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Lines Matching full:result_m

636   FIXP_DBL frac_part, result_m;
668     /* result_m ~= 2^frac_part */
671     result_m = FL2FXCONST_DBL(1.0f/2.0f);
674       result_m = fMultAddDiv2(result_m, pow2Coeff[i], p);
682   return result_m;
689   FIXP_DBL result_m;
692   result_m = f2Pow(exp_m, exp_e, &result_e);
695   return scaleValue(result_m, result_e);
763   FIXP_DBL result_m;
766   result_m = fLdPow(baseLd_m, baseLd_e, exp_m, exp_e, &result_e);
768   return SATURATE_SHIFT(result_m, -result_e, DFRACT_BITS);
826   FIXP_DBL result_m;
852     result_m  = FL2FXCONST_DBL(0.0);
855       result_m = fMultAddDiv2(result_m, ldCoeff[i], px2_m);
859     result_m = fMultAddDiv2(result_m, result_m, FL2FXCONST_DBL(2.0*0.4426950408889634073599246810019));
867       /* The -1 in the right shift of result_m compensates the fMultDiv2() above in the taylor polinomial evaluation loop.*/
868       result_m = (result_m >> (enorm-1)) + ((FIXP_DBL)x_e << (DFRACT_BITS-1-enorm));
877   return result_m;