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C

/*
* Code generated from Atmel Start.
*
* This file will be overwritten when reconfiguring your Atmel Start project.
* Please copy examples or other code you want to keep to a separate file
* to avoid losing it when reconfiguring.
*/
#include "driver_examples.h"
#include "driver_init.h"
#include "utils.h"
/**
* Example of using EXTERNAL_IRQ_0
*/
void EXTERNAL_IRQ_0_example(void)
{
}
/**
* Example of using QUAD_SPI_0 to get N25Q256A status value,
* and check bit 0 which indicate embedded operation is busy or not.
*/
void QUAD_SPI_0_example(void)
{
uint8_t status = 0xFF;
struct _qspi_command cmd = {
.inst_frame.bits.inst_en = 1,
.inst_frame.bits.data_en = 1,
.inst_frame.bits.tfr_type = QSPI_READ_ACCESS,
.instruction = 0x05,
.buf_len = 1,
.rx_buf = &status,
};
qspi_sync_enable(&QUAD_SPI_0);
while (status & (1 << 0)) {
qspi_sync_serial_run_command(&QUAD_SPI_0, &cmd);
}
qspi_sync_deinit(&QUAD_SPI_0);
}
static struct timer_task TIMER_0_task1, TIMER_0_task2;
/**
* Example of using TIMER_0.
*/
static void TIMER_0_task1_cb(const struct timer_task *const timer_task)
{
}
static void TIMER_0_task2_cb(const struct timer_task *const timer_task)
{
}
void TIMER_0_example(void)
{
TIMER_0_task1.interval = 100;
TIMER_0_task1.cb = TIMER_0_task1_cb;
TIMER_0_task1.mode = TIMER_TASK_REPEAT;
TIMER_0_task2.interval = 200;
TIMER_0_task2.cb = TIMER_0_task2_cb;
TIMER_0_task2.mode = TIMER_TASK_REPEAT;
timer_add_task(&TIMER_0, &TIMER_0_task1);
timer_add_task(&TIMER_0, &TIMER_0_task2);
timer_start(&TIMER_0);
}
/**
* Example of using USART_0 to write "Hello World" using the IO abstraction.
*/
void USART_0_example(void)
{
struct io_descriptor *io;
usart_sync_get_io_descriptor(&USART_0, &io);
usart_sync_enable(&USART_0);
io_write(io, (uint8_t *)"Hello World!", 12);
}
void I2C_0_example(void)
{
struct io_descriptor *I2C_0_io;
i2c_m_sync_get_io_descriptor(&I2C_0, &I2C_0_io);
i2c_m_sync_enable(&I2C_0);
i2c_m_sync_set_slaveaddr(&I2C_0, 0x12, I2C_M_SEVEN);
io_write(I2C_0_io, (uint8_t *)"Hello World!", 12);
}
void delay_example(void)
{
delay_ms(5000);
}
static struct timer_task TIMER_1_task1, TIMER_1_task2;
/**
* Example of using TIMER_1.
*/
static void TIMER_1_task1_cb(const struct timer_task *const timer_task)
{
}
static void TIMER_1_task2_cb(const struct timer_task *const timer_task)
{
}
void TIMER_1_example(void)
{
TIMER_1_task1.interval = 100;
TIMER_1_task1.cb = TIMER_1_task1_cb;
TIMER_1_task1.mode = TIMER_TASK_REPEAT;
TIMER_1_task2.interval = 200;
TIMER_1_task2.cb = TIMER_1_task2_cb;
TIMER_1_task2.mode = TIMER_TASK_REPEAT;
timer_add_task(&TIMER_1, &TIMER_1_task1);
timer_add_task(&TIMER_1, &TIMER_1_task2);
timer_start(&TIMER_1);
}