/* ---------------------------------------------------------------------- * Project: CMSIS DSP Library * Title: arm_sin_cos_q31.c * Description: Cosine & Sine calculation for Q31 values * * $Date: 18. March 2019 * $Revision: V1.6.0 * * Target Processor: Cortex-M cores * -------------------------------------------------------------------- */ /* * Copyright (C) 2010-2019 ARM Limited or its affiliates. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "arm_math.h" #include "arm_common_tables.h" /** @ingroup groupController */ /** @addtogroup SinCos @{ */ /** @brief Q31 sin_cos function. @param[in] theta scaled input value in degrees @param[out] pSinVal points to processed sine output @param[out] pCosVal points to processed cosine output @return none The Q31 input value is in the range [-1 0.999999] and is mapped to a degree value in the range [-180 179]. */ void arm_sin_cos_q31( q31_t theta, q31_t * pSinVal, q31_t * pCosVal) { q31_t fract; /* Temporary input, output variables */ uint16_t indexS, indexC; /* Index variable */ q31_t f1, f2, d1, d2; /* Two nearest output values */ q31_t Dn, Df; q63_t temp; /* Calculate the nearest index */ indexS = (uint32_t)theta >> CONTROLLER_Q31_SHIFT; indexC = (indexS + 128) & 0x1ff; /* Calculation of fractional value */ fract = (theta - (indexS << CONTROLLER_Q31_SHIFT)) << 8; /* Read two nearest values of input value from the cos & sin tables */ f1 = sinTable_q31[indexC ]; f2 = sinTable_q31[indexC+1]; d1 = -sinTable_q31[indexS ]; d2 = -sinTable_q31[indexS+1]; Dn = 0x1921FB5; /* delta between the two points (fixed), in this case 2*pi/FAST_MATH_TABLE_SIZE */ Df = f2 - f1; /* delta between the values of the functions */ temp = Dn * ((q63_t)d1 + d2); temp = temp - ((q63_t)Df << 32); temp = (q63_t)fract * (temp >> 31); temp = temp + ((3 * (q63_t)Df << 31) - (d2 + ((q63_t)d1 << 1)) * Dn); temp = (q63_t)fract * (temp >> 31); temp = temp + (q63_t)d1 * Dn; temp = (q63_t)fract * (temp >> 31); /* Calculation of cosine value */ *pCosVal = clip_q63_to_q31((temp >> 31) + (q63_t)f1); /* Read two nearest values of input value from the cos & sin tables */ f1 = sinTable_q31[indexS ]; f2 = sinTable_q31[indexS+1]; d1 = sinTable_q31[indexC ]; d2 = sinTable_q31[indexC+1]; Df = f2 - f1; // delta between the values of the functions temp = Dn * ((q63_t)d1 + d2); temp = temp - ((q63_t)Df << 32); temp = (q63_t)fract * (temp >> 31); temp = temp + ((3 * (q63_t)Df << 31) - (d2 + ((q63_t)d1 << 1)) * Dn); temp = (q63_t)fract * (temp >> 31); temp = temp + (q63_t)d1 * Dn; temp = (q63_t)fract * (temp >> 31); /* Calculation of sine value */ *pSinVal = clip_q63_to_q31((temp >> 31) + (q63_t)f1); } /** @} end of SinCos group */