Add calibration routine from shell
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@ -19,9 +19,11 @@
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#include <reflow-controller/calibration.h>
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#include <reflow-controller/adc-meas.h>
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#include <stm-periph/uart.h>
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#include <helper-macros/helper-macros.h>
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#include <arm_math.h>
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#include <stdlib.h>
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#include <float.h>
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void calibration_calculate(float low_measured, float low_setpoint, float high_measured, float high_setpoint,
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float *sens_deviation, float *sens_corrected_offset)
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@ -44,23 +46,24 @@ void calibration_calculate(float low_measured, float low_setpoint, float high_me
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int calibration_acquire_data(float *mu, float *sigma, uint32_t count)
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int calibration_acquire_data(float *mu, float *max_dev, uint32_t count)
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{
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int status;
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float *stream_mem;
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float min_val = FLT_MAX;
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float max_val = -FLT_MAX;
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uint32_t i;
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int ret_val = 0;
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static volatile int flag = 0;
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if (!mu || !sigma || !count)
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if (!mu || !max_dev || !count)
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return -1000;
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stream_mem = (float *)calloc(count, sizeof(float));
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if (!stream_mem)
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return -2;
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/* Clear errors of PT1000 reading */
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adc_pt1000_clear_error();
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status = adc_pt1000_stream_raw_value_to_memory(stream_mem, count, &flag);
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if (status)
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return status;
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@ -70,7 +73,8 @@ int calibration_acquire_data(float *mu, float *sigma, uint32_t count)
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if (flag != 1) {
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/* Error */
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return -1;
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ret_val = -1;
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goto ret_free_mem;
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}
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/* Convert the stream memory to Ohm readings */
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@ -79,10 +83,87 @@ int calibration_acquire_data(float *mu, float *sigma, uint32_t count)
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/* Do not compute std-deviation. Too imprecise
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* arm_std_f32(stream_mem, count, sigma);
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*/
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*sigma = 0;
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arm_mean_f32(stream_mem, count, mu);
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/* Find min and max values of array */
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for (i = 0U; i < count; i++) {
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min_val = MIN(min_val, stream_mem[i]);
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max_val = MAX(max_val, stream_mem[i]);
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}
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/* Compute maximum deviation range */
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*max_dev = max_val - min_val;
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ret_free_mem:
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free(stream_mem);
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return ret_val;
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}
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static void wait_for_uart_enter()
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{
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int enter_received = 0;
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const char *recv_data;
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size_t recv_len;
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size_t iter;
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int uart_recv_status;
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do {
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uart_recv_status = uart_receive_data_with_dma(&recv_data, &recv_len);
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if (uart_recv_status >= 1) {
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for (iter = 0; iter < recv_len; iter++) {
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if (recv_data[iter] == '\n' || recv_data[iter] == '\r')
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enter_received = 1;
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}
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}
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} while (enter_received == 0);
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}
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int calibration_sequence_shell_cmd(shellmatta_handle_t shell)
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{
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float mu, mu2, dev, dev2;
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float sens_dev, offset;
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/* Clear errors of PT1000 reading */
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adc_pt1000_clear_error();
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shellmatta_printf(shell, "Starting calibration: Insert 1000 Ohm calibration resistor and press ENTER\r\n");
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wait_for_uart_enter();
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shellmatta_printf(shell, "Measurement...\r\n");
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/* Clear errors of PT1000 reading */
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adc_pt1000_clear_error();
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calibration_acquire_data(&mu, &dev, 512UL);
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shellmatta_printf(shell, "R=%.2f, Noise peak-peak: %.2f\r\n", mu, dev);
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if (adc_pt1000_check_error() != ADC_PT1000_NO_ERR) {
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shellmatta_printf(shell, "Error in resistance measurement: %d", adc_pt1000_check_error());
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return -1;
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}
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/* Measure 2nd calibration point */
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shellmatta_printf(shell, "Insert 2000 Ohm calibration resistor and press ENTER\r\n");
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wait_for_uart_enter();
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shellmatta_printf(shell, "Measurement...\r\n");
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/* Clear errors of PT1000 reading */
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adc_pt1000_clear_error();
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calibration_acquire_data(&mu2, &dev2, 512UL);
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shellmatta_printf(shell, "R=%.2f, Noise peak-peak: %.2f\r\n", mu2, dev2);
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if (adc_pt1000_check_error() != ADC_PT1000_NO_ERR) {
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shellmatta_printf(shell, "Error in resistance measurement: %d", adc_pt1000_check_error());
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return -2;
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}
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/* Check noise values */
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if (dev > CALIBRATION_MAX_PEAK_PEAK_NOISE_OHM || dev2 > CALIBRATION_MAX_PEAK_PEAK_NOISE_OHM) {
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shellmatta_printf(shell, "Calibration failed! Too much noise. Check you're hardware.\r\n");
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return -3;
