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/* ----------------------------------------------------------------------    

* Copyright (C) 2010-2014 ARM Limited. All rights reserved.    

*    

* $Date:        19. March 2015

* $Revision:    V.1.4.5  

*    

* Project:          CMSIS DSP Library    

* Title:            arm_dct4_init_q31.c    

*    

* Description:  Initialization function of DCT-4 & IDCT4 Q31    

*    

* Target Processor: Cortex-M4/Cortex-M3/Cortex-M0

*  

* Redistribution and use in source and binary forms, with or without

* modification, are permitted provided that the following conditions

* are met:

*   - Redistributions of source code must retain the above copyright

*     notice, this list of conditions and the following disclaimer.

*   - Redistributions in binary form must reproduce the above copyright

*     notice, this list of conditions and the following disclaimer in

*     the documentation and/or other materials provided with the

*     distribution.

*   - Neither the name of ARM LIMITED nor the names of its contributors

*     may be used to endorse or promote products derived from this

*     software without specific prior written permission.

*

* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

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* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE

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* -------------------------------------------------------------------- */

#include "arm_math.h"

/**    

 * @ingroup groupTransforms    

 */

/**    

 * @addtogroup DCT4_IDCT4    

 * @{    

 */

/*    

* @brief  Weights Table    

*/

/**    

* \par    

* Weights tables are generated using the formula : <pre>weights[n] = e^(-j*n*pi/(2*N))</pre>    

* \par    

* C command to generate the table    

* <pre>    

* for(i = 0; i< N; i++)    

* {    

*   weights[2*i]= cos(i*c);    

*   weights[(2*i)+1]= -sin(i * c);    

* } </pre>    

* \par    

* where <code>N</code> is the Number of weights to be calculated and <code>c</code> is <code>pi/(2*N)</code>    

* \par    

* Convert the output to q31 format by multiplying with 2^31 and saturated if required.    

* \par    

* In the tables below the real and imaginary values are placed alternatively, hence the    

* array length is <code>2*N</code>.    

*//**    

* cosFactor tables are generated using the formula : <pre>cos_factors[n] = 2 * cos((2n+1)*pi/(4*N))</pre>    

* \par    

* C command to generate the table    

* <pre>    

* for(i = 0; i< N; i++)    

* {    

*   cos_factors[i]= 2 * cos((2*i+1)*c/2);    

* } </pre>    

* \par    

* where <code>N</code> is the number of factors to generate and <code>c</code> is <code>pi/(2*N)</code>    

* \par    

* Then converted to q31 format by multiplying with 2^31 and saturated if required.    

*//**    

 * @brief  Initialization function for the Q31 DCT4/IDCT4.  

 * @param[in,out] *S         points to an instance of Q31 DCT4/IDCT4 structure.  

 * @param[in]     *S_RFFT    points to an instance of Q31 RFFT/RIFFT structure  

 * @param[in]     *S_CFFT    points to an instance of Q31 CFFT/CIFFT structure  

 * @param[in]     N          length of the DCT4.  

 * @param[in]     Nby2       half of the length of the DCT4.  

 * @param[in]     normalize  normalizing factor.  

 * @return                arm_status function returns ARM_MATH_SUCCESS if initialization is successful or ARM_MATH_ARGUMENT_ERROR if <code>N</code> is not a supported transform length.  

 * \par Normalizing factor:    

 * The normalizing factor is <code>sqrt(2/N)</code>, which depends on the size of transform <code>N</code>.    

 * Normalizing factors in 1.31 format are mentioned in the table below for different DCT sizes:    

 * \image html dct4NormalizingQ31Table.gif    

 */

arm_status arm_dct4_init_q31(

  arm_dct4_instance_q31 * S,

  arm_rfft_instance_q31 * S_RFFT,

  arm_cfft_radix4_instance_q31 * S_CFFT,

  uint16_t N,

  uint16_t Nby2,

  q31_t normalize)

{

  /*  Initialise the default arm status */

  arm_status status = ARM_MATH_SUCCESS;

  /* Initializing the pointer array with the weight table base addresses of different lengths */

  q31_t *twiddlePtr[4] = { (q31_t *) WeightsQ31_128, (q31_t *) WeightsQ31_512,

    (q31_t *) WeightsQ31_2048, (q31_t *) WeightsQ31_8192

  };

  /* Initializing the pointer array with the cos factor table base addresses of different lengths */

  q31_t *pCosFactor[4] =

    { (q31_t *) cos_factorsQ31_128, (q31_t *) cos_factorsQ31_512,

    (q31_t *) cos_factorsQ31_2048, (q31_t *) cos_factorsQ31_8192

  };

  /* Initialize the DCT4 length */

  S->N = N;

  /* Initialize the half of DCT4 length */

  S->Nby2 = Nby2;

  /* Initialize the DCT4 Normalizing factor */

  S->normalize = normalize;

  /* Initialize Real FFT Instance */

  S->pRfft = S_RFFT;

  /* Initialize Complex FFT Instance */

  S->pCfft = S_CFFT;

  switch (N)

  {

  case 8192u:

    S->pTwiddle = twiddlePtr[3];

    S->pCosFactor = pCosFactor[3];

    break;

  case 2048u:

    S->pTwiddle = twiddlePtr[2];

    S->pCosFactor = pCosFactor[2];

    break;

  case 512u:

    S->pTwiddle = twiddlePtr[1];

    S->pCosFactor = pCosFactor[1];

    break;

  case 128u:

    S->pTwiddle = twiddlePtr[0];

    S->pCosFactor = pCosFactor[0];

    break;

  default:

    status = ARM_MATH_ARGUMENT_ERROR;

  }

  /* Initialize the RFFT/RIFFT Function */

  arm_rfft_init_q31(S->pRfft,  S->N, 0, 1);

  /* return the status of DCT4 Init function */

  return (status);

}

/**    

   * @} end of DCT4_IDCT4 group    

   */