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Removed obsolete interleave plugin. Rewritten and fixed other for efficiency.

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This commit is contained in:
Abramo Bagnara 2000-04-12 20:38:48 +00:00
parent 87ab887d33
commit e963b9f371
10 changed files with 1638 additions and 1448 deletions
Download patch file Download diff file Expand all files Collapse all files

5
src/pcm/plugin/Makefile.am
View file

@ -1,8 +1,7 @@
EXTRA_LTLIBRARIES = libpcmplugin.la EXTRA_LTLIBRARIES = libpcmplugin.la
libpcmplugin_la_SOURCES = block.c mmap.c stream.c linear.c interleave.c \ libpcmplugin_la_SOURCES = block.c mmap.c stream.c linear.c \
mulaw.c alaw.c adpcm.c rate.c mulaw.c alaw.c adpcm.c rate.c route.c
# route.c
all: libpcmplugin.la all: libpcmplugin.la

359
src/pcm/plugin/adpcm.c
View file

@ -71,22 +71,35 @@ static short StepSize[89] = {
15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767 15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767
}; };
typedef struct adpcm_state { typedef struct {
int pred_val; /* Calculated predicted value */ int pred_val; /* Calculated predicted value */
int step_idx; /* Previous StepSize lookup index */ int step_idx; /* Previous StepSize lookup index */
unsigned int io_buffer; /* input / output bit packing buffer */ } adpcm_voice_t;
int io_shift; /* shift input / output buffer */
} adpcm_state_t;
static void adpcm_init_state(adpcm_state_t * state_ptr) typedef void (*adpcm_f)(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices,
size_t samples);
typedef struct adpcm_private_data {
adpcm_f func;
int conv;
adpcm_voice_t voices[0];
} adpcm_t;
static void adpcm_init(snd_pcm_plugin_t *plugin)
{ {
state_ptr->pred_val = 0; int voice;
state_ptr->step_idx = 0; adpcm_t *data = (adpcm_t *)plugin->extra_data;
state_ptr->io_buffer = 0; for (voice = 0; voice < plugin->src_format.voices; voice++) {
state_ptr->io_shift = 4; adpcm_voice_t *v = &data->voices[voice];
v->pred_val = 0;
v->step_idx = 0;
}
} }
static char adpcm_encoder(int sl, adpcm_state_t * state) static char adpcm_encoder(int sl, adpcm_voice_t * state)
{ {
short diff; /* Difference between sl and predicted sample */ short diff; /* Difference between sl and predicted sample */
short pred_diff; /* Predicted difference to next sample */ short pred_diff; /* Predicted difference to next sample */
@ -147,7 +160,7 @@ static char adpcm_encoder(int sl, adpcm_state_t * state)
} }
static int adpcm_decoder(unsigned char code, adpcm_state_t * state) static int adpcm_decoder(unsigned char code, adpcm_voice_t * state)
{ {
short pred_diff; /* Predicted difference to next sample */ short pred_diff; /* Predicted difference to next sample */
short step; /* holds previous StepSize value */ short step; /* holds previous StepSize value */
@ -197,118 +210,121 @@ static int adpcm_decoder(unsigned char code, adpcm_state_t * state)
* Basic Ima-ADPCM plugin * Basic Ima-ADPCM plugin
*/ */
typedef void (*adpcm_f)(adpcm_state_t *state, void *src_ptr, void *dst_ptr, int samples); static void adpcm_decode(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
typedef struct adpcm_private_data { const snd_pcm_plugin_voice_t *dst_voices,
adpcm_f func; size_t samples)
adpcm_state_t state; {
} adpcm_t; #define PUT16_LABELS
#include "plugin_ops.h"
#define ADPCM_FUNC_DECODE(name, dsttype, val) \ #undef PUT16_LABELS
static void adpcm_decode_##name(adpcm_state_t *state, \ adpcm_t *data = (adpcm_t *)plugin->extra_data;
void *src_ptr, void *dst_ptr, int samples) \ void *put = put16_labels[data->conv];
{ \ int voice;
unsigned char *src = src_ptr; \ int nvoices = plugin->src_format.voices;
dsttype *dst = dst_ptr; \ for (voice = 0; voice < nvoices; ++voice) {
unsigned int s; \ char *src;
samples <<= 1; \ int srcbit;
while (samples--) { \ char *dst;
if (state->io_shift) \ int src_step, srcbit_step, dst_step;
state->io_buffer = *src++; \ size_t samples1;
s = adpcm_decoder((state->io_buffer >> state->io_shift) & 0x0f, state); \ adpcm_voice_t *state;
*dst++ = val; \ if (src_voices[voice].addr == NULL) {
state->io_shift ^= 4; \ if (dst_voices[voice].addr != NULL) {
} \ // null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
srcbit = src_voices[voice].offset % 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8;
srcbit_step = src_voices[voice].next % 8;
dst_step = dst_voices[voice].next / 8;
state = &data->voices[voice];
samples1 = samples;
while (samples1-- > 0) {
signed short sample;
int v;
if (srcbit)
v = *src & 0x0f;
else
v = (*src >> 4) & 0x0f;
sample = adpcm_decoder(v, state);
goto *put;
#define PUT16_END after
#include "plugin_ops.h"
#undef PUT16_END
after:
src += src_step;
srcbit += srcbit_step;
if (srcbit == 8) {
src++;
srcbit = 0;
}
dst += dst_step;
}
}
} }
#define ADPCM_FUNC_ENCODE(name, srctype, val) \ static void adpcm_encode(snd_pcm_plugin_t *plugin,
static void adpcm_encode_##name(adpcm_state_t *state, \ const snd_pcm_plugin_voice_t *src_voices,
void *src_ptr, void *dst_ptr, int samples) \ const snd_pcm_plugin_voice_t *dst_voices,
{ \ size_t samples)
srctype *src = src_ptr; \ {
unsigned char *dst = dst_ptr; \ #define GET16_LABELS
unsigned int s; \ #include "plugin_ops.h"
samples <<= 1; \ #undef GET16_LABELS
while (samples--) { \ adpcm_t *data = (adpcm_t *)plugin->extra_data;
s = *src++; \ void *get = get16_labels[data->conv];
state->io_buffer |= adpcm_encoder((signed short)(val), state) << state->io_shift; \ int voice;
if (state->io_shift == 0) { \ int nvoices = plugin->src_format.voices;
*dst++ = state->io_buffer & 0xff; \ signed short sample = 0;
state->io_buffer = 0; \ for (voice = 0; voice < nvoices; ++voice) {
} \ char *src;
state->io_shift ^= 4; \ char *dst;
} \ int dstbit;
int src_step, dst_step, dstbit_step;
size_t samples1;
adpcm_voice_t *state;
if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
dstbit = dst_voices[voice].offset % 8;
src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8;
dstbit_step = dst_voices[voice].next % 8;
state = &data->voices[voice];
samples1 = samples;
while (samples1-- > 0) {
int v;
goto *get;
#define GET16_END after
#include "plugin_ops.h"
#undef GET16_END
after:
v = adpcm_encoder(sample, state);
if (dstbit)
*dst = (*dst & 0xf0) | v;
else
*dst = (*dst & 0x0f) | (v << 4);
src += src_step;
dst += dst_step;
dstbit += dstbit_step;
if (dstbit == 8) {
dst++;
dstbit = 0;
}
}
}
} }
ADPCM_FUNC_DECODE(u8, u_int8_t, (s >> 8) ^ 0x80)
ADPCM_FUNC_DECODE(s8, u_int8_t, s >> 8)
ADPCM_FUNC_DECODE(u16n, u_int16_t, s ^ 0x8000)
ADPCM_FUNC_DECODE(u16s, u_int16_t, bswap_16(s ^ 0x8000))
ADPCM_FUNC_DECODE(s16n, u_int16_t, s)
ADPCM_FUNC_DECODE(s16s, u_int16_t, bswap_16(s))
ADPCM_FUNC_DECODE(u24n, u_int32_t, (s << 8) ^ 0x800000)
ADPCM_FUNC_DECODE(u24s, u_int32_t, bswap_32((s << 8) ^ 0x800000))
ADPCM_FUNC_DECODE(s24n, u_int32_t, s << 8)
ADPCM_FUNC_DECODE(s24s, u_int32_t, bswap_32(s << 8))
ADPCM_FUNC_DECODE(u32n, u_int32_t, (s << 16) ^ 0x80000000)
ADPCM_FUNC_DECODE(u32s, u_int32_t, bswap_32((s << 16) ^ 0x80000000))
ADPCM_FUNC_DECODE(s32n, u_int32_t, s << 16)
ADPCM_FUNC_DECODE(s32s, u_int32_t, bswap_32(s << 16))
ADPCM_FUNC_ENCODE(u8, u_int8_t, s << 8)
ADPCM_FUNC_ENCODE(s8, u_int8_t, (s << 8) ^ 0x8000)
ADPCM_FUNC_ENCODE(u16n, u_int16_t, s ^ 0x8000)
ADPCM_FUNC_ENCODE(u16s, u_int16_t, bswap_16(s ^ 0x8000))
ADPCM_FUNC_ENCODE(s16n, u_int16_t, s)
ADPCM_FUNC_ENCODE(s16s, u_int16_t, bswap_16(s))
ADPCM_FUNC_ENCODE(u24n, u_int32_t, (s ^ 0x800000) >> 8)
ADPCM_FUNC_ENCODE(u24s, u_int32_t, bswap_32((s ^ 0x800000) >> 8))
ADPCM_FUNC_ENCODE(s24n, u_int32_t, s >> 8)
ADPCM_FUNC_ENCODE(s24s, u_int32_t, bswap_32(s >> 8))
ADPCM_FUNC_ENCODE(u32n, u_int32_t, (s ^ 0x80000000) >> 16)
ADPCM_FUNC_ENCODE(u32s, u_int32_t, bswap_32((s ^ 0x80000000) >> 16))
ADPCM_FUNC_ENCODE(s32n, u_int32_t, s >> 16)
ADPCM_FUNC_ENCODE(s32s, u_int32_t, bswap_32(s >> 16))
/* wide, sign, swap endian */
static adpcm_f adpcm_functions_decode[4 * 4 * 2 * 2] = {
adpcm_decode_u8, /* decode:8-bit:unsigned:none */
adpcm_decode_u8, /* decode:8-bit:unsigned:swap */
adpcm_decode_s8, /* decode:8-bit:signed:none */
adpcm_decode_s8, /* decode:8-bit:signed:swap */
adpcm_decode_u16n, /* decode:16-bit:unsigned:none */
adpcm_decode_u16s, /* decode:16-bit:unsigned:swap */
adpcm_decode_s16n, /* decode:16-bit:signed:none */
adpcm_decode_s16s, /* decode:16-bit:signed:swap */
adpcm_decode_u24n, /* decode:24-bit:unsigned:none */
adpcm_decode_u24s, /* decode:24-bit:unsigned:swap */
adpcm_decode_s24n, /* decode:24-bit:signed:none */
adpcm_decode_s24s, /* decode:24-bit:signed:swap */
adpcm_decode_u32n, /* decode:32-bit:unsigned:none */
adpcm_decode_u32s, /* decode:32-bit:unsigned:swap */
adpcm_decode_s32n, /* decode:32-bit:signed:none */
adpcm_decode_s32s, /* decode:32-bit:signed:swap */
};
/* wide, sign, swap endian */
static adpcm_f adpcm_functions_encode[4 * 2 * 2] = {
adpcm_encode_u8, /* encode:8-bit:unsigned:none */
adpcm_encode_u8, /* encode:8-bit:unsigned:swap */
adpcm_encode_s8, /* encode:8-bit:signed:none */
adpcm_encode_s8, /* encode:8-bit:signed:swap */
adpcm_encode_u16n, /* encode:16-bit:unsigned:none */
adpcm_encode_u16s, /* encode:16-bit:unsigned:swap */
adpcm_encode_s16n, /* encode:16-bit:signed:none */
adpcm_encode_s16s, /* encode:16-bit:signed:swap */
adpcm_encode_u24n, /* encode:24-bit:unsigned:none */
adpcm_encode_u24s, /* encode:24-bit:unsigned:swap */
adpcm_encode_s24n, /* encode:24-bit:signed:none */
adpcm_encode_s24s, /* encode:24-bit:signed:swap */
adpcm_encode_u32n, /* encode:32-bit:unsigned:none */
adpcm_encode_u32s, /* encode:32-bit:unsigned:swap */
adpcm_encode_s32n, /* encode:32-bit:signed:none */
adpcm_encode_s32s, /* encode:32-bit:signed:swap */
};
static ssize_t adpcm_transfer(snd_pcm_plugin_t *plugin, static ssize_t adpcm_transfer(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices, const snd_pcm_plugin_voice_t *src_voices,
@ -318,27 +334,32 @@ static ssize_t adpcm_transfer(snd_pcm_plugin_t *plugin,
adpcm_t *data; adpcm_t *data;
int voice; int voice;
if (plugin == NULL || src_voices == NULL || dst_voices == NULL || samples < 0) if (plugin == NULL || src_voices == NULL || dst_voices == NULL)
return -EFAULT;
if (samples < 0)
return -EINVAL; return -EINVAL;
if (samples == 0) if (samples == 0)
return 0; return 0;
data = (adpcm_t *)plugin->extra_data;
/* FIXME */
if (plugin->src_format.interleave) {
data->func(&data->state,
src_voices[0].addr,
dst_voices[0].addr,
samples * plugin->src_format.voices);
} else {
for (voice = 0; voice < plugin->src_format.voices; voice++) { for (voice = 0; voice < plugin->src_format.voices; voice++) {
if (src_voices[voice].addr == NULL) if (src_voices[voice].addr != NULL &&
continue; dst_voices[voice].addr == NULL)
data->func(&data->state, return -EFAULT;
src_voices[voice].addr, if (plugin->src_format.format == SND_PCM_SFMT_IMA_ADPCM) {
dst_voices[voice].addr, if (src_voices[voice].offset % 4 != 0 ||
samples); src_voices[voice].next % 4 != 0 ||
dst_voices[voice].offset % 8 != 0 ||
dst_voices[voice].next % 8 != 0)
return -EINVAL;
} else {
if (src_voices[voice].offset % 8 != 0 ||
src_voices[voice].next % 8 != 0 ||
dst_voices[voice].offset % 4 != 0 ||
dst_voices[voice].next % 4 != 0)
return -EINVAL;
} }
} }
data = (adpcm_t *)plugin->extra_data;
data->func(plugin, src_voices, dst_voices, samples);
return samples; return samples;
} }
@ -346,13 +367,16 @@ static int adpcm_action(snd_pcm_plugin_t * plugin,
snd_pcm_plugin_action_t action, snd_pcm_plugin_action_t action,
unsigned long udata) unsigned long udata)
{ {
adpcm_t *data;
if (plugin == NULL) if (plugin == NULL)
return -EINVAL; return -EINVAL;
data = (adpcm_t *)plugin->extra_data; switch (action) {
if (action == PREPARE) case INIT:
adpcm_init_state(&data->state); case PREPARE:
case DRAIN:
case FLUSH:
adpcm_init(plugin);
break;
}
return 0; /* silenty ignore other actions */ return 0; /* silenty ignore other actions */
} }
@ -363,64 +387,41 @@ int snd_pcm_plugin_build_adpcm(snd_pcm_plugin_handle_t *handle,
{ {
struct adpcm_private_data *data; struct adpcm_private_data *data;
snd_pcm_plugin_t *plugin; snd_pcm_plugin_t *plugin;
int endian, src_width, dst_width, sign; snd_pcm_format_t *format;
adpcm_f func; adpcm_f func;
if (!r_plugin || !src_format || !dst_format) if (r_plugin == NULL)
return -EINVAL; return -EINVAL;
*r_plugin = NULL; *r_plugin = NULL;
if (src_format->interleave != dst_format->interleave &&
src_format->voices > 1)
return -EINVAL;
if (src_format->rate != dst_format->rate) if (src_format->rate != dst_format->rate)
return -EINVAL; return -EINVAL;
if (src_format->voices != dst_format->voices) if (src_format->voices != dst_format->voices)
return -EINVAL; return -EINVAL;
if (dst_format->format == SND_PCM_SFMT_IMA_ADPCM) { if (dst_format->format == SND_PCM_SFMT_IMA_ADPCM) {
if (!snd_pcm_format_linear(src_format->format)) format = src_format;
return -EINVAL; func = adpcm_encode;
sign = snd_pcm_format_signed(src_format->format);
src_width = snd_pcm_format_width(src_format->format);
if ((src_width % 8) != 0 || src_width < 8 || src_width > 32)
return -EINVAL;
dst_width = 8;
#if __BYTE_ORDER == __LITTLE_ENDIAN
endian = snd_pcm_format_big_endian(src_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
endian = snd_pcm_format_little_endian(src_format->format);
#else
#error "Unsupported endian..."
#endif
func = ((adpcm_f(*)[2][2])adpcm_functions_encode)[src_width/8][sign][endian];
} else if (src_format->format == SND_PCM_SFMT_IMA_ADPCM) {
if (!snd_pcm_format_linear(dst_format->format))
return -EINVAL;
sign = snd_pcm_format_signed(dst_format->format);
dst_width = snd_pcm_format_width(dst_format->format);
if ((dst_width % 8) != 0 || dst_width < 8 || dst_width > 32)
return -EINVAL;
src_width = 8;
#if __BYTE_ORDER == __LITTLE_ENDIAN
endian = snd_pcm_format_big_endian(dst_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
endian = snd_pcm_format_little_endian(dst_format->format);
#else
#error "Unsupported endian..."
#endif
func = ((adpcm_f(*)[2][2])adpcm_functions_decode)[dst_width/8][sign][endian];
} else {
return -EINVAL;
} }
else if (src_format->format == SND_PCM_SFMT_IMA_ADPCM) {
format = dst_format;
func = adpcm_decode;
}
else
return -EINVAL;
if (!snd_pcm_format_linear(format->format))
return -EINVAL;
plugin = snd_pcm_plugin_build(handle, plugin = snd_pcm_plugin_build(handle,
"Ima-ADPCM<->linear conversion", "Ima-ADPCM<->linear conversion",
src_format, src_format,
dst_format, dst_format,
sizeof(struct adpcm_private_data)); sizeof(adpcm_t) + src_format->voices * sizeof(adpcm_voice_t));
if (plugin == NULL) if (plugin == NULL)
return -ENOMEM; return -ENOMEM;
data = (adpcm_t *)plugin->extra_data; data = (adpcm_t *)plugin->extra_data;
data->func = func;
data->conv = getput_index(format->format);
plugin->transfer = adpcm_transfer; plugin->transfer = adpcm_transfer;
plugin->action = adpcm_action; plugin->action = adpcm_action;
*r_plugin = plugin; *r_plugin = plugin;

