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| <h1>arm_conv_partial_q7.c</h1> </div> |
| </div> |
| <div class="contents"> |
| <a href="arm__conv__partial__q7_8c.html">Go to the documentation of this file.</a><div class="fragment"><pre class="fragment"><a name="l00001"></a>00001 <span class="comment">/* ---------------------------------------------------------------------- </span> |
| <a name="l00002"></a>00002 <span class="comment">* Copyright (C) 2010 ARM Limited. All rights reserved. </span> |
| <a name="l00003"></a>00003 <span class="comment">* </span> |
| <a name="l00004"></a>00004 <span class="comment">* $Date: 15. July 2011 </span> |
| <a name="l00005"></a>00005 <span class="comment">* $Revision: V1.0.10 </span> |
| <a name="l00006"></a>00006 <span class="comment">* </span> |
| <a name="l00007"></a>00007 <span class="comment">* Project: CMSIS DSP Library </span> |
| <a name="l00008"></a>00008 <span class="comment">* Title: arm_conv_partial_q7.c </span> |
| <a name="l00009"></a>00009 <span class="comment">* </span> |
| <a name="l00010"></a>00010 <span class="comment">* Description: Partial convolution of Q7 sequences. </span> |
| <a name="l00011"></a>00011 <span class="comment">* </span> |
| <a name="l00012"></a>00012 <span class="comment">* Target Processor: Cortex-M4/Cortex-M3/Cortex-M0</span> |
| <a name="l00013"></a>00013 <span class="comment">* </span> |
| <a name="l00014"></a>00014 <span class="comment">* Version 1.0.10 2011/7/15 </span> |
| <a name="l00015"></a>00015 <span class="comment">* Big Endian support added and Merged M0 and M3/M4 Source code. </span> |
| <a name="l00016"></a>00016 <span class="comment">* </span> |
| <a name="l00017"></a>00017 <span class="comment">* Version 1.0.3 2010/11/29 </span> |
| <a name="l00018"></a>00018 <span class="comment">* Re-organized the CMSIS folders and updated documentation. </span> |
| <a name="l00019"></a>00019 <span class="comment">* </span> |
| <a name="l00020"></a>00020 <span class="comment">* Version 1.0.2 2010/11/11 </span> |
| <a name="l00021"></a>00021 <span class="comment">* Documentation updated. </span> |
| <a name="l00022"></a>00022 <span class="comment">* </span> |
| <a name="l00023"></a>00023 <span class="comment">* Version 1.0.1 2010/10/05 </span> |
| <a name="l00024"></a>00024 <span class="comment">* Production release and review comments incorporated. </span> |
| <a name="l00025"></a>00025 <span class="comment">* </span> |
| <a name="l00026"></a>00026 <span class="comment">* Version 1.0.0 2010/09/20 </span> |
| <a name="l00027"></a>00027 <span class="comment">* Production release and review comments incorporated </span> |
| <a name="l00028"></a>00028 <span class="comment">* </span> |
| <a name="l00029"></a>00029 <span class="comment">* Version 0.0.7 2010/06/10 </span> |
| <a name="l00030"></a>00030 <span class="comment">* Misra-C changes done </span> |
| <a name="l00031"></a>00031 <span class="comment">* </span> |
| <a name="l00032"></a>00032 <span class="comment">* -------------------------------------------------------------------- */</span> |
| <a name="l00033"></a>00033 |
| <a name="l00034"></a>00034 <span class="preprocessor">#include "<a class="code" href="arm__math_8h.html">arm_math.h</a>"</span> |
| <a name="l00035"></a>00035 |
| <a name="l00058"></a><a class="code" href="group___partial_conv.html#ga8567259fe18396dd972242c41741ebf4">00058</a> <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6" title="Error status returned by some functions in the library.">arm_status</a> <a class="code" href="group___partial_conv.html#ga8567259fe18396dd972242c41741ebf4" title="Partial convolution of Q7 sequences.">arm_conv_partial_q7</a>( |
| <a name="l00059"></a>00059 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> * pSrcA, |
| <a name="l00060"></a>00060 uint32_t <a class="code" href="arm__convolution__example__f32_8c.html#ace48ed566e2cd6a680f0681192e6af28">srcALen</a>, |
| <a name="l00061"></a>00061 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> * pSrcB, |
| <a name="l00062"></a>00062 uint32_t <a class="code" href="arm__convolution__example__f32_8c.html#aea71286f498978c5ed3775609b974fc8">srcBLen</a>, |
| <a name="l00063"></a>00063 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> * pDst, |
| <a name="l00064"></a>00064 uint32_t firstIndex, |
| <a name="l00065"></a>00065 uint32_t numPoints) |
| <a name="l00066"></a>00066 { |
| <a name="l00067"></a>00067 |
| <a name="l00068"></a>00068 |
| <a name="l00069"></a>00069 <span class="preprocessor">#ifndef ARM_MATH_CM0</span> |
| <a name="l00070"></a>00070 <span class="preprocessor"></span> |
| <a name="l00071"></a>00071 <span class="comment">/* Run the below code for Cortex-M4 and Cortex-M3 */</span> |
| <a name="l00072"></a>00072 |
| <a name="l00073"></a>00073 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *pIn1; <span class="comment">/* inputA pointer */</span> |
| <a name="l00074"></a>00074 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *pIn2; <span class="comment">/* inputB pointer */</span> |
| <a name="l00075"></a>00075 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *pOut = pDst; <span class="comment">/* output pointer */</span> |
| <a name="l00076"></a>00076 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *px; <span class="comment">/* Intermediate inputA pointer */</span> |
| <a name="l00077"></a>00077 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *py; <span class="comment">/* Intermediate inputB pointer */</span> |
| <a name="l00078"></a>00078 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *pSrc1, *pSrc2; <span class="comment">/* Intermediate pointers */</span> |
| <a name="l00079"></a>00079 <a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a> sum, acc0, acc1, acc2, acc3; <span class="comment">/* Accumulator */</span> |
| <a name="l00080"></a>00080 <a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a> input1, input2; |
| <a name="l00081"></a>00081 <a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a> in1, in2; |
| <a name="l00082"></a>00082 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> x0, x1, x2, x3, c0, c1; |
| <a name="l00083"></a>00083 uint32_t j, k, count, check, blkCnt; |
| <a name="l00084"></a>00084 int32_t blockSize1, blockSize2, blockSize3; <span class="comment">/* loop counter */</span> |
| <a name="l00085"></a>00085 <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6" title="Error status returned by some functions in the library.">arm_status</a> <a class="code" href="arm__dotproduct__example__f32_8c.html#a88ccb294236ab22b00310c47164c53c3">status</a>; |
