/* Extended Module Player * Copyright (C) 1996-2016 Claudio Matsuoka and Hipolito Carraro Jr * * 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 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 "common.h" #include "virtual.h" #include "mixer.h" #include "precomp_lut.h" /* Mixers * * To increase performance eight mixers are defined, one for each * combination of the following parameters: interpolation, resolution * and number of channels. */ #define NEAREST_NEIGHBOR() do { \ smp_in = ((int16)sptr[pos] << 8); \ } while (0) #define NEAREST_NEIGHBOR_16BIT() do { \ smp_in = sptr[pos]; \ } while (0) #define LINEAR_INTERP() do { \ smp_l1 = ((int16)sptr[pos] << 8); \ smp_dt = ((int16)sptr[pos + 1] << 8) - smp_l1; \ smp_in = smp_l1 + (((frac >> 1) * smp_dt) >> (SMIX_SHIFT - 1)); \ } while (0) #define LINEAR_INTERP_16BIT() do { \ smp_l1 = sptr[pos]; \ smp_dt = sptr[pos + 1] - smp_l1; \ smp_in = smp_l1 + (((frac >> 1) * smp_dt) >> (SMIX_SHIFT - 1)); \ } while (0) /* The following lut settings are PRECOMPUTED. If you plan on changing these * settings, you MUST also regenerate the arrays. */ /* number of bits used to scale spline coefs */ #define SPLINE_QUANTBITS 14 #define SPLINE_SHIFT (SPLINE_QUANTBITS) /* log2(number) of precalculated splines (range is [4..14]) */ #define SPLINE_FRACBITS 10 #define SPLINE_LUTLEN (1L<> 6; \ smp_in = (cubic_spline_lut0[f] * sptr[(int)pos - 1] + \ cubic_spline_lut1[f] * sptr[pos ] + \ cubic_spline_lut3[f] * sptr[pos + 2] + \ cubic_spline_lut2[f] * sptr[pos + 1]) >> (SPLINE_SHIFT - 8); \ } while (0) #define SPLINE_INTERP_16BIT() do { \ int f = frac >> 6; \ smp_in = (cubic_spline_lut0[f] * sptr[(int)pos - 1] + \ cubic_spline_lut1[f] * sptr[pos ] + \ cubic_spline_lut3[f] * sptr[pos + 2] + \ cubic_spline_lut2[f] * sptr[pos + 1]) >> SPLINE_SHIFT; \ } while (0) #define LOOP_AC for (; count > ramp; count--) #define LOOP for (; count; count--) #define UPDATE_POS() do { \ frac += step; \ pos += frac >> SMIX_SHIFT; \ frac &= SMIX_MASK; \ } while (0) #define MIX_MONO() do { \ *(buffer++) += smp_in * vl; \ } while (0) #define MIX_MONO_AC() do { \ *(buffer++) += smp_in * (old_vl >> 8); old_vl += delta_l; \ } while (0) #define MIX_MONO_FILTER() do { \ sl = (a0 * smp_in * vl + b0 * fl1 + b1 * fl2) >> FILTER_SHIFT; \ fl2 = fl1; fl1 = sl; \ *(buffer++) += sl; \ } while (0) #define MIX_MONO_FILTER_AC() do { \ int vl = old_vl >> 8; \ MIX_MONO_FILTER(); \ old_vl += delta_l; \ } while (0) #define MIX_STEREO() do { \ *(buffer++) += smp_in * vr; \ *(buffer++) += smp_in * vl; \ } while (0) #define MIX_STEREO_AC() do { \ *(buffer++) += smp_in * (old_vr >> 8); old_vr += delta_r; \ *(buffer++) += smp_in * (old_vl >> 8); old_vl += delta_l; \ } while (0) #define MIX_STEREO_FILTER() do { \ sr = (a0 * smp_in * vr + b0 * fr1 + b1 * fr2) >> FILTER_SHIFT; \ fr2 = fr1; fr1 = sr; \ sl = (a0 * smp_in * vl + b0 * fl1 + b1 * fl2) >> FILTER_SHIFT; \ fl2 = fl1; fl1 = sl; \ *(buffer++) += sr; \ *(buffer++) += sl; \ } while (0) #define MIX_STEREO_FILTER_AC() do { \ int vr = old_vr >> 8; \ int vl = old_vl >> 8; \ MIX_STEREO_FILTER(); \ old_vr += delta_r; \ old_vl += delta_l; \ } while (0) #define MIX_STEREO_FILTER_AC() do { \ int vr = old_vr >> 8; \ int vl = old_vl >> 8; \ MIX_STEREO_FILTER(); \ old_vr += delta_r; \ old_vl += delta_l; \ } while (0) #define VAR_NORM(x) \ register int smp_in; \ x *sptr = (x *)vi->sptr; \ unsigned int pos = vi->pos; \ int frac = (1 << SMIX_SHIFT) * (vi->pos - (int)vi->pos) #define VAR_LINEAR_MONO(x) \ VAR_NORM(x); \ int old_vl = vi->old_vl; \ int smp_l1, smp_dt #define VAR_LINEAR_STEREO(x) \ VAR_LINEAR_MONO(x); \ int old_vr = vi->old_vr #define VAR_SPLINE_MONO(x) \ int old_vl = vi->old_vl; \ VAR_NORM(x) #define VAR_SPLINE_STEREO(x) \ VAR_SPLINE_MONO(x); \ int old_vr = vi->old_vr #ifndef LIBXMP_CORE_DISABLE_IT #define VAR_FILTER_MONO \ int fl1 = vi->filter.l1, fl2 = vi->filter.l2; \ int64 a0 = vi->filter.a0, b0 = vi->filter.b0, b1 = vi->filter.b1; \ int sl #define VAR_FILTER_STEREO \ VAR_FILTER_MONO; \ int fr1 = vi->filter.r1, fr2 = vi->filter.r2; \ int sr #define SAVE_FILTER_MONO() do { \ vi->filter.l1 = fl1; \ vi->filter.l2 = fl2; \ } while (0) #define SAVE_FILTER_STEREO() do { \ SAVE_FILTER_MONO(); \ vi->filter.r1 = fr1; \ vi->filter.r2 = fr2; \ } while (0) #endif /* * Nearest neighbor mixers */ /* Handler for 8 bit samples, nearest neighbor mono output */ MIXER(mono_8bit_nearest) { VAR_NORM(int8); LOOP { NEAREST_NEIGHBOR(); MIX_MONO(); UPDATE_POS(); } } /* Handler for 16 bit samples, nearest neighbor mono output */ MIXER(mono_16bit_nearest) { VAR_NORM(int16); LOOP { NEAREST_NEIGHBOR_16BIT(); MIX_MONO(); UPDATE_POS(); } } /* Handler for 8 bit samples, nearest neighbor stereo output */ MIXER(stereo_8bit_nearest) { VAR_NORM(int8); LOOP { NEAREST_NEIGHBOR(); MIX_STEREO(); UPDATE_POS(); } } /* Handler for 16 bit samples, nearest neighbor stereo output */ MIXER(stereo_16bit_nearest) { VAR_NORM(int16); LOOP { NEAREST_NEIGHBOR_16BIT(); MIX_STEREO(); UPDATE_POS(); } } /* * Linear mixers */ /* Handler for 8 bit samples, linear interpolated mono output */ MIXER(mono_8bit_linear) { VAR_LINEAR_MONO(int8); LOOP_AC { LINEAR_INTERP(); MIX_MONO_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP(); MIX_MONO(); UPDATE_POS(); } } /* Handler for 16 bit samples, linear interpolated mono output */ MIXER(mono_16bit_linear) { VAR_LINEAR_MONO(int16); LOOP_AC { LINEAR_INTERP_16BIT(); MIX_MONO_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP_16BIT(); MIX_MONO(); UPDATE_POS(); } } /* Handler for 8 bit samples, linear interpolated stereo output */ MIXER(stereo_8bit_linear) { VAR_LINEAR_STEREO(int8); LOOP_AC { LINEAR_INTERP(); MIX_STEREO_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP(); MIX_STEREO(); UPDATE_POS(); } } /* Handler for 16 bit samples, linear interpolated stereo output */ MIXER(stereo_16bit_linear) { VAR_LINEAR_STEREO(int16); LOOP_AC { LINEAR_INTERP_16BIT(); MIX_STEREO_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP_16BIT(); MIX_STEREO(); UPDATE_POS(); } } #ifndef LIBXMP_CORE_DISABLE_IT /* Handler for 8 bit samples, filtered linear interpolated mono output */ MIXER(mono_8bit_linear_filter) { VAR_LINEAR_MONO(int8); VAR_FILTER_MONO; LOOP_AC { LINEAR_INTERP(); MIX_MONO_FILTER_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP(); MIX_MONO_FILTER(); UPDATE_POS(); } SAVE_FILTER_MONO(); } /* Handler for 16 bit samples, filtered linear interpolated mono output */ MIXER(mono_16bit_linear_filter) { VAR_LINEAR_MONO(int16); VAR_FILTER_MONO; LOOP_AC { LINEAR_INTERP_16BIT(); MIX_MONO_FILTER_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP_16BIT(); MIX_MONO_FILTER(); UPDATE_POS(); } SAVE_FILTER_MONO(); } /* Handler for 8 bit samples, filtered linear interpolated stereo output */ MIXER(stereo_8bit_linear_filter) { VAR_LINEAR_STEREO(int8); VAR_FILTER_STEREO; LOOP_AC { LINEAR_INTERP(); MIX_STEREO_FILTER_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP(); MIX_STEREO_FILTER(); UPDATE_POS(); } SAVE_FILTER_STEREO(); } /* Handler for 16 bit samples, filtered linear interpolated stereo output */ MIXER(stereo_16bit_linear_filter) { VAR_LINEAR_STEREO(int16); VAR_FILTER_STEREO; LOOP_AC { LINEAR_INTERP_16BIT(); MIX_STEREO_FILTER_AC(); UPDATE_POS(); } LOOP { LINEAR_INTERP_16BIT(); MIX_STEREO_FILTER(); UPDATE_POS(); } SAVE_FILTER_STEREO(); } #endif /* * Spline mixers */ /* Handler for 8 bit samples, spline interpolated mono output */ MIXER(mono_8bit_spline) { VAR_SPLINE_MONO(int8); LOOP_AC { SPLINE_INTERP(); MIX_MONO_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP(); MIX_MONO(); UPDATE_POS(); } } /* Handler for 16 bit samples, spline interpolated mono output */ MIXER(mono_16bit_spline) { VAR_SPLINE_MONO(int16); LOOP_AC { SPLINE_INTERP_16BIT(); MIX_MONO_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP_16BIT(); MIX_MONO(); UPDATE_POS(); } } /* Handler for 8 bit samples, spline interpolated stereo output */ MIXER(stereo_8bit_spline) { VAR_SPLINE_STEREO(int8); LOOP_AC { SPLINE_INTERP(); MIX_STEREO_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP(); MIX_STEREO(); UPDATE_POS(); } } /* Handler for 16 bit samples, spline interpolated stereo output */ MIXER(stereo_16bit_spline) { VAR_SPLINE_STEREO(int16); LOOP_AC { SPLINE_INTERP_16BIT(); MIX_STEREO_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP_16BIT(); MIX_STEREO(); UPDATE_POS(); } } #ifndef LIBXMP_CORE_DISABLE_IT /* Handler for 8 bit samples, filtered spline interpolated mono output */ MIXER(mono_8bit_spline_filter) { VAR_SPLINE_MONO(int8); VAR_FILTER_MONO; LOOP_AC { SPLINE_INTERP(); MIX_MONO_FILTER_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP(); MIX_MONO_FILTER(); UPDATE_POS(); } SAVE_FILTER_MONO(); } /* Handler for 16 bit samples, filtered spline interpolated mono output */ MIXER(mono_16bit_spline_filter) { VAR_SPLINE_MONO(int16); VAR_FILTER_MONO; LOOP_AC { SPLINE_INTERP_16BIT(); MIX_MONO_FILTER_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP_16BIT(); MIX_MONO_FILTER(); UPDATE_POS(); } SAVE_FILTER_MONO(); } /* Handler for 8 bit samples, filtered spline interpolated stereo output */ MIXER(stereo_8bit_spline_filter) { VAR_SPLINE_STEREO(int8); VAR_FILTER_STEREO; LOOP_AC { SPLINE_INTERP(); MIX_STEREO_FILTER_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP(); MIX_STEREO_FILTER(); UPDATE_POS(); } SAVE_FILTER_STEREO(); } /* Handler for 16 bit samples, filtered spline interpolated stereo output */ MIXER(stereo_16bit_spline_filter) { VAR_SPLINE_STEREO(int16); VAR_FILTER_STEREO; LOOP_AC { SPLINE_INTERP_16BIT(); MIX_STEREO_FILTER_AC(); UPDATE_POS(); } LOOP { SPLINE_INTERP_16BIT(); MIX_STEREO_FILTER(); UPDATE_POS(); } SAVE_FILTER_STEREO(); } #endif