266
src/pcm/plugin/alaw.c
View file

@ -132,107 +132,100 @@ static int alaw2linear(unsigned char a_val)
* Basic A-Law plugin * Basic A-Law plugin
*/ */
typedef void (*alaw_f)(void *src_ptr, void *dst_ptr, int samples); typedef void (*alaw_f)(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices,
size_t samples);
typedef struct alaw_private_data { typedef struct alaw_private_data {
int src_byte_width;
int dst_byte_width;
alaw_f func; alaw_f func;
int conv;
} alaw_t; } alaw_t;
#define ALAW_FUNC_DECODE(name, dsttype, val) \ static void alaw_decode(snd_pcm_plugin_t *plugin,
static void alaw_decode_##name(void *src_ptr, void *dst_ptr, int samples) \ const snd_pcm_plugin_voice_t *src_voices,
{ \ const snd_pcm_plugin_voice_t *dst_voices,
unsigned char *src = src_ptr; \ size_t samples)
dsttype *dst = dst_ptr; \ {
unsigned int s; \ #define PUT16_LABELS
while (samples--) { \ #include "plugin_ops.h"
s = alaw2linear(*src++); \ #undef PUT16_LABELS
*dst++ = val; \ alaw_t *data = (alaw_t *)plugin->extra_data;
} \ void *put = put16_labels[data->conv];
int voice;
int nvoices = plugin->src_format.voices;
for (voice = 0; voice < nvoices; ++voice) {
char *src;
char *dst;
int src_step, dst_step;
size_t samples1;
if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8;
samples1 = samples;
while (samples1-- > 0) {
signed short sample = alaw2linear(*src);
goto *put;
#define PUT16_END after
#include "plugin_ops.h"
#undef PUT16_END
after:
src += src_step;
dst += dst_step;
}
}
} }
#define ALAW_FUNC_ENCODE(name, srctype, val) \ static void alaw_encode(snd_pcm_plugin_t *plugin,
static void alaw_encode_##name(void *src_ptr, void *dst_ptr, int samples) \ const snd_pcm_plugin_voice_t *src_voices,
{ \ const snd_pcm_plugin_voice_t *dst_voices,
srctype *src = src_ptr; \ size_t samples)
unsigned char *dst = dst_ptr; \ {
unsigned int s; \ #define GET16_LABELS
while (samples--) { \ #include "plugin_ops.h"
s = *src++; \ #undef GET16_LABELS
*dst++ = linear2alaw(val); \ alaw_t *data = (alaw_t *)plugin->extra_data;
} \ void *get = get16_labels[data->conv];
int voice;
int nvoices = plugin->src_format.voices;
signed short sample = 0;
for (voice = 0; voice < nvoices; ++voice) {
char *src;
char *dst;
int src_step, dst_step;
size_t samples1;
if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8;
samples1 = samples;
while (samples1-- > 0) {
goto *get;
#define GET16_END after
#include "plugin_ops.h"
#undef GET16_END
after:
*dst = linear2alaw(sample);
src += src_step;
dst += dst_step;
}
}
} }
ALAW_FUNC_DECODE(u8, u_int8_t, (s >> 8) ^ 0x80)
ALAW_FUNC_DECODE(s8, u_int8_t, s >> 8)
ALAW_FUNC_DECODE(u16n, u_int16_t, s ^ 0x8000)
ALAW_FUNC_DECODE(u16s, u_int16_t, bswap_16(s ^ 0x8000))
ALAW_FUNC_DECODE(s16n, u_int16_t, s)
ALAW_FUNC_DECODE(s16s, u_int16_t, bswap_16(s))
ALAW_FUNC_DECODE(u24n, u_int32_t, (s << 8) ^ 0x800000)
ALAW_FUNC_DECODE(u24s, u_int32_t, bswap_32((s << 8) ^ 0x800000))
ALAW_FUNC_DECODE(s24n, u_int32_t, s << 8)
ALAW_FUNC_DECODE(s24s, u_int32_t, bswap_32(s << 8))
ALAW_FUNC_DECODE(u32n, u_int32_t, (s << 16) ^ 0x80000000)
ALAW_FUNC_DECODE(u32s, u_int32_t, bswap_32((s << 16) ^ 0x80000000))
ALAW_FUNC_DECODE(s32n, u_int32_t, s << 16)
ALAW_FUNC_DECODE(s32s, u_int32_t, bswap_32(s << 16))
ALAW_FUNC_ENCODE(u8, u_int8_t, s << 8)
ALAW_FUNC_ENCODE(s8, u_int8_t, (s << 8) ^ 0x8000)
ALAW_FUNC_ENCODE(u16n, u_int16_t, s ^ 0x8000)
ALAW_FUNC_ENCODE(u16s, u_int16_t, bswap_16(s ^ 0x8000))
ALAW_FUNC_ENCODE(s16n, u_int16_t, s)
ALAW_FUNC_ENCODE(s16s, u_int16_t, bswap_16(s))
ALAW_FUNC_ENCODE(u24n, u_int32_t, (s ^ 0x800000) >> 8)
ALAW_FUNC_ENCODE(u24s, u_int32_t, bswap_32((s ^ 0x800000) >> 8))
ALAW_FUNC_ENCODE(s24n, u_int32_t, s >> 8)
ALAW_FUNC_ENCODE(s24s, u_int32_t, bswap_32(s >> 8))
ALAW_FUNC_ENCODE(u32n, u_int32_t, (s ^ 0x80000000) >> 16)
ALAW_FUNC_ENCODE(u32s, u_int32_t, bswap_32((s ^ 0x80000000) >> 16))
ALAW_FUNC_ENCODE(s32n, u_int32_t, s >> 16)
ALAW_FUNC_ENCODE(s32s, u_int32_t, bswap_32(s >> 16))
/* wide, sign, swap endian */
static alaw_f alaw_functions_decode[4 * 2 * 2] = {
alaw_decode_u8, /* decode:8-bit:unsigned:none */
alaw_decode_u8, /* decode:8-bit:unsigned:swap */
alaw_decode_s8, /* decode:8-bit:signed:none */
alaw_decode_s8, /* decode:8-bit:signed:swap */
alaw_decode_u16n, /* decode:16-bit:unsigned:none */
alaw_decode_u16s, /* decode:16-bit:unsigned:swap */
alaw_decode_s16n, /* decode:16-bit:signed:none */
alaw_decode_s16s, /* decode:16-bit:signed:swap */
alaw_decode_u24n, /* decode:24-bit:unsigned:none */
alaw_decode_u24s, /* decode:24-bit:unsigned:swap */
alaw_decode_s24n, /* decode:24-bit:signed:none */
alaw_decode_s24s, /* decode:24-bit:signed:swap */
alaw_decode_u32n, /* decode:32-bit:unsigned:none */
alaw_decode_u32s, /* decode:32-bit:unsigned:swap */
alaw_decode_s32n, /* decode:32-bit:signed:none */
alaw_decode_s32s, /* decode:32-bit:signed:swap */
};
/* wide, sign, swap endian */
static alaw_f alaw_functions_encode[4 * 2 * 2] = {
alaw_encode_u8, /* encode:8-bit:unsigned:none */
alaw_encode_u8, /* encode:8-bit:unsigned:swap */
alaw_encode_s8, /* encode:8-bit:signed:none */
alaw_encode_s8, /* encode:8-bit:signed:swap */
alaw_encode_u16n, /* encode:16-bit:unsigned:none */
alaw_encode_u16s, /* encode:16-bit:unsigned:swap */
alaw_encode_s16n, /* encode:16-bit:signed:none */
alaw_encode_s16s, /* encode:16-bit:signed:swap */
alaw_encode_u24n, /* encode:24-bit:unsigned:none */
alaw_encode_u24s, /* encode:24-bit:unsigned:swap */
alaw_encode_s24n, /* encode:24-bit:signed:none */
alaw_encode_s24s, /* encode:24-bit:signed:swap */
alaw_encode_u32n, /* encode:32-bit:unsigned:none */
alaw_encode_u32s, /* encode:32-bit:unsigned:swap */
alaw_encode_s32n, /* encode:32-bit:signed:none */
alaw_encode_s32s, /* encode:32-bit:signed:swap */
};
static ssize_t alaw_transfer(snd_pcm_plugin_t *plugin, static ssize_t alaw_transfer(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices, const snd_pcm_plugin_voice_t *src_voices,
@ -242,24 +235,25 @@ static ssize_t alaw_transfer(snd_pcm_plugin_t *plugin,
alaw_t *data; alaw_t *data;
int voice; int voice;
if (plugin == NULL || src_voices == NULL || dst_voices == NULL || samples < 0) if (plugin == NULL || src_voices == NULL || dst_voices == NULL)
return -EFAULT;
if (samples < 0)
return -EINVAL; return -EINVAL;
if (samples == 0) if (samples == 0)
return 0; return 0;
data = (alaw_t *)plugin->extra_data;
if (plugin->src_format.interleave) {
data->func(src_voices[0].addr,
dst_voices[0].addr,
samples * plugin->src_format.voices);
} else {
for (voice = 0; voice < plugin->src_format.voices; voice++) { for (voice = 0; voice < plugin->src_format.voices; voice++) {
if (src_voices[voice].addr == NULL) if (src_voices[voice].addr != NULL &&
continue; dst_voices[voice].addr == NULL)
data->func(src_voices[voice].addr, return -EFAULT;
dst_voices[voice].addr, if (src_voices[voice].offset % 8 != 0 ||
samples); src_voices[voice].next % 8 != 0)
} return -EINVAL;
if (dst_voices[voice].offset % 8 != 0 ||
dst_voices[voice].next % 8 != 0)
return -EINVAL;
} }
data = (alaw_t *)plugin->extra_data;
data->func(plugin, src_voices, dst_voices, samples);
return samples; return samples;
} }
@ -268,69 +262,43 @@ int snd_pcm_plugin_build_alaw(snd_pcm_plugin_handle_t *handle,
snd_pcm_format_t *dst_format, snd_pcm_format_t *dst_format,
snd_pcm_plugin_t **r_plugin) snd_pcm_plugin_t **r_plugin)
{ {
struct alaw_private_data *data; alaw_t *data;
snd_pcm_plugin_t *plugin; snd_pcm_plugin_t *plugin;
int endian, src_width, dst_width, sign; snd_pcm_format_t *format;
alaw_f func; alaw_f func;
if (r_plugin == NULL) if (r_plugin == NULL)
return -EINVAL; return -EINVAL;
*r_plugin = NULL; *r_plugin = NULL;
if (src_format->interleave != dst_format->interleave &&
src_format->voices > 1)
return -EINVAL;
if (src_format->rate != dst_format->rate) if (src_format->rate != dst_format->rate)
return -EINVAL; return -EINVAL;
if (src_format->voices != dst_format->voices) if (src_format->voices != dst_format->voices)
return -EINVAL; return -EINVAL;
if (dst_format->format == SND_PCM_SFMT_MU_LAW) { if (dst_format->format == SND_PCM_SFMT_A_LAW) {
if (!snd_pcm_format_linear(src_format->format)) format = src_format;
return -EINVAL; func = alaw_encode;
sign = snd_pcm_format_signed(src_format->format);
src_width = snd_pcm_format_width(src_format->format);
if ((src_width % 8) != 0 || src_width < 8 || src_width > 32)
return -EINVAL;
dst_width = 8;
#if __BYTE_ORDER == __LITTLE_ENDIAN
endian = snd_pcm_format_big_endian(src_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
endian = snd_pcm_format_little_endian(src_format->format);
#else
#error "Unsupported endian..."
#endif
func = ((alaw_f(*)[2][2])alaw_functions_encode)[(src_width/8)-1][sign][endian];
} else if (src_format->format == SND_PCM_SFMT_MU_LAW) {
if (!snd_pcm_format_linear(dst_format->format))
return -EINVAL;
sign = snd_pcm_format_signed(dst_format->format);
dst_width = snd_pcm_format_width(dst_format->format);
if ((dst_width % 8) != 0 || dst_width < 8 || dst_width > 32)
return -EINVAL;
src_width = 8;
#if __BYTE_ORDER == __LITTLE_ENDIAN
endian = snd_pcm_format_big_endian(dst_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
endian = snd_pcm_format_little_endian(dst_format->format);
#else
#error "Unsupported endian..."
#endif
func = ((alaw_f(*)[2][2])alaw_functions_decode)[(dst_width/8)-1][sign][endian];
} else {
return -EINVAL;
} }
else if (src_format->format == SND_PCM_SFMT_A_LAW) {
format = dst_format;
func = alaw_decode;
}
else
return -EINVAL;
if (!snd_pcm_format_linear(format->format))
return -EINVAL;
plugin = snd_pcm_plugin_build(handle, plugin = snd_pcm_plugin_build(handle,
"A-Law<->linear conversion", "A-Law<->linear conversion",
src_format, src_format,
dst_format, dst_format,
sizeof(struct alaw_private_data)); sizeof(alaw_t));
if (plugin == NULL) if (plugin == NULL)
return -ENOMEM; return -ENOMEM;
data = (struct alaw_private_data *)plugin->extra_data; data = (alaw_t*)plugin->extra_data;
data->src_byte_width = src_width / 8;
data->dst_byte_width = dst_width / 8;
data->func = func; data->func = func;
data->conv = getput_index(format->format);
plugin->transfer = alaw_transfer; plugin->transfer = alaw_transfer;
*r_plugin = plugin; *r_plugin = plugin;
return 0; return 0;

181
src/pcm/plugin/interleave.c
View file

@ -1,181 +0,0 @@
/*
* Interleave / non-interleave conversion Plug-In
* Copyright (c) 2000 by Abramo Bagnara <abramo@alsa-project.org>,
* Jaroslav Kysela <perex@suse.cz>
*
*
* This library is free software; you can redistribute it and/or modify
* it under the terms of the GNU Library General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#ifdef __KERNEL__
#include "../../include/driver.h"
#include "../../include/pcm.h"
#include "../../include/pcm_plugin.h"
#else
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <endian.h>
#include <byteswap.h>
#include <sys/uio.h>
#include "../pcm_local.h"
#endif
/*
* Basic interleave / non-interleave conversion plugin
*/
typedef void (*interleave_f)(const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices,
int voices, size_t samples);
typedef struct interleave_private_data {
interleave_f func;
} interleave_t;
#define INTERLEAVE_FUNC(name, type) \
static void name(const snd_pcm_plugin_voice_t *src_voices, \
const snd_pcm_plugin_voice_t *dst_voices, \
int voices, size_t samples) \
{ \
type *src, *dst; \
int voice, sample; \
for (voice = 0; voice < voices; voice++) { \
src = (type *)src_voices[voice].addr; \
dst = (type *)dst_voices[voice].addr + voice; \
for (sample = 0; sample < samples; sample++) { \
*dst = *src++; \
dst += voices; \
} \
} \
} \
#define DEINTERLEAVE_FUNC(name, type) \
static void name(const snd_pcm_plugin_voice_t *src_voices, \
const snd_pcm_plugin_voice_t *dst_voices, \
int voices, size_t samples) \
{ \
type *src, *dst; \
int voice, sample; \
for (voice = 0; voice < voices; voice++) { \
src = (type *)src_voices[voice].addr + voice; \
dst = (type *)dst_voices[voice].addr; \
for (sample = 0; sample < samples; sample++) { \
*dst++ = *src; \
src += voices; \
} \
} \
}
#define FUNCS(name, type) \
INTERLEAVE_FUNC(int_##name, type); \
DEINTERLEAVE_FUNC(deint_##name, type);
FUNCS(1, int8_t);
FUNCS(2, int16_t);
FUNCS(4, int32_t);
FUNCS(8, int64_t);
static ssize_t interleave_transfer(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices,
size_t samples)
{
interleave_t *data;
if (plugin == NULL || src_voices == NULL || src_voices == NULL || samples < 0)
return -EINVAL;
if (samples == 0)
return 0;
data = (interleave_t *)plugin->extra_data;
if (data == NULL)
return -EINVAL;
data->func(src_voices, dst_voices, plugin->src_format.voices, samples);
return samples;
}
int snd_pcm_plugin_build_interleave(snd_pcm_plugin_handle_t *handle,
snd_pcm_format_t *src_format,
snd_pcm_format_t *dst_format,
snd_pcm_plugin_t **r_plugin)
{
struct interleave_private_data *data;
snd_pcm_plugin_t *plugin;
interleave_f func;
if (r_plugin == NULL || src_format == NULL || dst_format == NULL)
return -EINVAL;
*r_plugin = NULL;
if (src_format->interleave == dst_format->interleave)
return -EINVAL;
if (src_format->format != dst_format->format)
return -EINVAL;
if (src_format->rate != dst_format->rate)
return -EINVAL;
if (src_format->voices != dst_format->voices)
return -EINVAL;
if (!src_format->interleave) {
switch (snd_pcm_format_width(src_format->format)) {
case 8:
func = int_1;
break;
case 16:
func = int_2;
break;
case 32:
func = int_4;
break;
case 64:
func = int_8;
break;
default:
return -EINVAL;
}
} else {
switch (snd_pcm_format_width(src_format->format)) {
case 8:
func = deint_1;
break;
case 16:
func = deint_2;
break;
case 32:
func = deint_4;
break;
case 64:
func = deint_8;
break;
default:
return -EINVAL;
}
}
plugin = snd_pcm_plugin_build(handle,
"interleave conversion",
src_format, dst_format,
sizeof(interleave_t));
if (plugin == NULL)
return -ENOMEM;
data = (interleave_t *)plugin->extra_data;
data->func = func;
plugin->transfer = interleave_transfer;
*r_plugin = plugin;
return 0;
}

