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Diffstat (limited to 'spa/plugins/audioconvert/fmt-ops.c')
-rw-r--r-- | spa/plugins/audioconvert/fmt-ops.c | 564 |
1 files changed, 564 insertions, 0 deletions
diff --git a/spa/plugins/audioconvert/fmt-ops.c b/spa/plugins/audioconvert/fmt-ops.c new file mode 100644 index 0000000..4999a20 --- /dev/null +++ b/spa/plugins/audioconvert/fmt-ops.c @@ -0,0 +1,564 @@ +/* Spa + * + * Copyright © 2018 Wim Taymans + * + * Permission is hereby granted, free of charge, to any person obtaining a + * copy of this software and associated documentation files (the "Software"), + * to deal in the Software without restriction, including without limitation + * the rights to use, copy, modify, merge, publish, distribute, sublicense, + * and/or sell copies of the Software, and to permit persons to whom the + * Software is furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice (including the next + * paragraph) shall be included in all copies or substantial portions of the + * Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL + * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING + * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER + * DEALINGS IN THE SOFTWARE. + */ + +#include <string.h> +#include <stdio.h> +#include <math.h> + +#include <spa/support/cpu.h> +#include <spa/utils/defs.h> +#include <spa/param/audio/format-utils.h> + +#include "fmt-ops.h" + +#define NOISE_SIZE (1<<10) +#define RANDOM_SIZE (16) + +typedef void (*convert_func_t) (struct convert *conv, void * SPA_RESTRICT dst[], + const void * SPA_RESTRICT src[], uint32_t n_samples); + +struct conv_info { + uint32_t src_fmt; + uint32_t dst_fmt; + uint32_t n_channels; + + convert_func_t process; + const char *name; + + uint32_t cpu_flags; +#define CONV_NOISE (1<<0) +#define CONV_SHAPE (1<<1) + uint32_t conv_flags; +}; + +#define MAKE(fmt1,fmt2,chan,func,...) \ + { SPA_AUDIO_FORMAT_ ##fmt1, SPA_AUDIO_FORMAT_ ##fmt2, chan, func, #func , __VA_ARGS__ } + +static struct conv_info conv_table[] = +{ + /* to f32 */ + MAKE(U8, F32, 0, conv_u8_to_f32_c), + MAKE(U8, F32, 0, conv_u8_to_f32_c), + MAKE(U8P, F32P, 0, conv_u8d_to_f32d_c), + MAKE(U8, F32P, 0, conv_u8_to_f32d_c), + MAKE(U8P, F32, 0, conv_u8d_to_f32_c), + + MAKE(S8, F32, 0, conv_s8_to_f32_c), + MAKE(S8P, F32P, 0, conv_s8d_to_f32d_c), + MAKE(S8, F32P, 0, conv_s8_to_f32d_c), + MAKE(S8P, F32, 0, conv_s8d_to_f32_c), + + MAKE(ALAW, F32P, 0, conv_alaw_to_f32d_c), + MAKE(ULAW, F32P, 0, conv_ulaw_to_f32d_c), + + MAKE(U16, F32, 0, conv_u16_to_f32_c), + MAKE(U16, F32P, 0, conv_u16_to_f32d_c), + + MAKE(S16, F32, 