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jeremybenn |
/*This file is prepared for Doxygen automatic documentation generation.*/
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/*! \file *********************************************************************
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*
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* \brief AT32UC3A EVK1100 board LEDs support package.
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*
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* This file contains definitions and services related to the LED features of
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* the EVK1100 board.
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*
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* - Compiler: IAR EWAVR32 and GNU GCC for AVR32
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* - Supported devices: All AVR32 AT32UC3A devices can be used.
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* - AppNote:
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*
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* \author Atmel Corporation: http://www.atmel.com \n
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* Support and FAQ: http://support.atmel.no/
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*
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******************************************************************************/
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/* Copyright (c) 2007, Atmel Corporation All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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*
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* 1. Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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*
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* 2. Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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*
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* 3. The name of ATMEL may not be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY ATMEL ``AS IS'' AND ANY EXPRESS OR IMPLIED
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* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY AND
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* SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT,
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* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <avr32/io.h>
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#include "preprocessor.h"
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#include "compiler.h"
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#include "evk1100.h"
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#include "led.h"
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//! Structure describing LED hardware connections.
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typedef const struct
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{
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struct
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{
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U32 PORT; //!< LED GPIO port.
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U32 PIN_MASK; //!< Bit-mask of LED pin in GPIO port.
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} GPIO; //!< LED GPIO descriptor.
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struct
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{
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S32 CHANNEL; //!< LED PWM channel (< 0 if N/A).
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S32 FUNCTION; //!< LED pin PWM function (< 0 if N/A).
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} PWM; //!< LED PWM descriptor.
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} tLED_DESCRIPTOR;
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//! Hardware descriptors of all LEDs.
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static tLED_DESCRIPTOR LED_DESCRIPTOR[LED_COUNT] =
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{
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#define INSERT_LED_DESCRIPTOR(LED_NO, unused) \
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{ \
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{LED##LED_NO##_GPIO / 32, 1 << (LED##LED_NO##_GPIO % 32)},\
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{LED##LED_NO##_PWM, LED##LED_NO##_PWM_FUNCTION } \
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},
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MREPEAT(LED_COUNT, INSERT_LED_DESCRIPTOR, ~)
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#undef INSERT_LED_DESCRIPTOR
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};
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//! Saved state of all LEDs.
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static volatile U32 LED_State = (1 << LED_COUNT) - 1;
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U32 LED_Read_Display(void)
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{
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return LED_State;
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}
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void LED_Display(U32 leds)
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{
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tLED_DESCRIPTOR *led_descriptor;
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volatile avr32_gpio_port_t *led_gpio_port;
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leds &= (1 << LED_COUNT) - 1;
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LED_State = leds;
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for (led_descriptor = &LED_DESCRIPTOR[0];
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led_descriptor < LED_DESCRIPTOR + LED_COUNT;
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led_descriptor++)
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{
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led_gpio_port = &AVR32_GPIO.port[led_descriptor->GPIO.PORT];
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if (leds & 1)
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{
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led_gpio_port->ovrc = led_descriptor->GPIO.PIN_MASK;
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}
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else
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{
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led_gpio_port->ovrs = led_descriptor->GPIO.PIN_MASK;
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}
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led_gpio_port->oders = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->gpers = led_descriptor->GPIO.PIN_MASK;
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leds >>= 1;
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}
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}
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U32 LED_Read_Display_Mask(U32 mask)
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{
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return Rd_bits(LED_State, mask);
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}
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void LED_Display_Mask(U32 mask, U32 leds)
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{
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tLED_DESCRIPTOR *led_descriptor = &LED_DESCRIPTOR[0] - 1;
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volatile avr32_gpio_port_t *led_gpio_port;
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U8 led_shift;
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mask &= (1 << LED_COUNT) - 1;
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Wr_bits(LED_State, mask, leds);
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while (mask)
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{
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led_shift = 1 + ctz(mask);
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led_descriptor += led_shift;
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led_gpio_port = &AVR32_GPIO.port[led_descriptor->GPIO.PORT];
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leds >>= led_shift - 1;
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if (leds & 1)
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{
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led_gpio_port->ovrc = led_descriptor->GPIO.PIN_MASK;
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}
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else
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{
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led_gpio_port->ovrs = led_descriptor->GPIO.PIN_MASK;
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}
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led_gpio_port->oders = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->gpers = led_descriptor->GPIO.PIN_MASK;
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leds >>= 1;
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mask >>= led_shift;
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}
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}
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Bool LED_Test(U32 leds)
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{
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return Tst_bits(LED_State, leds);
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}
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void LED_Off(U32 leds)
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{
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tLED_DESCRIPTOR *led_descriptor = &LED_DESCRIPTOR[0] - 1;