390
src/pcm/plugin/linear.c
View file

@ -24,8 +24,6 @@
#include "../../include/driver.h" #include "../../include/driver.h"
#include "../../include/pcm.h" #include "../../include/pcm.h"
#include "../../include/pcm_plugin.h" #include "../../include/pcm_plugin.h"
#define bswap_16(x) __swab16((x))
#define bswap_32(x) __swab32((x))
#else #else
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
@ -42,260 +40,50 @@
* Basic linear conversion plugin * Basic linear conversion plugin
*/ */
typedef void (*linear_f)(void *src, void *dst, size_t size);
typedef struct linear_private_data { typedef struct linear_private_data {
int src_sample_size, dst_sample_size; int copy;
linear_f func;
} linear_t; } linear_t;
#define LIN_FUNC(name, srctype, dsttype, val) \ static void convert(snd_pcm_plugin_t *plugin,
static void lin_##name(void *src_ptr, void *dst_ptr, size_t size) \ const snd_pcm_plugin_voice_t *src_voices,
{ \ const snd_pcm_plugin_voice_t *dst_voices,
srctype *srcp = src_ptr; \ size_t samples)
dsttype *dstp = dst_ptr; \ {
while (size--) { \ #define COPY_LABELS
srctype src = *srcp++; \ #include "plugin_ops.h"
*dstp++ = val; \ #undef COPY_LABELS
} \ linear_t *data = (linear_t *)plugin->extra_data;
void *copy = copy_labels[data->copy];
int voice;
int nvoices = plugin->src_format.voices;
for (voice = 0; voice < nvoices; ++voice) {
char *src;
char *dst;
int src_step, dst_step;
size_t samples1;
if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8;
samples1 = samples;
while (samples1-- > 0) {
goto *copy;
#define COPY_END after
#include "plugin_ops.h"
#undef COPY_END
after:
src += src_step;
dst += dst_step;
}
}
} }
LIN_FUNC(8_sign, u_int8_t, u_int8_t, src ^ 0x80)
LIN_FUNC(8_16, u_int8_t, u_int16_t, (u_int16_t)src << 8)
LIN_FUNC(8_16_end, u_int8_t, u_int16_t, (u_int16_t)src)
LIN_FUNC(8_16_sign, u_int8_t, u_int16_t, (u_int16_t)(src ^ 0x80) << 8)
LIN_FUNC(8_16_sign_end, u_int8_t, u_int16_t, (u_int16_t)src ^ 0x80)
LIN_FUNC(8_24, u_int8_t, u_int32_t, (u_int32_t)src << 16)
LIN_FUNC(8_24_end, u_int8_t, u_int32_t, (u_int32_t)src << 8)
LIN_FUNC(8_24_sign, u_int8_t, u_int32_t, (u_int32_t)(src ^ 0x80) << 16)
LIN_FUNC(8_24_sign_end, u_int8_t, u_int32_t, (u_int32_t)(src ^ 0x80) << 8)
LIN_FUNC(8_32, u_int8_t, u_int32_t, (u_int32_t)src << 24)
LIN_FUNC(8_32_end, u_int8_t, u_int32_t, (u_int32_t)src)
LIN_FUNC(8_32_sign, u_int8_t, u_int32_t, (u_int32_t)(src ^ 0x80) << 24)
LIN_FUNC(8_32_sign_end, u_int8_t, u_int32_t, (u_int32_t)src ^ 0x80)
LIN_FUNC(16_8, u_int16_t, u_int8_t, src >> 8)
LIN_FUNC(16_end_8, u_int16_t, u_int8_t, src)
LIN_FUNC(16_8_sign, u_int16_t, u_int8_t, (src >> 8) ^ 0x80)
LIN_FUNC(16_end_8_sign, u_int16_t, u_int8_t, src ^ 0x80)
LIN_FUNC(16_sign, u_int16_t, u_int16_t, src ^ 0x8000)
LIN_FUNC(16_end, u_int16_t, u_int16_t, bswap_16(src))
LIN_FUNC(16_end_sign, u_int16_t, u_int16_t, bswap_16(src) ^ 0x8000)
LIN_FUNC(16_sign_end, u_int16_t, u_int16_t, bswap_16(src ^ 0x8000))
LIN_FUNC(16_end_sign_end, u_int16_t, u_int16_t, src ^ 0x80)
LIN_FUNC(16_24, u_int16_t, u_int32_t, (u_int32_t)src << 8)
LIN_FUNC(16_24_sign, u_int16_t, u_int32_t, (u_int32_t)(src ^ 0x8000) << 8)
LIN_FUNC(16_24_end, u_int16_t, u_int32_t, (u_int32_t)bswap_16(src) << 8)
LIN_FUNC(16_24_sign_end, u_int16_t, u_int32_t, (u_int32_t)bswap_16(src ^ 0x8000) << 8)
LIN_FUNC(16_end_24, u_int16_t, u_int32_t, (u_int32_t)bswap_16(src) << 8)
LIN_FUNC(16_end_24_sign, u_int16_t, u_int32_t, (u_int32_t)(bswap_16(src) ^ 0x8000) << 8)
LIN_FUNC(16_end_24_end, u_int16_t, u_int32_t, (u_int32_t)src << 8)
LIN_FUNC(16_end_24_sign_end, u_int16_t, u_int32_t, ((u_int32_t)src ^ 0x80) << 8)
LIN_FUNC(16_32, u_int16_t, u_int32_t, (u_int32_t)src << 16)
LIN_FUNC(16_32_sign, u_int16_t, u_int32_t, (u_int32_t)(src ^ 0x8000) << 16)
LIN_FUNC(16_32_end, u_int16_t, u_int32_t, (u_int32_t)bswap_16(src))
LIN_FUNC(16_32_sign_end, u_int16_t, u_int32_t, (u_int32_t)bswap_16(src ^ 0x8000))
LIN_FUNC(16_end_32, u_int16_t, u_int32_t, (u_int32_t)bswap_16(src) << 16)
LIN_FUNC(16_end_32_sign, u_int16_t, u_int32_t, (u_int32_t)(bswap_16(src) ^ 0x8000) << 16)
LIN_FUNC(16_end_32_end, u_int16_t, u_int32_t, (u_int32_t)src)
LIN_FUNC(16_end_32_sign_end, u_int16_t, u_int32_t, (u_int32_t)src ^ 0x80)
LIN_FUNC(24_8, u_int32_t, u_int8_t, src >> 16)
LIN_FUNC(24_end_8, u_int32_t, u_int8_t, src >> 8)
LIN_FUNC(24_8_sign, u_int32_t, u_int8_t, (src >> 16) ^ 0x80)
LIN_FUNC(24_end_8_sign, u_int32_t, u_int8_t, (src >> 8) ^ 0x80)
LIN_FUNC(24_16, u_int32_t, u_int16_t, src >> 8)
LIN_FUNC(24_16_sign, u_int32_t, u_int16_t, (src >> 8) ^ 0x8000)
LIN_FUNC(24_16_end, u_int32_t, u_int16_t, bswap_32(src >> 8))
LIN_FUNC(24_16_sign_end, u_int32_t, u_int16_t, bswap_32((src >> 8) ^ 0x8000))
LIN_FUNC(24_end_16, u_int32_t, u_int16_t, bswap_32(src) >> 8)
LIN_FUNC(24_end_16_sign, u_int32_t, u_int16_t, (bswap_32(src) >> 8) ^ 0x8000)
LIN_FUNC(24_end_16_end, u_int32_t, u_int16_t, src >> 8)
LIN_FUNC(24_end_16_sign_end, u_int32_t, u_int16_t, (src >> 8) ^ 0x80)
LIN_FUNC(24_sign, u_int32_t, u_int32_t, src ^ 0x800000)
LIN_FUNC(24_end, u_int32_t, u_int32_t, bswap_32(src))
LIN_FUNC(24_end_sign, u_int32_t, u_int32_t, bswap_32(src) ^ 0x800000)
LIN_FUNC(24_sign_end, u_int32_t, u_int32_t, bswap_32(src) ^ 0x80)
LIN_FUNC(24_end_sign_end, u_int32_t, u_int32_t, src ^ 0x80)
LIN_FUNC(24_32, u_int32_t, u_int32_t, src << 8)
LIN_FUNC(24_32_sign, u_int32_t, u_int32_t, (src << 8) ^ 0x80000000)
LIN_FUNC(24_32_end, u_int32_t, u_int32_t, bswap_32(src << 8))
LIN_FUNC(24_32_sign_end, u_int32_t, u_int32_t, bswap_32((src << 8) ^ 0x80000000))
LIN_FUNC(24_end_32, u_int32_t, u_int32_t, bswap_32(src) << 8)
LIN_FUNC(24_end_32_sign, u_int32_t, u_int32_t, (bswap_32(src) << 8) ^ 0x80000000)
LIN_FUNC(24_end_32_end, u_int32_t, u_int32_t, src >> 8)
LIN_FUNC(24_end_32_sign_end, u_int32_t, u_int32_t, (src >> 8) ^ 0x80)
LIN_FUNC(32_8, u_int32_t, u_int8_t, src >> 24)
LIN_FUNC(32_end_8, u_int32_t, u_int8_t, src)
LIN_FUNC(32_8_sign, u_int32_t, u_int8_t, (src >> 24) ^ 0x80)
LIN_FUNC(32_end_8_sign, u_int32_t, u_int8_t, src ^ 0x80)
LIN_FUNC(32_16, u_int32_t, u_int16_t, src >> 16)
LIN_FUNC(32_16_sign, u_int32_t, u_int16_t, (src >> 16) ^ 0x8000)
LIN_FUNC(32_16_end, u_int32_t, u_int16_t, bswap_16(src >> 16))
LIN_FUNC(32_16_sign_end, u_int32_t, u_int16_t, bswap_16((src >> 16) ^ 0x8000))
LIN_FUNC(32_end_16, u_int32_t, u_int16_t, bswap_16(src))
LIN_FUNC(32_end_16_sign, u_int32_t, u_int16_t, bswap_16(src) ^ 0x8000)
LIN_FUNC(32_end_16_end, u_int32_t, u_int16_t, src)
LIN_FUNC(32_end_16_sign_end, u_int32_t, u_int16_t, src ^ 0x80)
LIN_FUNC(32_24, u_int32_t, u_int32_t, src >> 8)
LIN_FUNC(32_24_sign, u_int32_t, u_int32_t, (src >> 8) ^ 0x800000)
LIN_FUNC(32_24_end, u_int32_t, u_int32_t, bswap_32(src >> 8))
LIN_FUNC(32_24_sign_end, u_int32_t, u_int32_t, bswap_32((src >> 8) ^ 0x800000))
LIN_FUNC(32_end_24, u_int32_t, u_int32_t, bswap_32(src) >> 8)
LIN_FUNC(32_end_24_sign, u_int32_t, u_int32_t, (bswap_32(src) >> 8) ^ 0x800000)
LIN_FUNC(32_end_24_end, u_int32_t, u_int32_t, src << 8)
LIN_FUNC(32_end_24_sign_end, u_int32_t, u_int32_t, (src << 8) ^ 0x80)
LIN_FUNC(32_sign, u_int32_t, u_int32_t, src ^ 0x80000000)
LIN_FUNC(32_end, u_int32_t, u_int32_t, bswap_32(src))
LIN_FUNC(32_end_sign, u_int32_t, u_int32_t, bswap_32(src) ^ 0x80000000)
LIN_FUNC(32_sign_end, u_int32_t, u_int32_t, bswap_32(src) ^ 0x80)
LIN_FUNC(32_end_sign_end, u_int32_t, u_int32_t, src ^ 0x80)
/* src_wid dst_wid src_endswap, dst_endswap, sign_swap */
static linear_f linear_functions[4 * 4 * 2 * 2 * 2] = {
NULL, /* 8->8: Nothing to do */
lin_8_sign, /* 8->8 sign: lin_8_sign */
NULL, /* 8->8 dst_end: Nothing to do */
lin_8_sign, /* 8->8 dst_end sign: lin_8_sign */
NULL, /* 8->8 src_end: Nothing to do */
lin_8_sign, /* 8->8 src_end sign: lin_8_sign */
NULL, /* 8->8 src_end dst_end: Nothing to do */
lin_8_sign, /* 8->8 src_end dst_end sign: lin_8_sign */
lin_8_16, /* 8->16: lin_8_16 */
lin_8_16_sign, /* 8->16 sign: lin_8_16_sign */
lin_8_16_end, /* 8->16 dst_end: lin_8_16_end */
lin_8_16_sign_end, /* 8->16 dst_end sign: lin_8_16_sign_end */
lin_8_16, /* 8->16 src_end: lin_8_16 */
lin_8_16_sign, /* 8->16 src_end sign: lin_8_16_sign */
lin_8_16_end, /* 8->16 src_end dst_end: lin_8_16_end */
lin_8_16_sign_end, /* 8->16 src_end dst_end sign: lin_8_16_sign_end */
lin_8_24, /* 8->24: lin_8_24 */
lin_8_24_sign, /* 8->24 sign: lin_8_24_sign */
lin_8_24_end, /* 8->24 dst_end: lin_8_24_end */
lin_8_24_sign_end, /* 8->24 dst_end sign: lin_8_24_sign_end */
lin_8_24, /* 8->24 src_end: lin_8_24 */
lin_8_24_sign, /* 8->24 src_end sign: lin_8_24_sign */
lin_8_24_end, /* 8->24 src_end dst_end: lin_8_24_end */
lin_8_24_sign_end, /* 8->24 src_end dst_end sign: lin_8_24_sign_end */
lin_8_32, /* 8->32: lin_8_32 */
lin_8_32_sign, /* 8->32 sign: lin_8_32_sign */
lin_8_32_end, /* 8->32 dst_end: lin_8_32_end */
lin_8_32_sign_end, /* 8->32 dst_end sign: lin_8_32_sign_end */
lin_8_32, /* 8->32 src_end: lin_8_32 */
lin_8_32_sign, /* 8->32 src_end sign: lin_8_32_sign */
lin_8_32_end, /* 8->32 src_end dst_end: lin_8_32_end */
lin_8_32_sign_end, /* 8->32 src_end dst_end sign: lin_8_32_sign_end */
lin_16_8, /* 16->8: lin_16_8 */
lin_16_8_sign, /* 16->8 sign: lin_16_8_sign */
lin_16_8, /* 16->8 dst_end: lin_16_8 */
lin_16_8_sign, /* 16->8 dst_end sign: lin_16_8_sign */
lin_16_end_8, /* 16->8 src_end: lin_16_end_8 */
lin_16_end_8_sign, /* 16->8 src_end sign: lin_16_end_8_sign */
lin_16_end_8, /* 16->8 src_end dst_end: lin_16_end_8 */
lin_16_end_8_sign, /* 16->8 src_end dst_end sign: lin_16_end_8_sign */
NULL, /* 16->16: Nothing to do */
lin_16_sign, /* 16->16 sign: lin_16_sign */
lin_16_end, /* 16->16 dst_end: lin_16_end */
lin_16_sign_end, /* 16->16 dst_end sign: lin_16_sign_end */
lin_16_end, /* 16->16 src_end: lin_16_end */
lin_16_end_sign, /* 16->16 src_end sign: lin_16_end_sign */
NULL, /* 16->16 src_end dst_end: Nothing to do */
lin_16_end_sign_end, /* 16->16 src_end dst_end sign: lin_16_end_sign_end */
lin_16_24, /* 16->24: lin_16_24 */
lin_16_24_sign, /* 16->24 sign: lin_16_24_sign */
lin_16_24_end, /* 16->24 dst_end: lin_16_24_end */
lin_16_24_sign_end, /* 16->24 dst_end sign: lin_16_24_sign_end */
lin_16_end_24, /* 16->24 src_end: lin_16_end_24 */
lin_16_end_24_sign, /* 16->24 src_end sign: lin_16_end_24_sign */
lin_16_end_24_end, /* 16->24 src_end dst_end: lin_16_end_24_end */
lin_16_end_24_sign_end,/* 16->24 src_end dst_end sign: lin_16_end_24_sign_end */
lin_16_32, /* 16->32: lin_16_32 */
lin_16_32_sign, /* 16->32 sign: lin_16_32_sign */
lin_16_32_end, /* 16->32 dst_end: lin_16_32_end */
lin_16_32_sign_end, /* 16->32 dst_end sign: lin_16_32_sign_end */
lin_16_end_32, /* 16->32 src_end: lin_16_end_32 */
lin_16_end_32_sign, /* 16->32 src_end sign: lin_16_end_32_sign */
lin_16_end_32_end, /* 16->32 src_end dst_end: lin_16_end_32_end */
lin_16_end_32_sign_end,/* 16->32 src_end dst_end sign: lin_16_end_32_sign_end */
lin_24_8, /* 24->8: lin_24_8 */
lin_24_8_sign, /* 24->8 sign: lin_24_8_sign */
lin_24_8, /* 24->8 dst_end: lin_24_8 */
lin_24_8_sign, /* 24->8 dst_end sign: lin_24_8_sign */
lin_24_end_8, /* 24->8 src_end: lin_24_end_8 */
lin_24_end_8_sign, /* 24->8 src_end sign: lin_24_end_8_sign */
lin_24_end_8, /* 24->8 src_end dst_end: lin_24_end_8 */
lin_24_end_8_sign, /* 24->8 src_end dst_end sign: lin_24_end_8_sign */
lin_24_16, /* 24->16: lin_24_16 */
lin_24_16_sign, /* 24->16 sign: lin_24_16_sign */
lin_24_16_end, /* 24->16 dst_end: lin_24_16_end */
lin_24_16_sign_end, /* 24->16 dst_end sign: lin_24_16_sign_end */
lin_24_end_16, /* 24->16 src_end: lin_24_end_16 */
lin_24_end_16_sign, /* 24->16 src_end sign: lin_24_end_16_sign */
lin_24_end_16_end, /* 24->16 src_end dst_end: lin_24_end_16_end */
lin_24_end_16_sign_end,/* 24->16 src_end dst_end sign: lin_24_end_16_sign_end */
NULL, /* 24->24: Nothing to do */
lin_24_sign, /* 24->24 sign: lin_24_sign */
lin_24_end, /* 24->24 dst_end: lin_24_end */
lin_24_sign_end, /* 24->24 dst_end sign: lin_24_sign_end */
lin_24_end, /* 24->24 src_end: lin_24_end */
lin_24_end_sign, /* 24->24 src_end sign: lin_24_end_sign */
NULL, /* 24->24 src_end dst_end: Nothing to do */
lin_24_end_sign_end, /* 24->24 src_end dst_end sign: lin_24_end_sign_end */
lin_24_32, /* 24->32: lin_24_32 */
lin_24_32_sign, /* 24->32 sign: lin_24_32_sign */
lin_24_32_end, /* 24->32 dst_end: lin_24_32_end */
lin_24_32_sign_end, /* 24->32 dst_end sign: lin_24_32_sign_end */
lin_24_end_32, /* 24->32 src_end: lin_24_end_32 */
lin_24_end_32_sign, /* 24->32 src_end sign: lin_24_end_32_sign */
lin_24_end_32_end, /* 24->32 src_end dst_end: lin_24_end_32_end */
lin_24_end_32_sign_end,/* 24->32 src_end dst_end sign: lin_24_end_32_sign_end */
lin_32_8, /* 32->8: lin_32_8 */
lin_32_8_sign, /* 32->8 sign: lin_32_8_sign */
lin_32_8, /* 32->8 dst_end: lin_32_8 */
lin_32_8_sign, /* 32->8 dst_end sign: lin_32_8_sign */
lin_32_end_8, /* 32->8 src_end: lin_32_end_8 */
lin_32_end_8_sign, /* 32->8 src_end sign: lin_32_end_8_sign */
lin_32_end_8, /* 32->8 src_end dst_end: lin_32_end_8 */
lin_32_end_8_sign, /* 32->8 src_end dst_end sign: lin_32_end_8_sign */
lin_32_16, /* 32->16: lin_32_16 */
lin_32_16_sign, /* 32->16 sign: lin_32_16_sign */
lin_32_16_end, /* 32->16 dst_end: lin_32_16_end */
lin_32_16_sign_end, /* 32->16 dst_end sign: lin_32_16_sign_end */
lin_32_end_16, /* 32->16 src_end: lin_32_end_16 */
lin_32_end_16_sign, /* 32->16 src_end sign: lin_32_end_16_sign */
lin_32_end_16_end, /* 32->16 src_end dst_end: lin_32_end_16_end */
lin_32_end_16_sign_end,/* 32->16 src_end dst_end sign: lin_32_end_16_sign_end */
lin_32_24, /* 32->24: lin_32_24 */
lin_32_24_sign, /* 32->24 sign: lin_32_24_sign */
lin_32_24_end, /* 32->24 dst_end: lin_32_24_end */
lin_32_24_sign_end, /* 32->24 dst_end sign: lin_32_24_sign_end */
lin_32_end_24, /* 32->24 src_end: lin_32_end_24 */
lin_32_end_24_sign, /* 32->24 src_end sign: lin_32_end_24_sign */
lin_32_end_24_end, /* 32->24 src_end dst_end: lin_32_end_24_end */
lin_32_end_24_sign_end,/* 32->24 src_end dst_end sign: lin_32_end_24_sign_end */
NULL, /* 32->32: Nothing to do */
lin_32_sign, /* 32->32 sign: lin_32_sign */
lin_32_end, /* 32->32 dst_end: lin_32_end */
lin_32_sign_end, /* 32->32 dst_end sign: lin_32_sign_end */
lin_32_end, /* 32->32 src_end: lin_32_end */
lin_32_end_sign, /* 32->32 src_end sign: lin_32_end_sign */
NULL, /* 32->32 src_end dst_end: Nothing to do */
lin_32_end_sign_end /* 32->32 src_end dst_end sign: lin_32_end_sign_end */
};
static ssize_t linear_transfer(snd_pcm_plugin_t *plugin, static ssize_t linear_transfer(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices, const snd_pcm_plugin_voice_t *src_voices,
@ -304,25 +92,56 @@ static ssize_t linear_transfer(snd_pcm_plugin_t *plugin,
{ {
linear_t *data; linear_t *data;
int voice; int voice;
ssize_t result;
if (plugin == NULL || src_voices == NULL || dst_voices == NULL || samples < 0) if (plugin == NULL || src_voices == NULL || dst_voices == NULL)
return -EFAULT;
data = (linear_t *)plugin->extra_data;
if (samples < 0)
return -EINVAL; return -EINVAL;
if (samples == 0) if (samples == 0)
return 0; return 0;
data = (linear_t *)plugin->extra_data; for (voice = 0; voice < plugin->src_format.voices; voice++) {
for (voice = 0, result = 0; voice < plugin->src_format.voices; voice++) { if (src_voices[voice].addr != NULL &&
if (src_voices[voice].addr == NULL) dst_voices[voice].addr == NULL)
continue; return -EFAULT;
if (dst_voices[voice].addr == NULL) if (src_voices[voice].offset % 8 != 0 ||
src_voices[voice].next % 8 != 0)
return -EINVAL;
if (dst_voices[voice].offset % 8 != 0 ||
dst_voices[voice].next % 8 != 0)
return -EINVAL; return -EINVAL;
data->func(src_voices[voice].addr,
dst_voices[voice].addr,
samples);
} }
convert(plugin, src_voices, dst_voices, samples);
return samples; return samples;
} }
int copy_index(int src_format, int dst_format)
{
int src_endian, dst_endian, sign, src_width, dst_width;
sign = (snd_pcm_format_signed(src_format) !=
snd_pcm_format_signed(dst_format));
#if __BYTE_ORDER == __LITTLE_ENDIAN
src_endian = snd_pcm_format_big_endian(src_format);
dst_endian = snd_pcm_format_big_endian(dst_format);
#elif __BYTE_ORDER == __BIG_ENDIAN
src_endian = snd_pcm_format_little_endian(src_format);
dst_endian = snd_pcm_format_little_endian(dst_format);
#else
#error "Unsupported endian..."
#endif
if (src_endian < 0)
src_endian = 0;
if (dst_endian < 0)
dst_endian = 0;
src_width = snd_pcm_format_width(src_format) / 8 - 1;
dst_width = snd_pcm_format_width(dst_format) / 8 - 1;
return src_width * 32 + src_endian * 16 + sign * 8 + dst_width * 2 + dst_endian;
}
int snd_pcm_plugin_build_linear(snd_pcm_plugin_handle_t *handle, int snd_pcm_plugin_build_linear(snd_pcm_plugin_handle_t *handle,
snd_pcm_format_t *src_format, snd_pcm_format_t *src_format,
snd_pcm_format_t *dst_format, snd_pcm_format_t *dst_format,
@ -330,16 +149,11 @@ int snd_pcm_plugin_build_linear(snd_pcm_plugin_handle_t *handle,
{ {
struct linear_private_data *data; struct linear_private_data *data;
snd_pcm_plugin_t *plugin; snd_pcm_plugin_t *plugin;
linear_f func;
int src_endian, dst_endian, sign, src_width, dst_width;
if (r_plugin == NULL) if (r_plugin == NULL)
return -EINVAL; return -EFAULT;
*r_plugin = NULL; *r_plugin = NULL;
if (src_format->interleave != dst_format->interleave &&
src_format->voices > 1)
return -EINVAL;
if (src_format->rate != dst_format->rate) if (src_format->rate != dst_format->rate)
return -EINVAL; return -EINVAL;
if (src_format->voices != dst_format->voices) if (src_format->voices != dst_format->voices)
@ -348,42 +162,6 @@ int snd_pcm_plugin_build_linear(snd_pcm_plugin_handle_t *handle,
snd_pcm_format_linear(dst_format->format))) snd_pcm_format_linear(dst_format->format)))
return -EINVAL; return -EINVAL;
sign = (snd_pcm_format_signed(src_format->format) !=
snd_pcm_format_signed(dst_format->format));
src_width = snd_pcm_format_width(src_format->format);
dst_width = snd_pcm_format_width(dst_format->format);
#if __BYTE_ORDER == __LITTLE_ENDIAN
src_endian = snd_pcm_format_big_endian(src_format->format);
dst_endian = snd_pcm_format_big_endian(dst_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
src_endian = snd_pcm_format_little_endian(src_format->format);
dst_endian = snd_pcm_format_little_endian(dst_format->format);
#else
#error "Unsupported endian..."
#endif
src_width = snd_pcm_format_width(src_format->format);
if (src_width < 0)
return src_width;
src_width /= 8;
src_width--;
dst_width = snd_pcm_format_width(dst_format->format);
if (dst_width < 0)
return dst_width;
dst_width /= 8;
dst_width--;
if (src_endian < 0)
src_endian = 0;
if (dst_endian < 0)
dst_endian = 0;
func = ((linear_f(*)[4][2][2][2])linear_functions)[src_width][dst_width][src_endian][dst_endian][sign];
if (func == NULL)
return -EINVAL;
plugin = snd_pcm_plugin_build(handle, plugin = snd_pcm_plugin_build(handle,
"linear format conversion", "linear format conversion",
src_format, src_format,
@ -392,9 +170,7 @@ int snd_pcm_plugin_build_linear(snd_pcm_plugin_handle_t *handle,
if (plugin == NULL) if (plugin == NULL)
return -ENOMEM; return -ENOMEM;
data = (linear_t *)plugin->extra_data; data = (linear_t *)plugin->extra_data;
data->func = func; data->copy = copy_index(src_format->format, dst_format->format);
data->src_sample_size = plugin->src_width / 8;
data->dst_sample_size = plugin->dst_width / 8;
plugin->transfer = linear_transfer; plugin->transfer = linear_transfer;
*r_plugin = plugin; *r_plugin = plugin;
return 0; return 0;

