diff options
author | Jack Humbert <jack.humb@gmail.com> | 2016-06-18 14:30:24 -0400 |
---|---|---|
committer | GitHub <noreply@github.com> | 2016-06-18 14:30:24 -0400 |
commit | db32864ce7029d758f57729cc2f75e051a28d0a2 (patch) | |
tree | f3ac60d9c826a9ad5ef5bc4d199efaddae156ba6 /tmk_core/tool/mbed/mbed-sdk/libraries/dsp/cmsis_dsp/FilteringFunctions/arm_conv_partial_opt_q15.c | |
parent | 1923cffd41d9d71cd9f434092654dba05513137b (diff) |
Cleans up quantum/keymap situation, removes extra lufa folders (#416)
* sorts out keycodes
* move midi around
* remove mbed
* replaces keymap with qmk/keymap_common
* fixes keymap.h
* keymap, config, quantum rearrange
* removes unneeded lufa stuff
Diffstat (limited to 'tmk_core/tool/mbed/mbed-sdk/libraries/dsp/cmsis_dsp/FilteringFunctions/arm_conv_partial_opt_q15.c')
-rw-r--r-- | tmk_core/tool/mbed/mbed-sdk/libraries/dsp/cmsis_dsp/FilteringFunctions/arm_conv_partial_opt_q15.c | 765 |
1 files changed, 0 insertions, 765 deletions
diff --git a/tmk_core/tool/mbed/mbed-sdk/libraries/dsp/cmsis_dsp/FilteringFunctions/arm_conv_partial_opt_q15.c b/tmk_core/tool/mbed/mbed-sdk/libraries/dsp/cmsis_dsp/FilteringFunctions/arm_conv_partial_opt_q15.c deleted file mode 100644 index 412c0eefa4..0000000000 --- a/tmk_core/tool/mbed/mbed-sdk/libraries/dsp/cmsis_dsp/FilteringFunctions/arm_conv_partial_opt_q15.c +++ /dev/null @@ -1,765 +0,0 @@ -/* ---------------------------------------------------------------------- -* Copyright (C) 2010-2013 ARM Limited. All rights reserved. -* -* $Date: 17. January 2013 -* $Revision: V1.4.1 -* -* Project: CMSIS DSP Library -* Title: arm_conv_partial_opt_q15.c -* -* Description: Partial convolution of Q15 sequences. -* -* Target Processor: Cortex-M4/Cortex-M3 -* -* 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 -* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS -* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, -* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER -* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN -* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -* POSSIBILITY OF SUCH DAMAGE. -* -------------------------------------------------------------------- */ - -#include "arm_math.h" - -/** - * @ingroup groupFilters - */ - -/** - * @addtogroup PartialConv - * @{ - */ - -/** - * @brief Partial convolution of Q15 sequences. - * @param[in] *pSrcA points to the first input sequence. - * @param[in] srcALen length of the first input sequence. - * @param[in] *pSrcB points to the second input sequence. - * @param[in] srcBLen length of the second input sequence. - * @param[out] *pDst points to the location where the output result is written. - * @param[in] firstIndex is the first output sample to start with. - * @param[in] numPoints is the number of output points to be computed. - * @param[in] *pScratch1 points to scratch buffer of size max(srcALen, srcBLen) + 2*min(srcALen, srcBLen) - 2. - * @param[in] *pScratch2 points to scratch buffer of size min(srcALen, srcBLen). - * @return Returns either ARM_MATH_SUCCESS if the function completed correctly or ARM_MATH_ARGUMENT_ERROR if the requested subset is