| <a name="l00086"></a>00086 |
| <a name="l00087"></a>00087 |
| <a name="l00088"></a>00088 <span class="comment">/* Check for range of output samples to be calculated */</span> |
| <a name="l00089"></a>00089 <span class="keywordflow">if</span>((firstIndex + numPoints) > ((srcALen + (srcBLen - 1u)))) |
| <a name="l00090"></a>00090 { |
| <a name="l00091"></a>00091 <span class="comment">/* Set status as ARM_MATH_ARGUMENT_ERROR */</span> |
| <a name="l00092"></a>00092 status = <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6a74897e18d4b8f62b12a7d8a01dd2bb35">ARM_MATH_ARGUMENT_ERROR</a>; |
| <a name="l00093"></a>00093 } |
| <a name="l00094"></a>00094 <span class="keywordflow">else</span> |
| <a name="l00095"></a>00095 { |
| <a name="l00096"></a>00096 |
| <a name="l00097"></a>00097 <span class="comment">/* The algorithm implementation is based on the lengths of the inputs. */</span> |
| <a name="l00098"></a>00098 <span class="comment">/* srcB is always made to slide across srcA. */</span> |
| <a name="l00099"></a>00099 <span class="comment">/* So srcBLen is always considered as shorter or equal to srcALen */</span> |
| <a name="l00100"></a>00100 <span class="keywordflow">if</span>(srcALen >= srcBLen) |
| <a name="l00101"></a>00101 { |
| <a name="l00102"></a>00102 <span class="comment">/* Initialization of inputA pointer */</span> |
| <a name="l00103"></a>00103 pIn1 = pSrcA; |
| <a name="l00104"></a>00104 |
| <a name="l00105"></a>00105 <span class="comment">/* Initialization of inputB pointer */</span> |
| <a name="l00106"></a>00106 pIn2 = pSrcB; |
| <a name="l00107"></a>00107 } |
| <a name="l00108"></a>00108 <span class="keywordflow">else</span> |
| <a name="l00109"></a>00109 { |
| <a name="l00110"></a>00110 <span class="comment">/* Initialization of inputA pointer */</span> |
| <a name="l00111"></a>00111 pIn1 = pSrcB; |
| <a name="l00112"></a>00112 |
| <a name="l00113"></a>00113 <span class="comment">/* Initialization of inputB pointer */</span> |
| <a name="l00114"></a>00114 pIn2 = pSrcA; |
| <a name="l00115"></a>00115 |
| <a name="l00116"></a>00116 <span class="comment">/* srcBLen is always considered as shorter or equal to srcALen */</span> |
| <a name="l00117"></a>00117 j = <a class="code" href="arm__convolution__example__f32_8c.html#aea71286f498978c5ed3775609b974fc8">srcBLen</a>; |
| <a name="l00118"></a>00118 srcBLen = <a class="code" href="arm__convolution__example__f32_8c.html#ace48ed566e2cd6a680f0681192e6af28">srcALen</a>; |
| <a name="l00119"></a>00119 srcALen = j; |
| <a name="l00120"></a>00120 } |
| <a name="l00121"></a>00121 |
| <a name="l00122"></a>00122 <span class="comment">/* Conditions to check which loopCounter holds </span> |
| <a name="l00123"></a>00123 <span class="comment"> * the first and last indices of the output samples to be calculated. */</span> |
| <a name="l00124"></a>00124 check = firstIndex + numPoints; |
| <a name="l00125"></a>00125 blockSize3 = ((int32_t) check - (int32_t) <a class="code" href="arm__convolution__example__f32_8c.html#ace48ed566e2cd6a680f0681192e6af28">srcALen</a>); |
| <a name="l00126"></a>00126 blockSize3 = (blockSize3 > 0) ? blockSize3 : 0; |
| <a name="l00127"></a>00127 blockSize1 = (((int32_t) srcBLen - 1) - (int32_t) firstIndex); |
| <a name="l00128"></a>00128 blockSize1 = (blockSize1 > 0) ? ((check > (srcBLen - 1u)) ? blockSize1 : |
| <a name="l00129"></a>00129 (int32_t) numPoints) : 0; |
| <a name="l00130"></a>00130 blockSize2 = (int32_t) check - ((blockSize3 + blockSize1) + |
| <a name="l00131"></a>00131 (int32_t) firstIndex); |
| <a name="l00132"></a>00132 blockSize2 = (blockSize2 > 0) ? blockSize2 : 0; |
| <a name="l00133"></a>00133 |
| <a name="l00134"></a>00134 <span class="comment">/* conv(x,y) at n = x[n] * y[0] + x[n-1] * y[1] + x[n-2] * y[2] + ...+ x[n-N+1] * y[N -1] */</span> |
| <a name="l00135"></a>00135 <span class="comment">/* The function is internally </span> |
| <a name="l00136"></a>00136 <span class="comment"> * divided into three stages according to the number of multiplications that has to be </span> |
| <a name="l00137"></a>00137 <span class="comment"> * taken place between inputA samples and inputB samples. In the first stage of the </span> |
| <a name="l00138"></a>00138 <span class="comment"> * algorithm, the multiplications increase by one for every iteration. </span> |
| <a name="l00139"></a>00139 <span class="comment"> * In the second stage of the algorithm, srcBLen number of multiplications are done. </span> |
| <a name="l00140"></a>00140 <span class="comment"> * In the third stage of the algorithm, the multiplications decrease by one </span> |
| <a name="l00141"></a>00141 <span class="comment"> * for every iteration. */</span> |
| <a name="l00142"></a>00142 |
| <a name="l00143"></a>00143 <span class="comment">/* Set the output pointer to point to the firstIndex </span> |
| <a name="l00144"></a>00144 <span class="comment"> * of the output sample to be calculated. */</span> |
| <a name="l00145"></a>00145 pOut = pDst + firstIndex; |
| <a name="l00146"></a>00146 |
| <a name="l00147"></a>00147 <span class="comment">/* -------------------------- </span> |
| <a name="l00148"></a>00148 <span class="comment"> * Initializations of stage1 </span> |
| <a name="l00149"></a>00149 <span class="comment"> * -------------------------*/</span> |
| <a name="l00150"></a>00150 |
| <a name="l00151"></a>00151 <span class="comment">/* sum = x[0] * y[0] </span> |
| <a name="l00152"></a>00152 <span class="comment"> * sum = x[0] * y[1] + x[1] * y[0] </span> |
| <a name="l00153"></a>00153 <span class="comment"> * .... </span> |
| <a name="l00154"></a>00154 <span class="comment"> * sum = x[0] * y[srcBlen - 1] + x[1] * y[srcBlen - 2] +...+ x[srcBLen - 1] * y[0] </span> |
| <a name="l00155"></a>00155 <span class="comment"> */</span> |
| <a name="l00156"></a>00156 |
| <a name="l00157"></a>00157 <span class="comment">/* In this stage the MAC operations are increased by 1 for every iteration. </span> |
| <a name="l00158"></a>00158 <span class="comment"> The count variable holds the number of MAC operations performed. </span> |
| <a name="l00159"></a>00159 <span class="comment"> Since the partial convolution starts from from firstIndex </span> |
| <a name="l00160"></a>00160 <span class="comment"> Number of Macs to be performed is firstIndex + 1 */</span> |
| <a name="l00161"></a>00161 count = 1u + firstIndex; |
| <a name="l00162"></a>00162 |
| <a name="l00163"></a>00163 <span class="comment">/* Working pointer of inputA */</span> |