8
src/pcm/plugin/mmap.c
View file

@ -214,7 +214,7 @@ static int mmap_src_voices(snd_pcm_plugin_t *plugin,
if (control->status.frag_size != snd_pcm_plugin_dst_samples_to_size(plugin, samples)) if (control->status.frag_size != snd_pcm_plugin_dst_samples_to_size(plugin, samples))
return -EINVAL; return -EINVAL;
addr = data->buffer + control->fragments[data->frag].addr; addr = data->buffer + control->fragments[data->frag].addr;
for (voice = 0; voice < plugin->src_format.voices; voice++) { for (voice = 0; voice < plugin->src_format.voices; voice++, v++) {
v->aptr = NULL; v->aptr = NULL;
v->addr = addr; v->addr = addr;
v->offset = voice * plugin->src_width; v->offset = voice * plugin->src_width;
@ -224,7 +224,7 @@ static int mmap_src_voices(snd_pcm_plugin_t *plugin,
int frag, voice; int frag, voice;
if (control->status.frag_size != snd_pcm_plugin_src_samples_to_size(plugin, samples) / plugin->src_format.voices) if (control->status.frag_size != snd_pcm_plugin_src_samples_to_size(plugin, samples) / plugin->src_format.voices)
return -EINVAL; return -EINVAL;
for (voice = 0; voice < plugin->src_format.voices; voice++) { for (voice = 0; voice < plugin->src_format.voices; voice++, v++) {
frag = data->frag + (voice * data->frags); frag = data->frag + (voice * data->frags);
v->aptr = NULL; v->aptr = NULL;
v->addr = data->buffer + control->fragments[frag].addr; v->addr = data->buffer + control->fragments[frag].addr;
@ -260,7 +260,7 @@ static int mmap_dst_voices(snd_pcm_plugin_t *plugin,
if (control->status.frag_size != snd_pcm_plugin_dst_samples_to_size(plugin, samples)) if (control->status.frag_size != snd_pcm_plugin_dst_samples_to_size(plugin, samples))
return -EINVAL; return -EINVAL;
addr = data->buffer + control->fragments[data->frag].addr; addr = data->buffer + control->fragments[data->frag].addr;
for (voice = 0; voice < plugin->dst_format.voices; voice++) { for (voice = 0; voice < plugin->dst_format.voices; voice++, v++) {
v->addr = addr; v->addr = addr;
v->offset = voice * plugin->src_width; v->offset = voice * plugin->src_width;
v->next = plugin->dst_format.voices * plugin->dst_width; v->next = plugin->dst_format.voices * plugin->dst_width;
@ -269,7 +269,7 @@ static int mmap_dst_voices(snd_pcm_plugin_t *plugin,
int frag, voice; int frag, voice;
if (control->status.frag_size != snd_pcm_plugin_dst_samples_to_size(plugin, samples) / plugin->dst_format.voices) if (control->status.frag_size != snd_pcm_plugin_dst_samples_to_size(plugin, samples) / plugin->dst_format.voices)
return -EINVAL; return -EINVAL;
for (voice = 0; voice < plugin->dst_format.voices; voice++) { for (voice = 0; voice < plugin->dst_format.voices; voice++, v++) {
frag = data->frag + (voice * data->frags); frag = data->frag + (voice * data->frags);
v->addr = data->buffer + control->fragments[frag].addr; v->addr = data->buffer + control->fragments[frag].addr;
v->offset = 0; v->offset = 0;

265
src/pcm/plugin/mulaw.c
View file

@ -148,107 +148,100 @@ static int ulaw2linear(unsigned char u_val)
* Basic Mu-Law plugin * Basic Mu-Law plugin
*/ */
typedef void (*mulaw_f)(void *src_ptr, void *dst_ptr, int samples); typedef void (*mulaw_f)(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices,
size_t samples);
typedef struct mulaw_private_data { typedef struct mulaw_private_data {
int src_byte_width;
int dst_byte_width;
mulaw_f func; mulaw_f func;
int conv;
} mulaw_t; } mulaw_t;
#define MULAW_FUNC_DECODE(name, dsttype, val) \ static void mulaw_decode(snd_pcm_plugin_t *plugin,
static void mulaw_decode_##name(void *src_ptr, void *dst_ptr, int samples) \ const snd_pcm_plugin_voice_t *src_voices,
{ \ const snd_pcm_plugin_voice_t *dst_voices,
unsigned char *src = src_ptr; \ size_t samples)
dsttype *dst = dst_ptr; \ {
unsigned int s; \ #define PUT16_LABELS
while (samples--) { \ #include "plugin_ops.h"
s = ulaw2linear(*src++); \ #undef PUT16_LABELS
*dst++ = val; \ mulaw_t *data = (mulaw_t *)plugin->extra_data;
} \ void *put = put16_labels[data->conv];
int voice;
int nvoices = plugin->src_format.voices;
for (voice = 0; voice < nvoices; ++voice) {
char *src;
char *dst;
int src_step, dst_step;
size_t samples1;
if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8;
samples1 = samples;
while (samples1-- > 0) {
signed short sample = ulaw2linear(*src);
goto *put;
#define PUT16_END after
#include "plugin_ops.h"
#undef PUT16_END
after:
src += src_step;
dst += dst_step;
}
}
} }
#define MULAW_FUNC_ENCODE(name, srctype, val) \ static void mulaw_encode(snd_pcm_plugin_t *plugin,
static void mulaw_encode_##name(void *src_ptr, void *dst_ptr, int samples) \ const snd_pcm_plugin_voice_t *src_voices,
{ \ const snd_pcm_plugin_voice_t *dst_voices,
srctype *src = src_ptr; \ size_t samples)
unsigned char *dst = dst_ptr; \ {
unsigned int s; \ #define GET16_LABELS
while (samples--) { \ #include "plugin_ops.h"
s = *src++; \ #undef GET16_LABELS
*dst++ = linear2ulaw(val); \ mulaw_t *data = (mulaw_t *)plugin->extra_data;
} \ void *get = get16_labels[data->conv];
int voice;
int nvoices = plugin->src_format.voices;
signed short sample = 0;
for (voice = 0; voice < nvoices; ++voice) {
char *src;
char *dst;
int src_step, dst_step;
size_t samples1;
if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], samples);
}
continue;
}
src = src_voices[voice].addr + src_voices[voice].offset / 8;
dst = dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8;
samples1 = samples;
while (samples1-- > 0) {
goto *get;
#define GET16_END after
#include "plugin_ops.h"
#undef GET16_END
after:
*dst = linear2ulaw(sample);
src += src_step;
dst += dst_step;
}
}
} }
MULAW_FUNC_DECODE(u8, u_int8_t, (s >> 8) ^ 0x80)
MULAW_FUNC_DECODE(s8, u_int8_t, s >> 8)
MULAW_FUNC_DECODE(u16n, u_int16_t, s ^ 0x8000)
MULAW_FUNC_DECODE(u16s, u_int16_t, bswap_16(s ^ 0x8000))
MULAW_FUNC_DECODE(s16n, u_int16_t, s)
MULAW_FUNC_DECODE(s16s, u_int16_t, bswap_16(s))
MULAW_FUNC_DECODE(u24n, u_int32_t, (s << 8) ^ 0x800000)
MULAW_FUNC_DECODE(u24s, u_int32_t, bswap_32((s << 8) ^ 0x800000))
MULAW_FUNC_DECODE(s24n, u_int32_t, s << 8)
MULAW_FUNC_DECODE(s24s, u_int32_t, bswap_32(s << 8))
MULAW_FUNC_DECODE(u32n, u_int32_t, (s << 16) ^ 0x80000000)
MULAW_FUNC_DECODE(u32s, u_int32_t, bswap_32((s << 16) ^ 0x80000000))
MULAW_FUNC_DECODE(s32n, u_int32_t, s << 16)
MULAW_FUNC_DECODE(s32s, u_int32_t, bswap_32(s << 16))
MULAW_FUNC_ENCODE(u8, u_int8_t, s << 8)
MULAW_FUNC_ENCODE(s8, u_int8_t, (s << 8) ^ 0x8000)
MULAW_FUNC_ENCODE(u16n, u_int16_t, s ^ 0x8000)
MULAW_FUNC_ENCODE(u16s, u_int16_t, bswap_16(s ^ 0x8000))
MULAW_FUNC_ENCODE(s16n, u_int16_t, s)
MULAW_FUNC_ENCODE(s16s, u_int16_t, bswap_16(s))
MULAW_FUNC_ENCODE(u24n, u_int32_t, (s ^ 0x800000) >> 8)
MULAW_FUNC_ENCODE(u24s, u_int32_t, bswap_32((s ^ 0x800000) >> 8))
MULAW_FUNC_ENCODE(s24n, u_int32_t, s >> 8)
MULAW_FUNC_ENCODE(s24s, u_int32_t, bswap_32(s >> 8))
MULAW_FUNC_ENCODE(u32n, u_int32_t, (s ^ 0x80000000) >> 16)
MULAW_FUNC_ENCODE(u32s, u_int32_t, bswap_32((s ^ 0x80000000) >> 16))
MULAW_FUNC_ENCODE(s32n, u_int32_t, s >> 16)
MULAW_FUNC_ENCODE(s32s, u_int32_t, bswap_32(s >> 16))
/* wide, sign, swap endian */
static mulaw_f mulaw_functions_decode[4 * 4 * 2 * 2] = {
mulaw_decode_u8, /* decode:8-bit:unsigned:none */
mulaw_decode_u8, /* decode:8-bit:unsigned:swap */
mulaw_decode_s8, /* decode:8-bit:signed:none */
mulaw_decode_s8, /* decode:8-bit:signed:swap */
mulaw_decode_u16n, /* decode:16-bit:unsigned:none */
mulaw_decode_u16s, /* decode:16-bit:unsigned:swap */
mulaw_decode_s16n, /* decode:16-bit:signed:none */
mulaw_decode_s16s, /* decode:16-bit:signed:swap */
mulaw_decode_u24n, /* decode:24-bit:unsigned:none */
mulaw_decode_u24s, /* decode:24-bit:unsigned:swap */
mulaw_decode_s24n, /* decode:24-bit:signed:none */
mulaw_decode_s24s, /* decode:24-bit:signed:swap */
mulaw_decode_u32n, /* decode:32-bit:unsigned:none */
mulaw_decode_u32s, /* decode:32-bit:unsigned:swap */
mulaw_decode_s32n, /* decode:32-bit:signed:none */
mulaw_decode_s32s, /* decode:32-bit:signed:swap */
};
/* wide, sign, swap endian */
static mulaw_f mulaw_functions_encode[4 * 2 * 2] = {
mulaw_encode_u8, /* from:8-bit:unsigned:none */
mulaw_encode_u8, /* from:8-bit:unsigned:swap */
mulaw_encode_s8, /* from:8-bit:signed:none */
mulaw_encode_s8, /* from:8-bit:signed:swap */
mulaw_encode_u16n, /* from:16-bit:unsigned:none */
mulaw_encode_u16s, /* from:16-bit:unsigned:swap */
mulaw_encode_s16n, /* from:16-bit:signed:none */
mulaw_encode_s16s, /* from:16-bit:signed:swap */
mulaw_encode_u24n, /* from:24-bit:unsigned:none */
mulaw_encode_u24s, /* from:24-bit:unsigned:swap */
mulaw_encode_s24n, /* from:24-bit:signed:none */
mulaw_encode_s24s, /* from:24-bit:signed:swap */
mulaw_encode_u32n, /* from:32-bit:unsigned:none */
mulaw_encode_u32s, /* from:32-bit:unsigned:swap */
mulaw_encode_s32n, /* from:32-bit:signed:none */
mulaw_encode_s32s, /* from:32-bit:signed:swap */
};
static ssize_t mulaw_transfer(snd_pcm_plugin_t *plugin, static ssize_t mulaw_transfer(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices, const snd_pcm_plugin_voice_t *src_voices,
@ -258,24 +251,25 @@ static ssize_t mulaw_transfer(snd_pcm_plugin_t *plugin,
mulaw_t *data; mulaw_t *data;
int voice; int voice;
if (plugin == NULL || src_voices == NULL || dst_voices == NULL || samples < 0) if (plugin == NULL || src_voices == NULL || dst_voices == NULL)
return -EFAULT;
if (samples < 0)
return -EINVAL; return -EINVAL;
if (samples == 0) if (samples == 0)
return 0; return 0;
data = (mulaw_t *)plugin->extra_data;
if (plugin->src_format.interleave) {
data->func(src_voices[0].addr,
dst_voices[0].addr,
samples * plugin->src_format.voices);
} else {
for (voice = 0; voice < plugin->src_format.voices; voice++) { for (voice = 0; voice < plugin->src_format.voices; voice++) {
if (src_voices[voice].addr == NULL) if (src_voices[voice].addr != NULL &&
continue; dst_voices[voice].addr == NULL)
data->func(src_voices[voice].addr, return -EFAULT;
dst_voices[voice].addr, if (src_voices[voice].offset % 8 != 0 ||
samples); src_voices[voice].next % 8 != 0)
} return -EINVAL;
if (dst_voices[voice].offset % 8 != 0 ||
dst_voices[voice].next % 8 != 0)
return -EINVAL;
} }
data = (mulaw_t *)plugin->extra_data;
data->func(plugin, src_voices, dst_voices, samples);
return samples; return samples;
} }
@ -284,70 +278,43 @@ int snd_pcm_plugin_build_mulaw(snd_pcm_plugin_handle_t *handle,
snd_pcm_format_t *dst_format, snd_pcm_format_t *dst_format,
snd_pcm_plugin_t **r_plugin) snd_pcm_plugin_t **r_plugin)
{ {
struct mulaw_private_data *data; mulaw_t *data;
snd_pcm_plugin_t *plugin; snd_pcm_plugin_t *plugin;
int endian, src_width, dst_width, sign; snd_pcm_format_t *format;
mulaw_f func; mulaw_f func;
if (r_plugin == NULL) if (r_plugin == NULL)
return -EINVAL; return -EINVAL;
*r_plugin = NULL; *r_plugin = NULL;
if (src_format->interleave != dst_format->interleave &&
src_format->voices > 1)
return -EINVAL;
if (src_format->rate != dst_format->rate) if (src_format->rate != dst_format->rate)
return -EINVAL; return -EINVAL;
if (src_format->voices != dst_format->voices) if (src_format->voices != dst_format->voices)
return -EINVAL; return -EINVAL;
if (dst_format->format == SND_PCM_SFMT_MU_LAW) { if (dst_format->format == SND_PCM_SFMT_MU_LAW) {
if (!snd_pcm_format_linear(src_format->format)) format = src_format;
return -EINVAL; func = mulaw_encode;
sign = snd_pcm_format_signed(src_format->format);
src_width = snd_pcm_format_width(src_format->format);
if ((src_width % 8) != 0 || src_width < 8 || src_width > 32)
return -EINVAL;
dst_width = 8;
#if __BYTE_ORDER == __LITTLE_ENDIAN
endian = snd_pcm_format_big_endian(src_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
endian = snd_pcm_format_little_endian(src_format->format);
#else
#error "Unsupported endian..."
#endif
func = ((mulaw_f(*)[2][2])mulaw_functions_encode)[(src_width/8)-1][sign][endian];
} else if (src_format->format == SND_PCM_SFMT_MU_LAW) {
if (!snd_pcm_format_linear(dst_format->format))
return -EINVAL;
sign = snd_pcm_format_signed(dst_format->format);
dst_width = snd_pcm_format_width(dst_format->format);
if ((dst_width % 8) != 0 || dst_width < 8 || dst_width > 32)
return -EINVAL;
src_width = 8;
#if __BYTE_ORDER == __LITTLE_ENDIAN
endian = snd_pcm_format_big_endian(dst_format->format);
#elif __BYTE_ORDER == __BIG_ENDIAN
endian = snd_pcm_format_little_endian(dst_format->format);
#else
#error "Unsupported endian..."
#endif
func = ((mulaw_f(*)[2][2])mulaw_functions_decode)[(dst_width/8)-1][sign][endian];
} else {
return -EINVAL;
} }
else if (src_format->format == SND_PCM_SFMT_MU_LAW) {
format = dst_format;
func = mulaw_decode;
}
else
return -EINVAL;
if (!snd_pcm_format_linear(format->format))
return -EINVAL;
plugin = snd_pcm_plugin_build(handle, plugin = snd_pcm_plugin_build(handle,
"Mu-Law<->linear conversion", "Mu-Law<->linear conversion",
src_format, src_format,
dst_format, dst_format,
sizeof(struct mulaw_private_data)); sizeof(mulaw_t));
if (plugin == NULL) if (plugin == NULL)
return -ENOMEM; return -ENOMEM;
data = (struct mulaw_private_data *)plugin->extra_data; data = (mulaw_t*)plugin->extra_data;
data->src_byte_width = src_width / 8;
data->dst_byte_width = dst_width / 8;
data->func = func; data->func = func;
data->conv = getput_index(format->format);
plugin->transfer = mulaw_transfer; plugin->transfer = mulaw_transfer;
*r_plugin = plugin; *r_plugin = plugin;
return 0; return 0;

