Statistics
| Branch: | Tag: | Revision:

amiro-os / include / amiro / Lidar.h @ 2af9778e

History | View | Annotate | Download (7.266 KB)

1
#ifndef LIDAR_H_
2
#define LIDAR_H_
3

    
4
// Top view
5
/*                                                 __________
6
//                                               /     |     \
7
//                                              /      O      \
8
//                                             /  H O K U Y O  \
9
//                                             |                |
10
//                                             |                |
11
//                                              \    U R G     /
12
// scannedData[NUMBER_OF_STEPS] = END_STEP       \/          \/   STARTING_STEP = scannedData[0]
13
//                                                \__________/
14
*/
15

    
16
#include <string.h> // memcpy
17
#include <stdlib.h>
18

    
19
#include <amiro/bus/spi/HWSPIDriver.hpp>
20
#include <amiro/Constants.h> // CAN::LIGHT_RING_ID
21
#include <ch.hpp>
22
#include <hal.h>
23
#include <chprintf.h>
24
#include <evtimer.h>
25

    
26
// DO CONFIGURATION HERE : START
27
// Important: SD_SPEED_PREFIX + SD_SPEED has to have 6 characters: e.g. 019200 or 115200
28
#define SD_SPEED_PREFIX   // Prefix < 0     | 0     |        |        |        |        >
29
#define SD_SPEED 250000 // Baudrate < 19200 | 57600 | 115200 | 250000 | 500000 | 750000 >
30
#define UPDATE_LIDAR_PERIOD_MSEC MS2ST(1000)  // Periodic sensor value fetch in ms
31
// Scan acquire message : START
32
// Uncomment the specific character decoding to make it available
33
#define USE_2CHAR_CODE
34
// #define USE_3CHAR_CODE  // TODO Not implemented yet
35
#define DATA_ACQ_2CHAR_CODE "MS"
36
#define DATA_ACQ_3CHAR_CODE "MD"
37
// Important: STARTING_STEP_PREFIX + STARTING_STEP has to have 4 characters: e.g. 0005 0044 0320
38
#define STARTING_STEP_PREFIX 00
39
#define STARTING_STEP 44
40
// Important: END_STEP_PREFIX + END_STEP has to have 4 characters: e.g. 0005 0725 0320
41
#define END_STEP_PREFIX 0
42
#define END_STEP 725
43
#define CLUSTER_COUNT 00
44
#define SCAN_INTERVALL 0
45
#define NUMBER_OF_INTERVALL 01
46
// Scan acquire message : END
47
// DO CONFIGURATION HERE : END
48

    
49
// Internal calculations and definitions
50
#if defined(USE_2CHAR_CODE) && defined(USE_3CHAR_CODE)
51
#  error("USE_2CHAR_CODE and USE_3CHAR_CODE are defined. Only one of them is allowed!")
52
#elif !defined(USE_2CHAR_CODE) && !defined(USE_3CHAR_CODE)
53
#  error("USE_2CHAR_CODE and USE_3CHAR_CODE are not defined. Define one of them!")
54
#elif defined(USE_2CHAR_CODE)
55
#  define DATA_ACQ_CODE DATA_ACQ_2CHAR_CODE
56
#  define NUMBER_OF_CHARACTERS (END_STEP - STARTING_STEP + 1) * 2
57
#elif defined(USE_3CHAR_CODE)
58
#  define DATA_ACQ_CODE DATA_ACQ_3CHAR_CODE
59
#  define NUMBER_OF_CHARACTERS (END_STEP - STARTING_STEP + 1) * 3
60
#endif
61
#define NUMBER_OF_STEPS (END_STEP - STARTING_STEP + 1)
62

    
63
#define STR_HELPER(x) #x
64
#define STR(x) STR_HELPER(x)
65

    
66
#define LF "\n"
67

    
68
namespace amiro {
69

    
70
  class Lidar : public chibios_rt::BaseStaticThread<256> {
71
  public:
72
    /**
73
    * Possible setups for the LIDAR: POWER_ONLY (The LIDAR will be powererd, but no serial IO is performed [Need for USB IO]); SERIAL_IO (Power and serial communication via lidar driver)
74
    */
75
    enum SETUP {POWER_ONLY, SERIAL_IO};
76

    
77
    /**
78
    * Writes the last scan into the given array
79
    *
80
    * @param scanData Array of size NUMBER_OF_STEPS which will be override
81
    *                 with the scanned data
82
    *
83
    * @return True if scanData holds the current data, False if no data have been copied
84
    */
85
    bool_t getScan(uint16_t (&scanData)[NUMBER_OF_STEPS]);
86

    
87
    /**
88
    * Returns the value NUMBER_OF_STEPS which is the amount of datapoints per scan
89
    *
90
    * @return Amount of data in one scan
91
    */
92
    uint16_t getNumberOfValues();
93

