc0, %d4 |
+ mac.l %d1, %d3, (%a0)+, %d1, %acc0 | L = l/2 - r/2
+ msac.l %d2, %d3, (%a1)+, %d2, %acc0 |
+ move.l %d4, (%a2)+ |
+ neg.l %d4 | R = -L = -(l/2 - r/2) = r/2 - l/2
+ move.l %d4, (%a3)+ |
+ subq.l #1, %d0 |
+ bgt.s 10b | loop |
+20: | loop done |
+ movclr.l %acc0, %d4 | output last sample
+ move.l %d4, (%a2) |
+ neg.l %d4 | R = -L = -(l/2 - r/2) = r/2 - l/2
+ move.l %d4, (%a3) |
+ movem.l (%sp), %d2-%d4/%a2-%a3 | restore registers
+ lea.l 20(%sp), %sp | cleanup
+ rts |
+ .size channels_process_sound_chan_karaoke, \
+ .-channels_process_sound_chan_karaoke
+
/****************************************************************************
* void sample_output_stereo(int count, struct dsp_data *data,
* int32_t *src[], int16_t *dst)
@@ -329,6 +413,7 @@ channels_process_sound_chan_karaoke:
*
*/
.section .text
+ .align 2
.global sample_output_stereo
sample_output_stereo:
lea.l -44(%sp), %sp | save registers
@@ -348,11 +433,11 @@ sample_output_stereo:
add.l %a4, %d0 |
and.l #0xfffffff0, %d0 |
cmp.l %a0, %d0 | at least a full line?
- bhi.w .sos_longloop_1_start | no? jump to trailing longword
+ bhi.w 40f | long loop 1 start | no? do as trailing longwords
sub.l #16, %d0 | %d1 = first line bound
cmp.l %a4, %d0 | any leading longwords?
- bls.b .sos_lineloop_start | no? jump to line loop
-.sos_longloop_0:
+ bls.b 20f | line loop start | no? start line loop
+10: | long loop 0 |
move.l (%a2)+, %d1 | read longword from L and R
mac.l %d1, %a1, (%a3)+, %d2, %acc0 | shift L to high word
mac.l %d2, %a1, %acc1 | shift R to high word
@@ -362,10 +447,10 @@ sample_output_stereo:
move.w %d2, %d1 | interleave MS 16 bits of each
move.l %d1, (%a4)+ | ...and write both
cmp.l %a4, %d0 |
- bhi.b .sos_longloop_0 |
-.sos_lineloop_start:
+ bhi.b 10b | long loop 0 |
+20: | line loop start |
lea.l -12(%a0), %a5 | %a5 = at or just before last line bound
-.sos_lineloop:
+30: | line loop |
move.l (%a3)+, %d4 | get next 4 R samples and scale
mac.l %d4, %a1, (%a3)+, %d5, %acc0 | with saturation
mac.l %d5, %a1, (%a3)+, %d6, %acc1 |
@@ -394,11 +479,11 @@ sample_output_stereo:
move.w %d7, %d3 |
movem.l %d0-%d3, -16(%a4) | write four stereo samples
cmp.l %a4, %a5 |
- bhi.b .sos_lineloop |
-.sos_longloop_1_start:
+ bhi.b 30b | line loop |
+40: | long loop 1 start |
cmp.l %a4, %a0 | any longwords left?
- bls.b .sos_done | no? finished.
-.sos_longloop_1:
+ bls.b 60f | output end | no? stop
+50: | long loop 1 |
move.l (%a2)+, %d1 | handle trailing longwords
mac.l %d1, %a1, (%a3)+, %d2, %acc0 | the same way as leading ones
mac.l %d2, %a1, %acc1 |
@@ -408,14 +493,13 @@ sample_output_stereo:
move.w %d2, %d1 |
move.l %d1, (%a4)+ |
cmp.l %a4, %a0 |
- bhi.b .sos_longloop_1 |
-.sos_done:
+ bhi.b 50b | long loop 1
+60: | output end |
movem.l (%sp), %d1-%d7/%a2-%a5 | restore registers
move.l %d1, %macsr |
lea.l 44(%sp), %sp | cleanup
rts |
-.sos_end:
- .size sample_output_stereo, .sos_end-sample_output_stereo
+ .size sample_output_stereo, .-sample_output_stereo
/****************************************************************************
* void sample_output_mono(int count, struct dsp_data *data,
@@ -424,6 +508,7 @@ sample_output_stereo:
* Same treatment as sample_output_stereo but for one channel.
*/
.section .text
+ .align 2
.global sample_output_mono
sample_output_mono:
lea.l -28(%sp), %sp | save registers
@@ -442,11 +527,11 @@ sample_output_mono:
add.l %a3, %d0 |
and.l #0xfffffff0, %d0 |
cmp.l %a0, %d0 | at least a full line?
- bhi.w .som_longloop_1_start | no? jump to trailing longword
+ bhi.w 40f | long loop 1 start | no? do as trailing longwords
sub.l #16, %d0 | %d1 = first line bound
cmp.l %a3, %d0 | any leading longwords?
- bls.b .som_lineloop_start | no? jump to line loop
-.som_longloop_0:
+ bls.b 20f | line loop start | no? start line loop
+10: | long loop 0 |
move.l (%a2)+, %d1 | read longword from L and R
mac.l %d1, %d5, %acc0 | shift L to high word
movclr.l %acc0, %d1 | get possibly saturated results
@@ -455,10 +540,10 @@ sample_output_mono:
move.w %d2, %d1 | duplicate single channel into
move.l %d1, (%a3)+ | L and R
cmp.l %a3, %d0 |
- bhi.b .som_longloop_0 |
-.som_lineloop_start:
+ bhi.b 10b | long loop 0 |
+20: | line loop start |
lea.l -12(%a0), %a1 | %a1 = at or just before last line bound
-.som_lineloop:
+30: | line loop |
move.l (%a2)+, %d0 | get next 4 L samples and scale
mac.l %d0, %d5, (%a2)+, %d1, %acc0 | with saturation
mac.l %d1, %d5, (%a2)+, %d2, %acc1 |
@@ -483,11 +568,11 @@ sample_output_mono:
move.w %d4, %d3 |
movem.l %d0-%d3, -16(%a3) | write four stereo samples
cmp.l %a3, %a1 |
- bhi.b .som_lineloop |
-.som_longloop_1_start:
+ bhi.b 30b | line loop |
+40: | long loop 1 start |
cmp.l %a3, %a0 | any longwords left?
- bls.b .som_done | no? finished.
-.som_longloop_1:
+ bls.b 60f | output end | no? stop
+50: | loop loop 1 |
move.l (%a2)+, %d1 | handle trailing longwords
mac.l %d1, %d5, %acc0 | the same way as leading ones
movclr.l %acc0, %d1 |
@@ -496,11 +581,10 @@ sample_output_mono:
move.w %d2, %d1 |
move.l %d1, (%a3)+ |
cmp.l %a3, %a0 |
- bhi.b .som_longloop_1 |
-.som_done:
+ bhi.b 50b | long loop 1 |
+60: | output end |
movem.l (%sp), %d1-%d5/%a2-%a3 | restore registers
move.l %d1, %macsr |
lea.l 28(%sp), %sp | cleanup
rts |
-.som_end:
- .size sample_output_mono, .som_end-sample_output_mono
+ .size sample_output_mono, .-sample_output_mono