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| author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
|---|---|---|
| committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
| commit | 36d22d82aa202bb199967e9512281e9a53db42c9 (patch) | |
| tree | 105e8c98ddea1c1e4784a60a5a6410fa416be2de /media/openmax_dl/dl/sp/api/omxSP.h | |
| parent | Initial commit. (diff) | |
| download | firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.tar.xz firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.zip | |
Adding upstream version 115.7.0esr.upstream/115.7.0esr
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'media/openmax_dl/dl/sp/api/omxSP.h')
| -rw-r--r-- | media/openmax_dl/dl/sp/api/omxSP.h | 2620 |
1 files changed, 2620 insertions, 0 deletions
diff --git a/media/openmax_dl/dl/sp/api/omxSP.h b/media/openmax_dl/dl/sp/api/omxSP.h new file mode 100644 index 0000000000..f2a3f5db67 --- /dev/null +++ b/media/openmax_dl/dl/sp/api/omxSP.h @@ -0,0 +1,2620 @@ +/** + * File: omxSP.h + * Brief: OpenMAX DL v1.0.2 - Signal Processing library + * + * Copyright (c) 2005-2008,2015 The Khronos Group Inc. + * + * Permission is hereby granted, free of charge, to any person obtaining a + * copy of this software and/or associated documentation files (the + * "Materials"), to deal in the Materials without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sublicense, and/or sell copies of the Materials, and to + * permit persons to whom the Materials are furnished to do so, subject to + * the following conditions: + * + * The above copyright notice and this permission notice shall be included + * in all copies or substantial portions of the Materials. + * + * MODIFICATIONS TO THIS FILE MAY MEAN IT NO LONGER ACCURATELY REFLECTS + * KHRONOS STANDARDS. THE UNMODIFIED, NORMATIVE VERSIONS OF KHRONOS + * SPECIFICATIONS AND HEADER INFORMATION ARE LOCATED AT + * https://www.khronos.org/registry/ + * + * THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF + * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. + * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY + * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, + * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE + * MATERIALS OR THE USE OR OTHER DEALINGS IN THE MATERIALS. + * + */ + +/* *****************************************************************************************/ + +#ifndef _OMXSP_H_ +#define _OMXSP_H_ + +#include "dl/api/omxtypes.h" + +#ifdef __cplusplus +extern "C" { +#endif + + +/* 2.1 Vendor-Specific FFT Data Structures */ + typedef void OMXFFTSpec_C_SC16; + typedef void OMXFFTSpec_C_SC32; + typedef void OMXFFTSpec_R_S16S32; + typedef void OMXFFTSpec_R_S16; + typedef void OMXFFTSpec_R_S32; + typedef void OMXFFTSpec_R_F32; + typedef void OMXFFTSpec_C_FC32; + +/** + * Function: omxSP_Copy_S16 (2.2.1.1.1) + * + * Description: + * Copies the len elements of the vector pointed to by pSrcinto the len + * elements of the vector pointed to by pDst. That is: + * pDst[i] = pSrc[i], for (i=0, 1, ..., len-1) + * + * Input Arguments: + * + * pSrc - pointer to the source vector + * len - number of elements contained in the source and destination vectors + * + * Output Arguments: + * + * pDst - pointer to the destination vector + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments detected; returned if one or more of + * the following is true: + * - pSrc or pDst is NULL + * - len < 0 + * + */ +OMXResult omxSP_Copy_S16 ( + const OMX_S16 *pSrc, + OMX_S16 *pDst, + OMX_INT len +); + + + +/** + * Function: omxSP_DotProd_S16 (2.2.2.1.1) + * + * Description: + * Calculates the dot product of the two input vectors. This function does + * not perform scaling. The internal accumulator width must be at least 32 + * bits. If any of the partially accumulated values exceeds the range of a + * signed 32-bit integer then the result is undefined. + * + * Input Arguments: + * + * pSrc1 - pointer to the first input vector; must be aligned on an 8-byte + * boundary. + * pSrc2 - pointer to the second input vector; must be aligned on an 8-byte + * boundary. + * len - length of the vectors in pSrc1 and pSrc2 + * + * Output Arguments: + * + * Return Value: + * + * The dot product result Note: this function returns the actual result + * rather than the standard OMXError. + * + */ +OMX_S32 omxSP_DotProd_S16 ( + const OMX_S16 *pSrc1, + const OMX_S16 *pSrc2, + OMX_INT len +); + + + +/** + * Function: omxSP_DotProd_S16_Sfs (2.2.2.1.2) + * + * Description: + * Calculates the dot product of the two input signals with output scaling + * and saturation, i.e., the result is multiplied by two to the power of the + * negative (-)scalefactor (scaled) prior to return. The result is saturated + * with rounding if the scaling operation produces a value outside the range + * of a signed 32-bit integer. Rounding behavior is defined in section 1.6.7 + * Integer Scaling and Rounding Conventions. The internal accumulator width + * must be at least 32 bits. The result is undefined if any of the partially + * accumulated values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrc1 - pointer to the first input vector; must be aligned on an 8-byte + * boundary. + * pSrc2 - pointer to the second input vector; must be aligned on an 8-byte + * boundary. + * len - length of the vectors in pSrc1 and pSrc2 + * scaleFactor - integer scalefactor + * + * Output Arguments: + * + * Return Value: + * + * The dot product result Note: This function returns the actual result + * rather than the standard OMXError. + * + */ +OMX_S32 omxSP_DotProd_S16_Sfs ( + const OMX_S16 *pSrc1, + const OMX_S16 *pSrc2, + OMX_INT len, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_BlockExp_S16 (2.2.2.2.2) + * + * Description: + * Block exponent calculation for 16-bit and 32-bit signals (count leading + * sign bits). These functions compute the number of extra sign bits of all + * values in the 16-bit and 32-bit input vector pSrc and return the minimum + * sign bit count. This is also the maximum shift value that could be used in + * scaling the block of data. The functions BlockExp_S16 and + * BlockExp_S32 return the values 15 and 31, respectively, for input vectors in + * which all entries are equal to zero. + * + * Note: These functions differ from other DL functions by not returning the + * standard OMXError but the actual result. + * + * Input Arguments: + * + * pSrc - pointer to the input vector + * len - number of elements contained in the input and output + * vectors (0 < len < 65536) + * + * Output Arguments: + * + * none + * + * Return Value: + * + * Maximum exponent that may be used in scaling + * + */ +OMX_INT omxSP_BlockExp_S16 ( + const OMX_S16 *pSrc, + OMX_INT len +); + + + +/** + * Function: omxSP_BlockExp_S32 (2.2.2.2.2) + * + * Description: + * Block exponent calculation for 16-bit and 32-bit signals (count leading + * sign bits). These functions compute the number of extra sign bits of all + * values in the 16-bit and 32-bit input vector pSrc and return the minimum + * sign bit count. This is also the maximum shift value that could be used in + * scaling the block of data. The functions BlockExp_S16 and + * BlockExp_S32 return the values 15 and 31, respectively, for input vectors in + * which all entries are equal to zero. + * + * Note: These functions differ from other DL functions by not returning the + * standard OMXError but the actual result. + * + * Input Arguments: + * + * pSrc - pointer to the input vector + * len - number of elements contained in the input and output + * vectors (0 < len < 65536) + * + * Output Arguments: + * + * none + * + * Return Value: + * + * Maximum exponent that may be used in scaling + * + */ +OMX_INT omxSP_BlockExp_S32 ( + const OMX_S32 *pSrc, + OMX_INT len +); + + + +/** + * Function: omxSP_FIR_Direct_S16 (2.2.3.1.1) + * + * Description: + * Block FIR filtering for 16-bit data type. This function applies the + * FIR filter defined by the coefficient vector pTapsQ15 to a vector of + * input data. The result is saturated with rounding if the operation + * produces a value outside the range of a signed 16-bit integer. + * Rounding behavior is defined in: + * section 1.6.7 "Integer Scaling and Rounding Conventions". + * The internal accumulator width must be at least 32 bits. The result + * is undefined if any of the partially accumulated values exceeds the + * range of a signed 32-bit integer. + * + * + * Input Arguments: + * + * pSrc - pointer to the vector of input samples to which the + * filter is applied + * sampLen - the number of samples contained in the input and output + * vectors + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k <tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * + * Output Arguments: + * + * pDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pSrc, + * - pDst, + * - pSrcDst, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - samplen < 0 + * - tapslen < 1 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen). + * + */ +OMXResult omxSP_FIR_Direct_S16 ( + const OMX_S16 *pSrc, + OMX_S16 *pDst, + OMX_INT sampLen, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex +); + + + +/** + * Function: omxSP_FIR_Direct_S16_I (2.2.3.1.1) + * + * Description: + * Block FIR filtering for 16-bit data type. This function applies the + * FIR filter defined by the coefficient vector pTapsQ15 to a vector of + * input data. The result is saturated with rounding if the operation + * produces a value outside the range of a signed 16-bit integer. + * Rounding behavior is defined in: + * section 1.6.7 "Integer Scaling and Rounding Conventions". + * The internal accumulator width must be at least 32 bits. The result + * is undefined if any of the partially accumulated values exceeds the + * range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrcDst - pointer to the vector of input samples to which the + * filter is applied + * sampLen - the number of samples contained in the input and output + * vectors + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k <tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * + * Output Arguments: + * + * pSrcDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pSrc, + * - pDst, + * - pSrcDst, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - samplen < 0 + * - tapslen < 1 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen). + * + */ +OMXResult omxSP_FIR_Direct_S16_I ( + OMX_S16 *pSrcDst, + OMX_INT sampLen, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex +); + + + +/** + * Function: omxSP_FIR_Direct_S16_Sfs (2.2.3.1.1) + * + * Description: + * Block FIR filtering for 16-bit data type. This function applies + * the FIR filter defined by the coefficient vector pTapsQ15 to a + * vector of input data. The output is multiplied by 2 to the negative + * power of scalefactor (i.e., 2^-scalefactor) before returning to the caller. + * Scaling and rounding conventions are defined in section 1.6.7. + * The internal accumulator width must be at least 32 bits. + * The result is undefined if any of the partially accumulated + * values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrc - pointer to the vector of input samples to which the + * filter is applied + * sampLen - the number of samples contained in the input and output + * vectors + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k <tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * scaleFactor - saturation fixed scalefactor + * + * Output Arguments: + * + * pDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pSrc, + * - pDst, + * - pSrcDst, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - samplen < 0 + * - tapslen < 1 + * - scaleFactor < 0 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen). + * + */ +OMXResult omxSP_FIR_Direct_S16_Sfs ( + const OMX_S16 *pSrc, + OMX_S16 *pDst, + OMX_INT sampLen, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_FIR_Direct_S16_ISfs (2.2.3.1.1) + * + * Description: + * Block FIR filtering for 16-bit data type. This function applies + * the FIR filter defined by the coefficient vector pTapsQ15 to a + * vector of input data. The output is multiplied by 2 to the negative + * power of scalefactor (i.e., 2^-scalefactor) before returning to the caller. + * Scaling and rounding conventions are defined in section 1.6.7. + * The internal accumulator width must be at least 32 bits. + * The result is undefined if any of the partially accumulated + * values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrcDst - pointer to the vector of input samples to which the + * filter is applied + * sampLen - the number of samples contained in the input and output + * vectors + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k <tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * scaleFactor - saturation fixed scalefactor + * + * Output Arguments: + * + * pSrcDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pSrc, + * - pDst, + * - pSrcDst, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - samplen < 0 + * - tapslen < 1 + * - scaleFactor < 0 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen). + * + */ +OMXResult omxSP_FIR_Direct_S16_ISfs ( + OMX_S16 *pSrcDst, + OMX_INT sampLen, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_FIROne_Direct_S16 (2.2.3.1.2) + * + * Description: + * Single-sample FIR filtering for 16-bit data type. These functions apply + * the FIR filter defined by the coefficient vector pTapsQ15 to a single + * sample of input data. The result is saturated with rounding if the + * operation produces a value outside the range of a signed 16-bit integer. + * Rounding behavior is defined in: + * section 1.6.7 "Integer Scaling and Rounding Conventions". + * The internal accumulator width must be at least 32 bits. The result is + * undefined if any of the partially accumulated values exceeds the range of a + * signed 32-bit integer. + * + * Input Arguments: + * + * val - the single input sample to which the filter is + * applied. + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (as defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k < tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * + * Output Arguments: + * + * pResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pResult, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - tapslen < 1 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen) + * + */ +OMXResult omxSP_FIROne_Direct_S16 ( + OMX_S16 val, + OMX_S16 *pResult, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex +); + + + +/** + * Function: omxSP_FIROne_Direct_S16_I (2.2.3.1.2) + * + * Description: + * Single-sample FIR filtering for 16-bit data type. These functions apply + * the FIR filter defined by the coefficient vector pTapsQ15 to a single + * sample of input data. The result is saturated with rounding if the + * operation produces a value outside the range of a signed 16-bit integer. + * Rounding behavior is defined in: + * section 1.6.7 "Integer Scaling and Rounding Conventions". + * The internal accumulator width must be at least 32 bits. The result is + * undefined if any of the partially accumulated values exceeds the range of a + * signed 32-bit integer. + * + * Input Arguments: + * + * pValResult - pointer to the single input sample to which the filter is + * applied. + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (as defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k < tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * + * Output Arguments: + * + * pValResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pValResult, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - tapslen < 1 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen) + * + */ +OMXResult omxSP_FIROne_Direct_S16_I ( + OMX_S16 *pValResult, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex +); + + + +/** + * Function: omxSP_FIROne_Direct_S16_Sfs (2.2.3.1.2) + * + * Description: + * Single-sample FIR filtering for 16-bit data type. These functions apply + * the FIR filter defined by the coefficient vector pTapsQ15 to a single + * sample of input data. The output is multiplied by 2 to the negative power + * of scalefactor (i.e., 2^-scalefactor) before returning to the user. + * Scaling and rounding conventions are defined in section 1.6.7. + * The internal accumulator width must be at least 32 bits. + * The result is undefined if any of the partially accumulated values exceeds + * the range of a signed 32-bit integer. + * + * Input Arguments: + * + * val - the single input sample to which the filter is + * applied. + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (as defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k < tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * scaleFactor - saturation fixed scaleFactor + * + * Output Arguments: + * + * pResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pResult, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - tapslen < 1 + * - scaleFactor < 0 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen) + * + */ +OMXResult omxSP_FIROne_Direct_S16_Sfs ( + OMX_S16 val, + OMX_S16 *pResult, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_FIROne_Direct_S16_ISfs (2.2.3.1.2) + * + * Description: + * Single-sample FIR filtering for 16-bit data type. These functions apply + * the FIR filter defined by the coefficient vector pTapsQ15 to a single + * sample of input data. The output is multiplied by 2 to the negative power + * of scalefactor (i.e., 2^-scalefactor) before returning to the user. + * Scaling and rounding conventions are defined in section 1.6.7. + * The internal accumulator width must be at least 32 bits. + * The result is undefined if any of the partially accumulated values exceeds + * the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pValResult - the pointer to a single input sample to which the filter is + * applied. + * pTapsQ15 - pointer to the vector that contains the filter coefficients, + * represented in Q0.15 format (as defined in section 1.6.5). Given + * that: + * -32768 = pTapsQ15(k) < 32768, + * 0 = k < tapsLen, + * the range on the actual filter coefficients is -1 = bK <1, and + * therefore coefficient normalization may be required during the + * filter design process. + * tapsLen - the number of taps, or, equivalently, the filter order + 1 + * pDelayLine - pointer to the 2.tapsLen -element filter memory buffer + * (state). The user is responsible for allocation, initialization, + * and de-allocation. The filter memory elements are initialized to + * zero in most applications. + * pDelayLineIndex - pointer to the filter memory index that is maintained + * internally by the function. The user should initialize the value + * of this index to zero. + * scaleFactor - saturation fixed scaleFactor + * + * Output Arguments: + * + * pValResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - One or more of the following pointers is NULL: + * - pValResult, + * - pTapsQ15, + * - pDelayLine, or + * - pDelayLineIndex + * - tapslen < 1 + * - scaleFactor < 0 + * - *pDelayLineIndex < 0 or *pDelayLineIndex >= (2 * tapslen) + * + */ +OMXResult omxSP_FIROne_Direct_S16_ISfs ( + OMX_S16 *pValResult, + const OMX_S16 *pTapsQ15, + OMX_INT tapsLen, + OMX_S16 *pDelayLine, + OMX_INT *pDelayLineIndex, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_IIR_Direct_S16 (2.2.3.2.1) + * + * Description: + * Block IIR filtering for 16-bit data. This function applies the direct form + * II IIR filter defined by the coefficient vector pTaps to a vector of input + * data. The internal accumulator width must be at least 32 bits, and the + * result is saturated if the operation produces a value outside the range of + * a signed 16-bit integer, i.e., the output will saturate to 0x8000 (-32768) + * for a negative overflow or 0x7fff (32767) for a positive overflow. The + * result is undefined if any of the partially accumulated values exceeds the + * range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrc - pointer to the vector of input samples to which the + * filter is applied + * len - the number of samples contained in both the input and output + * vectors + * pTaps - pointer to the 2L+2-element vector that contains the combined + * numerator and denominator filter coefficients from the system + * transfer function, H(z). Coefficient scaling and coefficient + * vector organization should follow the conventions described + * above. The value of the coefficient scaleFactor exponent must be + * non-negative (sf=0). + * order - the maximum of the degrees of the numerator and denominator + * coefficient polynomials from the system transfer function, H(z). + * In the notation of section 2.2.3.2, the parameter + * order=max(K,M)=L gives the maximum delay, in samples, used to + * compute each output sample. + * pDelayLine - pointer to the L-element filter memory buffer (state). The + * user is responsible for allocation, initialization, and + * deallocation. The filter memory elements are initialized to zero + * in most applications. + * + * Output Arguments: + * + * pDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: + * - pSrc, + * - pDst, + * - pTaps, or + * - pDelayLine. + * - len < 0 + * - pTaps[order+1] < 0 (negative scaling) + * - order < 1 + * + */ +OMXResult omxSP_IIR_Direct_S16 ( + const OMX_S16 *pSrc, + OMX_S16 *pDst, + OMX_INT len, + const OMX_S16 *pTaps, + OMX_INT order, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIR_Direct_S16_I (2.2.3.2.1) + * + * Description: + * Block IIR filtering for 16-bit data. This function applies the direct form + * II IIR filter defined by the coefficient vector pTaps to a vector of input + * data. The internal accumulator width must be at least 32 bits, and the + * result is saturated if the operation produces a value outside the range of + * a signed 16-bit integer, i.e., the output will saturate to 0x8000 (-32768) + * for a negative overflow or 0x7fff (32767) for a positive overflow. The + * result is undefined if any of the partially accumulated values exceeds the + * range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrcDst - pointer to the vector of input samples to which the + * filter is applied + * len - the number of samples contained in both the input and output + * vectors + * pTaps - pointer to the 2L+2-element vector that contains the combined + * numerator and denominator filter coefficients from the system + * transfer function, H(z). Coefficient scaling and coefficient + * vector organization should follow the conventions described + * above. The value of the coefficient scaleFactor exponent must be + * non-negative (sf>=0). + * order - the maximum of the degrees of the numerator and denominator + * coefficient polynomials from the system transfer function, H(z). + * In the notation of section 2.2.3.2, the parameter + * order=max(K,M)=L gives the maximum delay, in samples, used to + * compute each output sample. + * pDelayLine - pointer to the L-element filter memory buffer (state). The + * user is responsible for allocation, initialization, and + * deallocation. The filter memory elements are initialized to zero + * in most applications. + * + * Output Arguments: + * + * pSrcDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: + * - pSrcDst, + * - pTaps, or + * - pDelayLine. + * - len < 0 + * - pTaps[order+1] < 0 (negative scaling) + * - order < 1 + * + */ +OMXResult omxSP_IIR_Direct_S16_I ( + OMX_S16 *pSrcDst, + OMX_INT len, + const OMX_S16 *pTaps, + OMX_INT order, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIROne_Direct_S16 (2.2.3.2.2) + * + * Description: + * Single sample IIR filtering for 16-bit data. This function applies the + * direct form II IIR filter defined by the coefficient vector pTaps to a + * single sample of input data. The internal accumulator width must be at + * least 32 bits, and the result is saturated if the operation produces a + * value outside the range of a signed 16-bit integer, i.e., the output will + * saturate to 0x8000 (-32768) for a negative overflow or 0x7fff (32767) for a + * positive overflow. The result is undefined if any of the partially + * accumulated values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * val - the single input sample to which the filter is + * applied. + * pTaps - pointer to the 2L+2 -element vector that contains the combined + * numerator and denominator filter coefficients from the system + * transfer function, H(z). Coefficient scaling and coefficient + * vector organization should follow the conventions described + * above. The value of the coefficient scaleFactor exponent must be + * non-negative (sf>=0). + * order - the maximum of the degrees of the numerator and denominator + * coefficient polynomials from the system transfer function, H(z). + * In the notation of section 2.2.3.2, the parameter + * order=max(K,M)=L gives the maximum delay, in samples, used to + * compute each output sample. + * pDelayLine - pointer to the L-element filter memory buffer (state). The + * user is responsible for allocation, initialization, and + * deallocation. The filter memory elements are initialized to zero + * in most applications. + * + * Output Arguments: + * + * pResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: pResult, + * pTaps, or pDelayLine. + * - order < 1 + * - pTaps[order+1] < 0 (negative scaling) + * + */ +OMXResult omxSP_IIROne_Direct_S16 ( + OMX_S16 val, + OMX_S16 *pResult, + const OMX_S16 *pTaps, + OMX_INT order, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIROne_Direct_S16_I (2.2.3.2.2) + * + * Description: + * Single sample IIR filtering for 16-bit data. This function applies the + * direct form II IIR filter defined by the coefficient vector pTaps to a + * single sample of input data. The internal accumulator width must be at + * least 32 bits, and the result is saturated if the operation produces a + * value outside the range of a signed 16-bit integer, i.e., the output will + * saturate to 0x8000 (-32768) for a negative overflow or 0x7fff (32767) for a + * positive overflow. The result is undefined if any of the partially + * accumulated values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pValResult - pointer to the single input sample to which the filter is + * applied. + * pTaps - pointer to the 2L+2 -element vector that contains the combined + * numerator and denominator filter coefficients from the system + * transfer function, H(z). Coefficient scaling and coefficient + * vector organization should follow the conventions described + * above. The value of the coefficient scaleFactor exponent must be + * non-negative (sf>=0). + * order - the maximum of the degrees of the numerator and denominator + * coefficient polynomials from the system transfer function, H(z). + * In the notation of section 2.2.3.2, the parameter + * order=max(K,M)=L gives the maximum delay, in samples, used to + * compute each output sample. + * pDelayLine - pointer to the L-element filter memory buffer (state). The + * user is responsible for allocation, initialization, and + * deallocation. The filter memory elements are initialized to zero + * in most applications. + * + * Output Arguments: + * + * pValResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: + * pValResult, pTaps, or pDelayLine. + * - order < 1 + * - pTaps[order+1] < 0 (negative scaling) + * + */ +OMXResult omxSP_IIROne_Direct_S16_I ( + OMX_S16 *pValResult, + const OMX_S16 *pTaps, + OMX_INT order, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIR_BiQuadDirect_S16 (2.2.3.3.1) + * + * Description: + * Block biquad IIR filtering for 16-bit data type. This function applies the + * direct form II biquad IIR cascade defined by the coefficient vector pTaps + * to a vector of input data. The internal accumulator width must be at least + * 32 bits, and the result is saturated if the operation produces a value + * outside the range of a signed 16-bit integer, i.e., the output will + * saturate to 0x8000 (-32768) for a negative overflow or 0x7fff (32767) for a + * positive overflow. The result is undefined if any of the partially + * accumulated values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrc - pointer to the vector of input samples to which the + * filter is applied + * len - the number of samples contained in both the input and output + * vectors + * pTaps - pointer to the 6P -element vector that contains the combined + * numerator and denominator filter coefficients from the biquad + * cascade. Coefficient scaling and coefficient vector organization + * should follow the conventions described above. The value of the + * coefficient scaleFactor exponent must be non-negative. (sfp>=0). + * numBiquad - the number of biquads contained in the IIR filter cascade: + * (P) + * pDelayLine - pointer to the 2P -element filter memory buffer (state). + * The user is responsible for allocation, initialization, and + * de-allocation. The filter memory elements are initialized to + * zero in most applications. + * + * Output Arguments: + * + * pDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: pSrc, pDst, + * pTaps, or pDelayLine. + * - len < 0 + * - numBiquad < 1 + * - pTaps[3+n*6] < 0, for 0 <= n < numBiquad (negative scaling) + * + */ +OMXResult omxSP_IIR_BiQuadDirect_S16 ( + const OMX_S16 *pSrc, + OMX_S16 *pDst, + OMX_INT len, + const OMX_S16 *pTaps, + OMX_INT numBiquad, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIR_BiQuadDirect_S16_I (2.2.3.3.1) + * + * Description: + * Block biquad IIR filtering for 16-bit data type. This function applies the + * direct form II biquad IIR cascade defined by the coefficient vector pTaps + * to a vector of input data. The internal accumulator width must be at least + * 32 bits, and the result is saturated if the operation produces a value + * outside the range of a signed 16-bit integer, i.e., the output will + * saturate to 0x8000 (-32768) for a negative overflow or 0x7fff (32767) for a + * positive overflow. The result is undefined if any of the partially + * accumulated values exceeds the range of a signed 32-bit integer. + * + * Input Arguments: + * + * pSrcDst - pointer to the vector of input samples to which the + * filter is applied + * len - the number of samples contained in both the input and output + * vectors + * pTaps - pointer to the 6P -element vector that contains the combined + * numerator and denominator filter coefficients from the biquad + * cascade. Coefficient scaling and coefficient vector organization + * should follow the conventions described above. The value of the + * coefficient scaleFactor exponent must be non-negative. (sfp>=0). + * numBiquad - the number of biquads contained in the IIR filter cascade: + * (P) + * pDelayLine - pointer to the 2P -element filter memory buffer (state). + * The user is responsible for allocation, initialization, and + * de-allocation. The filter memory elements are initialized to + * zero in most applications. + * + * Output Arguments: + * + * pSrcDst - pointer to the vector of filtered output samples + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: + * pSrcDst, pTaps, or pDelayLine. + * - len < 0 + * - numBiquad < 1 + * - pTaps[3+n*6] < 0, for 0 <= n < numBiquad (negative scaling) + * + */ +OMXResult omxSP_IIR_BiQuadDirect_S16_I ( + OMX_S16 *pSrcDst, + OMX_INT len, + const OMX_S16 *pTaps, + OMX_INT numBiquad, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIROne_BiQuadDirect_S16 (2.2.3.3.2) + * + * Description: + * Single-sample biquad IIR filtering for 16-bit data type. This function + * applies the direct form II biquad IIR cascade defined by the coefficient + * vector pTaps to a single sample of input data. The internal accumulator + * width must be at least 32 bits, and the result is saturated if the + * operation produces a value outside the range of a signed 16-bit integer, + * i.e., the output will saturate to 0x8000 (-32768) for a negative overflow + * or 0x7fff (32767) for a positive overflow. The result is undefined if any + * of the partially accumulated values exceeds the range of a signed 32-bit + * integer. + * + * Input Arguments: + * + * val - the single input sample to which the filter is + * applied. + * pTaps - pointer to the 6P-element vector that contains the combined + * numerator and denominator filter coefficients from the biquad + * cascade. Coefficient scaling and coefficient vector organization + * should follow the conventions described above. The value of the + * coefficient scalefactor exponent must be non-negative: (sfp>=0). + * numBiquad - the number of biquads contained in the IIR filter cascade: + * (P) + * pDelayLine - pointer to the 2p-element filter memory buffer (state). The + * user is responsible for allocation, initialization, and + * deallocation. The filter memory elements are initialized to zero + * in most applications. + * + * Output Arguments: + * + * pResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: pResult, + * pValResult, pTaps, or pDelayLine. + * - numBiquad < 1 + * - pTaps[3+n*6] < 0, for 0 <= n < numBiquad (negative scaling) + * + */ +OMXResult omxSP_IIROne_BiQuadDirect_S16 ( + OMX_S16 val, + OMX_S16 *pResult, + const OMX_S16 *pTaps, + OMX_INT numBiquad, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_IIROne_BiQuadDirect_S16_I (2.2.3.3.2) + * + * Description: + * Single-sample biquad IIR filtering for 16-bit data type. This function + * applies the direct form II biquad IIR cascade defined by the coefficient + * vector pTaps to a single sample of input data. The internal accumulator + * width must be at least 32 bits, and the result is saturated if the + * operation produces a value outside the range of a signed 16-bit integer, + * i.e., the output will saturate to 0x8000 (-32768) for a negative overflow + * or 0x7fff (32767) for a positive overflow. The result is undefined if any + * of the partially accumulated values exceeds the range of a signed 32-bit + * integer. + * + * Input Arguments: + * + * pValResult - pointer to the single input sample to which the filter is + * applied. + * pTaps - pointer to the 6P-element vector that contains the combined + * numerator and denominator filter coefficients from the biquad + * cascade. Coefficient scaling and coefficient vector organization + * should follow the conventions described above. The value of the + * coefficient scalefactor exponent must be non-negative: (sfp>=0). + * numBiquad - the number of biquads contained in the IIR filter cascade: + * (P) + * pDelayLine - pointer to the 2p-element filter memory buffer (state). The + * user is responsible for allocation, initialization, and + * deallocation. The filter memory elements are initialized to zero + * in most applications. + * + * Output Arguments: + * + * pValResult - pointer to the filtered output sample + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: + * pValResult, pTaps, or pDelayLine. + * - numBiquad < 1 + * - pTaps[3+n*6] < 0, for 0 <= n < numBiquad (negative scaling) + * + */ +OMXResult omxSP_IIROne_BiQuadDirect_S16_I ( + OMX_S16 *pValResult, + const OMX_S16 *pTaps, + OMX_INT numBiquad, + OMX_S32 *pDelayLine +); + + + +/** + * Function: omxSP_FilterMedian_S32 (2.2.3.4.1) + * + * Description: + * This function computes the median over the region specified by the median + * mask for the every element of the input array. The median outputs are + * stored in the corresponding elements of the output vector. + * + * Input Arguments: + * + * pSrc - pointer to the input vector + * len - number of elements contained in the input and output vectors (0 < + * len < 65536) + * maskSize - median mask size; if an even value is specified, the function + * subtracts 1 and uses the odd value of the filter mask for median + * filtering (0 < maskSize < 256) + * + * Output Arguments: + * + * pDst - pointer to the median-filtered output vector + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - one or more of the following pointers is NULL: pSrc, pDst. + * - len < 0 + * - maskSize < 1 or maskSize> 255 + * OMX_StsSP_EvenMedianMaskSizeErr - even mask size replaced by odd mask + * size + * + */ +OMXResult omxSP_FilterMedian_S32 ( + const OMX_S32 *pSrc, + OMX_S32 *pDst, + OMX_INT len, + OMX_INT maskSize +); + + + +/** + * Function: omxSP_FilterMedian_S32_I (2.2.3.4.1) + * + * Description: + * This function computes the median over the region specified by the median + * mask for the every element of the input array. The median outputs are + * stored in the corresponding elements of the output vector. + * + * Input Arguments: + * + * pSrcDst - pointer to the input vector + * len - number of elements contained in the input and output vectors (0 < + * len < 65536) + * maskSize - median mask size; if an even value is specified, the function + * subtracts 1 and uses the odd value of the filter mask for median + * filtering (0 < maskSize < 256) + * + * Output Arguments: + * + * pSrcDst - pointer to the median-filtered output vector + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pSrcDst is NULL. + * - len < 0 + * - maskSize < 1 or maskSize> 255 + * OMX_StsSP_EvenMedianMaskSizeErr - even mask size replaced by odd mask + * size + * + */ +OMXResult omxSP_FilterMedian_S32_I ( + OMX_S32 *pSrcDst, + OMX_INT len, + OMX_INT maskSize +); + + + +/** + * Function: omxSP_FFTInit_C_SC16 (2.2.4.1.2) + * + * Description: + * These functions initialize the specification structures required for the + * complex FFT and IFFT functions. Desired block length is specified as an + * input. The function <FFTInit_C_SC16> is used to initialize the + * specification structures for functions <FFTFwd_CToC_SC16_Sfs> and + * <FFTInv_CToC_SC16_Sfs>. + * + * Memory for the specification structure *pFFTSpec + * must be allocated prior to calling these functions and should be 4-byte + * aligned for omxSP_FFTInit_C_SC16. + * + * The space required for *pFFTSpec, in bytes, can be + * determined using <FFTGetBufSize_C_SC16>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; + * valid in the range [0,12] + * + * Output Arguments: + * + * pFFTSpec - pointer to initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr -no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTSpec is either NULL or violates the 4-byte alignment + * restrictions + * - order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTInit_C_SC16 ( + OMXFFTSpec_C_SC16 *pFFTSpec, + OMX_INT order +); + + + +/** + * Function: omxSP_FFTInit_C_SC32 (2.2.4.1.2) + * + * Description: + * These functions initialize the specification structures required for the + * complex FFT and IFFT functions. Desired block length is specified as an + * input. The function <FFTInit_C_SC32> is used to initialize + * the specification structures for the functions <FFTFwd_CToC_SC32_Sfs> and + * <FFTInv_CToC_SC32_Sfs>. + * + * Memory for the specification structure *pFFTSpec must be allocated prior + * to calling these functions and should be 8-byte aligned for + * omxSP_FFTInit_C_SC32. + * + * The space required for *pFFTSpec, in bytes, can be + * determined using <FFTGetBufSize_C_SC32>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [0,12] + * + * Output Arguments: + * + * pFFTSpec - pointer to initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr -no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTSpec is either NULL or violates the 8-byte alignment + * restrictions + * - order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTInit_C_SC32 ( + OMXFFTSpec_C_SC32 *pFFTSpec, + OMX_INT order +); + +/** + * Function: omxSP_FFTInit_C_FC32 (2.2.4.1.2) + * + * Description: + * These functions initialize the specification structures required for the + * complex FFT and IFFT functions. Desired block length is specified as an + * input. The function <FFTInit_C_FC32> is used to initialize + * the specification structures for the functions <FFTFwd_CToC_FC32_Sfs> and + * <FFTInv_CToC_FC32_Sfs>. + * + * Memory for the specification structure *pFFTSpec must be allocated prior + * to calling these functions and should be 8-byte aligned for + * omxSP_FFTInit_C_FC32. + * + * The space required for *pFFTSpec, in bytes, can be + * determined using <FFTGetBufSize_C_FC32>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [1,15] + * + * Output Arguments: + * + * pFFTSpec - pointer to initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr -no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTSpec is either NULL or violates the 8-byte alignment + * restrictions + * - order < 1 or order > 15 + * + */ +OMXResult omxSP_FFTInit_C_FC32( + OMXFFTSpec_C_FC32* pFFTSpec, + OMX_INT order +); + + + +/** + * Function: omxSP_FFTInit_R_S16S32 (2.2.4.1.4) + * + * Description: + * These functions initialize specification structures required for the real + * FFT and IFFT functions. The function <FFTInit_R_S16S32> is used to + * initialize the specification structures for functions + * <FFTFwd_RToCCS_S16S32_Sfs> and <FFTInv_CCSToR_S32S16_Sfs>. + * + * Memory for + * *pFFTFwdSpec must be allocated before calling these functions and should be + * 8-byte aligned. The number of bytes required for *pFFTFwdSpec can be + * determined using <FFTGetBufSize_R_S16S32>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [0,12] + * + * Output Arguments: + * + * pFFTFwdSpec - pointer to the initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTFwdSpec is either NULL or violates the 8-byte alignment + * restrictions + * - order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTInit_R_S16S32( + OMXFFTSpec_R_S16S32* pFFTFwdSpec, + OMX_INT order +); + + + +/** + * Function: omxSP_FFTInit_R_S16 + * + * Description: + * These functions initialize specification structures required for the real + * FFT and IFFT functions. The function <FFTInit_R_S16> is used + * to initialize the specification structures for functions + * <FFTFwd_RToCCS_S16_Sfs> and <FFTInv_CCSToR_S16_Sfs>. + * + * Memory for *pFFTFwdSpec must be allocated before calling these functions + * and should be 8-byte aligned. + * + * The number of bytes required for *pFFTFwdSpec can be + * determined using <FFTGetBufSize_R_S16>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [1,12] + * + * Output Arguments: + * + * pFFTFwdSpec - pointer to the initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTFwdSpec is either NULL or violates the 8-byte alignment + * restrictions + * - order < 1 or order > 12 + * + */ +OMXResult omxSP_FFTInit_R_S16 ( + OMXFFTSpec_R_S32*pFFTFwdSpec, + OMX_INT order +); + +/** + * Function: omxSP_FFTInit_R_S32 (2.2.4.1.4) + * + * Description: + * These functions initialize specification structures required for the real + * FFT and IFFT functions. The function <FFTInit_R_S32> is used to initialize + * the specification structures for functions <FFTFwd_RToCCS_S32_Sfs> + * and <FFTInv_CCSToR_S32_Sfs>. + * + * Memory for *pFFTFwdSpec must be allocated before calling these functions + * and should be 8-byte aligned. + * + * The number of bytes required for *pFFTFwdSpec can be + * determined using <FFTGetBufSize_R_S32>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [0,12] + * + * Output Arguments: + * + * pFFTFwdSpec - pointer to the initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTFwdSpec is either NULL or violates the 8-byte alignment + * restrictions + * - order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTInit_R_S32 ( + OMXFFTSpec_R_S32*pFFTFwdSpec, + OMX_INT order +); + +/** + * Function: omxSP_FFTInit_R_F32 + * + * Description: + * These functions initialize specification structures required for the real + * FFT and IFFT functions. The function <FFTInit_R_F32> is used to initialize + * the specification structures for functions <FFTFwd_RToCCS_F32_Sfs> + * and <FFTInv_CCSToR_F32_Sfs>. + * + * Memory for *pFFTFwdSpec must be allocated before calling these functions + * and should be 8-byte aligned. + * + * The number of bytes required for *pFFTFwdSpec can be + * determined using <FFTGetBufSize_R_F32>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [1,15] + * + * Output Arguments: + * + * pFFTFwdSpec - pointer to the initialized specification structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pFFTFwdSpec is either NULL or violates the 8-byte alignment + * restrictions + * - order < 1 or order > 15 + * + */ +OMXResult omxSP_FFTInit_R_F32( + OMXFFTSpec_R_F32* pFFTFwdSpec, + OMX_INT order +); + +/** + * Function: omxSP_FFTGetBufSize_C_SC16 (2.2.4.1.6) + * + * Description: + * These functions compute the size of the specification structure + * required for the length 2^order complex FFT and IFFT functions. The function + * <FFTGetBufSize_C_SC16> is used in conjunction with the 16-bit functions + * <FFTFwd_CToC_SC16_Sfs> and <FFTInv_CToC_SC16_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [0,12] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pSize is NULL + * - order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTGetBufSize_C_SC16 ( + OMX_INT order, + OMX_INT *pSize +); + + + +/** + * Function: omxSP_FFTGetBufSize_C_SC32 (2.2.4.1.6) + * + * Description: + * These functions compute the size of the specification structure + * required for the length 2^order complex FFT and IFFT functions. The function + * <FFTGetBufSize_C_SC32> is used in conjunction with the 32-bit functions + * <FFTFwd_CToC_SC32_Sfs> and <FFTInv_CToC_SC32_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [0,12] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pSize is NULL + * - order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTGetBufSize_C_SC32 ( + OMX_INT order, + OMX_INT *pSize +); + +/** + * Function: omxSP_FFTGetBufSize_C_FC32 + * + * Description: + * These functions compute the size of the specification structure + * required for the length 2^order complex FFT and IFFT functions. The function + * <FFTGetBufSize_C_FC32> is used in conjunction with the 32-bit functions + * <FFTFwd_CToC_FC32_Sfs> and <FFTInv_CToC_FC32_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the desired block length; valid in the range + * [1,15] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments; returned if one or more of the + * following is true: + * - pSize is NULL + * - order < 1 or order > 15 + * + */ +OMXResult omxSP_FFTGetBufSize_C_FC32( + OMX_INT order, + OMX_INT* pSize +); + + +/** + * Function: omxSP_FFTGetBufSize_R_S16S32 (2.2.4.1.8) + * + * Description: + * order These functions compute the size of the specification structure + * required for the length 2^order real FFT and IFFT functions. The function + * <FFTGetBufSize_R_S16S32> is used in conjunction with the 16-bit functions + * <FFTFwd_RToCCS_S16S32_Sfs> and <FFTInv_CCSToR_S32S16_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the length; valid in the range [0,12] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments The function returns + * OMX_Sts_BadArgErr if one or more of the following is true: + * pSize is NULL + * order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTGetBufSize_R_S16S32( + OMX_INT order, + OMX_INT* pSize +); + + +/** + * Function: omxSP_FFTGetBufSize_R_S16 + * + * Description: + * These functions compute the size of the specification structure + * required for the length 2^order real FFT and IFFT functions. The function + * <FFTGetBufSize_R_S16> is used in conjunction with the 16-bit + * functions <FFTFwd_RToCCS_S16_Sfs> and <FFTInv_CCSToR_S16_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the length; valid in the range + * [1,12] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments The function returns + * OMX_Sts_BadArgErr if one or more of the following is true: + * pSize is NULL + * order < 1 or order > 12 + * + */ +OMXResult omxSP_FFTGetBufSize_R_S16 ( + OMX_INT order, + OMX_INT *pSize +); + +/** + * Function: omxSP_FFTGetBufSize_R_S32 (2.2.4.1.8) + * + * Description: + * These functions compute the size of the specification structure + * required for the length 2^order real FFT and IFFT functions. The function + * <FFTGetBufSize_R_S32> is used in conjunction with the 32-bit functions + * <FFTFwd_RToCCS_S32_Sfs> and <FFTInv_CCSToR_S32_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the length; valid in the range [0,12] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments The function returns + * OMX_Sts_BadArgErr if one or more of the following is true: + * pSize is NULL + * order < 0 or order > 12 + * + */ +OMXResult omxSP_FFTGetBufSize_R_S32 ( + OMX_INT order, + OMX_INT *pSize +); + +/** + * Function: omxSP_FFTGetBufSize_R_F32 + * + * Description: + * These functions compute the size of the specification structure + * required for the length 2^order real FFT and IFFT functions. The function + * <FFTGetBufSize_R_F32> is used in conjunction with the 32-bit functions + * <FFTFwd_RToCCS_F32_Sfs> and <FFTInv_CCSToR_F32_Sfs>. + * + * Input Arguments: + * + * order - base-2 logarithm of the length; valid in the range [1,15] + * + * Output Arguments: + * + * pSize - pointer to the number of bytes required for the specification + * structure + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments The function returns + * OMX_Sts_BadArgErr if one or more of the following is true: + * pSize is NULL + * order < 1 or order > 15 + * + */ +OMXResult omxSP_FFTGetBufSize_R_F32( + OMX_INT order, + OMX_INT* pSize +); + + + +/** + * Function: omxSP_FFTFwd_CToC_SC16_Sfs (2.2.4.2.2) + * + * Description: + * Compute an FFT for a complex signal of length of 2^order, + * where 0 <= order <= 12. + * Transform length is determined by the specification structure, which + * must be initialized prior to calling the FFT function using the appropriate + * helper, i.e., <FFTInit_C_sc32> or <FFTInit_C_SC16>. The relationship + * between the input and output sequences can be expressed in terms of the + * DFT, i.e., + * + * X[k] = 2^(-scaleFactor) . SUM[n=0...N-1]x[n].e^(-jnk.2.pi/N) + * k = 0,1,2,..., N-1 + * N = 2^order + * + * Input Arguments: + * pSrc - pointer to the input signal, a complex-valued vector of length 2^order; + * must be aligned on a 32 byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scale factor; the range for is [0,16] + * + * Output Arguments: + * pDst - pointer to the complex-valued output vector, of length 2^order; + * must be aligned on an 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - returned if one or more of the following conditions + * is true: + * - one or more of the following pointers is NULL: pSrc, pDst, or + * pFFTSpec. + * - pSrc or pDst is not 32-byte aligned + * - scaleFactor<0 or scaleFactor>16 + * + */ + +OMXResult omxSP_FFTFwd_CToC_SC16_Sfs ( + const OMX_SC16 *pSrc, + OMX_SC16 *pDst, + const OMXFFTSpec_C_SC16 *pFFTSpec, + OMX_INT scaleFactor +); + +OMXResult omxSP_FFTFwd_CToC_SC16_Sfs_neon ( + const OMX_SC16 *pSrc, + OMX_SC16 *pDst, + const OMXFFTSpec_C_SC16 *pFFTSpec, + OMX_INT scaleFactor +); + +/** + * Function: omxSP_FFTFwd_CToC_SC32_Sfs (2.2.4.2.2) + * + * Description: + * Compute an FFT for a complex signal of length of 2^order, + * where 0 <= order <= 12. + * Transform length is determined by the specification structure, which + * must be initialized prior to calling the FFT function using the appropriate + * helper, i.e., <FFTInit_C_sc32> or <FFTInit_C_SC16>. The relationship + * between the input and output sequences can be expressed in terms of the + * DFT, i.e., + * + * X[k] = 2^(-scaleFactor) . SUM[n=0...N-1]x[n].e^(-jnk.2.pi/N) + * k = 0,1,2,..., N-1 + * N = 2^order + * + * Input Arguments: + * pSrc - pointer to the input signal, a complex-valued vector of length 2^order; + * must be aligned on a 32 byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scale factor; the range is [0,32] + * + * Output Arguments: + * pDst - pointer to the complex-valued output vector, of length 2^order; must be + * aligned on an 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - returned if one or more of the following conditions + * is true: + * - one or more of the following pointers is NULL: pSrc, pDst, or + * pFFTSpec. + * - pSrc or pDst is not 32-byte aligned + * - scaleFactor<0 or scaleFactor >32 + * + */ +OMXResult omxSP_FFTFwd_CToC_SC32_Sfs ( + const OMX_SC32 *pSrc, + OMX_SC32 *pDst, + const OMXFFTSpec_C_SC32 *pFFTSpec, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_FFTInv_CToC_SC16_Sfs (2.2.4.2.4) + * + * Description: + * These functions compute an inverse FFT for a complex signal of length + * of 2^order, where 0 <= order <= 12. Transform length is determined by the + * specification structure, which must be initialized prior to calling the FFT + * function using the appropriate helper, i.e., <FFTInit_C_sc32> or + * <FFTInit_C_SC16>. The relationship between the input and output sequences + * can be expressed in terms of the IDFT, i.e.: + * + * x[n] = (2^(-scalefactor)/N) . SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input signal, of length 2^order ; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - scale factor of the output. Valid range is [0,16]. + * + * Output Arguments: + * order + * pDst - pointer to the complex-valued output signal, of length 2^order; + * must be aligned on a 32-byte boundary. + * + * Return Value: + * + * Positive value - the shift scale that was performed inside + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - returned if one or more of the following conditions + * is true: + * - one or more of the following pointers is NULL: pSrc, pDst, or + * pFFTSpec. + * - pSrc or pDst is not 32-byte aligned + * - scaleFactor<0 or scaleFactor>16 + * + */ +OMXResult omxSP_FFTInv_CToC_SC16_Sfs ( + const OMX_SC16 *pSrc, + OMX_SC16 *pDst, + const OMXFFTSpec_C_SC16 *pFFTSpec, + OMX_INT scaleFactor +); + +OMXResult omxSP_FFTInv_CToC_SC16_Sfs_neon ( + const OMX_SC16 *pSrc, + OMX_SC16 *pDst, + const OMXFFTSpec_C_SC16 *pFFTSpec, + OMX_INT scaleFactor +); + + + + +/** + * Function: omxSP_FFTInv_CToC_SC32_Sfs (2.2.4.2.4) + * + * Description: + * These functions compute an inverse FFT for a complex signal of length + * of 2^order, where 0 <= order <= 12. Transform length is determined by the + * specification structure, which must be initialized prior to calling the FFT + * function using the appropriate helper, i.e., <FFTInit_C_sc32> or + * <FFTInit_C_SC16>. The relationship between the input and output sequences + * can be expressed in terms of the IDFT, i.e.: + * + * x[n] = (2^(-scalefactor)/N) . SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input