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https://github.com/DarkFlippers/unleashed-firmware
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* Makefile, Scripts: new linter * About: remove ID from IC * Firmware: remove double define for DIVC/DIVR * Scripts: check folder names too. Docker: replace syntax check with make lint. * Reformat Sources and Migrate to new file naming convention * Docker: symlink clang-format-12 to clang-format * Add coding style guide
366 lines
12 KiB
C
366 lines
12 KiB
C
/******************************************************************************
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* \attention
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*
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* <h2><center>© COPYRIGHT 2020 STMicroelectronics</center></h2>
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*
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* Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (the "License");
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* You may not use this file except in compliance with the License.
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* You may obtain a copy of the License at:
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*
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* www.st.com/myliberty
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied,
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* AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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******************************************************************************/
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/*
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* PROJECT: ST25R3916 firmware
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* Revision:
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* LANGUAGE: ISO C99
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*/
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/*! \file st25r3916_aat.c
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*
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* \author
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*
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* \brief ST25R3916 Antenna Tuning
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*
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* The antenna tuning algorithm tries to find the optimal settings for
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* the AAT_A and AAT_B registers, which are connected to variable capacitors
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* to tune the antenna matching.
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*
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*/
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/*
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******************************************************************************
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* INCLUDES
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******************************************************************************
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*/
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#include "st25r3916_aat.h"
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#include "utils.h"
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#include "st_errno.h"
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#include "st25r3916.h"
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#include "st25r3916_com.h"
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#include "platform.h"
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#include "rfal_chip.h"
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/*
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******************************************************************************
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* GLOBAL DEFINES
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******************************************************************************
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*/
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#define ST25R3916_AAT_CAP_DELAY_MAX 10 /*!< Max Variable Capacitor settle delay */
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/*
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******************************************************************************
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* GLOBAL MACROS
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******************************************************************************
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*/
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#define st25r3916AatLog(...) /* platformLog(__VA_ARGS__) */ /*!< Logging macro */
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/*
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******************************************************************************
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* LOCAL FUNCTION PROTOTYPES
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******************************************************************************
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*/
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static ReturnCode aatHillClimb(
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus);
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static int32_t aatGreedyDescent(
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uint32_t* f_min,
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus,
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int32_t previousDir);
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static int32_t aatSteepestDescent(
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uint32_t* f_min,
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus,
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int32_t previousDir,
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int32_t previousDir2);
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static ReturnCode aatMeasure(
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uint8_t serCap,
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uint8_t parCap,
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uint8_t* amplitude,
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uint8_t* phase,
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uint16_t* measureCnt);
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static uint32_t
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aatCalcF(const struct st25r3916AatTuneParams* tuningParams, uint8_t amplitude, uint8_t phase);
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static ReturnCode aatStepDacVals(
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const struct st25r3916AatTuneParams* tuningParams,
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uint8_t* a,
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uint8_t* b,
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int32_t dir);
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/*******************************************************************************/
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ReturnCode st25r3916AatTune(
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus) {
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ReturnCode err;
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const struct st25r3916AatTuneParams* tp = tuningParams;
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struct st25r3916AatTuneResult* ts = tuningStatus;
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struct st25r3916AatTuneParams defaultTuningParams = {
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.aat_a_min = 0,
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.aat_a_max = 255,
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.aat_a_start = 127,
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.aat_a_stepWidth = 32,
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.aat_b_min = 0,
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.aat_b_max = 255,
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.aat_b_start = 127,
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.aat_b_stepWidth = 32,
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.phaTarget = 128,
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.phaWeight = 2,
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.ampTarget = 196,
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.ampWeight = 1,
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.doDynamicSteps = true,