513
src/pcm/plugin/plugin_ops.h Normal file
View file

@ -0,0 +1,513 @@
/*
* Plugin sample operators with fast switch
* Copyright (c) 2000 by Jaroslav Kysela <perex@suse.cz>
*
*
* This library is free software; you can redistribute it and/or modify
* it under the terms of the GNU Library General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#define as_u8(ptr) (*(u_int8_t*)(ptr))
#define as_u16(ptr) (*(u_int16_t*)(ptr))
#define as_u32(ptr) (*(u_int32_t*)(ptr))
#define as_s8(ptr) (*(int8_t*)(ptr))
#define as_s16(ptr) (*(int16_t*)(ptr))
#define as_s32(ptr) (*(int32_t*)(ptr))
#ifdef COPY_LABELS
/* src_wid src_endswap sign_toggle dst_wid dst_endswap */
static void *copy_labels[4 * 2 * 2 * 4 * 2] = {
&&copy_xxx1_xxx1, /* 8h -> 8h */
&&copy_xxx1_xxx1, /* 8h -> 8s */
&&copy_xxx1_xx10, /* 8h -> 16h */
&&copy_xxx1_xx01, /* 8h -> 16s */
&&copy_xxx1_x100, /* 8h -> 24h */
&&copy_xxx1_001x, /* 8h -> 24s */
&&copy_xxx1_1000, /* 8h -> 32h */
&&copy_xxx1_0001, /* 8h -> 32s */
&&copy_xxx1_xxx9, /* 8h ^> 8h */
&&copy_xxx1_xxx9, /* 8h ^> 8s */
&&copy_xxx1_xx90, /* 8h ^> 16h */
&&copy_xxx1_xx09, /* 8h ^> 16s */
&&copy_xxx1_x900, /* 8h ^> 24h */
&&copy_xxx1_009x, /* 8h ^> 24s */
&&copy_xxx1_9000, /* 8h ^> 32h */
&&copy_xxx1_0009, /* 8h ^> 32s */
&&copy_xxx1_xxx1, /* 8s -> 8h */
&&copy_xxx1_xxx1, /* 8s -> 8s */
&&copy_xxx1_xx10, /* 8s -> 16h */
&&copy_xxx1_xx01, /* 8s -> 16s */
&&copy_xxx1_x100, /* 8s -> 24h */
&&copy_xxx1_001x, /* 8s -> 24s */
&&copy_xxx1_1000, /* 8s -> 32h */
&&copy_xxx1_0001, /* 8s -> 32s */
&&copy_xxx1_xxx9, /* 8s ^> 8h */
&&copy_xxx1_xxx9, /* 8s ^> 8s */
&&copy_xxx1_xx90, /* 8s ^> 16h */
&&copy_xxx1_xx09, /* 8s ^> 16s */
&&copy_xxx1_x900, /* 8s ^> 24h */
&&copy_xxx1_009x, /* 8s ^> 24s */
&&copy_xxx1_9000, /* 8s ^> 32h */
&&copy_xxx1_0009, /* 8s ^> 32s */
&&copy_xx12_xxx1, /* 16h -> 8h */
&&copy_xx12_xxx1, /* 16h -> 8s */
&&copy_xx12_xx12, /* 16h -> 16h */
&&copy_xx12_xx21, /* 16h -> 16s */
&&copy_xx12_x120, /* 16h -> 24h */
&&copy_xx12_021x, /* 16h -> 24s */
&&copy_xx12_1200, /* 16h -> 32h */
&&copy_xx12_0021, /* 16h -> 32s */
&&copy_xx12_xxx9, /* 16h ^> 8h */
&&copy_xx12_xxx9, /* 16h ^> 8s */
&&copy_xx12_xx92, /* 16h ^> 16h */
&&copy_xx12_xx29, /* 16h ^> 16s */
&&copy_xx12_x920, /* 16h ^> 24h */
&&copy_xx12_029x, /* 16h ^> 24s */
&&copy_xx12_9200, /* 16h ^> 32h */
&&copy_xx12_0029, /* 16h ^> 32s */
&&copy_xx12_xxx2, /* 16s -> 8h */
&&copy_xx12_xxx2, /* 16s -> 8s */
&&copy_xx12_xx21, /* 16s -> 16h */
&&copy_xx12_xx12, /* 16s -> 16s */
&&copy_xx12_x210, /* 16s -> 24h */
&&copy_xx12_012x, /* 16s -> 24s */
&&copy_xx12_2100, /* 16s -> 32h */
&&copy_xx12_0012, /* 16s -> 32s */
&&copy_xx12_xxxA, /* 16s ^> 8h */
&&copy_xx12_xxxA, /* 16s ^> 8s */
&&copy_xx12_xxA1, /* 16s ^> 16h */
&&copy_xx12_xx1A, /* 16s ^> 16s */
&&copy_xx12_xA10, /* 16s ^> 24h */
&&copy_xx12_01Ax, /* 16s ^> 24s */
&&copy_xx12_A100, /* 16s ^> 32h */
&&copy_xx12_001A, /* 16s ^> 32s */
&&copy_x123_xxx1, /* 24h -> 8h */
&&copy_x123_xxx1, /* 24h -> 8s */
&&copy_x123_xx12, /* 24h -> 16h */
&&copy_x123_xx21, /* 24h -> 16s */
&&copy_x123_x123, /* 24h -> 24h */
&&copy_x123_321x, /* 24h -> 24s */
&&copy_x123_1230, /* 24h -> 32h */
&&copy_x123_0321, /* 24h -> 32s */
&&copy_x123_xxx9, /* 24h ^> 8h */
&&copy_x123_xxx9, /* 24h ^> 8s */
&&copy_x123_xx92, /* 24h ^> 16h */
&&copy_x123_xx29, /* 24h ^> 16s */
&&copy_x123_x923, /* 24h ^> 24h */
&&copy_x123_329x, /* 24h ^> 24s */
&&copy_x123_9230, /* 24h ^> 32h */
&&copy_x123_0329, /* 24h ^> 32s */
&&copy_123x_xxx3, /* 24s -> 8h */
&&copy_123x_xxx3, /* 24s -> 8s */
&&copy_123x_xx32, /* 24s -> 16h */
&&copy_123x_xx23, /* 24s -> 16s */
&&copy_123x_x321, /* 24s -> 24h */
&&copy_123x_123x, /* 24s -> 24s */
&&copy_123x_3210, /* 24s -> 32h */
&&copy_123x_0123, /* 24s -> 32s */
&&copy_123x_xxxB, /* 24s ^> 8h */
&&copy_123x_xxxB, /* 24s ^> 8s */
&&copy_123x_xxB2, /* 24s ^> 16h */
&&copy_123x_xx2B, /* 24s ^> 16s */
&&copy_123x_xB21, /* 24s ^> 24h */
&&copy_123x_12Bx, /* 24s ^> 24s */
&&copy_123x_B210, /* 24s ^> 32h */
&&copy_123x_012B, /* 24s ^> 32s */
&&copy_1234_xxx1, /* 32h -> 8h */
&&copy_1234_xxx1, /* 32h -> 8s */
&&copy_1234_xx12, /* 32h -> 16h */
&&copy_1234_xx21, /* 32h -> 16s */
&&copy_1234_x123, /* 32h -> 24h */
&&copy_1234_321x, /* 32h -> 24s */
&&copy_1234_1234, /* 32h -> 32h */
&&copy_1234_4321, /* 32h -> 32s */
&&copy_1234_xxx9, /* 32h ^> 8h */
&&copy_1234_xxx9, /* 32h ^> 8s */
&&copy_1234_xx92, /* 32h ^> 16h */
&&copy_1234_xx29, /* 32h ^> 16s */
&&copy_1234_x923, /* 32h ^> 24h */
&&copy_1234_329x, /* 32h ^> 24s */
&&copy_1234_9234, /* 32h ^> 32h */
&&copy_1234_4329, /* 32h ^> 32s */
&&copy_1234_xxx4, /* 32s -> 8h */
&&copy_1234_xxx4, /* 32s -> 8s */
&&copy_1234_xx43, /* 32s -> 16h */
&&copy_1234_xx34, /* 32s -> 16s */
&&copy_1234_x432, /* 32s -> 24h */
&&copy_1234_234x, /* 32s -> 24s */
&&copy_1234_4321, /* 32s -> 32h */
&&copy_1234_1234, /* 32s -> 32s */
&&copy_1234_xxxC, /* 32s ^> 8h */
&&copy_1234_xxxC, /* 32s ^> 8s */
&&copy_1234_xxC3, /* 32s ^> 16h */
&&copy_1234_xx3C, /* 32s ^> 16s */
&&copy_1234_xC32, /* 32s ^> 24h */
&&copy_1234_23Cx, /* 32s ^> 24s */
&&copy_1234_C321, /* 32s ^> 32h */
&&copy_1234_123C, /* 32s ^> 32s */
};
#endif
#ifdef COPY_END
while(0) {
copy_xxx1_xxx1: as_u8(dst) = as_u8(src); goto COPY_END;
copy_xxx1_xx10: as_u16(dst) = (u_int16_t)as_u8(src) << 8; goto COPY_END;
copy_xxx1_xx01: as_u16(dst) = (u_int16_t)as_u8(src); goto COPY_END;
copy_xxx1_x100: as_u32(dst) = (u_int32_t)as_u8(src) << 16; goto COPY_END;
copy_xxx1_001x: as_u32(dst) = (u_int32_t)as_u8(src) << 8; goto COPY_END;
copy_xxx1_1000: as_u32(dst) = (u_int32_t)as_u8(src) << 24; goto COPY_END;
copy_xxx1_0001: as_u32(dst) = (u_int32_t)as_u8(src); goto COPY_END;
copy_xxx1_xxx9: as_u8(dst) = as_u8(src) ^ 0x80; goto COPY_END;
copy_xxx1_xx90: as_u16(dst) = (u_int16_t)(as_u8(src) ^ 0x80) << 8; goto COPY_END;
copy_xxx1_xx09: as_u16(dst) = (u_int16_t)(as_u8(src) ^ 0x80); goto COPY_END;
copy_xxx1_x900: as_u32(dst) = (u_int32_t)(as_u8(src) ^ 0x80) << 16; goto COPY_END;
copy_xxx1_009x: as_u32(dst) = (u_int32_t)(as_u8(src) ^ 0x80) << 8; goto COPY_END;
copy_xxx1_9000: as_u32(dst) = (u_int32_t)(as_u8(src) ^ 0x80) << 24; goto COPY_END;
copy_xxx1_0009: as_u32(dst) = (u_int32_t)(as_u8(src) ^ 0x80); goto COPY_END;
copy_xx12_xxx1: as_u8(dst) = as_u16(src) >> 8; goto COPY_END;
copy_xx12_xx12: as_u16(dst) = as_u16(src); goto COPY_END;
copy_xx12_xx21: as_u16(dst) = bswap_16(as_u16(src)); goto COPY_END;
copy_xx12_x120: as_u32(dst) = (u_int32_t)as_u16(src) << 8; goto COPY_END;
copy_xx12_021x: as_u32(dst) = (u_int32_t)bswap_16(as_u16(src)) << 8; goto COPY_END;
copy_xx12_1200: as_u32(dst) = (u_int32_t)as_u16(src) << 16; goto COPY_END;
copy_xx12_0021: as_u32(dst) = (u_int32_t)bswap_16(as_u16(src)); goto COPY_END;
copy_xx12_xxx9: as_u8(dst) = (as_u16(src) >> 8) ^ 0x80; goto COPY_END;
copy_xx12_xx92: as_u16(dst) = as_u16(src) ^ 0x8000; goto COPY_END;
copy_xx12_xx29: as_u16(dst) = bswap_16(as_u16(src)) ^ 0x80; goto COPY_END;
copy_xx12_x920: as_u32(dst) = (u_int32_t)(as_u16(src) ^ 0x8000) << 8; goto COPY_END;
copy_xx12_029x: as_u32(dst) = (u_int32_t)(bswap_16(as_u16(src)) ^ 0x80) << 8; goto COPY_END;
copy_xx12_9200: as_u32(dst) = (u_int32_t)(as_u16(src) ^ 0x8000) << 16; goto COPY_END;
copy_xx12_0029: as_u32(dst) = (u_int32_t)(bswap_16(as_u16(src)) ^ 0x80); goto COPY_END;
copy_xx12_xxx2: as_u8(dst) = as_u16(src) & 0xff; goto COPY_END;
copy_xx12_x210: as_u32(dst) = (u_int32_t)bswap_16(as_u16(src)) << 8; goto COPY_END;
copy_xx12_012x: as_u32(dst) = (u_int32_t)as_u16(src) << 8; goto COPY_END;
copy_xx12_2100: as_u32(dst) = (u_int32_t)bswap_16(as_u16(src)) << 16; goto COPY_END;
copy_xx12_0012: as_u32(dst) = (u_int32_t)as_u16(src); goto COPY_END;
copy_xx12_xxxA: as_u8(dst) = (as_u16(src) ^ 0x80) & 0xff; goto COPY_END;
copy_xx12_xxA1: as_u16(dst) = bswap_16(as_u16(src) ^ 0x80); goto COPY_END;
copy_xx12_xx1A: as_u16(dst) = as_u16(src) ^ 0x80; goto COPY_END;
copy_xx12_xA10: as_u32(dst) = (u_int32_t)bswap_16(as_u16(src) ^ 0x80) << 8; goto COPY_END;
copy_xx12_01Ax: as_u32(dst) = (u_int32_t)(as_u16(src) ^ 0x80) << 8; goto COPY_END;
copy_xx12_A100: as_u32(dst) = (u_int32_t)bswap_16(as_u16(src) ^ 0x80) << 16; goto COPY_END;
copy_xx12_001A: as_u32(dst) = (u_int32_t)(as_u16(src) ^ 0x80); goto COPY_END;
copy_x123_xxx1: as_u8(dst) = as_u32(src) >> 16; goto COPY_END;
copy_x123_xx12: as_u16(dst) = as_u32(src) >> 8; goto COPY_END;
copy_x123_xx21: as_u16(dst) = bswap_16(as_u32(src) >> 8); goto COPY_END;
copy_x123_x123: as_u32(dst) = as_u32(src); goto COPY_END;
copy_x123_321x: as_u32(dst) = bswap_32(as_u32(src)); goto COPY_END;
copy_x123_1230: as_u32(dst) = as_u32(src) << 8; goto COPY_END;
copy_x123_0321: as_u32(dst) = bswap_32(as_u32(src)) >> 8; goto COPY_END;
copy_x123_xxx9: as_u8(dst) = (as_u32(src) >> 16) ^ 0x80; goto COPY_END;
copy_x123_xx92: as_u16(dst) = (as_u32(src) >> 8) ^ 0x8000; goto COPY_END;
copy_x123_xx29: as_u16(dst) = bswap_16(as_u32(src) >> 8) ^ 0x80; goto COPY_END;
copy_x123_x923: as_u32(dst) = as_u32(src) ^ 0x800000; goto COPY_END;
copy_x123_329x: as_u32(dst) = bswap_32(as_u32(src)) ^ 0x8000; goto COPY_END;
copy_x123_9230: as_u32(dst) = (as_u32(src) ^ 0x800000) << 8; goto COPY_END;
copy_x123_0329: as_u32(dst) = (bswap_32(as_u32(src)) >> 8) ^ 0x80; goto COPY_END;
copy_123x_xxx3: as_u8(dst) = (as_u32(src) >> 8) & 0xff; goto COPY_END;
copy_123x_xx32: as_u16(dst) = bswap_16(as_u32(src) >> 8); goto COPY_END;
copy_123x_xx23: as_u16(dst) = (as_u32(src) >> 8) & 0xffff; goto COPY_END;
copy_123x_x321: as_u32(dst) = bswap_32(as_u32(src)); goto COPY_END;
copy_123x_123x: as_u32(dst) = as_u32(src); goto COPY_END;
copy_123x_3210: as_u32(dst) = bswap_32(as_u32(src)) << 8; goto COPY_END;
copy_123x_0123: as_u32(dst) = as_u32(src) >> 8; goto COPY_END;
copy_123x_xxxB: as_u8(dst) = ((as_u32(src) >> 8) & 0xff) ^ 0x80; goto COPY_END;
copy_123x_xxB2: as_u16(dst) = bswap_16((as_u32(src) >> 8) ^ 0x80); goto COPY_END;
copy_123x_xx2B: as_u16(dst) = ((as_u32(src) >> 8) & 0xffff) ^ 0x80; goto COPY_END;
copy_123x_xB21: as_u32(dst) = bswap_32(as_u32(src)) ^ 0x800000; goto COPY_END;
copy_123x_12Bx: as_u32(dst) = as_u32(src) ^ 0x8000; goto COPY_END;
copy_123x_B210: as_u32(dst) = bswap_32(as_u32(src) ^ 0x8000) << 8; goto COPY_END;
copy_123x_012B: as_u32(dst) = (as_u32(src) >> 8) ^ 0x80; goto COPY_END;
copy_1234_xxx1: as_u8(dst) = as_u32(src) >> 24; goto COPY_END;
copy_1234_xx12: as_u16(dst) = as_u32(src) >> 16; goto COPY_END;
copy_1234_xx21: as_u16(dst) = bswap_16(as_u32(src) >> 16); goto COPY_END;
copy_1234_x123: as_u32(dst) = as_u32(src) >> 8; goto COPY_END;
copy_1234_321x: as_u32(dst) = bswap_32(as_u32(src)) << 8; goto COPY_END;
copy_1234_1234: as_u32(dst) = as_u32(src); goto COPY_END;
copy_1234_4321: as_u32(dst) = bswap_32(as_u32(src)); goto COPY_END;
copy_1234_xxx9: as_u8(dst) = (as_u32(src) >> 24) ^ 0x80; goto COPY_END;
copy_1234_xx92: as_u16(dst) = (as_u32(src) >> 16) ^ 0x8000; goto COPY_END;
copy_1234_xx29: as_u16(dst) = bswap_16(as_u32(src) >> 16) ^ 0x80; goto COPY_END;
copy_1234_x923: as_u32(dst) = (as_u32(src) >> 8) ^ 0x800000; goto COPY_END;