signal, of length 2^order ; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - scale factor of the output. Valid range is [0,32]. + * + * Output Arguments: + * order + * pDst - pointer to the complex-valued output signal, of length 2^order; + * must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - returned if one or more of the following conditions + * is true: + * - one or more of the following pointers is NULL: pSrc, pDst, or + * pFFTSpec. + * - pSrc or pDst is not 32-byte aligned + * - scaleFactor<0 or scaleFactor>32 + * + */ +OMXResult omxSP_FFTInv_CToC_SC32_Sfs ( + const OMX_SC32 *pSrc, + OMX_SC32 *pDst, + const OMXFFTSpec_C_SC32 *pFFTSpec, + OMX_INT scaleFactor +); + + + +/** + * Function: omxSP_FFTFwd_RToCCS_S16S32_Sfs (2.2.4.4.2) + * + * Description: + * These functions compute an FFT for a real-valued signal of length of 2^order, + * where 0 <= order <= 12. Transform length is determined by the + * specification structure, which must be initialized prior to calling the FFT + * function using the appropriate helper, i.e., <FFTInit_R_S16S32>. + * The relationship between the input and output sequences + * can be expressed in terms of the DFT, i.e.: + * + * x[n] = (2^(-scalefactor)/N) . SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * The conjugate-symmetric output sequence is represented using a CCS vector, + * which is of length N+2, and is organized as follows: + * + * Index: 0 1 2 3 4 5 . . . N-2 N-1 N N+1 + * Component: R0 0 R1 I1 R2 I2 . . . R[N/2-1] I[N/2-1] R[N/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary components + * for FFT bin 'n'. Bins are numbered from 0 to N/2, where N is the FFT length. + * Bin index 0 corresponds to the DC component, and bin index N/2 corresponds to the + * foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the real-valued input sequence, of length 2^order; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scale factor; valid range is [0, 32] + * + * Output Arguments: + * pDst - pointer to output sequence, represented using CCS format, of + * length (2^order)+2; must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments, if one or more of the following is true: + * - one of the pointers pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >32 + * + */ +OMXResult omxSP_FFTFwd_RToCCS_S16S32_Sfs ( + const OMX_S16 *pSrc, + OMX_S32 *pDst, + const OMXFFTSpec_R_S16S32 *pFFTSpec, + OMX_INT scaleFactor +); + + +/** + * Function: omxSP_FFTFwd_RToCCS_S16_Sfs + * + * Description: + * These functions compute an FFT for a real-valued signal of length of 2^order, + * where 0 < order <= 12. Transform length is determined by the + * specification structure, which must be initialized prior to calling the FFT + * function using the appropriate helper, i.e., <FFTInit_R_S16>. + * The relationship between the input and output sequences can + * be expressed in terms of the DFT, i.e.: + * + * x[n] = (2^(-scalefactor)/N) . SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * The conjugate-symmetric output sequence is represented using a CCS vector, + * which is of length N+2, and is organized as follows: + * + * Index: 0 1 2 3 4 5 . . . N-2 N-1 N N+1 + * Component: R0 0 R1 I1 R2 I2 . . . R[N/2-1] I[N/2-1] R[N/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary components + * for FFT bin 'n'. Bins are numbered from 0 to N/2, where N is the FFT length. + * Bin index 0 corresponds to the DC component, and bin index N/2 corresponds to + * the foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the real-valued input sequence, of length 2^order; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scale factor; valid range is [0, 16] + * + * Output Arguments: + * pDst - pointer to output sequence, represented using CCS format, of + * length (2^order)+2; must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments, if one or more of followings is true: + * - one of the pointers pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >16 + * + */ +OMXResult omxSP_FFTFwd_RToCCS_S16_Sfs ( + const OMX_S16* pSrc, + OMX_S16* pDst, + const OMXFFTSpec_R_S16* pFFTSpec, + OMX_INT scaleFactor +); + + +/** + * Function: omxSP_FFTFwd_RToCCS_S32_Sfs (2.2.4.4.2) + * + * Description: + * These functions compute an FFT for a real-valued signal of length of 2^order, + * where 0 <= order <= 12. Transform length is determined by the + * specification structure, which must be initialized prior to calling the FFT + * function using the appropriate helper, i.e., <FFTInit_R_S32>. + * The relationship between the input and output sequences + * can be expressed in terms of the DFT, i.e.: + * + * x[n] = (2^(-scalefactor)/N) . SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * The conjugate-symmetric output sequence is represented using a CCS vector, + * which is of length N+2, and is organized as follows: + * + * Index: 0 1 2 3 4 5 . . . N-2 N-1 N N+1 + * Component: R0 0 R1 I1 R2 I2 . . . R[N/2-1] I[N/2-1] R[N/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary components + * for FFT bin 'n'. Bins are numbered from 0 to N/2, where N is the FFT length. + * Bin index 0 corresponds to the DC component, and bin index N/2 corresponds to the + * foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the real-valued input sequence, of length 2^order; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scale factor; valid range is [0, 32] + * + * Output Arguments: + * pDst - pointer to output sequence, represented using CCS format, of + * length (2^order)+2; must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments, if one or more of the following is true: + * - one of the pointers pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >32 + * + */ +OMXResult omxSP_FFTFwd_RToCCS_S32_Sfs ( + const OMX_S32 *pSrc, + OMX_S32 *pDst, + const OMXFFTSpec_R_S32 *pFFTSpec, + OMX_INT scaleFactor +); + +/** + * Function: omxSP_FFTFwd_CToC_FC32_Sfs (2.2.4.2.2) + * + * Description: + * Compute an FFT for a complex signal of length of 2^order, + * where 0 <= order <= 15. + * Transform length is determined by the specification structure, which + * must be initialized prior to calling the FFT function using the appropriate + * helper, i.e., <FFTInit_C_sc32> or <FFTInit_C_SC16>. The relationship + * between the input and output sequences can be expressed in terms of the + * DFT, i.e., + * + * X[k] = SUM[n=0...N-1]x[n].e^(-jnk.2.pi/N) + * k = 0,1,2,..., N-1 + * N = 2^order + * + * Input Arguments: + * pSrc - pointer to the input signal, a complex-valued vector of length + * 2^order; must be aligned on a 32 byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * + * Output Arguments: + * pDst - pointer to the complex-valued output vector, of length 2^order; + * must be aligned on an 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - returned if one or more of the following conditions + * is true: + * - one or more of the following pointers is NULL: pSrc, pDst, or + * pFFTSpec. + * - pSrc or pDst is not 32-byte aligned + * - scaleFactor<0 or scaleFactor >32 + * + */ +OMXResult omxSP_FFTFwd_CToC_FC32_Sfs ( + const OMX_FC32 *pSrc, + OMX_FC32 *pDst, + const OMXFFTSpec_C_FC32 *pFFTSpec +); +#ifdef __arm__ +/* + * Non-NEON version + */ +OMXResult omxSP_FFTFwd_CToC_FC32_Sfs_vfp ( + const OMX_FC32 *pSrc, + OMX_FC32 *pDst, + const OMXFFTSpec_C_FC32 *pFFTSpec +); +#endif + +/** + * Function: omxSP_FFTFwd_RToCCS_F32_Sfs + * + * Description: + * These functions compute an FFT for a real-valued signal of length + * of 2^order, where 0 <= order <= 12. Transform length is determined + * by the specification structure, which must be initialized prior to + * calling the FFT function using the appropriate helper, i.e., + * <FFTInit_R_F32>. The relationship between the input and output + * sequences can be expressed in terms of the DFT, i.e.: + * + * x[n] = (2^(-scalefactor)/N) . SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * The conjugate-symmetric output sequence is represented using a CCS vector, + * which is of length N+2, and is organized as follows: + * + * Index: 0 1 2 3 4 5 . . . N-2 N-1 N N+1 + * Component: R0 0 R1 I1 R2 I2 . . . R[N/2-1] I[N/2-1] R[N/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary + * components for FFT bin 'n'. Bins are numbered from 0 to N/2, where + * N is the FFT length. Bin index 0 corresponds to the DC component, + * and bin index N/2 corresponds to the foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the real-valued input sequence, of length 2^order; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * + * Output Arguments: + * pDst - pointer to output sequence, represented using CCS format, of + * length (2^order)+2; must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + + * OMX_Sts_BadArgErr - bad arguments, if one or more of the + * following is true: - one of the pointers pSrc, pDst, or pFFTSpec + * is NULL - pSrc or pDst is not aligned on a 32-byte boundary + * + */ +OMXResult omxSP_FFTFwd_RToCCS_F32_Sfs( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec +); + +#ifdef __arm__ +/* + * Non-NEON version of