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.measureLimit = 50,
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};
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struct st25r3916AatTuneResult defaultTuneResult;
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if((NULL != tp) && ((tp->aat_a_min > tp->aat_a_max) || (tp->aat_a_start < tp->aat_a_min) ||
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(tp->aat_a_start > tp->aat_a_max) || (tp->aat_b_min > tp->aat_b_max) ||
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(tp->aat_b_start < tp->aat_b_min) || (tp->aat_b_start > tp->aat_b_max))) {
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return ERR_PARAM;
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}
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if(NULL == tp) { /* Start from current caps with default params */
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st25r3916ReadRegister(ST25R3916_REG_ANT_TUNE_A, &defaultTuningParams.aat_a_start);
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st25r3916ReadRegister(ST25R3916_REG_ANT_TUNE_B, &defaultTuningParams.aat_b_start);
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tp = &defaultTuningParams;
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}
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if(NULL == ts) {
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ts = &defaultTuneResult;
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}
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ts->measureCnt = 0; /* Clear current measure count */
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err = aatHillClimb(tp, ts);
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return err;
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}
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/*******************************************************************************/
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static ReturnCode aatHillClimb(
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus) {
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ReturnCode err = ERR_NONE;
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uint32_t f_min;
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int32_t direction, gdirection;
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uint8_t amp, phs;
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struct st25r3916AatTuneParams tp = *tuningParams; // local copy to obey const
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tuningStatus->aat_a = tuningParams->aat_a_start;
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tuningStatus->aat_b = tuningParams->aat_b_start;
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/* Get a proper start value */
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aatMeasure(tuningStatus->aat_a, tuningStatus->aat_b, &, &phs, &tuningStatus->measureCnt);
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f_min = aatCalcF(&tp, amp, phs);
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direction = 0;
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st25r3916AatLog("%d %d: %d***\n", tuningStatus->aat_a, tuningStatus->aat_b, f_min);
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do {
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direction =
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0; /* Initially and after reducing step sizes we don't have a previous direction */
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do {
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/* With the greedy step below always executed aftwards the -direction does never need to be investigated */
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direction = aatSteepestDescent(&f_min, &tp, tuningStatus, direction, -direction);
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if(tuningStatus->measureCnt > tp.measureLimit) {
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err = ERR_OVERRUN;
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break;
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}
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do {
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gdirection = aatGreedyDescent(&f_min, &tp, tuningStatus, direction);
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if(tuningStatus->measureCnt > tp.measureLimit) {
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err = ERR_OVERRUN;
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break;
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}
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} while(0 != gdirection);
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} while(0 != direction);
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tp.aat_a_stepWidth /= 2U; /* Reduce step sizes */
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tp.aat_b_stepWidth /= 2U;
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} while(tp.doDynamicSteps && ((tp.aat_a_stepWidth > 0U) || (tp.aat_b_stepWidth > 0U)));
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return err;
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}
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/*******************************************************************************/
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static int32_t aatSteepestDescent(
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uint32_t* f_min,
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus,
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int32_t previousDir,
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int32_t previousDir2) {
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int32_t i;
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uint8_t amp, phs;
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uint32_t f;
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int32_t bestdir =
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0; /* Negative direction: decrease, Positive: increase. (-)1: aat_a, (-)2: aat_b */
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for(i = -2; i <= 2; i++) {
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uint8_t a = tuningStatus->aat_a, b = tuningStatus->aat_b;
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if((0 == i) || (i == -previousDir) ||
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(i == -previousDir2)) { /* Skip no direction and avoid going backwards */
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continue;
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}
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if(0U != aatStepDacVals(
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tuningParams,
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&a,
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&b,
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i)) { /* If stepping did not change the value, omit this direction */
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continue;
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}
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aatMeasure(a, b, &, &phs, &tuningStatus->measureCnt);
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f = aatCalcF(tuningParams, amp, phs);
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st25r3916AatLog("%d : %d %d: %d", i, a, b, f);
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if(f < *f_min) { /* Value is better than all previous ones */
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st25r3916AatLog("*");
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*f_min = f;
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bestdir = i;
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}
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st25r3916AatLog("\n");
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}
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if(0 != bestdir) { /* Walk into the best direction */
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aatStepDacVals(tuningParams, &tuningStatus->aat_a, &tuningStatus->aat_b, bestdir);
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}
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return bestdir;
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}
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/*******************************************************************************/
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static int32_t aatGreedyDescent(
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uint32_t* f_min,
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const struct st25r3916AatTuneParams* tuningParams,
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struct st25r3916AatTuneResult* tuningStatus,