0, conv_s16_to_f32_c), + MAKE(S16P, F32P, 0, conv_s16d_to_f32d_c), +#if defined (HAVE_NEON) + MAKE(S16, F32P, 2, conv_s16_to_f32d_2_neon, SPA_CPU_FLAG_NEON), + MAKE(S16, F32P, 0, conv_s16_to_f32d_neon, SPA_CPU_FLAG_NEON), +#endif +#if defined (HAVE_AVX2) + MAKE(S16, F32P, 2, conv_s16_to_f32d_2_avx2, SPA_CPU_FLAG_AVX2), + MAKE(S16, F32P, 0, conv_s16_to_f32d_avx2, SPA_CPU_FLAG_AVX2), +#endif +#if defined (HAVE_SSE2) + MAKE(S16, F32P, 2, conv_s16_to_f32d_2_sse2, SPA_CPU_FLAG_SSE2), + MAKE(S16, F32P, 0, conv_s16_to_f32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S16, F32P, 0, conv_s16_to_f32d_c), + MAKE(S16P, F32, 0, conv_s16d_to_f32_c), + + MAKE(S16_OE, F32P, 0, conv_s16s_to_f32d_c), + + MAKE(F32, F32, 0, conv_copy32_c), + MAKE(F32P, F32P, 0, conv_copy32d_c), +#if defined (HAVE_SSE2) + MAKE(F32, F32P, 0, conv_32_to_32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32, F32P, 0, conv_32_to_32d_c), +#if defined (HAVE_SSE2) + MAKE(F32P, F32, 0, conv_32d_to_32_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32P, F32, 0, conv_32d_to_32_c), + +#if defined (HAVE_SSE2) + MAKE(F32_OE, F32P, 0, conv_32s_to_32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32_OE, F32P, 0, conv_32s_to_32d_c), +#if defined (HAVE_SSE2) + MAKE(F32P, F32_OE, 0, conv_32d_to_32s_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32P, F32_OE, 0, conv_32d_to_32s_c), + + MAKE(U32, F32, 0, conv_u32_to_f32_c), + MAKE(U32, F32P, 0, conv_u32_to_f32d_c), + +#if defined (HAVE_AVX2) + MAKE(S32, F32P, 0, conv_s32_to_f32d_avx2, SPA_CPU_FLAG_AVX2), +#endif +#if defined (HAVE_SSE2) + MAKE(S32, F32P, 0, conv_s32_to_f32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S32, F32, 0, conv_s32_to_f32_c), + MAKE(S32P, F32P, 0, conv_s32d_to_f32d_c), + MAKE(S32, F32P, 0, conv_s32_to_f32d_c), + MAKE(S32P, F32, 0, conv_s32d_to_f32_c), + + MAKE(S32_OE, F32P, 0, conv_s32s_to_f32d_c), + + MAKE(U24, F32, 0, conv_u24_to_f32_c), + MAKE(U24, F32P, 0, conv_u24_to_f32d_c), + + MAKE(S24, F32, 0, conv_s24_to_f32_c), + MAKE(S24P, F32P, 0, conv_s24d_to_f32d_c), +#if defined (HAVE_AVX2) + MAKE(S24, F32P, 0, conv_s24_to_f32d_avx2, SPA_CPU_FLAG_AVX2), +#endif +#if defined (HAVE_SSSE3) +// MAKE(S24, F32P, 0, conv_s24_to_f32d_ssse3, SPA_CPU_FLAG_SSSE3), +#endif +#if defined (HAVE_SSE41) + MAKE(S24, F32P, 0, conv_s24_to_f32d_sse41, SPA_CPU_FLAG_SSE41), +#endif +#if defined (HAVE_SSE2) + MAKE(S24, F32P, 0, conv_s24_to_f32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S24, F32P, 0, conv_s24_to_f32d_c), + MAKE(S24P, F32, 0, conv_s24d_to_f32_c), + + MAKE(S24_OE, F32P, 0, conv_s24s_to_f32d_c), + + MAKE(U24_32, F32, 0, conv_u24_32_to_f32_c), + MAKE(U24_32, F32P, 