X-Git-Url: http://git.ieval.ro/?a=blobdiff_plain;f=src%2Flpcm.c;h=a54f83d9236fd872602b301fcf8981f08e00a3c5;hb=4d48b091d49818772a47559ba7fd7ab58fdd7682;hp=d8c279e8d9e25f7afdfebc581441bd5ceffdd28f;hpb=6da14aaeb755e6205631a8734542c82b5a7ba470;p=fdkaac.git diff --git a/src/lpcm.c b/src/lpcm.c index d8c279e..a54f83d 100644 --- a/src/lpcm.c +++ b/src/lpcm.c @@ -13,35 +13,7 @@ #include "lpcm.h" #include "m4af_endian.h" -#ifdef _MSC_VER -# define inline __inline -# ifdef _M_IX86 -inline int lrint(double x) -{ - int n; - _asm { - fld x - fistp n - } - return n; -} -# else -# include -inline int lrint(double x) -{ - return _mm_cvtsd_si32(_mm_load_sd(&x)); -} -# endif -#endif - -inline double pcm_clip(double n, double min_value, double max_value) -{ - if (n < min_value) - return min_value; - else if (n > max_value) - return max_value; - return n; -} +static inline float pcm_i2f(int32_t n) { union { @@ -51,6 +23,7 @@ inline float pcm_i2f(int32_t n) u.ivalue = n; return u.fvalue; } +static inline double pcm_i2d(int64_t n) { union { @@ -60,99 +33,123 @@ inline double pcm_i2d(int64_t n) u.ivalue = n; return u.fvalue; } +static inline int16_t pcm_quantize_s32(int32_t n) { n = ((n >> 15) + 1) >> 1; return (n == 0x8000) ? 0x7fff : n; } +static inline int16_t pcm_quantize_f64(double v) { return (int16_t)lrint(pcm_clip(v * 32768.0, -32768.0, 32767.0)); } +static inline int16_t pcm_s8_to_s16(int8_t n) { return n << 8; } +static inline int16_t pcm_u8_to_s16(uint8_t n) { return (n << 8) ^ 0x8000; } +static inline int16_t pcm_s16le_to_s16(int16_t n) { return m4af_ltoh16(n); } +static inline int16_t pcm_s16be_to_s16(int16_t n) { return m4af_btoh16(n); } +static inline int16_t pcm_u16le_to_s16(uint16_t n) { return m4af_ltoh16(n) ^ 0x8000; } +static inline int16_t pcm_u16be_to_s16(uint16_t n) { return m4af_btoh16(n) ^ 0x8000; } +static inline int32_t pcm_s24le_to_s32(uint8_t *p) { return p[0]<<8 | p[1]<<16 | p[2]<<24; } +static inline int32_t pcm_s24be_to_s32(uint8_t *p) { return p[0]<<24 | p[1]<<16 | p[2]<<8; } +static inline int32_t pcm_u24le_to_s32(uint8_t *p) { return pcm_s24le_to_s32(p) ^ 0x80000000; } +static inline int32_t pcm_u24be_to_s32(uint8_t *p) { return pcm_s24be_to_s32(p) ^ 0x80000000; } +static inline int16_t pcm_s24le_to_s16(uint8_t *p) { return pcm_quantize_s32(pcm_s24le_to_s32(p)); } +static inline int16_t pcm_s24be_to_s16(uint8_t *p) { return pcm_quantize_s32(pcm_s24be_to_s32(p)); } +static inline int16_t pcm_u24le_to_s16(uint8_t *p) { return pcm_quantize_s32(pcm_u24le_to_s32(p)); } +static inline int16_t pcm_u24be_to_s16(uint8_t *p) { return pcm_quantize_s32(pcm_u24be_to_s32(p)); } +static inline int16_t pcm_s32le_to_s16(int32_t n) { return pcm_quantize_s32(m4af_ltoh32(n)); } +static inline int16_t pcm_s32be_to_s16(int32_t n) { return pcm_quantize_s32(m4af_btoh32(n)); } +static inline int16_t pcm_u32le_to_s16(int32_t n) { return pcm_quantize_s32(m4af_ltoh32(n) ^ 0x80000000); } +static inline int16_t pcm_u32be_to_s16(int32_t n) { return pcm_quantize_s32(m4af_btoh32(n) ^ 0x80000000); } +static inline int16_t pcm_f32le_to_s16(int32_t n) { return pcm_quantize_f64(pcm_i2f(m4af_ltoh32(n))); } +static inline int16_t pcm_f32be_to_s16(int32_t n) { return pcm_quantize_f64(pcm_i2f(m4af_btoh32(n))); } +static inline int16_t pcm_f64le_to_s16(int64_t n) { return pcm_quantize_f64(pcm_i2d(m4af_ltoh64(n))); } +static inline int16_t pcm_f64be_to_s16(int64_t n) { return pcm_quantize_f64(pcm_i2d(m4af_btoh64(n))); @@ -160,14 +157,14 @@ inline int16_t pcm_f64be_to_s16(int64_t n) int pcm_convert_to_native_sint16(const pcm_sample_description_t *format, const void *input, uint32_t nframes, - int16_t **result, uint32_t *osize) + int16_t *result) { #define CONVERT(type, conv) \ do { \ unsigned i; \ type *ip = (type *)input; \ for (i = 0; i < count; ++i) { \ - (*result)[i] = conv(ip[i]); \ + result[i] = conv(ip[i]); \ } \ } while(0) @@ -177,7 +174,7 @@ int pcm_convert_to_native_sint16(const pcm_sample_description_t *format, uint8_t *ip = (uint8_t *)input; \ bytes_per_channel = PCM_BYTES_PER_CHANNEL(format); \ for (i = 0; i < count; ++i) { \ - (*result)[i] = conv(ip); \ + result[i] = conv(ip); \ ip += bytes_per_channel; \ } \ } while(0) @@ -185,11 +182,6 @@ int pcm_convert_to_native_sint16(const pcm_sample_description_t *format, uint32_t count = nframes * format->channels_per_frame; if (!count) return 0; - if (!*result || *osize < count) { - *osize = count; - *result = realloc(*result, count * sizeof(int16_t)); - } - switch (PCM_BYTES_PER_CHANNEL(format) | format->sample_type<<4) { case 1 | PCM_TYPE_SINT<<4: CONVERT(int8_t, pcm_s8_to_s16); break;