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watchrobot
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libraries
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AP_RPM
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RPM_Pin.cpp

RPM_Pin.cpp 4.0 KB
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  1. /*
    2. 

  2.    This program is free software: you can redistribute it and/or modify
    3. 

  3.    it under the terms of the GNU General Public License as published by
    4. 

  4.    the Free Software Foundation, either version 3 of the License, or
    5. 

  5.    (at your option) any later version.
    6. 

  6. 

  7.    This program is distributed in the hope that it will be useful,
    8. 

  8.    but WITHOUT ANY WARRANTY; without even the implied warranty of
    9. 

  9.    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    10. 

  10.    GNU General Public License for more details.
    11. 

  11. 

  12.    You should have received a copy of the GNU General Public License
    13. 

  13.    along with this program.  If not, see <http://www.gnu.org/licenses/>.
    14. 

  14.  */
    15. 

  15. 

  16. #include <AP_HAL/AP_HAL.h>
    17. 

  17. #include "RPM_Pin.h"
    18. 

  18. 

  19. #include <AP_HAL/GPIO.h>
    20. 

  20. #include <GCS_MAVLink/GCS.h>
    21. 

  21. 

  22. extern const AP_HAL::HAL& hal;
    23. 

  23. AP_RPM_Pin::IrqState AP_RPM_Pin::irq_state[RPM_MAX_INSTANCES];
    24. 

  24. 

  25. /* 
    26. 

  26.    open the sensor in constructor
    27. 

  27. */
    28. 

  28. AP_RPM_Pin::AP_RPM_Pin(AP_RPM &_ap_rpm, uint8_t instance, AP_RPM::RPM_State &_state) :
    29. 

  29. 	AP_RPM_Backend(_ap_rpm, instance, _state)
    30. 

  30. {
    31. 

  31. }
    32. 

  32. 

  33. /*
    34. 

  34.   handle interrupt on an instance
    35. 

  35.  */
    36. 

  36. void AP_RPM_Pin::irq_handler(uint8_t pin, bool pin_state, uint32_t timestamp)
    37. 

  37. {
    38. 

  38.     const uint32_t dt = timestamp - irq_state[state.instance].last_pulse_us;
    39. 

  39.     irq_state[state.instance].last_pulse_us = timestamp;
    40. 

  40.     // we don't accept pulses less than 100us. Using an irq for such
    41. 

  41.     // high RPM is too inaccurate, and it is probably just bounce of
    42. 

  42.     // the signal which we should ignore
    43. 

  43.     if (dt > 100 && dt < 1000*1000) {
    44. 

  44.         irq_state[state.instance].dt_sum += dt;
    45. 

  45.         irq_state[state.instance].dt_count++;
    46. 

  46.     }
    47. 

  47. }
    48. 

  48. 

  49. void AP_RPM_Pin::update(void)
    50. 

  50. {
    51. 

  51.     if (last_pin != get_pin()) {
    52. 

  52.         // detach from last pin
    53. 

  53.         if (last_pin != (uint8_t)-1 &&
    54. 

  54.             !hal.gpio->detach_interrupt(last_pin)) {
    55. 

  55.             gcs().send_text(MAV_SEVERITY_WARNING, "RPM: Failed to detach from pin %u", last_pin);
    56. 

  56.             // ignore this failure or the user may be stuck
    57. 

  57.         }
    58. 

  58.         irq_state[state.instance].dt_count = 0;
    59. 

  59.         irq_state[state.instance].dt_sum = 0;
    60. 

  60.         // attach to new pin
    61. 

  61.         last_pin = get_pin();
    62. 

  62.         if (last_pin) {
    63. 

  63.             hal.gpio->pinMode(last_pin, HAL_GPIO_INPUT);
    64. 

  64.             if (!hal.gpio->attach_interrupt(
    65. 

  65.                     last_pin,
    66. 

  66.                     FUNCTOR_BIND_MEMBER(&AP_RPM_Pin::irq_handler, void, uint8_t, bool, uint32_t),
    67. 

  67.                     AP_HAL::GPIO::INTERRUPT_RISING)) {
    68. 

  68.                 gcs().send_text(MAV_SEVERITY_WARNING, "RPM: Failed to attach to pin %u", last_pin);
    69. 

  69.             }
    70. 

  70.         }
    71. 

  71.     }
    72. 

  72. 

  73.     if (irq_state[state.instance].dt_count > 0) {
    74. 

  74.         float dt_avg;
    75. 

  75. 

  76.         // disable interrupts to prevent race with irq_handler
    77. 

  77.         void *irqstate = hal.scheduler->disable_interrupts_save();
    78. 

  78.         dt_avg = irq_state[state.instance].dt_sum / irq_state[state.instance].dt_count;
    79. 

  79.         irq_state[state.instance].dt_count = 0;
    80. 

  80.         irq_state[state.instance].dt_sum = 0;
    81. 

  81.         hal.scheduler->restore_interrupts(irqstate);
    82. 

  82. 

  83.         const float scaling = ap_rpm._scaling[state.instance];
    84. 

  84.         float maximum = ap_rpm._maximum[state.instance];
    85. 

  85.         float minimum = ap_rpm._minimum[state.instance];
    86. 

  86.         float quality = 0;
    87. 

  87.         float rpm = scaling * (1.0e6 / dt_avg) * 60;
    88. 

  88.         float filter_value = signal_quality_filter.get();
    89. 

  89. 

  90.         state.rate_rpm = signal_quality_filter.apply(rpm);
    91. 

  91.         
    92. 

  92.         if ((maximum <= 0 || rpm <= maximum) && (rpm >= minimum)) {
    93. 

  93.             if (is_zero(filter_value)){
    94. 

  94.                 quality = 0;
    95. 

  95.             } else {
    96. 

  96.                 quality = 1 - constrain_float((fabsf(rpm-filter_value))/filter_value, 0.0, 1.0);
    97. 

  97.                 quality = powf(quality, 2.0);
    98. 

  98.             }
    99. 

  99.             state.last_reading_ms = AP_HAL::millis();
    100. 

  100.         } else {
    101. 

  101.             quality = 0;
    102. 

  102.         }
    103. 

  103.         state.signal_quality = (0.1 * quality) + (0.9 * state.signal_quality);
    104. 

  104.     }
    105. 

  105.     
    106. 

  106.     // assume we get readings at at least 1Hz, otherwise reset quality to zero
    107. 

  107.     if (AP_HAL::millis() - state.last_reading_ms > 1000) {
    108. 

  108.         state.signal_quality = 0;
    109. 

  109.         state.rate_rpm = 0;
    110. 

  110.     }
    111. 

  111. }
    112.