not in the range [0 srcALen+srcBLen-2]. - * - * \par Restrictions - * If the silicon does not support unaligned memory access enable the macro UNALIGNED_SUPPORT_DISABLE - * In this case input, output, state buffers should be aligned by 32-bit - * - * Refer to <code>arm_conv_partial_fast_q15()</code> for a faster but less precise version of this function for Cortex-M3 and Cortex-M4. - * - * - */ - -#ifndef UNALIGNED_SUPPORT_DISABLE - -arm_status arm_conv_partial_opt_q15( - q15_t * pSrcA, - uint32_t srcALen, - q15_t * pSrcB, - uint32_t srcBLen, - q15_t * pDst, - uint32_t firstIndex, - uint32_t numPoints, - q15_t * pScratch1, - q15_t * pScratch2) -{ - - q15_t *pOut = pDst; /* output pointer */ - q15_t *pScr1 = pScratch1; /* Temporary pointer for scratch1 */ - q15_t *pScr2 = pScratch2; /* Temporary pointer for scratch1 */ - q63_t acc0, acc1, acc2, acc3; /* Accumulator */ - q31_t x1, x2, x3; /* Temporary variables to hold state and coefficient values */ - q31_t y1, y2; /* State variables */ - q15_t *pIn1; /* inputA pointer */ - q15_t *pIn2; /* inputB pointer */ - q15_t *px; /* Intermediate inputA pointer */ - q15_t *py; /* Intermediate inputB pointer */ - uint32_t j, k, blkCnt; /* loop counter */ - arm_status status; /* Status variable */ - uint32_t tapCnt; /* loop count */ - - /* Check for range of output samples to be calculated */ - if((firstIndex + numPoints) > ((srcALen + (srcBLen - 1u)))) - { - /* Set status as ARM_MATH_ARGUMENT_ERROR */ - status = ARM_MATH_ARGUMENT_ERROR; - } - else - { - - /* The algorithm implementation is based on the lengths of the inputs. */ - /* srcB is always made to slide across srcA. */ - /* So srcBLen is always considered as shorter or equal to srcALen */ - if(srcALen >= srcBLen) - { - /* Initialization of inputA pointer */ - pIn1 = pSrcA; - - /* Initialization of inputB pointer */ - pIn2 = pSrcB; - } - else - { - /* Initialization of inputA pointer */ - pIn1 = pSrcB; - - /* Initialization of inputB pointer */ - pIn2 = pSrcA; - - /* srcBLen is always considered as shorter or equal to srcALen */ - j = srcBLen; - srcBLen = srcALen; - srcALen = j; - } - - /* Temporary pointer for scratch2 */ - py = pScratch2; - - /* pointer to take end of scratch2 buffer */ - pScr2 = pScratch2 + srcBLen - 1; - - /* points to smaller length sequence */ - px = pIn2; - - /* Apply loop unrolling and do 4 Copies simultaneously. */ - k = srcBLen >> 2u; - - /* First part of the processing with loop unrolling copies 4 data points at a time. - ** a second loop below copies for the remaining 1 to 3 samples. */ - while(k > 0u) - { - /* copy second buffer in reversal manner */ - *pScr2-- = *px++; - *pScr2-- = *px++; - *pScr2-- = *px++; - *pScr2-- = *px++; - - /* Decrement the loop counter */ - k--; - } - - /* If the count is not a multiple of 4, copy remaining samples here. - ** No loop unrolling is used. */ - k = srcBLen % 0x4u; - - while(k > 0u) - { - /* copy second buffer in reversal manner for remaining samples */ - *pScr2-- = *px++; - - /* Decrement the loop counter */ - k--; - } - - /* Initialze temporary scratch pointer */ - pScr1 = pScratch1; - - /* Fill (srcBLen - 1u) zeros