| <a name="l00164"></a>00164 px = pIn1; |
| <a name="l00165"></a>00165 |
| <a name="l00166"></a>00166 <span class="comment">/* Working pointer of inputB */</span> |
| <a name="l00167"></a>00167 pSrc2 = pIn2 + firstIndex; |
| <a name="l00168"></a>00168 py = pSrc2; |
| <a name="l00169"></a>00169 |
| <a name="l00170"></a>00170 <span class="comment">/* ------------------------ </span> |
| <a name="l00171"></a>00171 <span class="comment"> * Stage1 process </span> |
| <a name="l00172"></a>00172 <span class="comment"> * ----------------------*/</span> |
| <a name="l00173"></a>00173 |
| <a name="l00174"></a>00174 <span class="comment">/* The first stage starts here */</span> |
| <a name="l00175"></a>00175 <span class="keywordflow">while</span>(blockSize1 > 0) |
| <a name="l00176"></a>00176 { |
| <a name="l00177"></a>00177 <span class="comment">/* Accumulator is made zero for every iteration */</span> |
| <a name="l00178"></a>00178 sum = 0; |
| <a name="l00179"></a>00179 |
| <a name="l00180"></a>00180 <span class="comment">/* Apply loop unrolling and compute 4 MACs simultaneously. */</span> |
| <a name="l00181"></a>00181 k = count >> 2u; |
| <a name="l00182"></a>00182 |
| <a name="l00183"></a>00183 <span class="comment">/* First part of the processing with loop unrolling. Compute 4 MACs at a time. </span> |
| <a name="l00184"></a>00184 <span class="comment"> ** a second loop below computes MACs for the remaining 1 to 3 samples. */</span> |
| <a name="l00185"></a>00185 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00186"></a>00186 { |
| <a name="l00187"></a>00187 <span class="comment">/* x[0] , x[1] */</span> |
| <a name="l00188"></a>00188 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00189"></a>00189 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00190"></a>00190 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00191"></a>00191 |
| <a name="l00192"></a>00192 <span class="comment">/* y[srcBLen - 1] , y[srcBLen - 2] */</span> |
| <a name="l00193"></a>00193 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00194"></a>00194 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00195"></a>00195 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00196"></a>00196 |
| <a name="l00197"></a>00197 <span class="comment">/* x[0] * y[srcBLen - 1] */</span> |
| <a name="l00198"></a>00198 <span class="comment">/* x[1] * y[srcBLen - 2] */</span> |
| <a name="l00199"></a>00199 sum = __SMLAD(input1, input2, sum); |
| <a name="l00200"></a>00200 |
| <a name="l00201"></a>00201 <span class="comment">/* x[2] , x[3] */</span> |
| <a name="l00202"></a>00202 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00203"></a>00203 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00204"></a>00204 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00205"></a>00205 |
| <a name="l00206"></a>00206 <span class="comment">/* y[srcBLen - 3] , y[srcBLen - 4] */</span> |
| <a name="l00207"></a>00207 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00208"></a>00208 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00209"></a>00209 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00210"></a>00210 |
| <a name="l00211"></a>00211 <span class="comment">/* x[2] * y[srcBLen - 3] */</span> |
| <a name="l00212"></a>00212 <span class="comment">/* x[3] * y[srcBLen - 4] */</span> |
| <a name="l00213"></a>00213 sum = __SMLAD(input1, input2, sum); |
| <a name="l00214"></a>00214 |
| <a name="l00215"></a>00215 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00216"></a>00216 k--; |
| <a name="l00217"></a>00217 } |
| <a name="l00218"></a>00218 |
| <a name="l00219"></a>00219 <span class="comment">/* If the count is not a multiple of 4, compute any remaining MACs here. </span> |
| <a name="l00220"></a>00220 <span class="comment"> ** No loop unrolling is used. */</span> |
| <a name="l00221"></a>00221 k = count % 0x4u; |
| <a name="l00222"></a>00222 |
| <a name="l00223"></a>00223 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00224"></a>00224 { |
| <a name="l00225"></a>00225 <span class="comment">/* Perform the multiply-accumulates */</span> |
| <a name="l00226"></a>00226 sum += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) * px++ * *py--); |
| <a name="l00227"></a>00227 |
| <a name="l00228"></a>00228 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00229"></a>00229 k--; |
| <a name="l00230"></a>00230 } |
| <a name="l00231"></a>00231 |
| <a name="l00232"></a>00232 <span class="comment">/* Store the result in the accumulator in the destination buffer. */</span> |
| <a name="l00233"></a>00233 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(sum >> 7, 8)); |
| <a name="l00234"></a>00234 |
| <a name="l00235"></a>00235 <span class="comment">/* Update the inputA and inputB pointers for next MAC calculation */</span> |
| <a name="l00236"></a>00236 py = ++pSrc2; |
| <a name="l00237"></a>00237 px = pIn1; |
| <a name="l00238"></a>00238 |
| <a name="l00239"></a>00239 <span class="comment">/* Increment the MAC count */</span> |
| <a name="l00240"></a>00240 count++; |
| <a name="l00241"></a>00241 |
| <a name="l00242"></a>00242 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00243"></a>00243 blockSize1--; |
| <a name="l00244"></a>00244 } |
| <a name="l00245"></a>00245 |
| <a name="l00246"></a>00246 <span class="comment">/* -------------------------- </span> |
| <a name="l00247"></a>00247 <span class="comment"> * Initializations of stage2 </span> |
| <a name="l00248"></a>00248 <span class="comment"> * ------------------------*/</span> |
| <a name="l00249"></a>00249 |
| <a name="l00250"></a>00250 <span class="comment">/* sum = x[0] * y[srcBLen-1] + x[1] * y[srcBLen-2] +...+ x[srcBLen-1] * y[0] </span> |
| <a name="l00251"></a>00251 <span class="comment"> * sum = x[1] * y[srcBLen-1] + x[2] * y[srcBLen-2] +...+ x[srcBLen] * y[0] </span> |
| <a name="l00252"></a>00252 <span class="comment"> * .... </span> |
| <a name="l00253"></a>00253 <span class="comment"> * sum = x[srcALen-srcBLen-2] * y[srcBLen-1] + x[srcALen] * y[srcBLen-2] +...+ x[srcALen-1] * y[0] </span> |
| <a name="l00254"></a>00254 <span class="comment"> */</span> |
| <a name="l00255"></a>00255 |
| <a name="l00256"></a>00256 <span class="comment">/* Working pointer of inputA */</span> |
| <a name="l00257"></a>00257 px = pIn1; |
| <a name="l00258"></a>00258 |
| <a name="l00259"></a>00259 <span class="comment">/* Working pointer of inputB */</span> |
| <a name="l00260"></a>00260 pSrc2 = pIn2 + (srcBLen - 1u); |
| <a name="l00261"></a>00261 py = pSrc2; |
