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updated Arduino Code

FloKra 1 年間 前
コミット
da759a4d29

+ 87 - 87
HomeServerIOExt_Arduino/Adafruit_Sensor.cpp

@@ -1,87 +1,87 @@
-#include "Adafruit_Sensor.h"
-
-/**************************************************************************/
-/*!
-    @brief  Prints sensor information to serial console
-*/
-/**************************************************************************/
-void Adafruit_Sensor::printSensorDetails(void) {
-  sensor_t sensor;
-  getSensor(&sensor);
-  Serial.println(F("------------------------------------"));
-  Serial.print(F("Sensor:       "));
-  Serial.println(sensor.name);
-  Serial.print(F("Type:         "));
-  switch ((sensors_type_t)sensor.type) {
-  case SENSOR_TYPE_ACCELEROMETER:
-    Serial.print(F("Acceleration (m/s2)"));
-    break;
-  case SENSOR_TYPE_MAGNETIC_FIELD:
-    Serial.print(F("Magnetic (uT)"));
-    break;
-  case SENSOR_TYPE_ORIENTATION:
-    Serial.print(F("Orientation (degrees)"));
-    break;
-  case SENSOR_TYPE_GYROSCOPE:
-    Serial.print(F("Gyroscopic (rad/s)"));
-    break;
-  case SENSOR_TYPE_LIGHT:
-    Serial.print(F("Light (lux)"));
-    break;
-  case SENSOR_TYPE_PRESSURE:
-    Serial.print(F("Pressure (hPa)"));
-    break;
-  case SENSOR_TYPE_PROXIMITY:
-    Serial.print(F("Distance (cm)"));
-    break;
-  case SENSOR_TYPE_GRAVITY:
-    Serial.print(F("Gravity (m/s2)"));
-    break;
-  case SENSOR_TYPE_LINEAR_ACCELERATION:
-    Serial.print(F("Linear Acceleration (m/s2)"));
-    break;
-  case SENSOR_TYPE_ROTATION_VECTOR:
-    Serial.print(F("Rotation vector"));
-    break;
-  case SENSOR_TYPE_RELATIVE_HUMIDITY:
-    Serial.print(F("Relative Humidity (%)"));
-    break;
-  case SENSOR_TYPE_AMBIENT_TEMPERATURE:
-    Serial.print(F("Ambient Temp (C)"));
-    break;
-  case SENSOR_TYPE_OBJECT_TEMPERATURE:
-    Serial.print(F("Object Temp (C)"));
-    break;
-  case SENSOR_TYPE_VOLTAGE:
-    Serial.print(F("Voltage (V)"));
-    break;
-  case SENSOR_TYPE_CURRENT:
-    Serial.print(F("Current (mA)"));
-    break;
-  case SENSOR_TYPE_COLOR:
-    Serial.print(F("Color (RGBA)"));
-    break;
-  case SENSOR_TYPE_TVOC:
-    Serial.print(F("Total Volatile Organic Compounds (ppb)"));
-    break;
-  case SENSOR_TYPE_VOC_INDEX:
-    Serial.print(F("Volatile Organic Compounds (Index)"));
-    break;
-  case SENSOR_TYPE_NOX_INDEX:
-    Serial.print(F("Nitrogen Oxides (Index)"));
-    break;
-  }
-
-  Serial.println();
-  Serial.print(F("Driver Ver:   "));
-  Serial.println(sensor.version);
-  Serial.print(F("Unique ID:    "));
-  Serial.println(sensor.sensor_id);
-  Serial.print(F("Min Value:    "));
-  Serial.println(sensor.min_value);
-  Serial.print(F("Max Value:    "));
-  Serial.println(sensor.max_value);
-  Serial.print(F("Resolution:   "));