copy_1234_329x: as_u32(dst) = (bswap_32(as_u32(src)) ^ 0x80) << 8; goto COPY_END;
copy_1234_9234: as_u32(dst) = as_u32(src) ^ 0x80000000; goto COPY_END;
copy_1234_4329: as_u32(dst) = bswap_32(as_u32(src)) ^ 0x80; goto COPY_END;
copy_1234_xxx4: as_u8(dst) = as_u32(src) & 0xff; goto COPY_END;
copy_1234_xx43: as_u16(dst) = bswap_16(as_u32(src)); goto COPY_END;
copy_1234_xx34: as_u16(dst) = as_u32(src) & 0xffff; goto COPY_END;
copy_1234_x432: as_u32(dst) = bswap_32(as_u32(src)) >> 8; goto COPY_END;
copy_1234_234x: as_u32(dst) = as_u32(src) << 8; goto COPY_END;
copy_1234_xxxC: as_u8(dst) = (as_u32(src) & 0xff) ^ 0x80; goto COPY_END;
copy_1234_xxC3: as_u16(dst) = bswap_16(as_u32(src) ^ 0x80); goto COPY_END;
copy_1234_xx3C: as_u16(dst) = (as_u32(src) & 0xffff) ^ 0x80; goto COPY_END;
copy_1234_xC32: as_u32(dst) = (bswap_32(as_u32(src)) >> 8) ^ 0x800000; goto COPY_END;
copy_1234_23Cx: as_u32(dst) = (as_u32(src) ^ 0x80) << 8; goto COPY_END;
copy_1234_C321: as_u32(dst) = bswap_32(as_u32(src) ^ 0x80); goto COPY_END;
copy_1234_123C: as_u32(dst) = as_u32(src) ^ 0x80; goto COPY_END;
}
#endif
#ifdef GET16_LABELS
/* src_wid src_endswap sign_toggle */
static void *get16_labels[4 * 2 * 2] = {
&&get16_xxx1_xx10, /* 8h -> 16h */
&&get16_xxx1_xx90, /* 8h ^> 16h */
&&get16_xxx1_xx10, /* 8s -> 16h */
&&get16_xxx1_xx90, /* 8s ^> 16h */
&&get16_xx12_xx12, /* 16h -> 16h */
&&get16_xx12_xx92, /* 16h ^> 16h */
&&get16_xx12_xx21, /* 16s -> 16h */
&&get16_xx12_xxA1, /* 16s ^> 16h */
&&get16_x123_xx12, /* 24h -> 16h */
&&get16_x123_xx92, /* 24h ^> 16h */
&&get16_123x_xx32, /* 24s -> 16h */
&&get16_123x_xxB2, /* 24s ^> 16h */
&&get16_1234_xx12, /* 32h -> 16h */
&&get16_1234_xx92, /* 32h ^> 16h */
&&get16_1234_xx43, /* 32s -> 16h */
&&get16_1234_xxC3, /* 32s ^> 16h */
};
#endif
#ifdef GET16_END
while(0) {
get16_xxx1_xx10: sample = (u_int32_t)as_u8(src) << 8; goto GET16_END;
get16_xxx1_xx90: sample = (u_int32_t)(as_u8(src) ^ 0x80) << 8; goto GET16_END;
get16_xx12_xx12: sample = as_u16(src); goto GET16_END;
get16_xx12_xx92: sample = as_u16(src) ^ 0x8000; goto GET16_END;
get16_xx12_xx21: sample = bswap_16(as_u16(src)); goto GET16_END;
get16_xx12_xxA1: sample = bswap_16(as_u16(src) ^ 0x80); goto GET16_END;
get16_x123_xx12: sample = as_u32(src) >> 8; goto GET16_END;
get16_x123_xx92: sample = (as_u32(src) >> 8) ^ 0x8000; goto GET16_END;
get16_123x_xx32: sample = bswap_16(as_u32(src) >> 8); goto GET16_END;
get16_123x_xxB2: sample = bswap_16((as_u32(src) >> 8) ^ 0x8000); goto GET16_END;
get16_1234_xx12: sample = as_u32(src) >> 16; goto GET16_END;
get16_1234_xx92: sample = (as_u32(src) >> 16) ^ 0x8000; goto GET16_END;
get16_1234_xx43: sample = bswap_16(as_u32(src)); goto GET16_END;
get16_1234_xxC3: sample = bswap_16(as_u32(src) ^ 0x80); goto GET16_END;
}
#endif
#ifdef PUT16_LABELS
/* dst_wid dst_endswap sign_toggle*/
static void *put16_labels[4 * 2 * 2 * 4 * 2] = {
&&put16_xx12_xxx1, /* 16h -> 8h */
&&put16_xx12_xxx9, /* 16h ^> 8h */
&&put16_xx12_xxx1, /* 16h -> 8s */
&&put16_xx12_xxx9, /* 16h ^> 8s */
&&put16_xx12_xx12, /* 16h -> 16h */
&&put16_xx12_xx92, /* 16h ^> 16h */
&&put16_xx12_xx21, /* 16h -> 16s */
&&put16_xx12_xx29, /* 16h ^> 16s */
&&put16_xx12_x120, /* 16h -> 24h */
&&put16_xx12_x920, /* 16h ^> 24h */
&&put16_xx12_021x, /* 16h -> 24s */
&&put16_xx12_029x, /* 16h ^> 24s */
&&put16_xx12_1200, /* 16h -> 32h */
&&put16_xx12_9200, /* 16h ^> 32h */
&&put16_xx12_0021, /* 16h -> 32s */
&&put16_xx12_0029, /* 16h ^> 32s */
};
#endif
#ifdef PUT16_END
while (0) {
put16_xx12_xxx1: as_u8(dst) = sample >> 8; goto PUT16_END;
put16_xx12_xxx9: as_u8(dst) = (sample >> 8) ^ 0x80; goto PUT16_END;
put16_xx12_xx12: as_u16(dst) = sample; goto PUT16_END;
put16_xx12_xx92: as_u16(dst) = sample ^ 0x8000; goto PUT16_END;
put16_xx12_xx21: as_u16(dst) = bswap_16(sample); goto PUT16_END;
put16_xx12_xx29: as_u16(dst) = bswap_16(sample) ^ 0x80; goto PUT16_END;
put16_xx12_x120: as_u32(dst) = (u_int32_t)sample << 8; goto PUT16_END;
put16_xx12_x920: as_u32(dst) = (u_int32_t)(sample ^ 0x8000) << 8; goto PUT16_END;
put16_xx12_021x: as_u32(dst) = (u_int32_t)bswap_16(sample) << 8; goto PUT16_END;
put16_xx12_029x: as_u32(dst) = (u_int32_t)(bswap_16(sample) ^ 0x80) << 8; goto PUT16_END;
put16_xx12_1200: as_u32(dst) = (u_int32_t)sample << 16; goto PUT16_END;
put16_xx12_9200: as_u32(dst) = (u_int32_t)(sample ^ 0x8000) << 16; goto PUT16_END;
put16_xx12_0021: as_u32(dst) = (u_int32_t)bswap_16(sample); goto PUT16_END;
put16_xx12_0029: as_u32(dst) = (u_int32_t)bswap_16(sample) ^ 0x80; goto PUT16_END;
}
#endif
#ifdef GET32_LABELS
/* src_wid src_endswap sign_toggle */
static void *get32_labels[4 * 2 * 2] = {
&&get32_xxx1_1000, /* 8h -> 32h */
&&get32_xxx1_9000, /* 8h ^> 32h */
&&get32_xxx1_1000, /* 8s -> 32h */
&&get32_xxx1_9000, /* 8s ^> 32h */
&&get32_xx12_1200, /* 16h -> 32h */
&&get32_xx12_9200, /* 16h ^> 32h */
&&get32_xx12_2100, /* 16s -> 32h */
&&get32_xx12_A100, /* 16s ^> 32h */
&&get32_x123_1230, /* 24h -> 32h */
&&get32_x123_9230, /* 24h ^> 32h */
&&get32_123x_3210, /* 24s -> 32h */
&&get32_123x_B210, /* 24s ^> 32h */
&&get32_1234_1234, /* 32h -> 32h */
&&get32_1234_9234, /* 32h ^> 32h */
&&get32_1234_4321, /* 32s -> 32h */
&&get32_1234_C321, /* 32s ^> 32h */
};
#endif
#ifdef GET32_END
while (0) {
get32_xxx1_1000: sample = (u_int32_t)as_u8(src) << 24; goto goto GET32_END;
get32_xxx1_9000: sample = (u_int32_t)(as_u8(src) ^ 0x80) << 24; goto goto GET32_END;
get32_xx12_1200: sample = (u_int32_t)as_u16(src) << 16; goto goto GET32_END;
get32_xx12_9200: sample = (u_int32_t)(as_u16(src) ^ 0x8000) << 16; goto goto GET32_END;
get32_xx12_2100: sample = (u_int32_t)bswap_16(as_u16(src)) << 16; goto goto GET32_END;
get32_xx12_A100: sample = (u_int32_t)bswap_16(as_u16(src) ^ 0x80) << 16; goto goto GET32_END;
get32_x123_1230: sample = as_u32(src) << 8; goto goto GET32_END;
get32_x123_9230: sample = (as_u32(src) << 8) ^ 0x80000000; goto goto GET32_END;
get32_123x_3210: sample = bswap_32(as_u32(src) >> 8); goto goto GET32_END;
get32_123x_B210: sample = bswap_32((as_u32(src) >> 8) ^ 0x80); goto goto GET32_END;
get32_1234_1234: sample = as_u32(src); goto goto GET32_END;
get32_1234_9234: sample = as_u32(src) ^ 0x80000000; goto goto GET32_END;
get32_1234_4321: sample = bswap_32(as_u32(src)); goto goto GET32_END;
get32_1234_C321: sample = bswap_32(as_u32(src) ^ 0x80); goto goto GET32_END;
}
#endif
#ifdef PUT32_LABELS
/* dst_wid dst_endswap sign_toggle*/
static void *put32_labels[4 * 2 * 2] = {
&&put32_1234_xxx1, /* 32h -> 8h */
&&put32_1234_xxx9, /* 32h ^> 8h */
&&put32_1234_xxx1, /* 32h -> 8s */
&&put32_1234_xxx9, /* 32h ^> 8s */
&&put32_1234_xx12, /* 32h -> 16h */
&&put32_1234_xx92, /* 32h ^> 16h */
&&put32_1234_xx21, /* 32h -> 16s */
&&put32_1234_xx29, /* 32h ^> 16s */
&&put32_1234_x123, /* 32h -> 24h */
&&put32_1234_x923, /* 32h ^> 24h */
&&put32_1234_321x, /* 32h -> 24s */
&&put32_1234_329x, /* 32h ^> 24s */
&&put32_1234_1234, /* 32h -> 32h */
&&put32_1234_9234, /* 32h ^> 32h */
&&put32_1234_4321, /* 32h -> 32s */
&&put32_1234_4329, /* 32h ^> 32s */
};
#endif
#ifdef PUT32_END
while (0) {
put32_1234_xxx1: as_u8(dst) = sample >> 24; goto PUT32_END;
put32_1234_xxx9: as_u8(dst) = (sample >> 24) ^ 0x80; goto PUT32_END;
put32_1234_xx12: as_u16(dst) = sample >> 16; goto PUT32_END;
put32_1234_xx92: as_u16(dst) = (sample >> 16) ^ 0x8000; goto PUT32_END;
put32_1234_xx21: as_u16(dst) = bswap_16(sample >> 16); goto PUT32_END;
put32_1234_xx29: as_u16(dst) = bswap_16(sample >> 16) ^ 0x80; goto PUT32_END;
put32_1234_x123: as_u32(dst) = sample >> 8; goto PUT32_END;
put32_1234_x923: as_u32(dst) = (sample >> 8) ^ 0x800000; goto PUT32_END;
put32_1234_321x: as_u32(dst) = bswap_32(sample) << 8; goto PUT32_END;
put32_1234_329x: as_u32(dst) = (bswap_32(sample) ^ 0x80) << 8; goto PUT32_END;
put32_1234_1234: as_u32(dst) = sample; goto PUT32_END;
put32_1234_9234: as_u32(dst) = sample ^ 0x80000000; goto PUT32_END;
put32_1234_4321: as_u32(dst) = bswap_32(sample); goto PUT32_END;
put32_1234_4329: as_u32(dst) = bswap_32(sample) ^ 0x80; goto PUT32_END;
}
#endif
#ifdef GET_LABELS
/* width endswap sign_toggle*/
static void *get_labels[4 * 2 * 2] = {
&&get_s8, /* s8 -> s8 */
&&get_u8, /* u8 -> s8 */
&&get_s8, /* s8 -> s8 */
&&get_u8, /* u8 -> s8 */
&&get_s16h, /* s16h -> s16h */
&&get_u16h, /* u16h -> s16h */
&&get_s16s, /* s16s -> s16h */
&&get_u16s, /* u16s -> s16h */
&&get_s24h, /* s24h -> s32h */
&&get_u24h, /* u24h -> s32h */
&&get_s24s, /* s24s -> s32h */
&&get_u24s, /* u24s -> s32h */
&&get_s32h, /* s32h -> s32h */
&&get_u32h, /* u32h -> s32h */
&&get_s32s, /* s32s -> s32h */
&&get_u32s, /* u32s -> s32h */
};
#endif
#ifdef GET_END
while (0) {
get_s8: sample = as_s8(src); goto GET_END;
get_u8: sample = (int8_t)(as_u8(src) ^ 0x80); goto GET_END;
get_s16h: sample = as_s16(src); goto GET_END;
get_u16h: sample = (int16_t)(as_u16(src) ^ 0x8000); goto GET_END;
get_s16s: sample = (int16_t)bswap_16(as_u16(src)); goto GET_END;
get_u16s: sample = (int16_t)(bswap_16(as_u16(src) ^ 0x80)); goto GET_END;
get_s24h: sample = (int32_t)(as_u32(src) << 8) / 256; goto GET_END;
get_u24h: sample = (as_u32(src) ^ 0x80000000); goto GET_END;
get_s24s: sample = (int32_t)(bswap_32(as_u32(src)) << 8) / 256; goto GET_END;
get_u24s: sample = bswap_32(as_u32(src) ^ 0x80); goto GET_END;
get_s32h: sample = as_s32(src); goto GET_END;
get_u32h: sample = as_u32(src) ^ 0x80000000; goto GET_END;
get_s32s: sample = bswap_32(as_u32(src)); goto GET_END;
get_u32s: sample = bswap_32(as_u32(src) ^ 0x80); goto GET_END;
}
#endif
#ifdef PUT_LABELS
/* width endswap sign_toggle*/
static void *put_labels[4 * 2 * 2] = {
&&put_s8, /* s8 -> s8 */
&&put_u8, /* u8 -> s8 */
&&put_s8, /* s8 -> s8 */
&&put_u8, /* u8 -> s8 */
&&put_s16h, /* s16h -> s16h */
&&put_u16h, /* u16h -> s16h */
&&put_s16s, /* s16s -> s16h */
&&put_u16s, /* u16s -> s16h */
&&put_s24h, /* s24h -> s32h */
&&put_u24h, /* u24h -> s32h */
&&put_s24s, /* s24s -> s32h */
&&put_u24s, /* u24s -> s32h */
&&put_s32h, /* s32h -> s32h */
&&put_u32h, /* u32h -> s32h */
&&put_s32s, /* s32s -> s32h */
&&put_u32s, /* u32s -> s32h */
};
#endif
#ifdef PUT_END
put_s8: as_s8(dst) = sample; goto PUT_END;
put_u8: as_u8(dst) = sample ^ 0x80; goto PUT_END;
put_s16h: as_s16(dst) = sample; goto PUT_END;
put_u16h: as_u16(dst) = sample ^ 0x8000; goto PUT_END;
put_s16s: as_s16(dst) = bswap_16(sample); goto PUT_END;
put_u16s: as_u16(dst) = bswap_16(sample ^ 0x80); goto PUT_END;
put_s24h: as_s24(dst) = sample & 0xffffff; goto PUT_END;
put_u24h: as_u24(dst) = sample ^ 0x80000000; goto PUT_END;
put_s24s: as_s24(dst) = bswap_32(sample & 0xffffff); goto PUT_END;
put_u24s: as_u24(dst) = bswap_32(sample ^ 0x80); goto PUT_END;
put_s32h: as_s32(dst) = sample; goto PUT_END;
put_u32h: as_u32(dst) = sample ^ 0x80000000; goto PUT_END;
put_s32s: as_s32(dst) = bswap_32(sample); goto PUT_END;
put_u32s: as_u32(dst) = bswap_32(sample ^ 0x80); goto PUT_END;
#endif
#undef as_u8
#undef as_u16
#undef as_u32
#undef as_s8
#undef as_s16
#undef as_s32