0, conv_u24_32_to_f32d_c), + + MAKE(S24_32, F32, 0, conv_s24_32_to_f32_c), + MAKE(S24_32P, F32P, 0, conv_s24_32d_to_f32d_c), + MAKE(S24_32, F32P, 0, conv_s24_32_to_f32d_c), + MAKE(S24_32P, F32, 0, conv_s24_32d_to_f32_c), + + MAKE(S24_32_OE, F32P, 0, conv_s24_32s_to_f32d_c), + + MAKE(F64, F32, 0, conv_f64_to_f32_c), + MAKE(F64P, F32P, 0, conv_f64d_to_f32d_c), + MAKE(F64, F32P, 0, conv_f64_to_f32d_c), + MAKE(F64P, F32, 0, conv_f64d_to_f32_c), + + MAKE(F64_OE, F32P, 0, conv_f64s_to_f32d_c), + + /* from f32 */ + MAKE(F32, U8, 0, conv_f32_to_u8_c), + MAKE(F32P, U8P, 0, conv_f32d_to_u8d_shaped_c, 0, CONV_SHAPE), + MAKE(F32P, U8P, 0, conv_f32d_to_u8d_noise_c, 0, CONV_NOISE), + MAKE(F32P, U8P, 0, conv_f32d_to_u8d_c), + MAKE(F32, U8P, 0, conv_f32_to_u8d_c), + MAKE(F32P, U8, 0, conv_f32d_to_u8_shaped_c, 0, CONV_SHAPE), + MAKE(F32P, U8, 0, conv_f32d_to_u8_noise_c, 0, CONV_NOISE), + MAKE(F32P, U8, 0, conv_f32d_to_u8_c), + + MAKE(F32, S8, 0, conv_f32_to_s8_c), + MAKE(F32P, S8P, 0, conv_f32d_to_s8d_shaped_c, 0, CONV_SHAPE), + MAKE(F32P, S8P, 0, conv_f32d_to_s8d_noise_c, 0, CONV_NOISE), + MAKE(F32P, S8P, 0, conv_f32d_to_s8d_c), + MAKE(F32, S8P, 0, conv_f32_to_s8d_c), + MAKE(F32P, S8, 0, conv_f32d_to_s8_shaped_c, 0, CONV_SHAPE), + MAKE(F32P, S8, 0, conv_f32d_to_s8_noise_c, 0, CONV_NOISE), + MAKE(F32P, S8, 0, conv_f32d_to_s8_c), + + MAKE(F32P, ALAW, 0, conv_f32d_to_alaw_c), + MAKE(F32P, ULAW, 0, conv_f32d_to_ulaw_c), + + MAKE(F32, U16, 0, conv_f32_to_u16_c), + MAKE(F32P, U16, 0, conv_f32d_to_u16_c), + +#if defined (HAVE_SSE2) + MAKE(F32, S16, 0, conv_f32_to_s16_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32, S16, 0, conv_f32_to_s16_c), + + MAKE(F32P, S16P, 0, conv_f32d_to_s16d_shaped_c, 0, CONV_SHAPE), +#if defined (HAVE_SSE2) + MAKE(F32P, S16P, 0, conv_f32d_to_s16d_noise_sse2, SPA_CPU_FLAG_SSE2, CONV_NOISE), +#endif + MAKE(F32P, S16P, 0, conv_f32d_to_s16d_noise_c, 0, CONV_NOISE), +#if defined (HAVE_SSE2) + MAKE(F32P, S16P, 0, conv_f32d_to_s16d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32P, S16P, 0, conv_f32d_to_s16d_c), + + MAKE(F32, S16P, 0, conv_f32_to_s16d_c), + + MAKE(F32P, S16, 0, conv_f32d_to_s16_shaped_c, 0, CONV_SHAPE), +#if defined (HAVE_SSE2) + MAKE(F32P, S16, 0, conv_f32d_to_s16_noise_sse2, SPA_CPU_FLAG_SSE2, CONV_NOISE), +#endif + MAKE(F32P, S16, 0, conv_f32d_to_s16_noise_c, 0, CONV_NOISE), +#if defined (HAVE_NEON) + MAKE(F32P, S16, 0, conv_f32d_to_s16_neon, SPA_CPU_FLAG_NEON), +#endif +#if defined (HAVE_AVX2) + MAKE(F32P, S16, 4, conv_f32d_to_s16_4_avx2, SPA_CPU_FLAG_AVX2), + MAKE(F32P, S16, 2, conv_f32d_to_s16_2_avx2, SPA_CPU_FLAG_AVX2), + MAKE(F32P, S16, 