/* ---------------------------------------------------------------------- * Project: CMSIS DSP Library * Title: arm_cfft_init_f16.c * Description: Initialization function for cfft f16 instance * * $Date: 23 April 2021 * $Revision: V1.9.0 * * Target Processor: Cortex-M and Cortex-A cores * -------------------------------------------------------------------- */ /* * Copyright (C) 2010-2021 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. */ #define FFTINIT(EXT,SIZE) \ S->bitRevLength = arm_cfft_sR_##EXT##_len##SIZE.bitRevLength; \ S->pBitRevTable = arm_cfft_sR_##EXT##_len##SIZE.pBitRevTable; \ S->pTwiddle = arm_cfft_sR_##EXT##_len##SIZE.pTwiddle; /** @addtogroup ComplexFFT @{ */ /** @brief Initialization function for the cfft f16 function @param[in,out] S points to an instance of the floating-point CFFT structure @param[in] fftLen fft length (number of complex samples) @return execution status - \ref ARM_MATH_SUCCESS : Operation successful - \ref ARM_MATH_ARGUMENT_ERROR : an error is detected @par Use of this function is mandatory only for the MVE version of the FFT. Other versions can still initialize directly the data structure using variables declared in arm_const_structs.h */ #include "dsp/transform_functions_f16.h" #include "arm_common_tables_f16.h" #include "arm_const_structs_f16.h" #if defined(ARM_MATH_MVE_FLOAT16) && !defined(ARM_MATH_AUTOVECTORIZE) #include "arm_vec_fft.h" #include "arm_mve_tables_f16.h" arm_status arm_cfft_radix4by2_rearrange_twiddles_f16(arm_cfft_instance_f16 *S, int twidCoefModifier) { switch (S->fftLen >> (twidCoefModifier - 1)) { #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) \ || defined(ARM_TABLE_TWIDDLECOEF_F16_4096) case 4096U: S->rearranged_twiddle_tab_stride1_arr = rearranged_twiddle_tab_stride1_arr_4096_f16; S->rearranged_twiddle_stride1 = rearranged_twiddle_stride1_4096_f16; S->rearranged_twiddle_tab_stride2_arr = rearranged_twiddle_tab_stride2_arr_4096_f16; S->rearranged_twiddle_stride2 = rearranged_twiddle_stride2_4096_f16; S->rearranged_twiddle_tab_stride3_arr = rearranged_twiddle_tab_stride3_arr_4096_f16; S->rearranged_twiddle_stride3 = rearranged_twiddle_stride3_4096_f16; break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) \ || defined(ARM_TABLE_TWIDDLECOEF_F16_1024) || defined(ARM_TABLE_TWIDDLECOEF_F16_2048) case 1024U: S->rearranged_twiddle_tab_stride1_arr = rearranged_twiddle_tab_stride1_arr_1024_f16; S->rearranged_twiddle_stride1 = rearranged_twiddle_stride1_1024_f16; S->rearranged_twiddle_tab_stride2_arr = rearranged_twiddle_tab_stride2_arr_1024_f16; S->rearranged_twiddle_stride2 = rearranged_twiddle_stride2_1024_f16; S->rearranged_twiddle_tab_stride3_arr = rearranged_twiddle_tab_stride3_arr_1024_f16; S->rearranged_twiddle_stride3 = rearranged_twiddle_stride3_1024_f16; break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) \ || defined(ARM_TABLE_TWIDDLECOEF_F16_256) || defined(ARM_TABLE_TWIDDLECOEF_F16_512) case 256U: S->rearranged_twiddle_tab_stride1_arr = rearranged_twiddle_tab_stride1_arr_256_f16; S->rearranged_twiddle_stride1 = rearranged_twiddle_stride1_256_f16; S->rearranged_twiddle_tab_stride2_arr = rearranged_twiddle_tab_stride2_arr_256_f16; S->rearranged_twiddle_stride2 = rearranged_twiddle_stride2_256_f16; S->rearranged_twiddle_tab_stride3_arr = rearranged_twiddle_tab_stride3_arr_256_f16; S->rearranged_twiddle_stride3 = rearranged_twiddle_stride3_256_f16; break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) \ || defined(ARM_TABLE_TWIDDLECOEF_F16_64) || defined(ARM_TABLE_TWIDDLECOEF_F16_128) case 64U: S->rearranged_twiddle_tab_stride1_arr = rearranged_twiddle_tab_stride1_arr_64_f16; S->rearranged_twiddle_stride1 = rearranged_twiddle_stride1_64_f16; S->rearranged_twiddle_tab_stride2_arr = rearranged_twiddle_tab_stride2_arr_64_f16; S->rearranged_twiddle_stride2 = rearranged_twiddle_stride2_64_f16; S->rearranged_twiddle_tab_stride3_arr = rearranged_twiddle_tab_stride3_arr_64_f16; S->rearranged_twiddle_stride3 = rearranged_twiddle_stride3_64_f16; break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) \ || defined(ARM_TABLE_TWIDDLECOEF_F16_16) || defined(ARM_TABLE_TWIDDLECOEF_F16_32) case 16U: S->rearranged_twiddle_tab_stride1_arr = rearranged_twiddle_tab_stride1_arr_16_f16; S->rearranged_twiddle_stride1 = rearranged_twiddle_stride1_16_f16; S->rearranged_twiddle_tab_stride2_arr = rearranged_twiddle_tab_stride2_arr_16_f16; S->rearranged_twiddle_stride2 = rearranged_twiddle_stride2_16_f16; S->rearranged_twiddle_tab_stride3_arr = rearranged_twiddle_tab_stride3_arr_16_f16; S->rearranged_twiddle_stride3 = rearranged_twiddle_stride3_16_f16; break; #endif default: return(ARM_MATH_ARGUMENT_ERROR); break; /* invalid sizes already filtered */ } return(ARM_MATH_SUCCESS); } arm_status arm_cfft_init_f16( arm_cfft_instance_f16 * S, uint16_t fftLen) { /* Initialise the default arm status */ arm_status status = ARM_MATH_SUCCESS; /* Initialise the FFT length */ S->fftLen = fftLen; /* Initialise the Twiddle coefficient pointer */ S->pTwiddle = NULL; /* Initializations of Instance structure depending on the FFT length */ switch (S->fftLen) { /* Initializations of structure parameters for 4096 point FFT */ #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_4096) && defined(ARM_TABLE_TWIDDLECOEF_F16_4096)) case 4096U: /* Initialise the bit reversal table modifier */ S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_4096_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_4096; S->pTwiddle = (float16_t *)twiddleCoefF16_4096; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 1); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_2048) && defined(ARM_TABLE_TWIDDLECOEF_F16_2048)) /* Initializations of structure parameters for 2048 point FFT */ case 2048U: /* Initialise the bit reversal table modifier */ S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_2048_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_2048; S->pTwiddle = (float16_t *)twiddleCoefF16_2048; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 2); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_1024) && defined(ARM_TABLE_TWIDDLECOEF_F16_1024)) /* Initializations of structure parameters for 1024 point FFT */ case 1024U: /* Initialise the bit reversal table modifier */ S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_1024_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_1024; S->pTwiddle = (float16_t *)twiddleCoefF16_1024; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 1); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_512) && defined(ARM_TABLE_TWIDDLECOEF_F16_512)) /* Initializations of structure parameters for 512 point FFT */ case 512U: /* Initialise the bit reversal table modifier */ S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_512_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_512; S->pTwiddle = (float16_t *)twiddleCoefF16_512; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 2); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_256) && defined(ARM_TABLE_TWIDDLECOEF_F16_256)) case 256U: S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_256_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_256; S->pTwiddle = (float16_t *)twiddleCoefF16_256; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 1); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_128) && defined(ARM_TABLE_TWIDDLECOEF_F16_128)) case 128U: S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_128_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_128; S->pTwiddle = (float16_t *)twiddleCoefF16_128; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 2); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_64) && defined(ARM_TABLE_TWIDDLECOEF_F16_64)) case 64U: S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_64_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_64; S->pTwiddle = (float16_t *)twiddleCoefF16_64; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 1); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_32) && defined(ARM_TABLE_TWIDDLECOEF_F16_32)) case 32U: S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_32_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_32; S->pTwiddle = (float16_t *)twiddleCoefF16_32; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 2); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_BITREVIDX_FXT_16) && defined(ARM_TABLE_TWIDDLECOEF_F16_16)) case 16U: /* Initializations of structure parameters for 16 point FFT */ S->bitRevLength = ARMBITREVINDEXTABLE_FIXED_16_TABLE_LENGTH; S->pBitRevTable = (uint16_t *)armBitRevIndexTable_fixed_16; S->pTwiddle = (float16_t *)twiddleCoefF16_16; status=arm_cfft_radix4by2_rearrange_twiddles_f16(S, 1); break; #endif default: /* Reporting argument error if fftSize is not valid value */ status = ARM_MATH_ARGUMENT_ERROR; break; } return (status); } #else #if defined(ARM_FLOAT16_SUPPORTED) arm_status arm_cfft_init_f16( arm_cfft_instance_f16 * S, uint16_t fftLen) { /* Initialise the default arm status */ arm_status status = ARM_MATH_SUCCESS; /* Initialise the FFT length */ S->fftLen = fftLen; /* Initialise the Twiddle coefficient pointer */ S->pTwiddle = NULL; /* Initializations of Instance structure depending on the FFT length */ switch (S->fftLen) { #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_4096) && defined(ARM_TABLE_BITREVIDX_FLT_4096)) /* Initializations of structure parameters for 4096 point FFT */ case 4096U: /* Initialise the bit reversal table modifier */ FFTINIT(f16,4096); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_2048) && defined(ARM_TABLE_BITREVIDX_FLT_2048)) /* Initializations of structure parameters for 2048 point FFT */ case 2048U: /* Initialise the bit reversal table modifier */ FFTINIT(f16,2048); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_1024) && defined(ARM_TABLE_BITREVIDX_FLT_1024)) /* Initializations of structure parameters for 1024 point FFT */ case 1024U: /* Initialise the bit reversal table modifier */ FFTINIT(f16,1024); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_512) && defined(ARM_TABLE_BITREVIDX_FLT_512)) /* Initializations of structure parameters for 512 point FFT */ case 512U: /* Initialise the bit reversal table modifier */ FFTINIT(f16,512); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_256) && defined(ARM_TABLE_BITREVIDX_FLT_256)) case 256U: FFTINIT(f16,256); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_128) && defined(ARM_TABLE_BITREVIDX_FLT_128)) case 128U: FFTINIT(f16,128); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_64) && defined(ARM_TABLE_BITREVIDX_FLT_64)) case 64U: FFTINIT(f16,64); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_32) && defined(ARM_TABLE_BITREVIDX_FLT_32)) case 32U: FFTINIT(f16,32); break; #endif #if !defined(ARM_DSP_CONFIG_TABLES) || defined(ARM_ALL_FFT_TABLES) || (defined(ARM_TABLE_TWIDDLECOEF_F16_16) && defined(ARM_TABLE_BITREVIDX_FLT_16)) case 16U: /* Initializations of structure parameters for 16 point FFT */ FFTINIT(f16,16); break; #endif default: /* Reporting argument error if fftSize is not valid value */ status = ARM_MATH_ARGUMENT_ERROR; break; } return (status); } #endif /* #if defined(ARM_FLOAT16_SUPPORTED) */ #endif /* defined(ARM_MATH_MVEF) && !defined(ARM_MATH_AUTOVECTORIZE) */ /** @} end of ComplexFFT group */