| <a name="l00262"></a>00262 |
| <a name="l00263"></a>00263 <span class="comment">/* count is index by which the pointer pIn1 to be incremented */</span> |
| <a name="l00264"></a>00264 count = 1u; |
| <a name="l00265"></a>00265 |
| <a name="l00266"></a>00266 <span class="comment">/* ------------------- </span> |
| <a name="l00267"></a>00267 <span class="comment"> * Stage2 process </span> |
| <a name="l00268"></a>00268 <span class="comment"> * ------------------*/</span> |
| <a name="l00269"></a>00269 |
| <a name="l00270"></a>00270 <span class="comment">/* Stage2 depends on srcBLen as in this stage srcBLen number of MACS are performed. </span> |
| <a name="l00271"></a>00271 <span class="comment"> * So, to loop unroll over blockSize2, </span> |
| <a name="l00272"></a>00272 <span class="comment"> * srcBLen should be greater than or equal to 4 */</span> |
| <a name="l00273"></a>00273 <span class="keywordflow">if</span>(srcBLen >= 4u) |
| <a name="l00274"></a>00274 { |
| <a name="l00275"></a>00275 <span class="comment">/* Loop unroll over blockSize2, by 4 */</span> |
| <a name="l00276"></a>00276 blkCnt = ((uint32_t) blockSize2 >> 2u); |
| <a name="l00277"></a>00277 |
| <a name="l00278"></a>00278 <span class="keywordflow">while</span>(blkCnt > 0u) |
| <a name="l00279"></a>00279 { |
| <a name="l00280"></a>00280 <span class="comment">/* Set all accumulators to zero */</span> |
| <a name="l00281"></a>00281 acc0 = 0; |
| <a name="l00282"></a>00282 acc1 = 0; |
| <a name="l00283"></a>00283 acc2 = 0; |
| <a name="l00284"></a>00284 acc3 = 0; |
| <a name="l00285"></a>00285 |
| <a name="l00286"></a>00286 <span class="comment">/* read x[0], x[1], x[2] samples */</span> |
| <a name="l00287"></a>00287 x0 = *(px++); |
| <a name="l00288"></a>00288 x1 = *(px++); |
| <a name="l00289"></a>00289 x2 = *(px++); |
| <a name="l00290"></a>00290 |
| <a name="l00291"></a>00291 <span class="comment">/* Apply loop unrolling and compute 4 MACs simultaneously. */</span> |
| <a name="l00292"></a>00292 k = srcBLen >> 2u; |
| <a name="l00293"></a>00293 |
| <a name="l00294"></a>00294 <span class="comment">/* First part of the processing with loop unrolling. Compute 4 MACs at a time. </span> |
| <a name="l00295"></a>00295 <span class="comment"> ** a second loop below computes MACs for the remaining 1 to 3 samples. */</span> |
| <a name="l00296"></a>00296 <span class="keywordflow">do</span> |
| <a name="l00297"></a>00297 { |
| <a name="l00298"></a>00298 <span class="comment">/* Read y[srcBLen - 1] sample */</span> |
| <a name="l00299"></a>00299 c0 = *(py--); |
| <a name="l00300"></a>00300 <span class="comment">/* Read y[srcBLen - 2] sample */</span> |
| <a name="l00301"></a>00301 c1 = *(py--); |
| <a name="l00302"></a>00302 |
| <a name="l00303"></a>00303 <span class="comment">/* Read x[3] sample */</span> |
| <a name="l00304"></a>00304 x3 = *(px++); |
| <a name="l00305"></a>00305 |
| <a name="l00306"></a>00306 <span class="comment">/* x[0] and x[1] are packed */</span> |
| <a name="l00307"></a>00307 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x0; |
| <a name="l00308"></a>00308 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x1; |
| <a name="l00309"></a>00309 |
| <a name="l00310"></a>00310 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00311"></a>00311 |
| <a name="l00312"></a>00312 <span class="comment">/* y[srcBLen - 1] and y[srcBLen - 2] are packed */</span> |
| <a name="l00313"></a>00313 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) c0; |
| <a name="l00314"></a>00314 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) c1; |
| <a name="l00315"></a>00315 |
| <a name="l00316"></a>00316 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00317"></a>00317 |
| <a name="l00318"></a>00318 <span class="comment">/* acc0 += x[0] * y[srcBLen - 1] + x[1] * y[srcBLen - 2] */</span> |
| <a name="l00319"></a>00319 acc0 = __SMLAD(input1, input2, acc0); |
| <a name="l00320"></a>00320 |
| <a name="l00321"></a>00321 <span class="comment">/* x[1] and x[2] are packed */</span> |
| <a name="l00322"></a>00322 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x1; |
| <a name="l00323"></a>00323 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x2; |
| <a name="l00324"></a>00324 |
| <a name="l00325"></a>00325 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00326"></a>00326 |
| <a name="l00327"></a>00327 <span class="comment">/* acc1 += x[1] * y[srcBLen - 1] + x[2] * y[srcBLen - 2] */</span> |
| <a name="l00328"></a>00328 acc1 = __SMLAD(input1, input2, acc1); |
| <a name="l00329"></a>00329 |
| <a name="l00330"></a>00330 <span class="comment">/* x[2] and x[3] are packed */</span> |
| <a name="l00331"></a>00331 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x2; |
| <a name="l00332"></a>00332 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x3; |
| <a name="l00333"></a>00333 |
| <a name="l00334"></a>00334 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00335"></a>00335 |
| <a name="l00336"></a>00336 <span class="comment">/* acc2 += x[2] * y[srcBLen - 1] + x[3] * y[srcBLen - 2] */</span> |
| <a name="l00337"></a>00337 acc2 = __SMLAD(input1, input2, acc2); |
| <a name="l00338"></a>00338 |
| <a name="l00339"></a>00339 <span class="comment">/* Read x[4] sample */</span> |
| <a name="l00340"></a>00340 x0 = *(px++); |
| <a name="l00341"></a>00341 |
| <a name="l00342"></a>00342 <span class="comment">/* x[3] and x[4] are packed */</span> |
| <a name="l00343"></a>00343 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x3; |
| <a name="l00344"></a>00344 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x0; |
| <a name="l00345"></a>00345 |
| <a name="l00346"></a>00346 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00347"></a>00347 |
| <a name="l00348"></a>00348 <span class="comment">/* acc3 += x[3] * y[srcBLen - 1] + x[4] * y[srcBLen - 2] */</span> |
| <a name="l00349"></a>00349 acc3 = __SMLAD(input1, input2, acc3); |
| <a name="l00350"></a>00350 |
| <a name="l00351"></a>00351 <span class="comment">/* Read y[srcBLen - 3] sample */</span> |
| <a name="l00352"></a>00352 c0 = *(py--); |
| <a name="l00353"></a>00353 <span class="comment">/* Read y[srcBLen - 4] sample */</span> |
| <a name="l00354"></a>00354 c1 = *(py--); |
| <a name="l00355"></a>00355 |
| <a name="l00356"></a>00356 <span class="comment">/* Read x[5] sample */</span> |
| <a name="l00357"></a>00357 x1 = *(px++); |
| <a name="l00358"></a>00358 |
| <a name="l00359"></a>00359 <span class="comment">/* x[2] and x[3] are packed */</span> |
| <a name="l00360"></a>00360 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x2; |