in scratch buffer */ - arm_fill_q15(0, pScr1, (srcBLen - 1u)); - - /* Update temporary scratch pointer */ - pScr1 += (srcBLen - 1u); - - /* Copy bigger length sequence(srcALen) samples in scratch1 buffer */ - - /* Copy (srcALen) samples in scratch buffer */ - arm_copy_q15(pIn1, pScr1, srcALen); - - /* Update pointers */ - pScr1 += srcALen; - - /* Fill (srcBLen - 1u) zeros at end of scratch buffer */ - arm_fill_q15(0, pScr1, (srcBLen - 1u)); - - /* Update pointer */ - pScr1 += (srcBLen - 1u); - - /* Initialization of pIn2 pointer */ - pIn2 = py; - - pScratch1 += firstIndex; - - pOut = pDst + firstIndex; - - /* Actual convolution process starts here */ - blkCnt = (numPoints) >> 2; - - while(blkCnt > 0) - { - /* Initialze temporary scratch pointer as scratch1 */ - pScr1 = pScratch1; - - /* Clear Accumlators */ - acc0 = 0; - acc1 = 0; - acc2 = 0; - acc3 = 0; - - /* Read two samples from scratch1 buffer */ - x1 = *__SIMD32(pScr1)++; - - /* Read next two samples from scratch1 buffer */ - x2 = *__SIMD32(pScr1)++; - - tapCnt = (srcBLen) >> 2u; - - while(tapCnt > 0u) - { - - /* Read four samples from smaller buffer */ - y1 = _SIMD32_OFFSET(pIn2); - y2 = _SIMD32_OFFSET(pIn2 + 2u); - - /* multiply and accumlate */ - acc0 = __SMLALD(x1, y1, acc0); - acc2 = __SMLALD(x2, y1, acc2); - - /* pack input data */ -#ifndef ARM_MATH_BIG_ENDIAN - x3 = __PKHBT(x2, x1, 0); -#else - x3 = __PKHBT(x1, x2, 0); -#endif - - /* multiply and accumlate */ - acc1 = __SMLALDX(x3, y1, acc1); - - /* Read next two samples from scratch1 buffer */ - x1 = _SIMD32_OFFSET(pScr1); - - /* multiply and accumlate */ - acc0 = __SMLALD(x2, y2, acc0); - acc2 = __SMLALD(x1, y2, acc2); - - /* pack input data */ -#ifndef ARM_MATH_BIG_ENDIAN - x3 = __PKHBT(x1, x2, 0); -#else - x3 = __PKHBT(x2, x1, 0); -#endif - - acc3 = __SMLALDX(x3, y1, acc3); - acc1 = __SMLALDX(x3, y2, acc1); - - x2 = _SIMD32_OFFSET(pScr1 + 2u); - -#ifndef ARM_MATH_BIG_ENDIAN - x3 = __PKHBT(x2, x1, 0); -#else - x3 = __PKHBT(x1, x2, 0); -#endif - - acc3 = __SMLALDX(x3, y2, acc3); - - /* update scratch pointers */ - pIn2 += 4u; - pScr1 += 4u; - - - /* Decrement the loop counter */ - tapCnt--; - } - - /* Update scratch pointer for remaining samples of smaller length sequence */ - pScr1 -= 4u; - - /* apply same above for remaining samples of smaller length sequence */ - tapCnt = (srcBLen) & 3u; - - while(tapCnt > 0u) - { - /* accumlate the results */ - acc0 += (*pScr1++ * *pIn2); - acc1 += (*pScr1++ * *pIn2); - acc2 += (*pScr1++ * *pIn2); - acc3 += (*pScr1++ * *pIn2++); - - pScr1 -= 3u; - - /* Decrement the loop counter */ - tapCnt--; - } - - blkCnt--; - - - /* Store the results in the accumulators in the destination buffer. */ - -#ifndef ARM_MATH_BIG_ENDIAN - - *__SIMD32(pOut)++ = - __PKHBT(__SSAT((acc0 >> 15), 16), __SSAT((acc1 >> 15), 16), 16); - *__SIMD32(pOut)++ = - __PKHBT(__SSAT((acc2 >> 15), 16), __SSAT((acc3 >> 15), 16), 16); - -#else - - *__SIMD32(pOut)++ = - __PKHBT(__SSAT((acc1 >> 15), 16), __SSAT((acc0 >> 15), 16), 16); - *__SIMD32(pOut)++ = - __PKHBT(__SSAT((acc3 >> 15), 16), __SSAT((acc2 >> 15), 16), 16); - -#endif /* #ifndef ARM_MATH_BIG_ENDIAN */ - - /* Initialization of inputB pointer */ - pIn2 = py; - - pScratch1 += 4u; - - } - - - blkCnt = numPoints & 0x3; - - /* Calculate convolution for remaining samples of Bigger length sequence */ - while(blkCnt > 0) - { - /* Initialze temporary scratch pointer as scratch1 */ - pScr1 = pScratch1; - - /* Clear Accumlators */ - acc0 = 0; - - tapCnt = (srcBLen) >> 1u; - - while(tapCnt > 0u) - { - - /* Read next two samples from scratch1 buffer */ - x1 = *__SIMD32(pScr1)++; - - /* Read two samples from smaller buffer */ - y1 = *__SIMD32(pIn2)++; - - acc0 = __SMLALD(x1, y1, acc0); - - /* Decrement the loop counter */ - tapCnt--; - } - - tapCnt = (srcBLen) & 1u; - - /* apply same above for remaining samples of smaller length sequence */ - while(tapCnt > 0u) - { - - /* accumlate the results */ - acc0 += (*pScr1++ * *pIn2++); - - /* Decrement the loop counter */ - tapCnt--; - } - - blkCnt--; - - /* Store the result in the accumulator in the destination buffer. */ - *pOut++ = (q15_t) (__SSAT((acc0 >> 15), 16)); - - /* Initialization of inputB pointer */ - pIn2 = py; - - pScratch1 += 1u; - - } - - /* set status as ARM_MATH_SUCCESS */ - status = ARM_MATH_SUCCESS; - - } - - /* Return to application */ - return (status); -} - -#else - -arm_status arm_conv_partial_opt_q15( - q15_t * pSrcA, - uint32_t srcALen, - q15_t * pSrcB, - uint32_t srcBLen, - q15_t * pDst, - uint32_t firstIndex, - uint32_t numPoints, - q15_t * pScratch1, - q15_t * pScratch2) -{ - - q15_t *pOut = pDst; /* output pointer */ - q15_t *pScr1 = pScratch1; /* Temporary pointer for scratch1 */ - q15_t *pScr2 = pScratch2; /* Temporary pointer for scratch1 */ - q63_t acc0, acc1, acc2, acc3; /* Accumulator */ - q15_t *pIn1; /* inputA pointer */ - q15_t *pIn2; /* inputB pointer */ - q15_t *px; /* Intermediate inputA pointer */ - q15_t *py; /* Intermediate inputB pointer */ - uint32_t j, k, blkCnt; /* loop counter */ - arm_status status; /* Status variable */ - uint32_t tapCnt; /* loop count */ - q15_t x10, x11, x20, x21; /* Temporary variables to hold srcA buffer */ - q15_t y10, y11; /* Temporary variables to hold srcB buffer */ - - - /* Check for range of output samples to be calculated */ - if((firstIndex + numPoints) > ((srcALen + (srcBLen - 1u)))) - { - /* Set status as ARM_MATH_ARGUMENT_ERROR */ - status = ARM_MATH_ARGUMENT_ERROR; - } - else - { - - /* The algorithm implementation is based on the lengths of the inputs. */ - /* srcB is always made to slide across srcA. */ - /* So srcBLen is always considered as shorter or equal to srcALen */ - if(srcALen >= srcBLen) - { - /* Initialization of inputA pointer */ - pIn1 = pSrcA; - - /* Initialization of inputB pointer */ - pIn2 = pSrcB; - } - else - { - /* Initialization of inputA pointer */ - pIn1 = pSrcB; - - /* Initialization of inputB pointer */ - pIn2 = pSrcA; - - /* srcBLen is always considered as shorter or equal to srcALen */ - j = srcBLen; - srcBLen = srcALen; - srcALen = j; - } - - /* Temporary pointer for scratch2 */ - py = pScratch2; - - /* pointer to take end of scratch2 buffer */ - pScr2 = pScratch2 + srcBLen - 1; - - /* points to smaller length sequence */ - px = pIn2; - - /* Apply