0, conv_f32d_to_s16_avx2, SPA_CPU_FLAG_AVX2), +#endif +#if defined (HAVE_SSE2) + MAKE(F32P, S16, 2, conv_f32d_to_s16_2_sse2, SPA_CPU_FLAG_SSE2), + MAKE(F32P, S16, 0, conv_f32d_to_s16_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32P, S16, 0, conv_f32d_to_s16_c), + + MAKE(F32P, S16_OE, 0, conv_f32d_to_s16s_shaped_c, 0, CONV_SHAPE), + MAKE(F32P, S16_OE, 0, conv_f32d_to_s16s_noise_c, 0, CONV_NOISE), + MAKE(F32P, S16_OE, 0, conv_f32d_to_s16s_c), + + MAKE(F32, U32, 0, conv_f32_to_u32_c), + MAKE(F32P, U32, 0, conv_f32d_to_u32_c), + + MAKE(F32, S32, 0, conv_f32_to_s32_c), + MAKE(F32P, S32P, 0, conv_f32d_to_s32d_noise_c, 0, CONV_NOISE), + MAKE(F32P, S32P, 0, conv_f32d_to_s32d_c), + MAKE(F32, S32P, 0, conv_f32_to_s32d_c), + +#if defined (HAVE_SSE2) + MAKE(F32P, S32, 0, conv_f32d_to_s32_noise_sse2, SPA_CPU_FLAG_SSE2, CONV_NOISE), +#endif + MAKE(F32P, S32, 0, conv_f32d_to_s32_noise_c, 0, CONV_NOISE), + +#if defined (HAVE_AVX2) + MAKE(F32P, S32, 0, conv_f32d_to_s32_avx2, SPA_CPU_FLAG_AVX2), +#endif +#if defined (HAVE_SSE2) + MAKE(F32P, S32, 0, conv_f32d_to_s32_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(F32P, S32, 0, conv_f32d_to_s32_c), + + MAKE(F32P, S32_OE, 0, conv_f32d_to_s32s_noise_c, 0, CONV_NOISE), + MAKE(F32P, S32_OE, 0, conv_f32d_to_s32s_c), + + MAKE(F32, U24, 0, conv_f32_to_u24_c), + MAKE(F32P, U24, 0, conv_f32d_to_u24_c), + + MAKE(F32, S24, 0, conv_f32_to_s24_c), + MAKE(F32P, S24P, 0, conv_f32d_to_s24d_noise_c, 0, CONV_NOISE), + MAKE(F32P, S24P, 0, conv_f32d_to_s24d_c), + MAKE(F32, S24P, 0, conv_f32_to_s24d_c), + MAKE(F32P, S24, 0, conv_f32d_to_s24_noise_c, 0, CONV_NOISE), + MAKE(F32P, S24, 0, conv_f32d_to_s24_c), + + MAKE(F32P, S24_OE, 0, conv_f32d_to_s24s_noise_c, 0, CONV_NOISE), + MAKE(F32P, S24_OE, 0, conv_f32d_to_s24s_c), + + MAKE(F32, U24_32, 0, conv_f32_to_u24_32_c), + MAKE(F32P, U24_32, 0, conv_f32d_to_u24_32_c), + + MAKE(F32, S24_32, 0, conv_f32_to_s24_32_c), + MAKE(F32P, S24_32P, 0, conv_f32d_to_s24_32d_noise_c, 0, CONV_NOISE), + MAKE(F32P, S24_32P, 0, conv_f32d_to_s24_32d_c), + MAKE(F32, S24_32P, 0, conv_f32_to_s24_32d_c), + MAKE(F32P, S24_32, 0, conv_f32d_to_s24_32_noise_c, 0, CONV_NOISE), + MAKE(F32P, S24_32, 0, conv_f32d_to_s24_32_c), + + MAKE(F32P, S24_32_OE, 0, conv_f32d_to_s24_32s_noise_c, 0, CONV_NOISE), + MAKE(F32P, S24_32_OE, 0, conv_f32d_to_s24_32s_c), + + MAKE(F32, F64, 0, conv_f32_to_f64_c), + MAKE(F32P, F64P, 0, conv_f32d_to_f64d_c), + MAKE(F32, F64P, 0, conv_f32_to_f64d_c), + MAKE(F32P, F64, 0, conv_f32d_to_f64_c), + + MAKE(F32P, F64_OE, 0, conv_f32d_to_f64s_c), + + /* u8 */ + MAKE(U8, U8, 0, conv_copy8_c), + MAKE(U8P, U8P, 