254
src/pcm/plugin/rate.c
View file

@ -42,56 +42,42 @@
* Basic rate conversion plugin * Basic rate conversion plugin
*/ */
#define rate_voices(data) ((rate_voice_t *)((char *)data + sizeof(*data)))
typedef signed short (*take_sample_f)(void *ptr);
typedef void (*put_sample_f)(void *ptr, signed int val);
typedef struct { typedef struct {
signed short last_S1; signed short last_S1;
signed short last_S2; signed short last_S2;
} rate_voice_t; } rate_voice_t;
typedef void (*rate_f)(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices,
int src_samples, int dst_samples);
typedef struct rate_private_data { typedef struct rate_private_data {
snd_pcm_plugin_t *plugin;
take_sample_f take;
put_sample_f put;
unsigned int pitch; unsigned int pitch;
unsigned int pos; unsigned int pos;
rate_f func;
int get, put;
ssize_t old_src_samples, old_dst_samples; ssize_t old_src_samples, old_dst_samples;
rate_voice_t voices[0];
} rate_t; } rate_t;
static void rate_init(snd_pcm_plugin_t *plugin, rate_t *data) static void rate_init(snd_pcm_plugin_t *plugin)
{ {
int voice; int voice;
rate_voice_t *rvoices = rate_voices(data); rate_t *data = (rate_t *)plugin->extra_data;
data->pos = 0; data->pos = 0;
for (voice = 0; plugin->src_format.voices; voice++) { for (voice = 0; voice < plugin->src_format.voices; voice++) {
rvoices[voice].last_S1 = 0; data->voices[voice].last_S1 = 0;
rvoices[voice].last_S2 = 0; data->voices[voice].last_S2 = 0;
} }
} }
#define RATE_TAKE_SAMPLE(name, type, val) \
static signed short rate_take_sample_##name(void *ptr) \
{ \
signed int smp = *(type *)ptr; \
return val; \
}
#define RATE_PUT_SAMPLE(name, type, val) \
static void rate_put_sample_##name(void *ptr, signed int smp) \
{ \
*(type *)ptr = val; \
}
static void resample_expand(snd_pcm_plugin_t *plugin, static void resample_expand(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices, const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voices, const snd_pcm_plugin_voice_t *dst_voices,
int src_samples, int dst_samples) int src_samples, int dst_samples)
{ {
unsigned int pos; unsigned int pos = 0;
signed int val; signed int val;
signed short S1, S2; signed short S1, S2;
char *src, *dst; char *src, *dst;
@ -99,24 +85,45 @@ static void resample_expand(snd_pcm_plugin_t *plugin,
int src_step, dst_step; int src_step, dst_step;
int src_samples1, dst_samples1; int src_samples1, dst_samples1;
rate_t *data = (rate_t *)plugin->extra_data; rate_t *data = (rate_t *)plugin->extra_data;
rate_voice_t *rvoices = rate_voices(data); rate_voice_t *rvoices = data->voices;
#define GET16_LABELS
#define PUT16_LABELS
#include "plugin_ops.h"
#undef GET16_LABELS
#undef PUT16_LABELS
void *get = get16_labels[data->get];
void *put = put16_labels[data->put];
void *get16_end = 0;
signed short sample = 0;
#define GET16_END *get16_end
#include "plugin_ops.h"
#undef GET16_END
for (voice = 0; voice < plugin->src_format.voices; voice++, rvoices++) { for (voice = 0; voice < plugin->src_format.voices; voice++, rvoices++) {
pos = data->pos; pos = data->pos;
S1 = rvoices->last_S1; S1 = rvoices->last_S1;
S2 = rvoices->last_S2; S2 = rvoices->last_S2;
if (src_voices[voice].addr == NULL) if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], dst_samples);
}
continue; continue;
}
src = (char *)src_voices[voice].addr + src_voices[voice].offset / 8; src = (char *)src_voices[voice].addr + src_voices[voice].offset / 8;
dst = (char *)dst_voices[voice].addr + src_voices[voice].offset / 8; dst = (char *)dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8; src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8; dst_step = dst_voices[voice].next / 8;
src_samples1 = src_samples; src_samples1 = src_samples;
dst_samples1 = dst_samples; dst_samples1 = dst_samples;
if (pos & ~MASK) { if (pos & ~MASK) {
get16_end = &&after_get1;
goto *get;
after_get1:
pos &= MASK; pos &= MASK;
S1 = S2; S1 = S2;
S2 = data->take(src); S2 = sample;
src += src_step; src += src_step;
src_samples--; src_samples--;
} }
@ -125,7 +132,10 @@ static void resample_expand(snd_pcm_plugin_t *plugin,
pos &= MASK; pos &= MASK;
S1 = S2; S1 = S2;
if (src_samples1-- > 0) { if (src_samples1-- > 0) {
S2 = data->take(src); get16_end = &&after_get2;
goto *get;
after_get2:
S2 = sample;
src += src_step; src += src_step;
} }
} }
@ -134,14 +144,20 @@ static void resample_expand(snd_pcm_plugin_t *plugin,
val = -32768; val = -32768;
else if (val > 32767) else if (val > 32767)
val = 32767; val = 32767;
data->put(dst, val); sample = val;
goto *put;
#define PUT16_END after_put
#include "plugin_ops.h"
#undef PUT16_END
after_put:
dst += dst_step; dst += dst_step;
pos += data->pitch; pos += data->pitch;
} }
rvoices->last_S1 = S1; rvoices->last_S1 = S1;
rvoices->last_S2 = S2; rvoices->last_S2 = S2;
data->pos = pos; rvoices++;
} }
data->pos = pos;
} }
static void resample_shrink(snd_pcm_plugin_t *plugin, static void resample_shrink(snd_pcm_plugin_t *plugin,
@ -149,7 +165,7 @@ static void resample_shrink(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *dst_voices, const snd_pcm_plugin_voice_t *dst_voices,
int src_samples, int dst_samples) int src_samples, int dst_samples)
{ {
unsigned int pos; unsigned int pos = 0;
signed int val; signed int val;
signed short S1, S2; signed short S1, S2;
char *src, *dst; char *src, *dst;
@ -157,16 +173,30 @@ static void resample_shrink(snd_pcm_plugin_t *plugin,
int src_step, dst_step; int src_step, dst_step;
int src_samples1, dst_samples1; int src_samples1, dst_samples1;
rate_t *data = (rate_t *)plugin->extra_data; rate_t *data = (rate_t *)plugin->extra_data;
rate_voice_t *rvoices = rate_voices(data); rate_voice_t *rvoices = data->voices;
#define GET16_LABELS
#define PUT16_LABELS
#include "plugin_ops.h"
#undef GET16_LABELS
#undef PUT16_LABELS
void *get = get16_labels[data->get];
void *put = put16_labels[data->put];
signed short sample = 0;
for (voice = 0; voice < plugin->src_format.voices; ++voice) { for (voice = 0; voice < plugin->src_format.voices; ++voice) {
pos = data->pos; pos = data->pos;
S1 = rvoices->last_S1; S1 = rvoices->last_S1;
S2 = rvoices->last_S2; S2 = rvoices->last_S2;
if (src_voices[voice].addr == NULL) if (src_voices[voice].addr == NULL) {
if (dst_voices[voice].addr != NULL) {
// null_voice(&dst_voices[voice]);
zero_voice(plugin, &dst_voices[voice], dst_samples);
}
continue; continue;
}
src = (char *)src_voices[voice].addr + src_voices[voice].offset / 8; src = (char *)src_voices[voice].addr + src_voices[voice].offset / 8;
dst = (char *)dst_voices[voice].addr + src_voices[voice].offset / 8; dst = (char *)dst_voices[voice].addr + dst_voices[voice].offset / 8;
src_step = src_voices[voice].next / 8; src_step = src_voices[voice].next / 8;
dst_step = dst_voices[voice].next / 8; dst_step = dst_voices[voice].next / 8;
src_samples1 = src_samples; src_samples1 = src_samples;
@ -174,7 +204,12 @@ static void resample_shrink(snd_pcm_plugin_t *plugin,
while (dst_samples1 > 0) { while (dst_samples1 > 0) {
S1 = S2; S1 = S2;
if (src_samples1-- > 0) { if (src_samples1-- > 0) {
S2 = data->take(src); goto *get;
#define GET16_END after_get
#include "plugin_ops.h"
#undef GET16_END
after_get:
S2 = sample;
src += src_step; src += src_step;
} }
if (pos & ~MASK) { if (pos & ~MASK) {
@ -184,7 +219,12 @@ static void resample_shrink(snd_pcm_plugin_t *plugin,
val = -32768; val = -32768;
else if (val > 32767) else if (val > 32767)
val = 32767; val = 32767;
data->put(dst, val); sample = val;
goto *put;
#define PUT16_END after_put
#include "plugin_ops.h"
#undef PUT16_END
after_put:
dst += dst_step; dst += dst_step;
dst_samples1--; dst_samples1--;
} }
@ -192,8 +232,9 @@ static void resample_shrink(snd_pcm_plugin_t *plugin,
} }
rvoices->last_S1 = S1; rvoices->last_S1 = S1;
rvoices->last_S2 = S2; rvoices->last_S2 = S2;
data->pos = pos; rvoices++;
} }
data->pos = pos;
} }
static ssize_t rate_src_samples(snd_pcm_plugin_t *plugin, size_t samples) static ssize_t rate_src_samples(snd_pcm_plugin_t *plugin, size_t samples)
@ -264,17 +305,30 @@ static ssize_t rate_transfer(snd_pcm_plugin_t *plugin,
size_t samples) size_t samples)
{ {
size_t dst_samples; size_t dst_samples;
int voice;
rate_t *data;
if (plugin == NULL || src_voices == NULL || src_voices == NULL || samples < 0) if (plugin == NULL || src_voices == NULL || dst_voices == NULL)
return -EFAULT;
if (samples < 0)
return -EINVAL; return -EINVAL;
if (samples == 0) if (samples == 0)
return 0; return 0;
dst_samples = rate_dst_samples(plugin, samples); for (voice = 0; voice < plugin->src_format.voices; voice++) {
if (plugin->src_format.rate < plugin->dst_format.rate) { if (src_voices[voice].addr != NULL &&
resample_expand(plugin, src_voices, dst_voices, samples, dst_samples); dst_voices[voice].addr == NULL)
} else { return -EFAULT;
resample_shrink(plugin, src_voices, dst_voices, samples, dst_samples); if (src_voices[voice].offset % 8 != 0 ||
src_voices[voice].next % 8 != 0)
return -EINVAL;
if (dst_voices[voice].offset % 8 != 0 ||
dst_voices[voice].next % 8 != 0)
return -EINVAL;
} }
dst_samples = rate_dst_samples(plugin, samples);
data = (rate_t *)plugin->extra_data;
data->func(plugin, src_voices, dst_voices, samples, dst_samples);
return dst_samples; return dst_samples;
} }
@ -282,118 +336,34 @@ static int rate_action(snd_pcm_plugin_t *plugin,
snd_pcm_plugin_action_t action, snd_pcm_plugin_action_t action,
unsigned long udata) unsigned long udata)
{ {
rate_t *data;
if (plugin == NULL) if (plugin == NULL)
return -EINVAL; return -EINVAL;
data = (rate_t *)plugin->extra_data;
switch (action) { switch (action) {
case INIT: case INIT:
case PREPARE: case PREPARE:
case DRAIN: case DRAIN:
case FLUSH: case FLUSH:
rate_init(plugin, data); rate_init(plugin);
break; break;
} }
return 0; /* silenty ignore other actions */ return 0; /* silenty ignore other actions */
} }
#if __BYTE_ORDER == __LITTLE_ENDIAN
#define my_little_swap16(x) (x)
#define my_little_swap32(x) (x)
#define my_big_swap16(x) bswap_16(x)
#define my_big_swap32(x) bswap_32(x)
#else
#define my_little_swap16(x) bswap_16(x)
#define my_little_swap32(x) bswap_32(x)
#define my_big_swap16(x) (x)
#define my_big_swap32(x) (x)
#endif
RATE_TAKE_SAMPLE(s8, int8_t, smp << 8)
RATE_TAKE_SAMPLE(u8, int8_t, (smp << 8) ^ 0x8000)
RATE_TAKE_SAMPLE(s16_le, int16_t, my_little_swap16(smp))
RATE_TAKE_SAMPLE(s16_be, int16_t, my_big_swap16(smp))
RATE_TAKE_SAMPLE(u16_le, int16_t, my_little_swap16(smp) ^ 0x8000)
RATE_TAKE_SAMPLE(u16_be, int16_t, my_big_swap16(smp) ^ 0x8000)
RATE_TAKE_SAMPLE(s24_le, int32_t, my_little_swap32(smp) >> 8)
RATE_TAKE_SAMPLE(s24_be, int32_t, my_big_swap32(smp) >> 8)
RATE_TAKE_SAMPLE(u24_le, int32_t, (my_little_swap32(smp) >> 8) ^ 0x8000)
RATE_TAKE_SAMPLE(u24_be, int32_t, (my_big_swap32(smp) >> 8) ^ 0x8000)
RATE_TAKE_SAMPLE(s32_le, int32_t, my_little_swap32(smp) >> 16)
RATE_TAKE_SAMPLE(s32_be, int32_t, my_big_swap32(smp) >> 16)
RATE_TAKE_SAMPLE(u32_le, int32_t, (my_little_swap32(smp) >> 16) ^ 0x8000)
RATE_TAKE_SAMPLE(u32_be, int32_t, (my_big_swap32(smp) >> 16) ^ 0x8000)
static take_sample_f rate_take_sample[] = {
[SND_PCM_SFMT_S8] rate_take_sample_s8,
[SND_PCM_SFMT_U8] rate_take_sample_u8,
[SND_PCM_SFMT_S16_LE] rate_take_sample_s16_le,
[SND_PCM_SFMT_S16_BE] rate_take_sample_s16_be,
[SND_PCM_SFMT_U16_LE] rate_take_sample_u16_le,
[SND_PCM_SFMT_U16_BE] rate_take_sample_u16_be,
[SND_PCM_SFMT_S24_LE] rate_take_sample_s24_le,
[SND_PCM_SFMT_S24_BE] rate_take_sample_s24_be,
[SND_PCM_SFMT_U24_LE] rate_take_sample_u24_le,
[SND_PCM_SFMT_U24_BE] rate_take_sample_u24_be,
[SND_PCM_SFMT_S32_LE] rate_take_sample_s32_le,
[SND_PCM_SFMT_S32_BE] rate_take_sample_s32_be,
[SND_PCM_SFMT_U32_LE] rate_take_sample_u32_le,
[SND_PCM_SFMT_U32_BE] rate_take_sample_u32_be
};
RATE_PUT_SAMPLE(s8, int8_t, smp >> 8)
RATE_PUT_SAMPLE(u8, int8_t, (smp >> 8) ^ 0x80)
RATE_PUT_SAMPLE(s16_le, int16_t, my_little_swap16(smp))
RATE_PUT_SAMPLE(s16_be, int16_t, my_big_swap16(smp))
RATE_PUT_SAMPLE(u16_le, int16_t, my_little_swap16(smp ^ 0x8000))
RATE_PUT_SAMPLE(u16_be, int16_t, my_big_swap16(smp ^ 0x8000))
RATE_PUT_SAMPLE(s24_le, int32_t, my_little_swap32(smp << 8))
RATE_PUT_SAMPLE(s24_be, int32_t, my_big_swap32(smp << 8))
RATE_PUT_SAMPLE(u24_le, int32_t, my_little_swap32((smp ^ 0x8000) >> 8))
RATE_PUT_SAMPLE(u24_be, int32_t, my_big_swap32((smp ^ 0x8000) >> 8))
RATE_PUT_SAMPLE(s32_le, int32_t, my_little_swap32(smp >> 16))
RATE_PUT_SAMPLE(s32_be, int32_t, my_big_swap32(smp >> 16))
RATE_PUT_SAMPLE(u32_le, int32_t, my_little_swap32((smp ^ 0x8000) >> 16))
RATE_PUT_SAMPLE(u32_be, int32_t, my_big_swap32((smp ^ 0x8000) >> 16))
static put_sample_f rate_put_sample[] = {
[SND_PCM_SFMT_S8] rate_put_sample_s8,
[SND_PCM_SFMT_U8] rate_put_sample_u8,
[SND_PCM_SFMT_S16_LE] rate_put_sample_s16_le,
[SND_PCM_SFMT_S16_BE] rate_put_sample_s16_be,
[SND_PCM_SFMT_U16_LE] rate_put_sample_u16_le,
[SND_PCM_SFMT_U16_BE] rate_put_sample_u16_be,
[SND_PCM_SFMT_S24_LE] rate_put_sample_s24_le,
[SND_PCM_SFMT_S24_BE] rate_put_sample_s24_be,
[SND_PCM_SFMT_U24_LE] rate_put_sample_u24_le,
[SND_PCM_SFMT_U24_BE] rate_put_sample_u24_be,
[SND_PCM_SFMT_S32_LE] rate_put_sample_s32_le,
[SND_PCM_SFMT_S32_BE] rate_put_sample_s32_be,
[SND_PCM_SFMT_U32_LE] rate_put_sample_u32_le,
[SND_PCM_SFMT_U32_BE] rate_put_sample_u32_be
};
int snd_pcm_plugin_build_rate(snd_pcm_plugin_handle_t *handle, int snd_pcm_plugin_build_rate(snd_pcm_plugin_handle_t *handle,
snd_pcm_format_t *src_format, snd_pcm_format_t *src_format,
snd_pcm_format_t *dst_format, snd_pcm_format_t *dst_format,
snd_pcm_plugin_t **r_plugin) snd_pcm_plugin_t **r_plugin)
{ {
struct rate_private_data *data; rate_t *data;
snd_pcm_plugin_t *plugin; snd_pcm_plugin_t *plugin;
if (r_plugin == NULL) if (r_plugin == NULL)
return -EINVAL; return -EINVAL;
*r_plugin = NULL; *r_plugin = NULL;
if (src_format->interleave != dst_format->interleave &&
src_format->voices > 1)
return -EINVAL;
if (!dst_format->interleave)
return -EINVAL;
if (src_format->voices != dst_format->voices) if (src_format->voices != dst_format->voices)
return -EINVAL; return -EINVAL;
if (dst_format->voices < 1) if (src_format->voices < 1)
return -EINVAL; return -EINVAL;
if (snd_pcm_format_linear(src_format->format) <= 0) if (snd_pcm_format_linear(src_format->format) <= 0)
return -EINVAL; return -EINVAL;
@ -401,25 +371,27 @@ int snd_pcm_plugin_build_rate(snd_pcm_plugin_handle_t *handle,
return -EINVAL; return -EINVAL;
if (src_format->rate == dst_format->rate) if (src_format->rate == dst_format->rate)
return -EINVAL; return -EINVAL;
plugin = snd_pcm_plugin_build(handle, plugin = snd_pcm_plugin_build(handle,
"rate conversion", "rate conversion",
src_format, src_format,
dst_format, dst_format,
sizeof(rate_t) + sizeof(rate_t) + src_format->voices * sizeof(rate_voice_t));
src_format->voices * sizeof(rate_voice_t));
if (plugin == NULL) if (plugin == NULL)
return -ENOMEM; return -ENOMEM;
data = (rate_t *)plugin->extra_data; data = (rate_t *)plugin->extra_data;
data->plugin = plugin; data->get = getput_index(src_format->format);
data->take = rate_take_sample[src_format->format]; data->put = getput_index(dst_format->format);
data->put = rate_put_sample[dst_format->format];
if (src_format->rate < dst_format->rate) { if (src_format->rate < dst_format->rate) {
data->pitch = ((src_format->rate << SHIFT) + (dst_format->rate >> 1)) / dst_format->rate; data->pitch = ((src_format->rate << SHIFT) + (dst_format->rate >> 1)) / dst_format->rate;
data->func = resample_expand;
} else { } else {
data->pitch = ((dst_format->rate << SHIFT) + (src_format->rate >> 1)) / src_format->rate; data->pitch = ((dst_format->rate << SHIFT) + (src_format->rate >> 1)) / src_format->rate;
data->func = resample_shrink;
} }
data->pos = 0; data->pos = 0;
rate_init(plugin, data); rate_init(plugin);
data->old_src_samples = data->old_dst_samples = 0; data->old_src_samples = data->old_dst_samples = 0;
plugin->transfer = rate_transfer; plugin->transfer = rate_transfer;
plugin->src_samples = rate_src_samples; plugin->src_samples = rate_src_samples;