-  Serial.println(sensor.resolution);
-  Serial.println(F("------------------------------------\n"));
-}
+#include "Adafruit_Sensor.h"
+
+/**************************************************************************/
+/*!
+    @brief  Prints sensor information to serial console
+*/
+/**************************************************************************/
+void Adafruit_Sensor::printSensorDetails(void) {
+  sensor_t sensor;
+  getSensor(&sensor);
+  Serial.println(F("------------------------------------"));
+  Serial.print(F("Sensor:       "));
+  Serial.println(sensor.name);
+  Serial.print(F("Type:         "));
+  switch ((sensors_type_t)sensor.type) {
+  case SENSOR_TYPE_ACCELEROMETER:
+    Serial.print(F("Acceleration (m/s2)"));
+    break;
+  case SENSOR_TYPE_MAGNETIC_FIELD:
+    Serial.print(F("Magnetic (uT)"));
+    break;
+  case SENSOR_TYPE_ORIENTATION:
+    Serial.print(F("Orientation (degrees)"));
+    break;
+  case SENSOR_TYPE_GYROSCOPE:
+    Serial.print(F("Gyroscopic (rad/s)"));
+    break;
+  case SENSOR_TYPE_LIGHT:
+    Serial.print(F("Light (lux)"));
+    break;
+  case SENSOR_TYPE_PRESSURE:
+    Serial.print(F("Pressure (hPa)"));
+    break;
+  case SENSOR_TYPE_PROXIMITY:
+    Serial.print(F("Distance (cm)"));
+    break;
+  case SENSOR_TYPE_GRAVITY:
+    Serial.print(F("Gravity (m/s2)"));
+    break;
+  case SENSOR_TYPE_LINEAR_ACCELERATION:
+    Serial.print(F("Linear Acceleration (m/s2)"));
+    break;
+  case SENSOR_TYPE_ROTATION_VECTOR:
+    Serial.print(F("Rotation vector"));
+    break;
+  case SENSOR_TYPE_RELATIVE_HUMIDITY:
+    Serial.print(F("Relative Humidity (%)"));
+    break;
+  case SENSOR_TYPE_AMBIENT_TEMPERATURE:
+    Serial.print(F("Ambient Temp (C)"));
+    break;
+  case SENSOR_TYPE_OBJECT_TEMPERATURE:
+    Serial.print(F("Object Temp (C)"));
+    break;
+  case SENSOR_TYPE_VOLTAGE:
+    Serial.print(F("Voltage (V)"));
+    break;
+  case SENSOR_TYPE_CURRENT:
+    Serial.print(F("Current (mA)"));
+    break;
+  case SENSOR_TYPE_COLOR:
+    Serial.print(F("Color (RGBA)"));
+    break;
+  case SENSOR_TYPE_TVOC:
+    Serial.print(F("Total Volatile Organic Compounds (ppb)"));
+    break;
+  case SENSOR_TYPE_VOC_INDEX:
+    Serial.print(F("Volatile Organic Compounds (Index)"));
+    break;
+  case SENSOR_TYPE_NOX_INDEX:
+    Serial.print(F("Nitrogen Oxides (Index)"));
+    break;
+  }
+
+  Serial.println();
+  Serial.print(F("Driver Ver:   "));
+  Serial.println(sensor.version);
+  Serial.print(F("Unique ID:    "));
+  Serial.println(sensor.sensor_id);
+  Serial.print(F("Min Value:    "));
+  Serial.println(sensor.min_value);
+  Serial.print(F("Max Value:    "));
+  Serial.println(sensor.max_value);
+  Serial.print(F("Resolution:   "));
+  Serial.println(sensor.resolution);
+  Serial.println(F("------------------------------------\n"));
+}