| <a name="l00361"></a>00361 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x3; |
| <a name="l00362"></a>00362 |
| <a name="l00363"></a>00363 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00364"></a>00364 |
| <a name="l00365"></a>00365 <span class="comment">/* y[srcBLen - 3] and y[srcBLen - 4] are packed */</span> |
| <a name="l00366"></a>00366 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) c0; |
| <a name="l00367"></a>00367 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) c1; |
| <a name="l00368"></a>00368 |
| <a name="l00369"></a>00369 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00370"></a>00370 |
| <a name="l00371"></a>00371 <span class="comment">/* acc0 += x[2] * y[srcBLen - 3] + x[3] * y[srcBLen - 4] */</span> |
| <a name="l00372"></a>00372 acc0 = __SMLAD(input1, input2, acc0); |
| <a name="l00373"></a>00373 |
| <a name="l00374"></a>00374 <span class="comment">/* x[3] and x[4] are packed */</span> |
| <a name="l00375"></a>00375 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x3; |
| <a name="l00376"></a>00376 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x0; |
| <a name="l00377"></a>00377 |
| <a name="l00378"></a>00378 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00379"></a>00379 |
| <a name="l00380"></a>00380 <span class="comment">/* acc1 += x[3] * y[srcBLen - 3] + x[4] * y[srcBLen - 4] */</span> |
| <a name="l00381"></a>00381 acc1 = __SMLAD(input1, input2, acc1); |
| <a name="l00382"></a>00382 |
| <a name="l00383"></a>00383 <span class="comment">/* x[4] and x[5] are packed */</span> |
| <a name="l00384"></a>00384 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x0; |
| <a name="l00385"></a>00385 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x1; |
| <a name="l00386"></a>00386 |
| <a name="l00387"></a>00387 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00388"></a>00388 |
| <a name="l00389"></a>00389 <span class="comment">/* acc2 += x[4] * y[srcBLen - 3] + x[5] * y[srcBLen - 4] */</span> |
| <a name="l00390"></a>00390 acc2 = __SMLAD(input1, input2, acc2); |
| <a name="l00391"></a>00391 |
| <a name="l00392"></a>00392 <span class="comment">/* Read x[6] sample */</span> |
| <a name="l00393"></a>00393 x2 = *(px++); |
| <a name="l00394"></a>00394 |
| <a name="l00395"></a>00395 <span class="comment">/* x[5] and x[6] are packed */</span> |
| <a name="l00396"></a>00396 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x1; |
| <a name="l00397"></a>00397 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) x2; |
| <a name="l00398"></a>00398 |
| <a name="l00399"></a>00399 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00400"></a>00400 |
| <a name="l00401"></a>00401 <span class="comment">/* acc3 += x[5] * y[srcBLen - 3] + x[6] * y[srcBLen - 4] */</span> |
| <a name="l00402"></a>00402 acc3 = __SMLAD(input1, input2, acc3); |
| <a name="l00403"></a>00403 |
| <a name="l00404"></a>00404 } <span class="keywordflow">while</span>(--k); |
| <a name="l00405"></a>00405 |
| <a name="l00406"></a>00406 <span class="comment">/* If the srcBLen is not a multiple of 4, compute any remaining MACs here. </span> |
| <a name="l00407"></a>00407 <span class="comment"> ** No loop unrolling is used. */</span> |
| <a name="l00408"></a>00408 k = srcBLen % 0x4u; |
| <a name="l00409"></a>00409 |
| <a name="l00410"></a>00410 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00411"></a>00411 { |
| <a name="l00412"></a>00412 <span class="comment">/* Read y[srcBLen - 5] sample */</span> |
| <a name="l00413"></a>00413 c0 = *(py--); |
| <a name="l00414"></a>00414 |
| <a name="l00415"></a>00415 <span class="comment">/* Read x[7] sample */</span> |
| <a name="l00416"></a>00416 x3 = *(px++); |
| <a name="l00417"></a>00417 |
| <a name="l00418"></a>00418 <span class="comment">/* Perform the multiply-accumulates */</span> |
| <a name="l00419"></a>00419 <span class="comment">/* acc0 += x[4] * y[srcBLen - 5] */</span> |
| <a name="l00420"></a>00420 acc0 += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) x0 * c0); |
| <a name="l00421"></a>00421 <span class="comment">/* acc1 += x[5] * y[srcBLen - 5] */</span> |
| <a name="l00422"></a>00422 acc1 += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) x1 * c0); |
| <a name="l00423"></a>00423 <span class="comment">/* acc2 += x[6] * y[srcBLen - 5] */</span> |
| <a name="l00424"></a>00424 acc2 += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) x2 * c0); |
| <a name="l00425"></a>00425 <span class="comment">/* acc3 += x[7] * y[srcBLen - 5] */</span> |
| <a name="l00426"></a>00426 acc3 += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) x3 * c0); |
| <a name="l00427"></a>00427 |
| <a name="l00428"></a>00428 <span class="comment">/* Reuse the present samples for the next MAC */</span> |
| <a name="l00429"></a>00429 x0 = x1; |
| <a name="l00430"></a>00430 x1 = x2; |
| <a name="l00431"></a>00431 x2 = x3; |
| <a name="l00432"></a>00432 |
| <a name="l00433"></a>00433 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00434"></a>00434 k--; |
| <a name="l00435"></a>00435 } |
| <a name="l00436"></a>00436 |
| <a name="l00437"></a>00437 <span class="comment">/* Store the result in the accumulator in the destination buffer. */</span> |
| <a name="l00438"></a>00438 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(acc0 >> 7, 8)); |
| <a name="l00439"></a>00439 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(acc1 >> 7, 8)); |
| <a name="l00440"></a>00440 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(acc2 >> 7, 8)); |
| <a name="l00441"></a>00441 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(acc3 >> 7, 8)); |
| <a name="l00442"></a>00442 |
| <a name="l00443"></a>00443 <span class="comment">/* Update the inputA and inputB pointers for next MAC calculation */</span> |
| <a name="l00444"></a>00444 px = pIn1 + count * 4u; |
| <a name="l00445"></a>00445 py = pSrc2; |
| <a name="l00446"></a>00446 |
| <a name="l00447"></a>00447 <span class="comment">/* Increment the pointer pIn1 index, count by 1 */</span> |
| <a name="l00448"></a>00448 count++; |
| <a name="l00449"></a>00449 |
| <a name="l00450"></a>00450 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00451"></a>00451 blkCnt--; |
| <a name="l00452"></a>00452 } |
| <a name="l00453"></a>00453 |
| <a name="l00454"></a>00454 <span class="comment">/* If the blockSize2 is not a multiple of 4, compute any remaining output samples here. </span> |
| <a name="l00455"></a>00455 <span class="comment"> ** No loop unrolling is used. */</span> |