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int32_t previousDir) {
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uint8_t amp, phs;
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uint32_t f;
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uint8_t a = tuningStatus->aat_a, b = tuningStatus->aat_b;
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if(0U != aatStepDacVals(
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tuningParams,
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&a,
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&b,
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previousDir)) { /* If stepping did not change the value, omit this direction */
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return 0;
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}
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aatMeasure(a, b, &, &phs, &tuningStatus->measureCnt);
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f = aatCalcF(tuningParams, amp, phs);
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st25r3916AatLog("g : %d %d: %d", a, b, f);
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if(f < *f_min) { /* Value is better than previous one */
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st25r3916AatLog("*\n");
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tuningStatus->aat_a = a;
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tuningStatus->aat_b = b;
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*f_min = f;
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return previousDir;
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}
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st25r3916AatLog("\n");
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return 0;
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}
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/*******************************************************************************/
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static uint32_t
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aatCalcF(const struct st25r3916AatTuneParams* tuningParams, uint8_t amplitude, uint8_t phase) {
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/* f(amp, pha) = (ampWeight * |amp - ampTarget|) + (phaWeight * |pha - phaTarget|) */
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uint8_t ampTarget = tuningParams->ampTarget;
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uint8_t phaTarget = tuningParams->phaTarget;
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uint32_t ampWeight = tuningParams->ampWeight;
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uint32_t phaWeight = tuningParams->phaWeight;
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/* Temp variables to avoid MISRA R10.8 (cast on composite expression) */
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uint8_t ad = ((amplitude > ampTarget) ? (amplitude - ampTarget) : (ampTarget - amplitude));
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uint8_t pd = ((phase > phaTarget) ? (phase - phaTarget) : (phaTarget - phase));
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uint32_t ampDelta = (uint32_t)ad;
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uint32_t phaDelta = (uint32_t)pd;
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return ((ampWeight * ampDelta) + (phaWeight * phaDelta));
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}
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/*******************************************************************************/
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static ReturnCode aatStepDacVals(
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const struct st25r3916AatTuneParams* tuningParams,
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uint8_t* a,
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uint8_t* b,
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int32_t dir) {
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int16_t aat_a = (int16_t)*a, aat_b = (int16_t)*b;
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switch(abs(dir)) { /* Advance by steps size in requested direction */
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case 1:
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aat_a = (dir < 0) ? (aat_a - (int16_t)tuningParams->aat_a_stepWidth) :
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(aat_a + (int16_t)tuningParams->aat_a_stepWidth);
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if(aat_a < (int16_t)tuningParams->aat_a_min) {
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aat_a = (int16_t)tuningParams->aat_a_min;
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}
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if(aat_a > (int16_t)tuningParams->aat_a_max) {
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aat_a = (int16_t)tuningParams->aat_a_max;
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}
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if((int16_t)*a == aat_a) {
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return ERR_PARAM;
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}
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break;
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case 2:
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aat_b = (dir < 0) ? (aat_b - (int16_t)tuningParams->aat_b_stepWidth) :
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(aat_b + (int16_t)tuningParams->aat_b_stepWidth);
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if(aat_b < (int16_t)tuningParams->aat_b_min) {
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aat_b = (int16_t)tuningParams->aat_b_min;
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}
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if(aat_b > (int16_t)tuningParams->aat_b_max) {
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aat_b = (int16_t)tuningParams->aat_b_max;
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}
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if((int16_t)*b == aat_b) {
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return ERR_PARAM;
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}
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break;
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default:
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return ERR_REQUEST;
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}
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/* We only get here if actual values have changed. In all other cases an error is returned */
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*a = (uint8_t)aat_a;
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*b = (uint8_t)aat_b;
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return ERR_NONE;
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}
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/*******************************************************************************/
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static ReturnCode aatMeasure(
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uint8_t serCap,
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uint8_t parCap,
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uint8_t* amplitude,
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uint8_t* phase,
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uint16_t* measureCnt) {
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ReturnCode err;
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*amplitude = 0;
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*phase = 0;
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st25r3916WriteRegister(ST25R3916_REG_ANT_TUNE_A, serCap);
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st25r3916WriteRegister(ST25R3916_REG_ANT_TUNE_B, parCap);
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/* Wait till caps have settled.. */
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platformDelay(ST25R3916_AAT_CAP_DELAY_MAX);
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/* Get amplitude and phase .. */
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err = rfalChipMeasureAmplitude(amplitude);
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if(ERR_NONE == err) {
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err = rfalChipMeasurePhase(phase);
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}
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if(measureCnt != NULL) {
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(*measureCnt)++;
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}
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return err;
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}
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