loop unrolling and do 4 Copies simultaneously. */ - k = srcBLen >> 2u; - - /* First part of the processing with loop unrolling copies 4 data points at a time. - ** a second loop below copies for the remaining 1 to 3 samples. */ - while(k > 0u) - { - /* copy second buffer in reversal manner */ - *pScr2-- = *px++; - *pScr2-- = *px++; - *pScr2-- = *px++; - *pScr2-- = *px++; - - /* Decrement the loop counter */ - k--; - } - - /* If the count is not a multiple of 4, copy remaining samples here. - ** No loop unrolling is used. */ - k = srcBLen % 0x4u; - - while(k > 0u) - { - /* copy second buffer in reversal manner for remaining samples */ - *pScr2-- = *px++; - - /* Decrement the loop counter */ - k--; - } - - /* Initialze temporary scratch pointer */ - pScr1 = pScratch1; - - /* Fill (srcBLen - 1u) zeros in scratch buffer */ - arm_fill_q15(0, pScr1, (srcBLen - 1u)); - - /* Update temporary scratch pointer */ - pScr1 += (srcBLen - 1u); - - /* Copy bigger length sequence(srcALen) samples in scratch1 buffer */ - - - /* Apply loop unrolling and do 4 Copies simultaneously. */ - k = srcALen >> 2u; - - /* First part of the processing with loop unrolling copies 4 data points at a time. - ** a second loop below copies for the remaining 1 to 3 samples. */ - while(k > 0u) - { - /* copy second buffer in reversal manner */ - *pScr1++ = *pIn1++; - *pScr1++ = *pIn1++; - *pScr1++ = *pIn1++; - *pScr1++ = *pIn1++; - - /* Decrement the loop counter */ - k--; - } - - /* If the count is not a multiple of 4, copy remaining samples here. - ** No loop unrolling is used. */ - k = srcALen % 0x4u; - - while(k > 0u) - { - /* copy second buffer in reversal manner for remaining samples */ - *pScr1++ = *pIn1++; - - /* Decrement the loop counter */ - k--; - } - - - /* Apply loop unrolling and do 4 Copies simultaneously. */ - k = (srcBLen - 1u) >> 2u; - - /* First part of the processing with loop unrolling copies 4 data points at a time. - ** a second loop below copies for the remaining 1 to 3 samples. */ - while(k > 0u) - { - /* copy second buffer in reversal manner */ - *pScr1++ = 0; - *pScr1++ = 0; - *pScr1++ = 0; - *pScr1++ = 0; - - /* Decrement the loop counter */ - k--; - } - - /* If the count is not a multiple of 4, copy remaining samples here. - ** No loop unrolling is used. */ - k = (srcBLen - 1u) % 0x4u; - - while(k > 0u) - { - /* copy second buffer in reversal manner for remaining samples */ - *pScr1++ = 0; - - /* Decrement the loop counter */ - k--; - } - - - /* Initialization of pIn2 pointer */ - pIn2 = py; - - pScratch1 += firstIndex; - - pOut = pDst + firstIndex; - - /* Actual convolution process starts here */ - blkCnt = (numPoints) >> 2; - - while(blkCnt > 0) - { - /* Initialze temporary scratch pointer as scratch1 */ - pScr1 = pScratch1; - - /* Clear Accumlators */ - acc0 = 0; - acc1 = 0; - acc2 = 0; - acc3 = 0; - - /* Read two samples from scratch1 buffer */ - x10 = *pScr1++; - x11 = *pScr1++; - - /* Read next two samples from scratch1 buffer */ - x20 = *pScr1++; - x21 = *pScr1++; - - tapCnt = (srcBLen) >> 2u; - - while(tapCnt > 0u) - { - - /* Read two samples from smaller buffer */ - y10 = *pIn2; - y11 = *(pIn2 + 1u); - - /* multiply and accumlate */ - acc0 += (q63_t) x10 *y10; - acc0 += (q63_t) x11 *y11; - acc2 += (q63_t) x20 *y10; - acc2 += (q63_t) x21 *y11; - - /* multiply and accumlate */ - acc1 += (q63_t) x11 *y10; - acc1 += (q63_t) x20 *y11; - - /* Read next two samples from scratch1 buffer */ - x10 = *pScr1; - x11 = *(pScr1 + 1u); - - /* multiply and accumlate */ - acc3 += (q63_t) x21 *y10; - acc3 += (q63_t) x10 *y11; - - /* Read next two samples from scratch2 buffer */ - y10 = *(pIn2 + 2u); - y11 = *(pIn2 + 3u); - - /* multiply and accumlate */ - acc0 += (q63_t) x20 *y10; - acc0 += (q63_t) x21 *y11; - acc2 += (q63_t) x10 *y10; - acc2 += (q63_t) x11 *y11; - acc1 += (q63_t) x21 *y10; - acc1 += (q63_t) x10 *y11; - - /* Read next two samples from scratch1 buffer */ - x20 = *(pScr1 + 2); - x21 = *(pScr1 + 3); - - /* multiply and accumlate */ - acc3 += (q63_t) x11 *y10; - acc3 += (q63_t) x20 *y11; - - /* update scratch pointers */ - pIn2 += 4u; - pScr1 += 4u; - - /* Decrement the loop counter */ - tapCnt--; - } - - /* Update scratch pointer for remaining samples of smaller length sequence */ - pScr1 -= 4u; - - /* apply same above for remaining samples of smaller length sequence */ - tapCnt = (srcBLen) & 3u; - - while(tapCnt > 0u) - { - /* accumlate the results */ - acc0 += (*pScr1++ * *pIn2); - acc1 += (*pScr1++ * *pIn2); - acc2 += (*pScr1++ * *pIn2); - acc3 += (*pScr1++ * *pIn2++); - - pScr1 -= 3u; - - /* Decrement the loop counter */ - tapCnt--; - } - - blkCnt--; - - - /* Store the results in the accumulators in the destination buffer. */ - *pOut++ = __SSAT((acc0 >> 15), 16); - *pOut++ = __SSAT((acc1 >> 15), 16); - *pOut++ = __SSAT((acc2 >> 15), 16); - *pOut++ = __SSAT((acc3 >> 15), 16); - - - /* Initialization of inputB pointer */ - pIn2 = py; - - pScratch1 += 4u; - - } - - - blkCnt = numPoints & 0x3; - - /* Calculate convolution for remaining samples of Bigger length sequence */ - while(blkCnt > 0) - { - /* Initialze temporary scratch pointer as scratch1 */ - pScr1 = pScratch1; - - /* Clear Accumlators */ - acc0 = 0; - - tapCnt = (srcBLen) >> 1u; - - while(tapCnt > 0u) - { - - /* Read next two samples from scratch1 buffer */ - x10 = *pScr1++; - x11 = *pScr1++; - - /* Read two samples from smaller buffer */ - y10 = *pIn2++; - y11 = *pIn2++; - - /* multiply and accumlate */ - acc0 += (q63_t) x10 *y10; - acc0 += (q63_t) x11 *y11; - - /* Decrement the loop counter */ - tapCnt--; - } - - tapCnt = (srcBLen) & 1u; - - /* apply same above for remaining samples of smaller length sequence */ - while(tapCnt > 0u) - { - - /* accumlate the results */ - acc0 += (*pScr1++ * *pIn2++); - - /* Decrement the loop counter */ - tapCnt--; - } - - blkCnt--; - - /* Store the result in the accumulator in the destination buffer. */ - *pOut++ = (q15_t) (__SSAT((acc0 >> 15), 16)); - - - /* Initialization of inputB pointer */ - pIn2 = py; - - pScratch1 += 1u; - - } - - /* set status as ARM_MATH_SUCCESS */ - status = ARM_MATH_SUCCESS; - - } - - /* Return to application */ - return (status); -} - -#endif /* #ifndef UNALIGNED_SUPPORT_DISABLE */ - - -/** - * @} end of PartialConv group - */ |