Clear interrupt and trigger callback if new data is generated

2024-07-06 19:29:08 +00:00 · 2016-01-21 16:21:00 +01:00 · 2016-01-21 16:21:00 +01:00 · 426fa24e50
commit 426fa24e50
parent f5b52e8094
2 changed files with 40 additions and 15 deletions
--- a/examples/zolertia/zoul/test-grove-gyro.c
+++ b/examples/zolertia/zoul/test-grove-gyro.c
@ -98,6 +98,9 @@ PROCESS_THREAD(remote_grove_gyro_process, ev, data)
    PROCESS_EXIT();
  }

+  /* Register the interrupt handler */
+  GROVE_GYRO_REGISTER_INT(gyro_interrupt_callback);
+
  /* The gyroscope sensor should be on now but the three gyroscope axis should
   * be off, to enable a single axis or any combination of the 3 you can use as
   * argument either GROVE_GYRO_X, GROVE_GYRO_Y, GROVE_GYRO_Z.  To enable or
@ -105,8 +108,12 @@ PROCESS_THREAD(remote_grove_gyro_process, ev, data)
   */
  grove_gyro.configure(GROVE_GYRO_POWER_ON, GROVE_GYRO_XYZ);

-  /* Register the interrupt handler */
-  GROVE_GYRO_REGISTER_INT(gyro_interrupt_callback);
+  /* Enabling the data interrupt will feed data directly to the extern data
+   * structure and notify us about it, depending on the sampling rate and
+   * divisor this could generate many interrupts/second.  A zero argument would
+   * disable the interrupts
+   */
+  grove_gyro.configure(GROVE_GYRO_DATA_INTERRUPT, 1);

  /* And periodically poll the sensor, values are in º/s */

@ -124,12 +131,12 @@ PROCESS_THREAD(remote_grove_gyro_process, ev, data)
    if(grove_gyro.value(GROVE_GYRO_XYZ) == GROVE_GYRO_SUCCESS) {

      /* Converted values with a 2-digit precision */
-      printf("Gyro: X %u.%u, Y %u.%u, Z %u.%u\n", gyro_values.x / 100,
-                                                  gyro_values.x % 100,
-                                                  gyro_values.y / 100,
-                                                  gyro_values.y % 100,
-                                                  gyro_values.z / 100,
-                                                  gyro_values.z % 100);
+      printf("Gyro: X: %u.%u, Y: %u.%u, Z: %u.%u\n", gyro_values.x / 100,
+                                                     gyro_values.x % 100,
+                                                     gyro_values.y / 100,
+                                                     gyro_values.y % 100,
+                                                     gyro_values.z / 100,
+                                                     gyro_values.z % 100);
    } else {
      printf("Error, enable the DEBUG flag in the grove-gyro driver for info,");
      printf(" or check if the sensor is properly connected\n");
--- a/platform/zoul/dev/grove-gyro.c
+++ b/platform/zoul/dev/grove-gyro.c
@ -46,7 +46,7 @@
 #include "dev/grove-gyro.h"
 #include "lib/sensors.h"
 /*---------------------------------------------------------------------------*/
-#define DEBUG 1
+#define DEBUG 0
 #if DEBUG
 #define PRINTF(...) printf(__VA_ARGS__)
 #else
@ -110,10 +110,19 @@ grove_gyro_sampdiv(uint8_t value)
  return GROVE_GYRO_ERROR;
 }
 /*---------------------------------------------------------------------------*/
-static void
+static uint8_t
 grove_gyro_clear_interrupt(void)
 {
-  /* FIXME */
+  uint8_t aux = 0;
+
+  /* Clear interrupt */
+  grove_gyro_read_reg(GROVE_GYRO_INT_STATUS, &aux, 1);
+  
+  if(aux & GROVE_GYRO_INT_STATUS_DATA_RDY_MASK) {
+    return GROVE_GYRO_INT_STATUS_DATA_RDY_MASK;
+  }
+
+  return 0;
 }
 /*---------------------------------------------------------------------------*/
 static int
@ -199,7 +208,7 @@ grove_gyro_power_mgmt(uint8_t value, uint8_t type)

      /* Power-up delay */
      if(type == GROVE_GYRO_POWER_ON) {
-        // clock_delay_usec(50000);
+        clock_delay_usec(25000);
      }

      return GROVE_GYRO_SUCCESS;
@ -345,10 +354,20 @@ PROCESS_THREAD(grove_gyro_int_process, ev, data)
  PROCESS_EXITHANDLER();
  PROCESS_BEGIN();

+  static uint8_t axis_to_read = 0;
+
  while(1) {
    PROCESS_YIELD_UNTIL(ev == PROCESS_EVENT_POLL);
-    grove_gyro_clear_interrupt();
-    grove_gyro_int_callback(0);
+    if(grove_gyro_clear_interrupt() == GROVE_GYRO_INT_STATUS_DATA_RDY_MASK) {
+
+      axis_to_read += (power_mgmt & GROVE_GYRO_X) ? 0: GROVE_GYRO_X;
+      axis_to_read += (power_mgmt & GROVE_GYRO_Y) ? 0: GROVE_GYRO_Y;
+      axis_to_read += (power_mgmt & GROVE_GYRO_Z) ? 0: GROVE_GYRO_Z;
+
+      if(grove_gyro_read(axis_to_read) == GROVE_GYRO_SUCCESS) {
+        grove_gyro_int_callback(GROVE_GYRO_SUCCESS);
+      }
+    }
  }
  PROCESS_END();
 }
@ -466,7 +485,6 @@ configure(int type, int value)

    /* Enable interrupt and latch the pin until cleared */
    if(grove_gyro_interrupt(GROVE_GYRO_INT_CFG_RAW_READY_EN +
-                            GROVE_GYRO_INT_CFG_LATCH_CLR_ANY +
                            GROVE_GYRO_INT_CFG_LATCH_EN) == GROVE_GYRO_ERROR) {
      PRINTF("Gyro: failed to enable the interrupt\n");
      return GROVE_GYRO_ERROR;