Scanner rev_114

1. /********* Pleasedontcode.com **********
2.  
3.     Pleasedontcode thanks you for automatic code generation! Enjoy your code!
4.  
5.     - Terms and Conditions:
6.     You have a non-exclusive, revocable, worldwide, royalty-free license
7.     for personal and commercial use. Attribution is optional; modifications
8.     are allowed, but you're responsible for code maintenance. We're not
9.     liable for any loss or damage. For full terms,
10.     please visit pleasedontcode.com/termsandconditions.
11.  
12.     - Project: Scanner
13.     - Source Code compiled for: Arduino Mega
14.     - Source Code created on: 2023-11-07 00:00:30
15.     - Source Code generated by: AlexWind
16.  
17. ********* Pleasedontcode.com **********/
18. /****** DEFINITION OF LIBRARIES *****/
19. #include <Arduino.h>
20.  
21. /****** SYSTEM REQUIREMENT 1 *****/
22. /* if temperature is above 100°C so provide */
23. /* information via serial monitor. */
24.  
25. /****** FUNCTION PROTOTYPES *****/
26. void setup(void);
27. void loop(void);
28. void updateInputs(void);
29. float lookup_phyData_from_voltage(float voltage, int segment_points, const float* voltage_phyData_lookup);
30. float map_f(float x, float in_min, float in_max, float out_min, float out_max);
31. void convertInputsFromRawToPhyData(void);
32.  
33. /***** DEFINITION OF ANALOG INPUT PINS *****/
34. const uint8_t sensore_PIN_A0 = A0;
35.  
36. /****** DEFINITION OF ANALOG INPUTS CHARACTERISTIC CURVES *****/
37. const uint8_t SEGMENT_POINTS_voltage_Temperature_PIN_A0 = 3;
38. const float voltage_Temperature_PIN_A0_lookup[2][SEGMENT_POINTS_voltage_Temperature_PIN_A0] PROGMEM =
39. {
40.     {0.0, 2.0, 3.0},    //Voltage [V]
41.     {20.0, 60.0, 100.0}    //Temperature [°C]
42. };
43.  
44. /***** DEFINITION OF INPUT RAW VARIABLES *****/
45. /***** used to store raw data *****/
46. unsigned int sensore_PIN_A0_rawData = 0; // Analog Input
47.  
48. /***** DEFINITION OF INPUT PHYSICAL VARIABLES *****/
49. /***** used to store data after characteristic curve transformation *****/
50. float sensore_PIN_A0_phyData = 0.0; // Temperature [°C]
51.  
52. void setup(void)
53. {
54.     // put your setup code here, to run once:
55.     pinMode(sensore_PIN_A0, INPUT);
56.     Serial.begin(9600);
57. }
58.  
59. void loop(void)
60. {
61.     // put your main code here, to run repeatedly:
62.     updateInputs(); // Refresh input data
63.     convertInputsFromRawToPhyData(); // after that updateInput function is called, so raw data are transformed in physical data in according to characteristic curve
64.  
65.     if (sensore_PIN_A0_phyData > 100.0) {
66.         Serial.println("Temperature is above 100°C");
67.     }
68. }
69.  
70. void updateInputs()
71. {
72.     sensore_PIN_A0_rawData = analogRead(sensore_PIN_A0);
73. }
74.  
75. /* BLOCK lookup_phyData_from_voltage */
76. float lookup_phyData_from_voltage(float voltage, int segment_points, const float* voltage_phyData_lookup)
77. {
78.     // Search table for appropriate value.
79.     uint8_t index = 0;
80.  
81.     const float *voltagePointer = &voltage_phyData_lookup[0];
82.     const float *phyDataPointer = &voltage_phyData_lookup[segment_points];
83.  
84.     // Perform minimum and maximum voltage saturation based on characteristic curve
85.     voltage = min(voltage, voltagePointer[segment_points-1]);
86.     voltage = max(voltage, voltagePointer[0]);
87.  
88.     while( pgm_read_float(voltagePointer[index]) <= voltage && index < segment_points )
89.         index++;
90.  
91.     // If index is zero, physical value is smaller than our table range
92.     if( index==0 )
93.     {
94.         return map_f( voltage,
95.             pgm_read_float(voltagePointer[0]),   // X1
96.             pgm_read_float(voltagePointer[1]),   // X2
97.             pgm_read_float(phyDataPointer[0]),   // Y1
98.             pgm_read_float(phyDataPointer[1]) ); // Y2
99.     }
100.     // If index is maxed out, phyisical value is larger than our range.
101.     else if( index==segment_points )
102.     {
103.         return map_f( voltage,
104.             pgm_read_float(voltagePointer[segment_points-2]),   // X1
105.             pgm_read_float(voltagePointer[segment_points-1]),   // X2
106.             pgm_read_float(phyDataPointer[segment_points-2]),   // Y1
107.             pgm_read_float(phyDataPointer[segment_points-1]) ); // Y2
108.     }
109.     // index is between 0 and max, just right
110.     else
111.     {
112.         return map_f( voltage,
113.             pgm_read_float(voltagePointer[index-1]), // X1
114.             pgm_read_float(voltagePointer[index]),    // X2
115.             pgm_read_float(phyDataPointer[index-1]), // Y1
116.             pgm_read_float(phyDataPointer[index]) );  // Y2
117.     }
118. }
119. /* END BLOCK lookup_phyData_from_voltage */
120.  
121. /* BLOCK map_f */
122. float map_f(float x, float in_min, float in_max, float out_min, float out_max)
123. {
124.     return (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min;
125. }
126. /* END BLOCK map_f */
127.  
128. /* BLOCK convertInputsFromRawToPhyData */
129. void convertInputsFromRawToPhyData()
130. {
131.     float voltage = 0.0;
132.  
133.     voltage = sensore_PIN_A0_rawData * (5.0 / 1023.0);
134.     sensore_PIN_A0_phyData = lookup_phyData_from_voltage(voltage, SEGMENT_POINTS_voltage_Temperature_PIN_A0, &(voltage_Temperature_PIN_A0_lookup[0][0]));
135.  
136. }
137. /* END BLOCK convertInputsFromRawToPhyData */
138.