omxSP_FFTFwd_RToCCS_F32_Sfs + */ +OMXResult omxSP_FFTFwd_RToCCS_F32_Sfs_vfp( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec +); + +/* + * Just like omxSP_FFTFwd_RToCCS_F32_Sfs, but automatically detects + * whether NEON is available or not and chooses the appropriate + * routine. + */ +extern OMXResult (*omxSP_FFTFwd_RToCCS_F32)( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec +); +#else +#define omxSP_FFTFwd_RToCCS_F32 omxSP_FFTFwd_RToCCS_F32_Sfs +#endif + +/** + * Function: omxSP_FFTInv_CCSToR_S32S16_Sfs (2.2.4.4.4) + * + * Description: + * These functions compute the inverse FFT for a conjugate-symmetric input + * sequence. Transform length is determined by the specification structure, + * which must be initialized prior to calling the FFT function using + * <FFTInit_R_S16S32>. For a transform of length M, the input sequence is + * represented using a packed CCS vector of length M+2, and is organized + * as follows: + * + * Index: 0 1 2 3 4 5 . . . M-2 M-1 M M+1 + * Component R[0] 0 R[1] I[1] R[2] I[2] . . . R[M/2-1] I[M/2-1] R[M/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary components for FFT bin n. + * Bins are numbered from 0 to M/2, where M is the FFT length. Bin index 0 + * corresponds to the DC component, and bin index M/2 corresponds to the + * foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input sequence represented using + * CCS format, of length (2^order) + 2; must be aligned on a 32-byte + * boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scalefactor; range is [0,16] + * + * Output Arguments: + * pDst - pointer to the real-valued output sequence, of length 2^order ; must be + * aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments if one or more of the following is true: + * - pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >16 + * + */ +OMXResult omxSP_FFTInv_CCSToR_S32S16_Sfs ( + const OMX_S32 *pSrc, + OMX_S16 *pDst, + const OMXFFTSpec_R_S16S32 *pFFTSpec, + OMX_INT scaleFactor +); + + +/** + * Function: omxSP_FFTInv_CCSToR_S16_Sfs + * + * Description: + * These functions compute the inverse FFT for a conjugate-symmetric input + * sequence. Transform length is determined by the specification structure, + * which must be initialized prior to calling the FFT function using + * <FFTInit_R_S16>. For a transform of length M, the input + * sequence is represented using a packed CCS vector of length + * M+2, and is organized as follows: + * + * Index: 0 1 2 3 4 5 . . . M-2 M-1 M M+1 + * Component R[0] 0 R[1] I[1] R[2] I[2] . . . R[M/2-1] I[M/2-1] R[M/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary components + * for FFT bin n. + * Bins are numbered from 0 to M/2, where M is the FFT length. Bin index 0 + * corresponds to the DC component, and bin index M/2 corresponds to the + * foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input sequence represented using + * CCS format, of length (2^order) + 2; must be aligned on a 32-byte + * boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scalefactor; range is [0,16] + * + * Output Arguments: + * pDst - pointer to the real-valued output sequence, of length 2^order ; must + * be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments if one or more of the following is true: + * - pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >16 + * + */ +OMXResult omxSP_FFTInv_CCSToR_S16_Sfs ( + const OMX_S16* pSrc, + OMX_S16* pDst, + const OMXFFTSpec_R_S16* pFFTSpec, + OMX_INT scaleFactor +); + +/** + * Function: omxSP_FFTInv_CCSToR_S32_Sfs (2.2.4.4.4) + * + * Description: + * These functions compute the inverse FFT for a conjugate-symmetric input + * sequence. Transform length is determined by the specification structure, + * which must be initialized prior to calling the FFT function using + * <FFTInit_R_S32>. For a transform of length M, the input sequence is + * represented using a packed CCS vector of length M+2, and is organized + * as follows: + * + * Index: 0 1 2 3 4 5 . . . M-2 M-1 M M+1 + * Component R[0] 0 R[1] I[1] R[2] I[2] . . . R[M/2-1] I[M/2-1] R[M/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary components for FFT bin n. + * Bins are numbered from 0 to M/2, where M is the FFT length. Bin index 0 + * corresponds to the DC component, and bin index M/2 corresponds to the + * foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input sequence represented using + * CCS format, of length (2^order) + 2; must be aligned on a 32-byte + * boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * scaleFactor - output scalefactor; range is [0,32] + * + * Output Arguments: + * pDst - pointer to the real-valued output sequence, of length 2^order ; must be + * aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - bad arguments if one or more of the following is true: + * - pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >32 + * + */ +OMXResult omxSP_FFTInv_CCSToR_S32_Sfs ( + const OMX_S32 *pSrc, + OMX_S32 *pDst, + const OMXFFTSpec_R_S32 *pFFTSpec, + OMX_INT scaleFactor +); + +/** + * Function: omxSP_FFTInv_CToC_FC32_Sfs (2.2.4.2.4) + * + * Description: + * These functions compute an inverse FFT for a complex signal of + * length of 2^order, where 0 <= order <= 15. Transform length is + * determined by the specification structure, which must be + * initialized prior to calling the FFT function using the appropriate + * helper, i.e., <FFTInit_C_FC32>. The relationship between the input + * and output sequences can be expressed in terms of the IDFT, i.e.: + * + * x[n] = SUM[k=0,...,N-1] X[k].e^(jnk.2.pi/N) + * n=0,1,2,...N-1 + * N=2^order. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input signal, of length 2^order ; + * must be aligned on a 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized specification + * structure + * + * Output Arguments: + * order + * pDst - pointer to the complex-valued output signal, of length 2^order; + * must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + * OMX_Sts_BadArgErr - returned if one or more of the following conditions + * is true: + * - one or more of the following pointers is NULL: pSrc, pDst, or + * pFFTSpec. + * - pSrc or pDst is not 32-byte aligned + * - scaleFactor<0 or scaleFactor>32 + * + */ +OMXResult omxSP_FFTInv_CToC_FC32_Sfs ( + const OMX_FC32 *pSrc, + OMX_FC32 *pDst, + const OMXFFTSpec_C_FC32 *pFFTSpec +); +#ifdef __arm__ +/* + * Non-NEON version + */ +OMXResult omxSP_FFTInv_CToC_FC32_Sfs_vfp ( + const OMX_FC32 *pSrc, + OMX_FC32 *pDst, + const OMXFFTSpec_C_FC32 *pFFTSpec +); +#endif + +/** + * Function: omxSP_FFTInv_CCSToR_F32_Sfs + * + * Description: + * These functions compute the inverse FFT for a conjugate-symmetric input + * sequence. Transform length is determined by the specification structure, + * which must be initialized prior to calling the FFT function using + * <FFTInit_R_F32>. For a transform of length M, the input sequence is + * represented using a packed CCS vector of length M+2, and is organized + * as follows: + * + * Index: 0 1 2 3 4 5 . . . M-2 M-1 M M+1 + * Comp: R[0] 0 R[1] I[1] R[2] I[2] . . . R[M/2-1] I[M/2-1] R[M/2] 0 + * + * where R[n] and I[n], respectively, denote the real and imaginary + * components for FFT bin n. Bins are numbered from 0 to M/2, where M + * is the FFT length. Bin index 0 corresponds to the DC component, + * and bin index M/2 corresponds to the foldover frequency. + * + * Input Arguments: + * pSrc - pointer to the complex-valued input sequence represented + * using CCS format, of length (2^order) + 2; must be aligned on a + * 32-byte boundary. + * pFFTSpec - pointer to the preallocated and initialized + * specification structure + * + * Output Arguments: + * pDst - pointer to the real-valued output sequence, of length + * 2^order ; must be aligned on a 32-byte boundary. + * + * Return Value: + * + * OMX_Sts_NoErr - no error + + * OMX_Sts_BadArgErr - bad arguments if one or more of the + * following is true: + * - pSrc, pDst, or pFFTSpec is NULL + * - pSrc or pDst is not aligned on a 32-byte boundary + * - scaleFactor<0 or scaleFactor >32 + * + */ +OMXResult omxSP_FFTInv_CCSToR_F32_Sfs( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec +); + +#ifdef __arm__ +/* + * Non-NEON version of omxSP_FFTInv_CCSToR_F32_Sfs + */ +OMXResult omxSP_FFTInv_CCSToR_F32_Sfs_vfp( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec +); + +/* + * Just like omxSP_FFTInv_CCSToR_F32_Sfs, but automatically detects + * whether NEON is available or not and chooses the appropriate + * routine. + */ +extern OMXResult (*omxSP_FFTInv_CCSToR_F32)( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec); +#else +#define omxSP_FFTInv_CCSToR_F32 omxSP_FFTInv_CCSToR_F32_Sfs +#endif + +/* + * Just like omxSP_FFTInv_CCSToR_F32_Sfs, but does not scale the result. + * (Actually, we multiple by two for consistency with other FFT routines in + * use.) + */ +OMXResult omxSP_FFTInv_CCSToR_F32_Sfs_unscaled( + const OMX_F32* pSrc, + OMX_F32* pDst, + const OMXFFTSpec_R_F32* pFFTSpec +); + + +#ifdef __cplusplus +} +#endif + +#endif /** end of #define _OMXSP_H_ */ + +/** EOF */ + |