| <a name="l00456"></a>00456 blkCnt = (uint32_t) blockSize2 % 0x4u; |
| <a name="l00457"></a>00457 |
| <a name="l00458"></a>00458 <span class="keywordflow">while</span>(blkCnt > 0u) |
| <a name="l00459"></a>00459 { |
| <a name="l00460"></a>00460 <span class="comment">/* Accumulator is made zero for every iteration */</span> |
| <a name="l00461"></a>00461 sum = 0; |
| <a name="l00462"></a>00462 |
| <a name="l00463"></a>00463 <span class="comment">/* Apply loop unrolling and compute 4 MACs simultaneously. */</span> |
| <a name="l00464"></a>00464 k = srcBLen >> 2u; |
| <a name="l00465"></a>00465 |
| <a name="l00466"></a>00466 <span class="comment">/* First part of the processing with loop unrolling. Compute 4 MACs at a time. </span> |
| <a name="l00467"></a>00467 <span class="comment"> ** a second loop below computes MACs for the remaining 1 to 3 samples. */</span> |
| <a name="l00468"></a>00468 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00469"></a>00469 { |
| <a name="l00470"></a>00470 |
| <a name="l00471"></a>00471 <span class="comment">/* Reading two inputs of SrcA buffer and packing */</span> |
| <a name="l00472"></a>00472 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00473"></a>00473 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00474"></a>00474 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00475"></a>00475 |
| <a name="l00476"></a>00476 <span class="comment">/* Reading two inputs of SrcB buffer and packing */</span> |
| <a name="l00477"></a>00477 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00478"></a>00478 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00479"></a>00479 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00480"></a>00480 |
| <a name="l00481"></a>00481 <span class="comment">/* Perform the multiply-accumulates */</span> |
| <a name="l00482"></a>00482 sum = __SMLAD(input1, input2, sum); |
| <a name="l00483"></a>00483 |
| <a name="l00484"></a>00484 <span class="comment">/* Reading two inputs of SrcA buffer and packing */</span> |
| <a name="l00485"></a>00485 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00486"></a>00486 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00487"></a>00487 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00488"></a>00488 |
| <a name="l00489"></a>00489 <span class="comment">/* Reading two inputs of SrcB buffer and packing */</span> |
| <a name="l00490"></a>00490 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00491"></a>00491 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00492"></a>00492 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00493"></a>00493 |
| <a name="l00494"></a>00494 <span class="comment">/* Perform the multiply-accumulates */</span> |
| <a name="l00495"></a>00495 sum = __SMLAD(input1, input2, sum); |
| <a name="l00496"></a>00496 |
| <a name="l00497"></a>00497 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00498"></a>00498 k--; |
| <a name="l00499"></a>00499 } |
| <a name="l00500"></a>00500 |
| <a name="l00501"></a>00501 <span class="comment">/* If the srcBLen is not a multiple of 4, compute any remaining MACs here. </span> |
| <a name="l00502"></a>00502 <span class="comment"> ** No loop unrolling is used. */</span> |
| <a name="l00503"></a>00503 k = srcBLen % 0x4u; |
| <a name="l00504"></a>00504 |
| <a name="l00505"></a>00505 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00506"></a>00506 { |
| <a name="l00507"></a>00507 <span class="comment">/* Perform the multiply-accumulates */</span> |
| <a name="l00508"></a>00508 sum += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) * px++ * *py--); |
| <a name="l00509"></a>00509 |
| <a name="l00510"></a>00510 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00511"></a>00511 k--; |
| <a name="l00512"></a>00512 } |
| <a name="l00513"></a>00513 |
| <a name="l00514"></a>00514 <span class="comment">/* Store the result in the accumulator in the destination buffer. */</span> |
| <a name="l00515"></a>00515 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(sum >> 7, 8)); |
| <a name="l00516"></a>00516 |
| <a name="l00517"></a>00517 <span class="comment">/* Update the inputA and inputB pointers for next MAC calculation */</span> |
| <a name="l00518"></a>00518 px = pIn1 + count; |
| <a name="l00519"></a>00519 py = pSrc2; |
| <a name="l00520"></a>00520 |
| <a name="l00521"></a>00521 <span class="comment">/* Increment the pointer pIn1 index, count by 1 */</span> |
| <a name="l00522"></a>00522 count++; |
| <a name="l00523"></a>00523 |
| <a name="l00524"></a>00524 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00525"></a>00525 blkCnt--; |
| <a name="l00526"></a>00526 } |
| <a name="l00527"></a>00527 } |
| <a name="l00528"></a>00528 <span class="keywordflow">else</span> |
| <a name="l00529"></a>00529 { |
| <a name="l00530"></a>00530 <span class="comment">/* If the srcBLen is not a multiple of 4, </span> |
| <a name="l00531"></a>00531 <span class="comment"> * the blockSize2 loop cannot be unrolled by 4 */</span> |
| <a name="l00532"></a>00532 blkCnt = (uint32_t) blockSize2; |
| <a name="l00533"></a>00533 |
| <a name="l00534"></a>00534 <span class="keywordflow">while</span>(blkCnt > 0u) |
| <a name="l00535"></a>00535 { |
| <a name="l00536"></a>00536 <span class="comment">/* Accumulator is made zero for every iteration */</span> |
| <a name="l00537"></a>00537 sum = 0; |
| <a name="l00538"></a>00538 |
| <a name="l00539"></a>00539 <span class="comment">/* srcBLen number of MACS should be performed */</span> |
| <a name="l00540"></a>00540 k = <a class="code" href="arm__convolution__example__f32_8c.html#aea71286f498978c5ed3775609b974fc8">srcBLen</a>; |
| <a name="l00541"></a>00541 |
| <a name="l00542"></a>00542 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00543"></a>00543 { |
| <a name="l00544"></a>00544 <span class="comment">/* Perform the multiply-accumulate */</span> |
| <a name="l00545"></a>00545 sum += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) * px++ * *py--); |
| <a name="l00546"></a>00546 |
| <a name="l00547"></a>00547 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00548"></a>00548 k--; |
| <a name="l00549"></a>00549 } |
| <a name="l00550"></a>00550 |
| <a name="l00551"></a>00551 <span class="comment">/* Store the result in the accumulator in the destination buffer. */</span> |
| <a name="l00552"></a>00552 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(sum >> 7, 8)); |
| <a name="l00553"></a>00553 |
| <a name="l00554"></a>00554 <span class="comment">/* Update the inputA and inputB pointers for next MAC calculation */</span> |