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volatile avr32_gpio_port_t *led_gpio_port;
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U8 led_shift;
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leds &= (1 << LED_COUNT) - 1;
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Clr_bits(LED_State, leds);
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while (leds)
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{
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led_shift = 1 + ctz(leds);
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led_descriptor += led_shift;
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led_gpio_port = &AVR32_GPIO.port[led_descriptor->GPIO.PORT];
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led_gpio_port->ovrs = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->oders = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->gpers = led_descriptor->GPIO.PIN_MASK;
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leds >>= led_shift;
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}
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}
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void LED_On(U32 leds)
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{
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tLED_DESCRIPTOR *led_descriptor = &LED_DESCRIPTOR[0] - 1;
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volatile avr32_gpio_port_t *led_gpio_port;
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U8 led_shift;
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leds &= (1 << LED_COUNT) - 1;
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Set_bits(LED_State, leds);
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while (leds)
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{
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led_shift = 1 + ctz(leds);
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led_descriptor += led_shift;
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led_gpio_port = &AVR32_GPIO.port[led_descriptor->GPIO.PORT];
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led_gpio_port->ovrc = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->oders = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->gpers = led_descriptor->GPIO.PIN_MASK;
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leds >>= led_shift;
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}
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}
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void LED_Toggle(U32 leds)
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{
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tLED_DESCRIPTOR *led_descriptor = &LED_DESCRIPTOR[0] - 1;
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volatile avr32_gpio_port_t *led_gpio_port;
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U8 led_shift;
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leds &= (1 << LED_COUNT) - 1;
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Tgl_bits(LED_State, leds);
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while (leds)
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{
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led_shift = 1 + ctz(leds);
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led_descriptor += led_shift;
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led_gpio_port = &AVR32_GPIO.port[led_descriptor->GPIO.PORT];
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led_gpio_port->ovrt = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->oders = led_descriptor->GPIO.PIN_MASK;
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led_gpio_port->gpers = led_descriptor->GPIO.PIN_MASK;
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leds >>= led_shift;
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}
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}
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U32 LED_Read_Display_Field(U32 field)
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{
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return Rd_bitfield(LED_State, field);
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}
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void LED_Display_Field(U32 field, U32 leds)
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{
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LED_Display_Mask(field, leds << ctz(field));
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}
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U8 LED_Get_Intensity(U32 led)
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{
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tLED_DESCRIPTOR *led_descriptor;
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// Check that the argument value is valid.
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led = ctz(led);
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led_descriptor = &LED_DESCRIPTOR[led];
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if (led >= LED_COUNT || led_descriptor->PWM.CHANNEL < 0) return 0;
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// Return the duty cycle value if the LED PWM channel is enabled, else 0.
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return (AVR32_PWM.sr & (1 << led_descriptor->PWM.CHANNEL)) ?
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AVR32_PWM.channel[led_descriptor->PWM.CHANNEL].cdty : 0;
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}
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void LED_Set_Intensity(U32 leds, U8 intensity)
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{
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tLED_DESCRIPTOR *led_descriptor = &LED_DESCRIPTOR[0] - 1;
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volatile avr32_pwm_channel_t *led_pwm_channel;
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volatile avr32_gpio_port_t *led_gpio_port;
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U8 led_shift;
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// For each specified LED...
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for (leds &= (1 << LED_COUNT) - 1; leds; leds >>= led_shift)
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{
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// Select the next specified LED and check that it has a PWM channel.
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led_shift = 1 + ctz(leds);
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led_descriptor += led_shift;
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if (led_descriptor->PWM.CHANNEL < 0) continue;
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// Initialize or update the LED PWM channel.
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led_pwm_channel = &AVR32_PWM.channel[led_descriptor->PWM.CHANNEL];
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if (!(AVR32_PWM.sr & (1 << led_descriptor->PWM.CHANNEL)))
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{
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led_pwm_channel->cmr = (AVR32_PWM_CPRE_MCK << AVR32_PWM_CPRE_OFFSET) &
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~(AVR32_PWM_CALG_MASK |
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AVR32_PWM_CPOL_MASK |
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AVR32_PWM_CPD_MASK);
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led_pwm_channel->cprd = 0x000000FF;
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led_pwm_channel->cdty = intensity;
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AVR32_PWM.ena = 1 << led_descriptor->PWM.CHANNEL;
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}
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else
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{
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AVR32_PWM.isr;
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while (!(AVR32_PWM.isr & (1 << led_descriptor->PWM.CHANNEL)));
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led_pwm_channel->cupd = intensity;
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}
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// Switch the LED pin to its PWM function.
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led_gpio_port = &AVR32_GPIO.port[led_descriptor->GPIO.PORT];
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if (led_descriptor->PWM.FUNCTION & 0x1)
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{
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led_gpio_port->pmr0s = led_descriptor->GPIO.PIN_MASK;
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}
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else
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{
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led_gpio_port->pmr0c = led_descriptor->GPIO.PIN_MASK;
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}
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if (led_descriptor->PWM.FUNCTION & 0x2)
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{
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led_gpio_port->pmr1s = led_descriptor->GPIO.PIN_MASK;
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}
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else
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{
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led_gpio_port->pmr1c = led_descriptor->GPIO.PIN_MASK;
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}
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led_gpio_port->gperc = led_descriptor->GPIO.PIN_MASK;
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}
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}
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