/* * Musepack audio compression * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include typedef union mpc_floatint { float f; mpc_int32_t n; } mpc_floatint; typedef union mpc_doubleint { double d; mpc_int32_t n[2]; } mpc_doubleint; static mpc_inline mpc_int32_t mpc_lrintf(float fVal) { mpc_floatint tmp; tmp.f = fVal + 0x00FF8000; return tmp.n - 0x4B7F8000; } #define mpc_round32 mpc_lrintf #define mpc_nearbyintf mpc_lrintf #ifndef M_PI # define M_PI 3.1415926535897932384626433832795029 // 4*atan(1) # define M_PIl 3.1415926535897932384626433832795029L # define M_LN2 0.6931471805599453094172321214581766 // ln(2) # define M_LN2l 0.6931471805599453094172321214581766L # define M_LN10 2.3025850929940456840179914546843642 // ln 10 */ # define M_LN10l 2.3025850929940456840179914546843642L #endif // fast but maybe more inaccurate, use if you need speed #if defined(__GNUC__) && !defined(__APPLE__) # define SIN(x) sinf ((float)(x)) # define COS(x) cosf ((float)(x)) # define ATAN2(x,y) atan2f ((float)(x), (float)(y)) # define SQRT(x) sqrtf ((float)(x)) # define LOG(x) logf ((float)(x)) # define LOG10(x) log10f ((float)(x)) # define POW(x,y) expf (logf(x) * (y)) # define POW10(x) expf (M_LN10 * (x)) # define FLOOR(x) floorf ((float)(x)) # define IFLOOR(x) (int) floorf ((float)(x)) # define FABS(x) fabsf ((float)(x)) #else # define SIN(x) (float) sin (x) # define COS(x) (float) cos (x) # define ATAN2(x,y) (float) atan2 (x, y) # define SQRT(x) (float) sqrt (x) # define LOG(x) (float) log (x) # define LOG10(x) (float) log10 (x) # define POW(x,y) (float) pow (x,y) # define POW10(x) (float) pow (10., (x)) # define FLOOR(x) (float) floor (x) # define IFLOOR(x) (int) floor (x) # define FABS(x) (float) fabs (x) #endif #define SQRTF(x) SQRT (x) #ifdef FAST_MATH # define TABSTEP 64 # define COSF(x) my_cos ((float)(x)) # define ATAN2F(x,y) my_atan2 ((float)(x), (float)(y)) # define IFLOORF(x) my_ifloor ((float)(x)) void Init_FastMath ( void ); extern const float tabatan2 [] [2]; extern const float tabcos [] [2]; extern const float tabsqrt_ex []; extern const float tabsqrt_m [] [2]; static mpc_inline float my_atan2 ( float x, float y ) { float t, ret; int i; mpc_floatint mx, my; mx.f = x; my.f = y; if ( (mx.n & 0x7FFFFFFF) < (my.n & 0x7FFFFFFF) ) { i = mpc_round32 (t = TABSTEP * (mx.f / my.f)); ret = tabatan2 [1*TABSTEP+i][0] + tabatan2 [1*TABSTEP+i][1] * (t-i); if ( my.n < 0 ) ret = (float)(ret - M_PI); } else if ( mx.n < 0 ) { i = mpc_round32 (t = TABSTEP * (my.f / mx.f)); ret = - M_PI/2 - tabatan2 [1*TABSTEP+i][0] + tabatan2 [1*TABSTEP+i][1] * (i-t); } else if ( mx.n > 0 ) { i = mpc_round32 (t = TABSTEP * (my.f / mx.f)); ret = + M_PI/2 - tabatan2 [1*TABSTEP+i][0] + tabatan2 [1*TABSTEP+i][1] * (i-t); } else { ret = 0.; } return ret; } static mpc_inline float my_cos ( float x ) { float t, ret; int i; i = mpc_round32 (t = TABSTEP * x); ret = tabcos [13*TABSTEP+i][0] + tabcos [13*TABSTEP+i][1] * (t-i); return ret; } static mpc_inline int my_ifloor ( float x ) { mpc_floatint mx; mx.f = (float) (x + (0x0C00000L + 0.500000001)); return mx.n - 1262485505; } static mpc_inline float my_sqrt ( float x ) { float ret; int i, ex; mpc_floatint mx; mx.f = x; ex = mx.n >> 23; // get the exponent mx.n = (mx.n & 0x7FFFFF) | 0x42800000; // delete the exponent i = mpc_round32 (mx.f); // Integer-part of the mantissa (round ????????????) ret = tabsqrt_m [i-TABSTEP][0] + tabsqrt_m [i-TABSTEP][1] * (mx.f-i); // calculate value ret *= tabsqrt_ex [ex]; return ret; } #else # define COSF(x) COS (x) # define ATAN2F(x,y) ATAN2 (x,y) # define IFLOORF(x) IFLOOR (x) #endif