| <a name="l00555"></a>00555 px = pIn1 + count; |
| <a name="l00556"></a>00556 py = pSrc2; |
| <a name="l00557"></a>00557 |
| <a name="l00558"></a>00558 <span class="comment">/* Increment the MAC count */</span> |
| <a name="l00559"></a>00559 count++; |
| <a name="l00560"></a>00560 |
| <a name="l00561"></a>00561 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00562"></a>00562 blkCnt--; |
| <a name="l00563"></a>00563 } |
| <a name="l00564"></a>00564 } |
| <a name="l00565"></a>00565 |
| <a name="l00566"></a>00566 |
| <a name="l00567"></a>00567 <span class="comment">/* -------------------------- </span> |
| <a name="l00568"></a>00568 <span class="comment"> * Initializations of stage3 </span> |
| <a name="l00569"></a>00569 <span class="comment"> * -------------------------*/</span> |
| <a name="l00570"></a>00570 |
| <a name="l00571"></a>00571 <span class="comment">/* sum += x[srcALen-srcBLen+1] * y[srcBLen-1] + x[srcALen-srcBLen+2] * y[srcBLen-2] +...+ x[srcALen-1] * y[1] </span> |
| <a name="l00572"></a>00572 <span class="comment"> * sum += x[srcALen-srcBLen+2] * y[srcBLen-1] + x[srcALen-srcBLen+3] * y[srcBLen-2] +...+ x[srcALen-1] * y[2] </span> |
| <a name="l00573"></a>00573 <span class="comment"> * .... </span> |
| <a name="l00574"></a>00574 <span class="comment"> * sum += x[srcALen-2] * y[srcBLen-1] + x[srcALen-1] * y[srcBLen-2] </span> |
| <a name="l00575"></a>00575 <span class="comment"> * sum += x[srcALen-1] * y[srcBLen-1] </span> |
| <a name="l00576"></a>00576 <span class="comment"> */</span> |
| <a name="l00577"></a>00577 |
| <a name="l00578"></a>00578 <span class="comment">/* In this stage the MAC operations are decreased by 1 for every iteration. </span> |
| <a name="l00579"></a>00579 <span class="comment"> The count variable holds the number of MAC operations performed */</span> |
| <a name="l00580"></a>00580 count = srcBLen - 1u; |
| <a name="l00581"></a>00581 |
| <a name="l00582"></a>00582 <span class="comment">/* Working pointer of inputA */</span> |
| <a name="l00583"></a>00583 pSrc1 = (pIn1 + <a class="code" href="arm__convolution__example__f32_8c.html#ace48ed566e2cd6a680f0681192e6af28">srcALen</a>) - (srcBLen - 1u); |
| <a name="l00584"></a>00584 px = pSrc1; |
| <a name="l00585"></a>00585 |
| <a name="l00586"></a>00586 <span class="comment">/* Working pointer of inputB */</span> |
| <a name="l00587"></a>00587 pSrc2 = pIn2 + (srcBLen - 1u); |
| <a name="l00588"></a>00588 py = pSrc2; |
| <a name="l00589"></a>00589 |
| <a name="l00590"></a>00590 <span class="comment">/* ------------------- </span> |
| <a name="l00591"></a>00591 <span class="comment"> * Stage3 process </span> |
| <a name="l00592"></a>00592 <span class="comment"> * ------------------*/</span> |
| <a name="l00593"></a>00593 |
| <a name="l00594"></a>00594 <span class="keywordflow">while</span>(blockSize3 > 0) |
| <a name="l00595"></a>00595 { |
| <a name="l00596"></a>00596 <span class="comment">/* Accumulator is made zero for every iteration */</span> |
| <a name="l00597"></a>00597 sum = 0; |
| <a name="l00598"></a>00598 |
| <a name="l00599"></a>00599 <span class="comment">/* Apply loop unrolling and compute 4 MACs simultaneously. */</span> |
| <a name="l00600"></a>00600 k = count >> 2u; |
| <a name="l00601"></a>00601 |
| <a name="l00602"></a>00602 <span class="comment">/* First part of the processing with loop unrolling. Compute 4 MACs at a time. </span> |
| <a name="l00603"></a>00603 <span class="comment"> ** a second loop below computes MACs for the remaining 1 to 3 samples. */</span> |
| <a name="l00604"></a>00604 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00605"></a>00605 { |
| <a name="l00606"></a>00606 <span class="comment">/* Reading two inputs, x[srcALen - srcBLen + 1] and x[srcALen - srcBLen + 2] of SrcA buffer and packing */</span> |
| <a name="l00607"></a>00607 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00608"></a>00608 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00609"></a>00609 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00610"></a>00610 |
| <a name="l00611"></a>00611 <span class="comment">/* Reading two inputs, y[srcBLen - 1] and y[srcBLen - 2] of SrcB buffer and packing */</span> |
| <a name="l00612"></a>00612 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00613"></a>00613 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00614"></a>00614 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00615"></a>00615 |
| <a name="l00616"></a>00616 <span class="comment">/* sum += x[srcALen - srcBLen + 1] * y[srcBLen - 1] */</span> |
| <a name="l00617"></a>00617 <span class="comment">/* sum += x[srcALen - srcBLen + 2] * y[srcBLen - 2] */</span> |
| <a name="l00618"></a>00618 sum = __SMLAD(input1, input2, sum); |
| <a name="l00619"></a>00619 |
| <a name="l00620"></a>00620 <span class="comment">/* Reading two inputs, x[srcALen - srcBLen + 3] and x[srcALen - srcBLen + 4] of SrcA buffer and packing */</span> |
| <a name="l00621"></a>00621 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00622"></a>00622 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * px++; |
| <a name="l00623"></a>00623 input1 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00624"></a>00624 |
| <a name="l00625"></a>00625 <span class="comment">/* Reading two inputs, y[srcBLen - 3] and y[srcBLen - 4] of SrcB buffer and packing */</span> |
| <a name="l00626"></a>00626 in1 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00627"></a>00627 in2 = (<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) * py--; |
| <a name="l00628"></a>00628 input2 = ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in1 & 0x0000FFFF) | ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) in2 << 16); |
| <a name="l00629"></a>00629 |
| <a name="l00630"></a>00630 <span class="comment">/* sum += x[srcALen - srcBLen + 3] * y[srcBLen - 3] */</span> |
| <a name="l00631"></a>00631 <span class="comment">/* sum += x[srcALen - srcBLen + 4] * y[srcBLen - 4] */</span> |
| <a name="l00632"></a>00632 sum = __SMLAD(input1, input2, sum); |
| <a name="l00633"></a>00633 |
| <a name="l00634"></a>00634 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00635"></a>00635 k--; |
| <a name="l00636"></a>00636 } |
| <a name="l00637"></a>00637 |
| <a name="l00638"></a>00638 <span class="comment">/* If the count is not a multiple of 4, compute any remaining MACs here. </span> |
| <a name="l00639"></a>00639 <span class="comment"> ** No loop unrolling is used. */</span> |
| <a name="l00640"></a>00640 k = count % 0x4u; |