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}
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/* Calculate calibration */
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calibration_calculate(mu, 1000.0f, mu2, 2000.0f, &sens_dev, &offset);
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shellmatta_printf(shell, "Calibration done:\r\n\tSENS_DEVIATION: %.4f\r\n\tOFFSET_CORR: %.2f\r\n", sens_dev, offset);
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adc_pt1000_set_resistance_calibration(offset, sens_dev, true);
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return 0;
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}
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@ -11,4 +11,7 @@
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#define COUNT_OF(x) ((sizeof(x)/sizeof(0[x])) / ((size_t)(!(sizeof(x) % sizeof(0[x])))))
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#define MIN(a,b) (((a) < (b)) ? (a) : (b))
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#define MAX(a,b) (((a) > (b)) ? (a) : (b))
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#endif /* __HELPER_MACROS_H__ */
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@ -20,13 +20,16 @@
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#ifndef __CALIBRATION_H__
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#define __CALIBRATION_H__
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#define CALIBRATION_MAX_STDDEV_OHM 1.0f
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#define CALIBRATION_MAX_PEAK_PEAK_NOISE_OHM 8.0f
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#include <stdint.h>
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#include <shellmatta.h>
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void calibration_calculate(float low_measured, float low_setpoint, float high_measured, float high_setpoint,
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float *sens_deviation, float *sens_corrected_offset);
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int calibration_acquire_data(float *mu, float *sigma, uint32_t count);
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int calibration_acquire_data(float *mu, float *max_dev, uint32_t count);
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int calibration_sequence_shell_cmd(shellmatta_handle_t shell);
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#endif /* __CALIBRATION_H__ */
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@ -51,7 +51,7 @@ int dma_ring_buffer_periph_to_mem_initialize(struct dma_ring_buffer_to_mem *dma_
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* @param[in] buff Ring buffer structure
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* @param[out] data_buff Pointer to set to new data. This must not be modified!
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* @param[out] len Length in elements
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* @return 0 if successful (data, no data), -1 if error, and 1 if data with wrap around. Call function again in this case to retrieve rest after wrap around.
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* @return 0 if successful, but no data), -1 if error, 1 if data, and 2 if data with wrap around. Call function again in this case to retrieve rest after wrap around.
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*/
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int dma_ring_buffer_periph_to_mem_get_data(struct dma_ring_buffer_to_mem *buff, const void **data_buff, size_t *len);
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@ -31,6 +31,7 @@ int main()
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const char *uart_input;
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size_t uart_input_len;
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shellmatta_handle_t shell_handle;
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int uart_receive_status;
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setup_nvic_priorities();
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systick_setup();
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@ -51,11 +52,10 @@ int main()
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while(1) {
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pt1000_value_status = adc_pt1000_get_current_resistance(&pt1000_value);
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if (uart_receive_data_with_dma(&uart_input, &uart_input_len) >= 0) {
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uart_receive_status = uart_receive_data_with_dma(&uart_input, &uart_input_len);
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if (uart_receive_status >= 1)
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shell_handle_input(shell_handle, uart_input, uart_input_len);
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}
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//systick_wait_ms(300);
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}
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}
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@ -152,14 +152,14 @@ static shellmatta_retCode_t shell_cmd_uptime(const shellmatta_handle_t handle,
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_acquire_val(const shellmatta_handle_t handle,
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static shellmatta_retCode_t shell_cmd_cal(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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float mu, sigma;
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(void)arguments;
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(void)length;
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calibration_acquire_data(&mu, &sigma, 128U);
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shellmatta_printf(handle, "mu: %.2f\r\nsigma: %.3f\r\n", mu, sigma);
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calibration_sequence_shell_cmd(handle);
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return SHELLMATTA_OK;
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}
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//typedef struct shellmatta_cmd
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@ -222,11 +222,11 @@ static shellmatta_cmd_t cmd[7] = {
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.next = &cmd[6],
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},
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{
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.cmd = "pt1000-acquire",
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.cmdAlias = "ptac",
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.helpText = "Acquire 128 samples",
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.cmd = "calibrate",
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.cmdAlias = "cal",
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.helpText = "Calibrate resistance measurement",
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.usageText = "",
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.cmdFct = shell_cmd_acquire_val,
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.cmdFct = shell_cmd_cal,
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.next = NULL,
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}
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};
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@ -81,11 +81,12 @@ int dma_ring_buffer_periph_to_mem_get_data(struct dma_ring_buffer_to_mem *buff,
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*data_buff = &(((char *)buff->data_ptr)[buff->get_idx * buff->element_size]);
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*len = buff->buffer_count - buff->get_idx;
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buff->get_idx = 0;
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ret_code = 1;
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ret_code = 2;
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} else if (put_idx > buff->get_idx) {
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*data_buff = &(((char *)buff->data_ptr)[buff->get_idx * buff->element_size]);
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*len = put_idx - buff->get_idx;
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buff->get_idx += *len;
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ret_code = 1;
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} else {
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/* No new data */
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*len = 0;
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@ -67,6 +67,6 @@ int _read(void)
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int _write(int fd, const void *buf, int count)
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{
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if (fd == 1)
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uart_send_array((char*)buf, count);
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uart_send_array_with_dma((char*)buf, count);
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return count;
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}
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