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amiro-lld / source / alld_tlc5947.c @ f125ae07

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/*
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AMiRo-LLD is a compilation of low-level hardware drivers for the Autonomous Mini Robot (AMiRo) platform.
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Copyright (C) 2016..2019  Thomas Schöpping et al.
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program.  If not, see <http://www.gnu.org/licenses/>.
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*/
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/**
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 * @file    alld_tlc5947.c
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 * @brief   LED Driver function implementations.
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 *
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 * @addtogroup lld_leddriver
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 * @{
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 */
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#include <alld_tlc5947.h>
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#if defined(AMIROLLD_CFG_USE_TLC5947) || defined(__DOXYGEN__)
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/**
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 * @brief   Set the blank state of the TLC5947.
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 * @param[in] tlc5947   The TLC5947 driver object.
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 * @param[in] blank     The state to set the TLC5947 driver to.
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 * @return              An indicator whether the call was successful.
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 */
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inline apalExitStatus_t
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tlc5947_lld_setBlank(const TLC5947Driver* const tlc5947, const tlc5947_lld_blank_t blank)
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{
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  apalDbgAssert(tlc5947 != NULL);
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  // set the output value of the GPIO pin depending on the activation property
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  return apalControlGpioSet(tlc5947->blank_gpio, blank == TLC5947_LLD_BLANK_ENABLE ? APAL_GPIO_ON : APAL_GPIO_OFF);
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}
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/**
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 * @brief   Get the current status of the TLC5947s blank pin.
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 * @param[in]  tlc5947  The TLC5947 driver object.
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 * @param[out] blank    The state object to fill.
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 * @return              An indicator whether the call was successful.
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 */
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inline apalExitStatus_t
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tlc5947_lld_getBlank(const TLC5947Driver* const tlc5947, tlc5947_lld_blank_t* const blank)
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{
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  apalDbgAssert(tlc5947 != NULL);
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  apalDbgAssert(blank != NULL);
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  apalControlGpioState_t gpio_state;
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  apalExitStatus_t status = apalControlGpioGet(tlc5947->blank_gpio, &gpio_state);
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  *blank = gpio_state == APAL_GPIO_ON ? TLC5947_LLD_BLANK_ENABLE : TLC5947_LLD_BLANK_DISABLE;
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  return status;
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}
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/**
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 * @brief   Writes a pulse on XLAT signal.
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 * @details A pulse makes the TLC to move the grayscale register data to the internal latch and visualize it.
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 * @param[in] tlc5947   The TLC5947 driver object.
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 * @return              An indicator whether the call was successful.
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 */
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apalExitStatus_t tlc5947_lld_update(const TLC5947Driver* const tlc5947)
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{
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  apalDbgAssert(tlc5947 != NULL);
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  apalExitStatus_t status = apalControlGpioSet(tlc5947->xlat_gpio, APAL_GPIO_ON);
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  // The XLAT signal has to be active for at least 30 ns.
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  // It is assumed that that these function calls satisfy this requirement even without explicit delay.
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  if (apalControlGpioSet(tlc5947->xlat_gpio, APAL_GPIO_OFF) == APAL_STATUS_OK && status == APAL_STATUS_OK) {
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    return APAL_STATUS_OK;
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  } else {
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    return APAL_STATUS_ERROR;
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  }
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}
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/**
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 * @brief Write buffer via SPI to the TLC5947.
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 * @return                  An indicator whether the call was successful.
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 */
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inline apalExitStatus_t
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tlc5947_lld_write(const TLC5947Driver* const tlc5947, const tlc5947_lld_buffer_t* const buffer)
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{
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  apalDbgAssert(tlc5947 != NULL);
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  apalDbgAssert(buffer != NULL);
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  // send buffer via SPI
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  return apalSPITransmit(tlc5947->spi_driver, buffer->data, TLC5947_LLD_BUFFER_SIZE);
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}
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/**
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 * @brief   Set a specific channel of a given buffer.
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 * @param[in] buffer    The buffer to modify.
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 * @param[in] channel   The channel to set.
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 * @param[in] value     The new value to set.
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 *                      Must be a 12bit value.
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 * @return              An indicator whether the call was successful.
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 */
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inline void
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tlc5947_lld_setBuffer(tlc5947_lld_buffer_t* const buffer, const uint8_t channel, const uint16_t value)
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{
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  apalDbgAssert(buffer != NULL);
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  apalDbgAssert(channel < TLC5947_LLD_NUM_CHANNELS);
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  apalDbgAssert(value <= (1 << TLC5947_LLD_PWM_RESOLUTION_BITS) - 1);
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  // reverse the channel number, since the data is shifted within the TLC5947 and thus the order is inverted
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  const uint8_t idx = (uint16_t)(TLC5947_LLD_NUM_CHANNELS-1 - channel) * TLC5947_LLD_PWM_RESOLUTION_BITS / 8;
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  // channel is odd / inverse channel is even
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  if (channel % 2) {
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    buffer->data[idx] = (value >> 4) & 0xFFu;
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    buffer->data[idx+1] = ((value << 4) & 0xF0u) | (buffer->data[idx+1] & 0x0Fu);
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  }
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  // channel is even / inverse channel is odd
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  else {
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    buffer->data[idx] = (buffer->data[idx] & 0xF0u) | ((value >> 8) & 0x0Fu);
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    buffer->data[idx+1] = value & 0xFFu;
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  }
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  return;
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}
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/**
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 * @brief   Read a specific state from a given buffer.
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 * @param[in] buffer    The buffer to read from.
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 * @param[in] channel   The channel to read
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 * @return              An indicator whether the call was successful.
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 */
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inline uint16_t
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tlc5947_lld_getBuffer(const tlc5947_lld_buffer_t* const buffer, const uint8_t channel)
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{
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  apalDbgAssert(buffer != NULL);
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  apalDbgAssert(channel < TLC5947_LLD_NUM_CHANNELS);
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  // reverse the channel number, since the data is shifted within the TLC5947 and thus the order is inverted
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  const uint8_t idx = (uint16_t)(TLC5947_LLD_NUM_CHANNELS-1- channel) * TLC5947_LLD_PWM_RESOLUTION_BITS / 8;
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  // channel is odd / inverse channel is even
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  if (channel % 2) {
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    return (((uint16_t)(buffer->data[idx])) << 4) | (uint16_t)((buffer->data[idx+1] & 0xF0u) >> 4);
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  }
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  // channel is even / inverse channel is odd
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  else {
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    return (((uint16_t)(buffer->data[idx] & 0x0Fu)) << 8) | (uint16_t)(buffer->data[idx+1]);
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  }
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}
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#endif /* defined(AMIROLLD_CFG_USE_TLC5947) */
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/** @} */