| <a name="l00641"></a>00641 |
| <a name="l00642"></a>00642 <span class="keywordflow">while</span>(k > 0u) |
| <a name="l00643"></a>00643 { |
| <a name="l00644"></a>00644 <span class="comment">/* Perform the multiply-accumulates */</span> |
| <a name="l00645"></a>00645 <span class="comment">/* sum += x[srcALen-1] * y[srcBLen-1] */</span> |
| <a name="l00646"></a>00646 sum += ((<a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a>) * px++ * *py--); |
| <a name="l00647"></a>00647 |
| <a name="l00648"></a>00648 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00649"></a>00649 k--; |
| <a name="l00650"></a>00650 } |
| <a name="l00651"></a>00651 |
| <a name="l00652"></a>00652 <span class="comment">/* Store the result in the accumulator in the destination buffer. */</span> |
| <a name="l00653"></a>00653 *pOut++ = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) (__SSAT(sum >> 7, 8)); |
| <a name="l00654"></a>00654 |
| <a name="l00655"></a>00655 <span class="comment">/* Update the inputA and inputB pointers for next MAC calculation */</span> |
| <a name="l00656"></a>00656 px = ++pSrc1; |
| <a name="l00657"></a>00657 py = pSrc2; |
| <a name="l00658"></a>00658 |
| <a name="l00659"></a>00659 <span class="comment">/* Decrement the MAC count */</span> |
| <a name="l00660"></a>00660 count--; |
| <a name="l00661"></a>00661 |
| <a name="l00662"></a>00662 <span class="comment">/* Decrement the loop counter */</span> |
| <a name="l00663"></a>00663 blockSize3--; |
| <a name="l00664"></a>00664 |
| <a name="l00665"></a>00665 } |
| <a name="l00666"></a>00666 |
| <a name="l00667"></a>00667 <span class="comment">/* set status as ARM_MATH_SUCCESS */</span> |
| <a name="l00668"></a>00668 status = <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6a9f8b2a10bd827fb4600e77d455902eb0">ARM_MATH_SUCCESS</a>; |
| <a name="l00669"></a>00669 } |
| <a name="l00670"></a>00670 |
| <a name="l00671"></a>00671 <span class="comment">/* Return to application */</span> |
| <a name="l00672"></a>00672 <span class="keywordflow">return</span> (status); |
| <a name="l00673"></a>00673 |
| <a name="l00674"></a>00674 <span class="preprocessor">#else</span> |
| <a name="l00675"></a>00675 <span class="preprocessor"></span> |
| <a name="l00676"></a>00676 <span class="comment">/* Run the below code for Cortex-M0 */</span> |
| <a name="l00677"></a>00677 |
| <a name="l00678"></a>00678 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *pIn1 = pSrcA; <span class="comment">/* inputA pointer */</span> |
| <a name="l00679"></a>00679 <a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a> *pIn2 = pSrcB; <span class="comment">/* inputB pointer */</span> |
| <a name="l00680"></a>00680 <a class="code" href="arm__math_8h.html#adc89a3547f5324b7b3b95adec3806bc0" title="32-bit fractional data type in 1.31 format.">q31_t</a> sum; <span class="comment">/* Accumulator */</span> |
| <a name="l00681"></a>00681 uint32_t i, j; <span class="comment">/* loop counters */</span> |
| <a name="l00682"></a>00682 <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6" title="Error status returned by some functions in the library.">arm_status</a> <a class="code" href="arm__dotproduct__example__f32_8c.html#a88ccb294236ab22b00310c47164c53c3">status</a>; <span class="comment">/* status of Partial convolution */</span> |
| <a name="l00683"></a>00683 |
| <a name="l00684"></a>00684 <span class="comment">/* Check for range of output samples to be calculated */</span> |
| <a name="l00685"></a>00685 <span class="keywordflow">if</span>((firstIndex + numPoints) > ((srcALen + (srcBLen - 1u)))) |
| <a name="l00686"></a>00686 { |
| <a name="l00687"></a>00687 <span class="comment">/* Set status as ARM_ARGUMENT_ERROR */</span> |
| <a name="l00688"></a>00688 status = <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6a74897e18d4b8f62b12a7d8a01dd2bb35">ARM_MATH_ARGUMENT_ERROR</a>; |
| <a name="l00689"></a>00689 } |
| <a name="l00690"></a>00690 <span class="keywordflow">else</span> |
| <a name="l00691"></a>00691 { |
| <a name="l00692"></a>00692 <span class="comment">/* Loop to calculate convolution for output length number of values */</span> |
| <a name="l00693"></a>00693 <span class="keywordflow">for</span> (i = firstIndex; i <= (firstIndex + numPoints - 1); i++) |
| <a name="l00694"></a>00694 { |
| <a name="l00695"></a>00695 <span class="comment">/* Initialize sum with zero to carry on MAC operations */</span> |
| <a name="l00696"></a>00696 sum = 0; |
| <a name="l00697"></a>00697 |
| <a name="l00698"></a>00698 <span class="comment">/* Loop to perform MAC operations according to convolution equation */</span> |
| <a name="l00699"></a>00699 <span class="keywordflow">for</span> (j = 0; j <= i; j++) |
| <a name="l00700"></a>00700 { |
| <a name="l00701"></a>00701 <span class="comment">/* Check the array limitations */</span> |
| <a name="l00702"></a>00702 <span class="keywordflow">if</span>(((i - j) < <a class="code" href="arm__convolution__example__f32_8c.html#aea71286f498978c5ed3775609b974fc8">srcBLen</a>) && (j < srcALen)) |
| <a name="l00703"></a>00703 { |
| <a name="l00704"></a>00704 <span class="comment">/* z[i] += x[i-j] * y[j] */</span> |
| <a name="l00705"></a>00705 sum += ((<a class="code" href="arm__math_8h.html#ab5a8fb21a5b3b983d5f54f31614052ea" title="16-bit fractional data type in 1.15 format.">q15_t</a>) pIn1[j] * (pIn2[i - j])); |
| <a name="l00706"></a>00706 } |
| <a name="l00707"></a>00707 } |
| <a name="l00708"></a>00708 |
| <a name="l00709"></a>00709 <span class="comment">/* Store the output in the destination buffer */</span> |
| <a name="l00710"></a>00710 pDst[i] = (<a class="code" href="arm__math_8h.html#ae541b6f232c305361e9b416fc9eed263" title="8-bit fractional data type in 1.7 format.">q7_t</a>) __SSAT((sum >> 7u), 8u); |
| <a name="l00711"></a>00711 } |
| <a name="l00712"></a>00712 <span class="comment">/* set status as ARM_SUCCESS as there are no argument errors */</span> |
| <a name="l00713"></a>00713 status = <a class="code" href="arm__math_8h.html#a5e459c6409dfcd2927bb8a57491d7cf6a9f8b2a10bd827fb4600e77d455902eb0">ARM_MATH_SUCCESS</a>; |
| <a name="l00714"></a>00714 } |
| <a name="l00715"></a>00715 <span class="keywordflow">return</span> (status); |
| <a name="l00716"></a>00716 |
| <a name="l00717"></a>00717 <span class="preprocessor">#endif </span><span class="comment">/* #ifndef ARM_MATH_CM0 */</span> |
| <a name="l00718"></a>00718 |
| <a name="l00719"></a>00719 } |
| <a name="l00720"></a>00720 |
| </pre></div></div> |
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