0, conv_copy8d_c), + MAKE(U8, U8P, 0, conv_8_to_8d_c), + MAKE(U8P, U8, 0, conv_8d_to_8_c), + + /* s8 */ + MAKE(S8, S8, 0, conv_copy8_c), + MAKE(S8P, S8P, 0, conv_copy8d_c), + MAKE(S8, S8P, 0, conv_8_to_8d_c), + MAKE(S8P, S8, 0, conv_8d_to_8_c), + + /* alaw */ + MAKE(ALAW, ALAW, 0, conv_copy8_c), + /* ulaw */ + MAKE(ULAW, ULAW, 0, conv_copy8_c), + + /* s16 */ + MAKE(S16, S16, 0, conv_copy16_c), + MAKE(S16P, S16P, 0, conv_copy16d_c), + MAKE(S16, S16P, 0, conv_16_to_16d_c), + MAKE(S16P, S16, 0, conv_16d_to_16_c), + + /* s32 */ + MAKE(S32, S32, 0, conv_copy32_c), + MAKE(S32P, S32P, 0, conv_copy32d_c), +#if defined (HAVE_SSE2) + MAKE(S32, S32P, 0, conv_32_to_32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S32, S32P, 0, conv_32_to_32d_c), +#if defined (HAVE_SSE2) + MAKE(S32P, S32, 0, conv_32d_to_32_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S32P, S32, 0, conv_32d_to_32_c), + + /* s24 */ + MAKE(S24, S24, 0, conv_copy24_c), + MAKE(S24P, S24P, 0, conv_copy24d_c), + MAKE(S24, S24P, 0, conv_24_to_24d_c), + MAKE(S24P, S24, 0, conv_24d_to_24_c), + + /* s24_32 */ + MAKE(S24_32, S24_32, 0, conv_copy32_c), + MAKE(S24_32P, S24_32P, 0, conv_copy32d_c), +#if defined (HAVE_SSE2) + MAKE(S24_32, S24_32P, 0, conv_32_to_32d_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S24_32, S24_32P, 0, conv_32_to_32d_c), +#if defined (HAVE_SSE2) + MAKE(S24_32P, S24_32, 0, conv_32d_to_32_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(S24_32P, S24_32, 0, conv_32d_to_32_c), + + /* F64 */ + MAKE(F64, F64, 0, conv_copy64_c), + MAKE(F64P, F64P, 0, conv_copy64d_c), + MAKE(F64, F64P, 0, conv_64_to_64d_c), + MAKE(F64P, F64, 0, conv_64d_to_64_c), +}; +#undef MAKE + +#define MATCH_CHAN(a,b) ((a) == 0 || (a) == (b)) +#define MATCH_CPU_FLAGS(a,b) ((a) == 0 || ((a) & (b)) == a) +#define MATCH_DITHER(a,b) ((a) == 0 || ((a) & (b)) == a) + +static const struct conv_info *find_conv_info(uint32_t src_fmt, uint32_t dst_fmt, + uint32_t n_channels, uint32_t cpu_flags, uint32_t conv_flags) +{ + SPA_FOR_EACH_ELEMENT_VAR(conv_table, c) { + if (c->src_fmt == src_fmt && + c->dst_fmt == dst_fmt && + MATCH_CHAN(c->n_channels, n_channels) && + MATCH_CPU_FLAGS(c->cpu_flags, cpu_flags) && + MATCH_DITHER(c->conv_flags, conv_flags)) + return c; + } + return NULL; +} + +typedef void (*noise_func_t) (struct convert *conv, float * noise, uint32_t n_samples); + +struct noise_info { + uint32_t method; + + noise_func_t noise; + const char *name; + + uint32_t cpu_flags; +}; + +#define MAKE(method,func,...) \ + { NOISE_METHOD_ ##method, func, #func , __VA_ARGS__ } + +static struct noise_info noise_table[] = +{ +#if defined (HAVE_SSE2) + MAKE(RECTANGULAR, conv_noise_rect_sse2, SPA_CPU_FLAG_SSE2), + MAKE(TRIANGULAR, conv_noise_tri_sse2, SPA_CPU_FLAG_SSE2), + MAKE(TRIANGULAR_HF, conv_noise_tri_hf_sse2, SPA_CPU_FLAG_SSE2), +#endif + MAKE(NONE, conv_noise_none_c), + MAKE(RECTANGULAR, conv_noise_rect_c), + MAKE(TRIANGULAR, conv_noise_tri_c), + MAKE(TRIANGULAR_HF, conv_noise_tri_hf_c), + MAKE(PATTERN, conv_noise_pattern_c), +}; +#undef MAKE + +static const struct noise_info *find_noise_info(uint32_t method, + uint32_t cpu_flags) +{ + SPA_FOR_EACH_ELEMENT_VAR(noise_table, t) { + if (t->method == method && + MATCH_CPU_FLAGS(t->cpu_flags, cpu_flags)) + return t; + } + return NULL; +} + +static void impl_convert_free(struct convert *conv) +{ + conv->process = NULL; + free(conv->data); + conv->data = NULL; +} + +static bool need_dither(uint32_t format) +{ + switch (format) { + case SPA_AUDIO_FORMAT_U8: + case SPA_AUDIO_FORMAT_U8P: + case SPA_AUDIO_FORMAT_S8: + case SPA_AUDIO_FORMAT_S8P: + case SPA_AUDIO_FORMAT_ULAW: + case SPA_AUDIO_FORMAT_ALAW: + case SPA_AUDIO_FORMAT_S16P: + case SPA_AUDIO_FORMAT_S16: + case SPA_AUDIO_FORMAT_S16_OE: + return true; + } + return false; +} + +/* filters based on F-weighted curves + * from 'Psychoacoustically Optimal Noise Shaping' (**) + * this filter is the "F-Weighted" noise filter described by Wannamaker + * It is designed to produce minimum audibility: */ +static const float wan3[] = { /* Table 3; 3 Coefficients */ + 1.623f, -0.982f, 0.109f +}; +/* Noise shaping coefficients from[1], moves most power of the + * error noise into inaudible frequency ranges. + * + * [1] + * "Minimally Audible Noise Shaping", Stanley P. Lipshitz, + * John Vanderkooy, and Robert A. Wannamaker, + * J. Audio Eng. Soc., Vol. 39, No. 11, November 1991. */ +static const float lips44[] = { /* improved E-weighted (appendix: 5) */ + 2.033f, -2.165f, 1.959f, -1.590f, 0.6149f +}; + +static const struct dither_info { + uint32_t method; + uint32_t noise_method; + uint32_t rate; + const float *ns; + uint32_t n_ns; +} dither_info[] = { + { DITHER_METHOD_NONE, NOISE_METHOD_NONE, }, + { DITHER_METHOD_RECTANGULAR, NOISE_METHOD_RECTANGULAR, }, + { DITHER_METHOD_TRIANGULAR, NOISE_METHOD_TRIANGULAR, }, + { DITHER_METHOD_TRIANGULAR_HF, NOISE_METHOD_TRIANGULAR_HF, }, + { DITHER_METHOD_WANNAMAKER_3, NOISE_METHOD_TRIANGULAR_HF, 44100, wan3, SPA_N_ELEMENTS(wan3) }, + { DITHER_METHOD_LIPSHITZ, NOISE_METHOD_TRIANGULAR, 44100, lips44, SPA_N_ELEMENTS(lips44) } +}; + +static const struct dither_info *find_dither_info(uint32_t method, uint32_t rate) +{ + SPA_FOR_EACH_ELEMENT_VAR(dither_info, di) { + if (di->method != method) + continue; + /* don't use shaped for too low rates, it moves the noise to + * audible ranges */ + if (di->ns != NULL && rate < di->rate * 3 / 4) + return find_dither_info(DITHER_METHOD_TRIANGULAR_HF, rate); + return di; + } + return NULL; +} + +int convert_init(struct convert *conv) +{ + const struct conv_info *info; + const struct dither_info *dinfo; + const struct noise_info *ninfo; + uint32_t i, conv_flags, data_size[3]; + + conv->scale = 1.0f / (float)(INT32_MAX); + + /* disable dither if not needed */ + if (!need_dither(conv->dst_fmt)) + conv->method = DITHER_METHOD_NONE; + + dinfo = find_dither_info(conv->method, conv->rate); + if (dinfo == NULL) + return -EINVAL; + + conv->noise_method = dinfo->noise_method; + if (conv->noise_bits > 0) { + switch (conv->noise_method) { + case NOISE_METHOD_NONE: + conv->noise_method = NOISE_METHOD_PATTERN; + conv->scale = -1.0f * (1 << (conv->noise_bits-1)); + break; + case NOISE_METHOD_RECTANGULAR: + conv->noise_method = NOISE_METHOD_TRIANGULAR; + SPA_FALLTHROUGH; + case NOISE_METHOD_TRIANGULAR: + case NOISE_METHOD_TRIANGULAR_HF: + conv->scale *= (1 << (conv->noise_bits-1)); + break; + } + } + if (conv->noise_method < NOISE_METHOD_TRIANGULAR) + conv->scale *= 0.5f; + + conv_flags = 0; + if (conv->noise_method != NOISE_METHOD_NONE) + conv_flags |= CONV_NOISE; + if (dinfo->n_ns > 0) { + conv_flags |= CONV_SHAPE; + conv->n_ns = dinfo->n_ns; + conv->ns = dinfo->ns; + } + + info = find_conv_info(conv->src_fmt, conv->dst_fmt, conv->n_channels, + conv->cpu_flags, conv_flags); + if (info == NULL) + return -ENOTSUP; + + ninfo = find_noise_info(conv->noise_method, conv->cpu_flags); + if (ninfo == NULL) + return -ENOTSUP; + + conv->noise_size = NOISE_SIZE; + + data_size[0] = SPA_ROUND_UP(conv->noise_size * sizeof(float), FMT_OPS_MAX_ALIGN); + data_size[1] = SPA_ROUND_UP(RANDOM_SIZE * sizeof(uint32_t), FMT_OPS_MAX_ALIGN); + data_size[2] = SPA_ROUND_UP(RANDOM_SIZE * sizeof(int32_t), FMT_OPS_MAX_ALIGN); + + conv->data = calloc(FMT_OPS_MAX_ALIGN + + data_size[0] + data_size[1] + data_size[2], 1); + if (conv->data == NULL) + return -errno; + + conv->noise = SPA_PTR_ALIGN(conv->data, FMT_OPS_MAX_ALIGN, float); + conv->random = SPA_PTROFF(conv->noise, data_size[0], uint32_t); + conv->prev = SPA_PTROFF(conv->random, data_size[1], int32_t); + + for (i = 0; i < RANDOM_SIZE; i++) + conv->random[i] = random(); + + conv->is_passthrough = conv->src_fmt == conv->dst_fmt; + conv->cpu_flags = info->cpu_flags; + conv->update_noise = ninfo->noise; + conv->process = info->process; + conv->free = impl_convert_free; + conv->func_name = info->name; + + return 0; +} |