    
94
  protected:
95
    virtual msg_t main();
96

    
97
    /**
98
    * Do a scan and update the datapoints in scanData
99
    */
100
    msg_t updateSensorVal();
101

    
102
    /**
103
    * Print received data until "\n\n" was received
104
    */
105
    void printData();
106

    
107
    /**
108
    * Receive data until "\n\n" and compare it to the given string
109
    * Note: If the command did not work, use printData() instead
110
    *       and compare the reply with chapter "9. Response to Invalid Commands"
111
    *
112
    * @param compareString String to compare with
113
    *
114
    * @return True if string was equal, false if not
115
    */
116
    bool_t checkDataString(const char compareString[]);
117
    /**
118
    *  Send the command which let the LIDAR send its details
119
    */
120
    void printDetails();
121

    
122
    /**
123
    *  Send the command which let the LIDAR send its specifications
124
    */
125
    void printSpecification();
126

    
127
    /**
128
    *  Send the command which let the LIDAR send its information
129
    */
130
    void printInformation();
131

    
132
    /**
133
    *  Tells you, if the sensor is ready for work
134
    *
135
    *  @return True for operability, False if not
136
    */
137
    inline bool_t getIsReady();
138

    
139
    /**
140
    *  Do the two character encoding after the manual
141
    *
142
    *  @param char1 High character
143
    *  @param char2 Low character
144
    *
145
    *  @return Encoded data
146
    */
147
    inline uint16_t twoCharacterEncoding(uint8_t &char1, uint8_t &char2);
148

    
149
    /**
150
    *  Blocking function which writes the received character to the given variable
151
    *
152
    *  @param data Container for the variable
153
    *  @param timeoutMs Timeout in millisecond
154
    *
155
    *  @return True if data was received, False if timed out (NOTE timeoutMs should by much smaller than UPDATE_LIDAR_PERIOD_MSEC)
156
    */
157
    bool_t getData(uint8_t &data, uint32_t timeoutMs);
158

    
159
    /**
160
    * Container for the scanned data
161
    *
162
    * @brief The "+1" character is for holding the last sum which is transmitted
163
    *        by the LIDAR. It is not used, but it makes the algorithm much easier
164
    *        we we do not care about it
165
    */
166
    static uint8_t scannedData[NUMBER_OF_CHARACTERS + 1];
167

    
168
    /**
169
    *  Flushes the input queue of the SD2 serial device
170
    */
171
    inline void flushSD2InputQueue();
172

    
173
    /**
174
    * Possible states for the receiver state machine
175
    */
176
    enum STATE {SEND_SCAN_CMD, DATA_VALID_CHECK, DATA_START_CHECK, DATA_RECORD, DATA_DECODE, DATA_SHOW, FAIL, FINISH};
177

    
178
    /**
179
    * Current state of the machine
180
    */
181
    STATE step = SEND_SCAN_CMD;
182

    
183
    /**
184
    * This is the status which comes after the command echo "\n99b\n"
185
    */
186
    const uint8_t validScanTag[5] =  {10,57,57,98,10};
187

    
188
    /**
189
    * Index for the received status
190
    */
191
    uint8_t checkStatusIdx = 0;
192

    
193
    /**
194
    * Index for the received status
195
    */
196

    
197
    /**
198
    * Hold the board id
199
    */
200
    uint8_t boardId;
201

    
202
    /**
203
    * Hold the setup configuration for the lidar
204
    */
205
    SETUP setup;
206

    
207
    /**
208
    * Holds the current input
209
    */
210
    uint8_t newInput = 0xFF;
211

    
212
    /**
213
    * Holds the last input
214
    */
215
    uint8_t lastInput = 0xFF;
216

    
217
    /**
218
    * Counter for the received characters of the data points
219
    */
220
    uint16_t dataIdx = 0;
221

    
222
    /**
223
    * Temporary variable which hold the amount of receved bytes
224
    */
225
    uint32_t dataCounter = 0;
226

    
227
    /**
228
    * Holds the information, if scannedData holds the last sensor scan
229
    */
230
    bool_t isReady = false;
231

    
232
    /**
233
    * Holds the information, if the datachunk was not transmitted completely
234
    */
235
    bool_t isFail = false;
236

    
237
  private:
238

    
239
    EvTimer evtimer;
240

    
241
  public:
242
  /**
243
    * Constructor
244
    *
245
    * @param boardId Board ID which can be found in ControllerAreaNetwork.h.
246
    *                It is used to setup the LIDAR for exactly this board
247
    */
248
    Lidar(const uint8_t boardId, Lidar::SETUP setup);
249

    
250
    /**
251
    * Constructor
252
    *
253
    * Disable the LIDAR
254
    * TODO Why "virtual ~Lidar() = 0;"
255
    */
256
    ~Lidar();
257

    
258
  };
259

    
260
}
261
#endif /* LIDAR_H_ */