829
src/pcm/plugin/route.c
View file

@ -23,8 +23,8 @@
#include "../../include/driver.h" #include "../../include/driver.h"
#include "../../include/pcm.h" #include "../../include/pcm.h"
#include "../../include/pcm_plugin.h" #include "../../include/pcm_plugin.h"
#define bswap_16(x) __swab16((x)) #define my_calloc(size) snd_kmalloc(size, GFP_KERNEL)
#define bswap_32(x) __swab32((x)) #define my_free(ptr) snd_kfree(ptr)
#else #else
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
@ -33,401 +33,576 @@
#include <errno.h> #include <errno.h>
#include <endian.h> #include <endian.h>
#include <byteswap.h> #include <byteswap.h>
#include <math.h>
#include "../pcm_local.h" #include "../pcm_local.h"
#define my_calloc(size) calloc(1, size)
#define my_free(ptr) free(ptr)
#endif #endif
#define ROUTE_PLUGIN_RESOLUTION 16 typedef struct ttable_dst ttable_dst_t;
typedef struct route_private_data route_t;
struct route_private_data; typedef void (*route_voice_f)(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voice,
ttable_dst_t* ttable, size_t samples);
typedef void (*route_f)(struct route_private_data *data, typedef struct {
void *src_ptr, void *dst_ptr, int voice;
size_t src_size, size_t dst_size); int as_int;
#ifndef __KERNEL
float as_float;
#endif
} ttable_src_t;
struct ttable_dst {
int att; /* Attenuated */
int nsrcs;
ttable_src_t* srcs;
route_voice_f func;
};
struct route_private_data { struct route_private_data {
int sample_size; /* Bytes per sample */ enum {INT32=0, INT64=1, FLOAT=2} sum_type;
route_f func; int get, put;
int interleave; int copy;
int format; int src_sample_size;
int src_voices; ttable_dst_t ttable[0];
int dst_voices;
int ttable[0];
}; };
static void route_noop(struct route_private_data *data, typedef union {
void *src_ptr, void *dst_ptr, int32_t as_int32;
size_t src_size, size_t dst_size) int64_t as_int64;
#ifndef __KERNEL__
float as_float;
#endif
} sum_t;
void zero_voice(snd_pcm_plugin_t *plugin,
const snd_pcm_plugin_voice_t *dst_voice,
size_t samples)
{ {
memcpy(dst_ptr, src_ptr, src_size); char *dst = dst_voice->addr + dst_voice->offset / 8;
int dst_step = dst_voice->next / 8;
switch (plugin->dst_width) {
case 4: {
int dstbit = dst_voice->offset % 8;
int dstbit_step = dst_voice->next % 8;
while (samples-- > 0) {
if (dstbit)
*dst &= 0x0f;
else
*dst &= 0xf0;
dst += dst_step;
dstbit += dstbit_step;
if (dstbit == 8) {
dst++;
dstbit = 0;
}
}
break;
}
case 8:
while (samples-- > 0) {
*dst = 0;
dst += dst_step;
}
break;
case 16:
while (samples-- > 0) {
*(int16_t*)dst = 0;
dst += dst_step;
}
break;
case 32:
while (samples-- > 0) {
*(int32_t*)dst = 0;
dst += dst_step;
}
break;
case 64:
while (samples-- > 0) {
*(int64_t*)dst = 0;
dst += dst_step;
}
break;
}
} }
static void route_i_silence(struct route_private_data *data,
void *src_ptr, void *dst_ptr, static void route_to_voice_zero(snd_pcm_plugin_t *plugin,
size_t src_size, size_t dst_size) const snd_pcm_plugin_voice_t *src_voices,
const snd_pcm_plugin_voice_t *dst_voice,
ttable_dst_t* ttable, size_t samples)
{ {
char *src = src_ptr; // null_voice(&dst_voices[voice]);
char *dst = dst_ptr; zero_voice(plugin, dst_voice, samples);
int sil = snd_pcm_format_silence(data->format);
int src_step = data->sample_size * data->src_voices;
int dst_step = data->sample_size * data->dst_voices;
char *end = dst + dst_size;
if (data->src_voices < data->dst_voices) {
while (dst < end) {
int i;
for (i = 0; i < src_step; ++i)
*dst++ = *src++;
for (; i < dst_step; ++i)
*dst++ = sil;
}
} else {
while (dst < end) {
int i;
for (i = 0; i < dst_step; ++i)
*dst++ = *src++;
src += src_step - dst_step;
}
}
} }
static void route_n_silence(struct route_private_data *data, static void route_to_voice_one(snd_pcm_plugin_t *plugin,
void *src_ptr, void *dst_ptr, const snd_pcm_plugin_voice_t *src_voices,
size_t src_size, size_t dst_size) const snd_pcm_plugin_voice_t *dst_voice,
ttable_dst_t* ttable, size_t samples)
{ {
if (src_size < dst_size) { #define COPY_LABELS
memcpy(dst_ptr, src_ptr, src_size); #include "plugin_ops.h"
memset(dst_ptr + src_size, snd_pcm_format_silence(data->format), dst_size - src_size); #undef COPY_LABELS
} else { route_t *data = (route_t *)plugin->extra_data;
memcpy(dst_ptr, src_ptr, dst_size); void *copy;
const snd_pcm_plugin_voice_t *src_voice = 0;
int srcidx;
char *src, *dst;
int src_step, dst_step;
for (srcidx = 0; srcidx < ttable->nsrcs; ++srcidx) {
src_voice = &src_voices[ttable->srcs[srcidx].voice];
if (src_voice->addr != NULL)
break;
}
if (srcidx == ttable->nsrcs) {
route_to_voice_zero(plugin, src_voices, dst_voice, ttable, samples);
return;
}
copy = copy_labels[data->copy];
src = src_voice->addr + src_voice->offset / 8;
src_step = src_voice->next / 8;
dst = dst_voice->addr + dst_voice->offset / 8;
dst_step = dst_voice->next / 8;
while (samples-- > 0) {
goto *copy;
#define COPY_END after
#include "plugin_ops.h"
#undef COPY_END
after:
src += src_step;
dst += dst_step;
} }
} }
#define ROUTE_I_FUNC(name, type, ttype, toh, hto, mul, div) \ static void route_to_voice(snd_pcm_plugin_t *plugin,
static void name(struct route_private_data *data, \ const snd_pcm_plugin_voice_t *src_voices,
void *src_ptr, void *dst_ptr, \ const snd_pcm_plugin_voice_t *dst_voice,
size_t src_size, size_t dst_size) \ ttable_dst_t* ttable, size_t samples)
{ \ {
type *src = src_ptr; \ #define GET_LABELS
type *dst = dst_ptr; \ #define PUT32_LABELS
int src_voices = data->src_voices; \ #include "plugin_ops.h"
int dst_voices = data->dst_voices; \ #undef GET_LABELS
int *ttable = data->ttable; \ #undef PUT32_LABELS
size_t samples = src_size / (src_voices * data->sample_size); \ static void *zero_labels[3] = { &&zero_int32, &&zero_int64,
while (samples-- > 0) { \ #ifndef __KERNEL__
int dst_voice; \ &&zero_float
int *ttp = ttable; \ #endif
for (dst_voice = 0; dst_voice < dst_voices; ++dst_voice) { \ };
int src_voice; \ /* sum_type att */
type *s = src; \ static void *add_labels[3 * 2] = { &&add_int32_noatt, &&add_int32_att,
ttype t = 0; \ &&add_int64_noatt, &&add_int64_att,
for (src_voice = 0; src_voice < src_voices; ++src_voice) { \ #ifndef __KERNEL__
ttype v = toh(*s); \ &&add_float_noatt, &&add_float_att
t += mul(v, *ttp); \ #endif
s++; \ };
ttp++; \ /* sum_type att shift */
} \ static void *norm_labels[3 * 2 * 4] = { 0,
t = div(t, ROUTE_PLUGIN_RESOLUTION); \ &&norm_int32_8_noatt,
*dst++ = hto(t); \ &&norm_int32_16_noatt,
} \ &&norm_int32_24_noatt,
src += src_voices; \ 0,
} \ &&norm_int32_8_att,
&&norm_int32_16_att,
&&norm_int32_24_att,
&&norm_int64_0_noatt,
&&norm_int64_8_noatt,
&&norm_int64_16_noatt,
&&norm_int64_24_noatt,
&&norm_int64_0_att,
&&norm_int64_8_att,
&&norm_int64_16_att,
&&norm_int64_24_att,
#ifndef __KERNEL__
&&norm_float_0,
&&norm_float_8,
&&norm_float_16,
&&norm_float_24,
&&norm_float_0,
&&norm_float_8,
&&norm_float_16,
&&norm_float_24,
#endif
};
route_t *data = (route_t *)plugin->extra_data;
void *zero, *get, *add, *norm, *put32;
int nsrcs = ttable->nsrcs;
char *dst;
int dst_step;
char *srcs[nsrcs];
int src_steps[nsrcs];
ttable_src_t src_tt[nsrcs];
int32_t sample = 0;
int srcidx, srcidx1 = 0;
for (srcidx = 0; srcidx < nsrcs; ++srcidx) {
const snd_pcm_plugin_voice_t *src_voice = &src_voices[ttable->srcs[srcidx].voice];
if (src_voice->addr == NULL)
continue;
srcs[srcidx1] = src_voice->addr + src_voices->offset / 8;
src_steps[srcidx1] = src_voice->next / 8;
src_tt[srcidx1] = ttable->srcs[srcidx];
srcidx1++;
}
nsrcs = srcidx1;
if (nsrcs == 0) {
route_to_voice_zero(plugin, src_voices, dst_voice, ttable, samples);
return;
} else if (nsrcs == 1 && src_tt[0].as_int == ROUTE_PLUGIN_RESOLUTION) {
route_to_voice_one(plugin, src_voices, dst_voice, ttable, samples);
return;
} }
#define ROUTE_N_FUNC(name, type, ttype, toh, hto, mul, div) \ zero = zero_labels[data->sum_type];
static void name(struct route_private_data *data, \ get = get_labels[data->get];
void *src_ptr, void *dst_ptr, \ add = add_labels[data->sum_type * 2 + ttable->att];
size_t src_size, size_t dst_size) \ norm = norm_labels[data->sum_type * 8 + ttable->att * 4 + 4 - data->src_sample_size];
{ \ put32 = put32_labels[data->put];
type *src = src_ptr; \ dst = dst_voice->addr + dst_voice->offset / 8;
type *dst = dst_ptr; \ dst_step = dst_voice->next / 8;
int src_voices = data->src_voices; \
int dst_voices = data->dst_voices; \ while (samples-- > 0) {
int *ttable = data->ttable; \ ttable_src_t *ttp = src_tt;
size_t samples = src_size / (src_voices * data->sample_size); \ sum_t sum;
int dst_voice; \
for (dst_voice = 0; dst_voice < dst_voices; ++dst_voice) { \ /* Zero sum */
int *ttp = ttable + dst_voice * src_voices; \ goto *zero;
size_t samples1 = samples; \ zero_int32:
while (samples1-- > 0) { \ sum.as_int32 = 0;
int *ttp1 = ttp; \ goto zero_end;
type *s = src; \ zero_int64:
ttype t = 0; \ sum.as_int64 = 0;
int src_voice; \ goto zero_end;
for (src_voice = 0; src_voice < src_voices; ++src_voice) { \ #ifndef __KERNEL__
ttype v = toh(*s); \ zero_float:
t += mul(v, *ttp1); \ sum.as_float = 0.0;
s += samples; \ goto zero_end;
ttp1++; \ #endif
} \ zero_end:
t = div(t, ROUTE_PLUGIN_RESOLUTION); \ for (srcidx = 0; srcidx < nsrcs; ++srcidx) {
*dst++ = hto(t); \ char *src = srcs[srcidx];
src++; \
} \ /* Get sample */
} \ goto *get;
#define GET_END after_get
#include "plugin_ops.h"
#undef GET_END
after_get:
/* Sum */
goto *add;
add_int32_att:
sum.as_int32 += sample * ttp->as_int;
goto after_sum;
add_int32_noatt:
if (ttp->as_int)
sum.as_int32 += sample;
goto after_sum;
add_int64_att:
sum.as_int64 += (int64_t) sample * ttp->as_int;
goto after_sum;
add_int64_noatt:
if (ttp->as_int)
sum.as_int64 += sample;
goto after_sum;
#ifndef __KERNEL__
add_float_att:
sum.as_float += sample * ttp->as_float;
goto after_sum;
add_float_noatt:
if (ttp->as_int)
sum.as_float += sample;
goto after_sum;
#endif
after_sum:
srcs[srcidx] += src_steps[srcidx];
ttp++;
} }
#define none(p) (p) /* Normalization */
#if __BYTE_ORDER == __LITTLE_ENDIAN goto *norm;
#define le16toh none norm_int32_8_att:
#define htole16 none sum.as_int64 = sum.as_int32;
#define le32toh none sum.as_int64 *= (1 << 8) / ROUTE_PLUGIN_RESOLUTION;
#define htole32 none goto after_norm;
#define be16toh bswap_16 norm_int32_16_att:
#define htobe16 bswap_16 sum.as_int64 = sum.as_int32;
#define be32toh bswap_32 sum.as_int64 *= (1 << 16) / ROUTE_PLUGIN_RESOLUTION;
#define htobe32 bswap_32 goto after_norm;
#elif __BYTE_ORDER == __BIG_ENDIAN norm_int32_24_att:
#define le16toh bswap_16 sum.as_int64 = sum.as_int32;
#define htole16 bswap_16 sum.as_int64 *= (1 << 24) / ROUTE_PLUGIN_RESOLUTION;
#define le32toh bswap_32 goto norm_int;
#define htole32 bswap_32 norm_int64_0_att:
#define be16toh none sum.as_int64 /= ROUTE_PLUGIN_RESOLUTION;
#define htobe16 none goto norm_int;
#define be32toh none norm_int64_8_att:
#define htobe32 none sum.as_int64 *= (1 << 8) / ROUTE_PLUGIN_RESOLUTION;
goto norm_int;
norm_int64_16_att:
sum.as_int64 *= (1 << 16) / ROUTE_PLUGIN_RESOLUTION;
goto norm_int;
norm_int64_24_att:
sum.as_int64 *= (1 << 24) / ROUTE_PLUGIN_RESOLUTION;
goto norm_int;
norm_int32_8_noatt:
sum.as_int64 = sum.as_int32;
sum.as_int64 *= (1 << 8);
goto after_norm;
norm_int32_16_noatt:
sum.as_int64 = sum.as_int32;
sum.as_int64 *= (1 << 16);
goto after_norm;
norm_int32_24_noatt:
sum.as_int64 = sum.as_int32;
sum.as_int64 *= (1 << 24);
goto norm_int;
norm_int64_0_noatt:
goto norm_int;
norm_int64_8_noatt:
sum.as_int64 *= (1 << 8);
goto norm_int;
norm_int64_16_noatt:
sum.as_int64 *= (1 << 16);
goto norm_int;
norm_int64_24_noatt:
sum.as_int64 *= (1 << 24);
goto norm_int;
norm_int:
if (sum.as_int64 < (int32_t)0x80000000)
sample = (int32_t)0x80000000;
else if (sum.as_int64 > 0x7fffffffLL) {
sample = 0x7fffffff;
}
else
sample = sum.as_int64;
goto after_norm;
#ifndef __KERNEL__
norm_float_8:
sum.as_float *= 1 << 8;
goto norm_float;
norm_float_16:
sum.as_float *= 1 << 16;
goto norm_float;
norm_float_24:
sum.as_float *= 1 << 24;
goto norm_float;
norm_float_0:
norm_float:
sum.as_float = floor(sum.as_float + 0.5);
if (sum.as_float < (int32_t)0x80000000)
sample = (int32_t)0x80000000;
else if (sum.as_float > 0x7fffffff)
sample = 0x7fffffff;
else
sample = sum.as_float;
goto after_norm;
#endif
after_norm:
/* Put sample */
goto *put32;
#define PUT32_END after_put32
#include "plugin_ops.h"
#undef PUT32_END
after_put32:
dst += dst_step;
}
}
#ifdef __KERNEL__
#define FULL ROUTE_PLUGIN_RESOLUTION
typedef int src_ttable_entry_t;
#else #else
#error "Unsupported endian..." #define FULL 1.0
typedef float src_ttable_entry_t;
#endif #endif
#define mul(a,b) ((a)*(b)) static void route_free(snd_pcm_plugin_t *plugin, void* private_data)
#define div(a,b) ((a)/(b))
#define nmul(a,b) ((b)?(a):0)
#define ndiv(a,b) (a)
#define FUNCS(name, type, ttype, toh, hto) \
ROUTE_I_FUNC(aroute_i_##name, type, ttype, toh, hto, mul, div); \
ROUTE_N_FUNC(aroute_n_##name, type, ttype, toh, hto, mul, div); \
ROUTE_I_FUNC(nroute_i_##name, type, ttype, toh, hto, nmul, ndiv); \
ROUTE_N_FUNC(nroute_n_##name, type, ttype, toh, hto, nmul, ndiv);
FUNCS(s8, int8_t, int, none, none);
FUNCS(u8, u_int8_t, int, none, none);
FUNCS(s16_le, int16_t, int, le16toh,htole16);
FUNCS(u16_le, u_int16_t, int, le16toh,htole16);
FUNCS(s16_be, int16_t, int, be16toh,htobe16);
FUNCS(u16_be, u_int16_t, int, be16toh,htobe16);
FUNCS(s24_le, int32_t, int, le32toh,htole32);
FUNCS(u24_le, u_int32_t, int, le32toh,htole32);
FUNCS(s24_be, int32_t, int, be32toh,htobe32);
FUNCS(u24_be, u_int32_t, int, be32toh,htobe32);
FUNCS(s32_le, int32_t, int64_t,le32toh,htole32);
FUNCS(u32_le, u_int32_t, int64_t,le32toh,htole32);
FUNCS(s32_be, int32_t, int64_t,be32toh,htobe32);
FUNCS(u32_be, u_int32_t, int64_t,be32toh,htobe32);
static route_f aroute_i[] = {
[SND_PCM_SFMT_S8] aroute_i_s8,
[SND_PCM_SFMT_U8] aroute_i_u8,
[SND_PCM_SFMT_S16_LE] aroute_i_s16_le,
[SND_PCM_SFMT_S16_BE] aroute_i_s16_be,
[SND_PCM_SFMT_U16_LE] aroute_i_u16_le,
[SND_PCM_SFMT_U16_BE] aroute_i_u16_be,
[SND_PCM_SFMT_S24_LE] aroute_i_s24_le,
[SND_PCM_SFMT_S24_BE] aroute_i_s24_be,
[SND_PCM_SFMT_U24_LE] aroute_i_u24_le,
[SND_PCM_SFMT_U24_BE] aroute_i_u24_be,
[SND_PCM_SFMT_S32_LE] aroute_i_s32_le,
[SND_PCM_SFMT_S32_BE] aroute_i_s32_be,
[SND_PCM_SFMT_U32_LE] aroute_i_u32_le,
[SND_PCM_SFMT_U32_BE] aroute_i_u32_be
};
static route_f aroute_n[] = {
[SND_PCM_SFMT_S8] aroute_n_s8,
[SND_PCM_SFMT_U8] aroute_n_u8,
[SND_PCM_SFMT_S16_LE] aroute_n_s16_le,
[SND_PCM_SFMT_S16_BE] aroute_n_s16_be,
[SND_PCM_SFMT_U16_LE] aroute_n_u16_le,
[SND_PCM_SFMT_U16_BE] aroute_n_u16_be,
[SND_PCM_SFMT_S24_LE] aroute_n_s24_le,
[SND_PCM_SFMT_S24_BE] aroute_n_s24_be,
[SND_PCM_SFMT_U24_LE] aroute_n_u24_le,
[SND_PCM_SFMT_U24_BE] aroute_n_u24_be,
[SND_PCM_SFMT_S32_LE] aroute_n_s32_le,
[SND_PCM_SFMT_S32_BE] aroute_n_s32_be,
[SND_PCM_SFMT_U32_LE] aroute_n_u32_le,
[SND_PCM_SFMT_U32_BE] aroute_n_u32_be
};
static route_f nroute_i[] = {
[SND_PCM_SFMT_S8] nroute_i_s8,
[SND_PCM_SFMT_U8] nroute_i_u8,
[SND_PCM_SFMT_S16_LE] nroute_i_s16_le,
[SND_PCM_SFMT_S16_BE] nroute_i_s16_be,
[SND_PCM_SFMT_U16_LE] nroute_i_u16_le,
[SND_PCM_SFMT_U16_BE] nroute_i_u16_be,
[SND_PCM_SFMT_S24_LE] nroute_i_s24_le,
[SND_PCM_SFMT_S24_BE] nroute_i_s24_be,
[SND_PCM_SFMT_U24_LE] nroute_i_u24_le,
[SND_PCM_SFMT_U24_BE] nroute_i_u24_be,
[SND_PCM_SFMT_S32_LE] nroute_i_s32_le,
[SND_PCM_SFMT_S32_BE] nroute_i_s32_be,
[SND_PCM_SFMT_U32_LE] nroute_i_u32_le,
[SND_PCM_SFMT_U32_BE] nroute_i_u32_be
};
static route_f nroute_n[] = {
[SND_PCM_SFMT_S8] nroute_n_s8,
[SND_PCM_SFMT_U8] nroute_n_u8,
[SND_PCM_SFMT_S16_LE] nroute_n_s16_le,
[SND_PCM_SFMT_S16_BE] nroute_n_s16_be,
[SND_PCM_SFMT_U16_LE] nroute_n_u16_le,
[SND_PCM_SFMT_U16_BE] nroute_n_u16_be,
[SND_PCM_SFMT_S24_LE] nroute_n_s24_le,
[SND_PCM_SFMT_S24_BE] nroute_n_s24_be,
[SND_PCM_SFMT_U24_LE] nroute_n_u24_le,
[SND_PCM_SFMT_U24_BE] nroute_n_u24_be,
[SND_PCM_SFMT_S32_LE] nroute_n_s32_le,
[SND_PCM_SFMT_S32_BE] nroute_n_s32_be,
[SND_PCM_SFMT_U32_LE] nroute_n_u32_le,
[SND_PCM_SFMT_U32_BE] nroute_n_u32_be
};
static int route_load_ttable(struct route_private_data *data,
const int *src_ttable)
{ {
route_t *data = (route_t *)plugin->extra_data;
int dst_voice;
for (dst_voice = 0; dst_voice < plugin->dst_format.voices; ++dst_voice) {
if (data->ttable[dst_voice].srcs != NULL)
my_free(data->ttable[dst_voice].srcs);
}
}
static int route_load_ttable(snd_pcm_plugin_t *plugin,
const src_ttable_entry_t* src_ttable)
{
route_t *data;
int src_voice, dst_voice; int src_voice, dst_voice;
const int *sptr; const src_ttable_entry_t *sptr;
int *dptr; ttable_dst_t *dptr;
int noop = 1;
int noatt = 1;
if (src_ttable == NULL) if (src_ttable == NULL)
return 0; return 0;
data = (route_t *)plugin->extra_data;
dptr = data->ttable; dptr = data->ttable;
sptr = src_ttable; sptr = src_ttable;
for (dst_voice = 0; dst_voice < data->dst_voices; ++dst_voice) { plugin->private_free = route_free;
int t = 0; for (dst_voice = 0; dst_voice < plugin->dst_format.voices; ++dst_voice) {
for (src_voice = 0; src_voice < data->src_voices; ++src_voice) { src_ttable_entry_t t = 0;
if (*sptr < 0 || *sptr > ROUTE_PLUGIN_RESOLUTION) int att = 0;
int nsrcs = 0;
ttable_src_t srcs[plugin->src_format.voices];
for (src_voice = 0; src_voice < plugin->src_format.voices; ++src_voice) {
if (*sptr < 0 || *sptr > FULL)
return -EINVAL; return -EINVAL;
if (*sptr != 0 && *sptr != ROUTE_PLUGIN_RESOLUTION) if (*sptr != 0) {
noatt = 0; srcs[nsrcs].voice = src_voice;
if (src_voice == dst_voice) { #ifdef __KERNEL__
if (*sptr != ROUTE_PLUGIN_RESOLUTION) srcs[nsrcs].as_int = *sptr;
noop = 0; #else
} /* Also in user space for non attenuated */
else { srcs[nsrcs].as_int = (*sptr == FULL ? ROUTE_PLUGIN_RESOLUTION : 0);
if (*sptr != 0) srcs[nsrcs].as_float = *sptr;
noop = 0; #endif
} if (*sptr != FULL)
att = 1;
t += *sptr; t += *sptr;
*dptr++ = *sptr++; nsrcs++;
}
sptr++;
} }
#if 0 #if 0
if (t > ROUTE_PLUGIN_RESOLUTION) if (t > FULL)
return -EINVAL; return -EINVAL;
#endif #endif
dptr->att = att;
dptr->nsrcs = nsrcs;
switch (nsrcs) {
case 0:
dptr->func = route_to_voice_zero;
break;
case 1:
dptr->func = route_to_voice_one;
break;
default:
dptr->func = route_to_voice;
break;
} }
if (noop) { dptr->srcs = my_calloc(sizeof(*srcs) * nsrcs);
if (data->src_voices == data->dst_voices) memcpy(dptr->srcs, srcs, sizeof(*srcs) * nsrcs);
data->func = route_noop; dptr++;
else if (data->interleave)
data->func = route_i_silence;
else
data->func = route_n_silence;
return 0;
}
if (noatt) {
if (data->interleave)
data->func = nroute_i[data->format];
else
data->func = nroute_n[data->format];
} else {
if (data->interleave)
data->func = aroute_i[data->format];
else
data->func = aroute_n[data->format];
} }
return 0; return 0;
} }
static ssize_t route_transfer(snd_pcm_plugin_t *plugin, static ssize_t route_transfer(snd_pcm_plugin_t *plugin,
char *src_ptr, size_t src_size, const snd_pcm_plugin_voice_t *src_voices,
char *dst_ptr, size_t dst_size) const snd_pcm_plugin_voice_t *dst_voices,
size_t samples)
{ {
struct route_private_data *data; route_t *data;
if (plugin == NULL || src_ptr == NULL || src_size < 0 || int src_nvoices, dst_nvoices;
dst_ptr == NULL || dst_size < 0) int src_voice, dst_voice;
ttable_dst_t *ttp;
const snd_pcm_plugin_voice_t *dvp;
if (plugin == NULL || src_voices == NULL || dst_voices == NULL)
return -EFAULT;
if (samples < 0)
return -EINVAL; return -EINVAL;
if (src_size == 0) if (samples == 0)
return 0; return 0;
data = (struct route_private_data *)plugin->extra_data; data = (route_t *)plugin->extra_data;
data->func(data, src_ptr, dst_ptr, src_size, dst_size);
return dst_size; src_nvoices = plugin->src_format.voices;
for (src_voice = 0; src_voice < src_nvoices; ++src_voice) {
if (src_voices[src_voice].offset % 8 != 0 ||
src_voices[src_voice].next % 8 != 0)
return -EINVAL;
} }
static ssize_t route_src_size(snd_pcm_plugin_t *plugin, size_t size) dst_nvoices = plugin->dst_format.voices;
for (dst_voice = 0; dst_voice < dst_nvoices; ++dst_voice) {
if (dst_voices[dst_voice].offset % 8 != 0 ||
dst_voices[dst_voice].next % 8 != 0)
return -EINVAL;
}
ttp = data->ttable;
dvp = dst_voices;
for (dst_voice = 0; dst_voice < dst_nvoices; ++dst_voice) {
ttp->func(plugin, src_voices, dvp, ttp, samples);
dvp++;
ttp++;
}
return samples;
}
int getput_index(int format)
{ {
struct route_private_data *data; int sign, width, endian;
sign = !snd_pcm_format_signed(format);
if (plugin == NULL || size <= 0) width = snd_pcm_format_width(format) / 8 - 1;
return -EINVAL; #if __BYTE_ORDER == __LITTLE_ENDIAN
data = (struct route_private_data *)snd_pcm_plugin_extra_data(plugin); endian = snd_pcm_format_big_endian(format);
if (!plugin || size <= 0) #elif __BYTE_ORDER == __BIG_ENDIAN
return -EINVAL; endian = snd_pcm_format_little_endian(format);
return (size * data->src_voices) / data->dst_voices; #else
#error "Unsupported endian..."
#endif
if (endian < 0)
endian = 0;
return width * 4 + endian * 2 + sign;
} }
static ssize_t route_dst_size(snd_pcm_plugin_t *plugin, size_t size) int snd_pcm_plugin_build_route(snd_pcm_plugin_handle_t *handle,
{ snd_pcm_format_t *src_format,
struct route_private_data *data;
if (plugin == NULL || size <= 0)
return -EINVAL;
data = (struct route_private_data *)snd_pcm_plugin_extra_data(plugin);
if (!plugin || size <= 0)
return -EINVAL;
return (size * data->dst_voices) / data->src_voices;
}
int snd_pcm_plugin_build_route(snd_pcm_format_t *src_format,
snd_pcm_format_t *dst_format, snd_pcm_format_t *dst_format,
int *ttable, src_ttable_entry_t *ttable,
snd_pcm_plugin_t **r_plugin) snd_pcm_plugin_t **r_plugin)
{ {
struct route_private_data *data; route_t *data;
snd_pcm_plugin_t *plugin; snd_pcm_plugin_t *plugin;
int size;
int err; int err;
if (!r_plugin) if (!r_plugin)
return -EINVAL; return -EFAULT;
*r_plugin = NULL; *r_plugin = NULL;
if (src_format->interleave != dst_format->interleave)
return -EINVAL;
if (!dst_format->interleave)
return -EINVAL;
if (src_format->format != dst_format->format)
return -EINVAL;
if (!snd_pcm_format_linear(src_format->format))
return -EINVAL;
if (src_format->rate != dst_format->rate) if (src_format->rate != dst_format->rate)
return -EINVAL; return -EINVAL;
if (src_format->voices < 1 || dst_format->voices < 1) if (!(snd_pcm_format_linear(src_format->format) &&
snd_pcm_format_linear(dst_format->format)))
return -EINVAL; return -EINVAL;
size = snd_pcm_format_size(src_format->format, 1);
if (size < 0) plugin = snd_pcm_plugin_build(handle,
return -EINVAL; "attenuated route conversion",
plugin = snd_pcm_plugin_build("Volume/balance conversion", src_format,
sizeof(struct route_private_data) + dst_format,
sizeof(data->ttable[0]) * src_format->voices * dst_format->voices); sizeof(route_t) + sizeof(data->ttable[0]) * dst_format->voices);
if (plugin == NULL) if (plugin == NULL)
return -ENOMEM; return -ENOMEM;
data = (struct route_private_data *)plugin->extra_data;
data->src_voices = src_format->voices; data = (route_t *) plugin->extra_data;
data->dst_voices = dst_format->voices;
data->format = src_format->format; data->get = getput_index(src_format->format);
data->interleave = src_format->interleave; data->put = getput_index(dst_format->format);
data->sample_size = size; data->copy = copy_index(src_format->format, dst_format->format);
if ((err = route_load_ttable(data, ttable)) < 0) {
#ifdef __KERNEL__
if (snd_pcm_format_width(src_format->format) == 32)
data->sum_type = INT64;
else
data->sum_type = INT32;
#else
data->sum_type = FLOAT;
#endif
data->src_sample_size = snd_pcm_format_width(src_format->format) / 8;
if ((err = route_load_ttable(plugin, ttable)) < 0) {
snd_pcm_plugin_free(plugin); snd_pcm_plugin_free(plugin);
return err; return err;
} }
plugin->transfer = route_transfer; plugin->transfer = route_transfer;
plugin->src_size = route_src_size;
plugin->dst_size = route_dst_size;
*r_plugin = plugin; *r_plugin = plugin;
return 0; return 0;
} }