+ 196 - 196
HomeServerIOExt_Arduino/Adafruit_Sensor.h

@@ -1,196 +1,196 @@
-/*
- * Copyright (C) 2008 The Android Open Source Project
- *
- * Licensed under the Apache License, Version 2.0 (the "License");
- * you may not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- * http://www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software< /span>
- * distributed under the License is distributed on an "AS IS" BASIS,
- * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- */
-
-/* Update by K. Townsend (Adafruit Industries) for lighter typedefs, and
- * extended sensor support to include color, voltage and current */
-
-#ifndef _ADAFRUIT_SENSOR_H
-#define _ADAFRUIT_SENSOR_H
-
-#ifndef ARDUINO
-#include <stdint.h>
-#elif ARDUINO >= 100
-#include "Arduino.h"
-#include "Print.h"
-#else
-#include "WProgram.h"
-#endif
-
-/* Constants */
-#define SENSORS_GRAVITY_EARTH (9.80665F) /**< Earth's gravity in m/s^2 */
-#define SENSORS_GRAVITY_MOON (1.6F)      /**< The moon's gravity in m/s^2 */
-#define SENSORS_GRAVITY_SUN (275.0F)     /**< The sun's gravity in m/s^2 */
-#define SENSORS_GRAVITY_STANDARD (SENSORS_GRAVITY_EARTH)
-#define SENSORS_MAGFIELD_EARTH_MAX                                             \
-  (60.0F) /**< Maximum magnetic field on Earth's surface */
-#define SENSORS_MAGFIELD_EARTH_MIN                                             \
-  (30.0F) /**< Minimum magnetic field on Earth's surface */
-#define SENSORS_PRESSURE_SEALEVELHPA                                           \
-  (1013.25F) /**< Average sea level pressure is 1013.25 hPa */
-#define SENSORS_DPS_TO_RADS                                                    \
-  (0.017453293F) /**< Degrees/s to rad/s multiplier                            \
-                  */
-#define SENSORS_RADS_TO_DPS                                                    \
-  (57.29577793F) /**< Rad/s to degrees/s  multiplier */
-#define SENSORS_GAUSS_TO_MICROTESLA                                            \
-  (100) /**< Gauss to micro-Tesla multiplier */
-
-/** Sensor types */
-typedef enum {
-  SENSOR_TYPE_ACCELEROMETER = (1), /**< Gravity + linear acceleration */
-  SENSOR_TYPE_MAGNETIC_FIELD = (2),
-  SENSOR_TYPE_ORIENTATION = (3),
-  SENSOR_TYPE_GYROSCOPE = (4),
-  SENSOR_TYPE_LIGHT = (5),
-  SENSOR_TYPE_PRESSURE = (6),
-  SENSOR_TYPE_PROXIMITY = (8),
-  SENSOR_TYPE_GRAVITY = (9),
-  SENSOR_TYPE_LINEAR_ACCELERATION =
-      (10), /**< Acceleration not including gravity */
-  SENSOR_TYPE_ROTATION_VECTOR = (11),
-  SENSOR_TYPE_RELATIVE_HUMIDITY = (12),
-  SENSOR_TYPE_AMBIENT_TEMPERATURE = (13),
-  SENSOR_TYPE_OBJECT_TEMPERATURE = (14),
-  SENSOR_TYPE_VOLTAGE = (15),
-  SENSOR_TYPE_CURRENT = (16),
-  SENSOR_TYPE_COLOR = (17),
-  SENSOR_TYPE_TVOC = (18),
-  SENSOR_TYPE_VOC_INDEX = (19),
-  SENSOR_TYPE_NOX_INDEX = (20)
-} sensors_type_t;
-
-/** struct sensors_vec_s is used to return a vector in a common format. */
-typedef struct {
-  union {
-    float v[3]; ///< 3D vector elements
-    struct {
-      float x; ///< X component of vector
-      float y; ///< Y component of vector
-      float z; ///< Z component of vector
-    };         ///< Struct for holding XYZ component
-    /* Orientation sensors */
-    struct {
-      float roll; /**< Rotation around the longitudinal axis (the plane body, 'X
-                     axis'). Roll is positive and increasing when moving
-                     downward. -90 degrees <= roll <= 90 degrees */
-      float pitch;   /**< Rotation around the lateral axis (the wing span, 'Y
-                        axis'). Pitch is positive and increasing when moving
-                        upwards. -180 degrees <= pitch <= 180 degrees) */
-      float heading; /**< Angle between the longitudinal axis (the plane body)
-                        and magnetic north, measured clockwise when viewing from
-                        the top of the device. 0-359 degrees */
-    };               ///< Struct for holding roll/pitch/heading
-  };                 ///< Union that can hold 3D vector array, XYZ components or
-                     ///< roll/pitch/heading
-  int8_t status;     ///< Status byte
-  uint8_t reserved[3]; ///< Reserved
-} sensors_vec_t;
-
-/** struct sensors_color_s is used to return color data in a common format. */
-typedef struct {
-  union {
-    float c[3]; ///< Raw 3-element data
-    /* RGB color space */
-    struct {
-      float r;   /**< Red component */
-      float g;   /**< Green component */
-      float b;   /**< Blue component */
-    };           ///< RGB data in floating point notation
-  };             ///< Union of various ways to describe RGB colorspace
-  uint32_t rgba; /**< 24-bit RGBA value */
-} sensors_color_t;
-
-/* Sensor event (36 bytes) */
-/** struct sensor_event_s is used to provide a single sensor event in a common
- * format. */
-typedef struct {
-  int32_t version;   /**< must be sizeof(struct sensors_event_t) */
-  int32_t sensor_id; /**< unique sensor identifier */
-  int32_t type;      /**< sensor type */
-  int32_t reserved0; /**< reserved */
-  int32_t timestamp; /**< time is in milliseconds */
-  union {
-    float data[4];              ///< Raw data
-    sensors_vec_t acceleration; /**< acceleration values are in meter per second
-                                   per second (m/s^2) */
-    sensors_vec_t
-        magnetic; /**< magnetic vector values are in micro-Tesla (uT) */
-    sensors_vec_t orientation; /**< orientation values are in degrees */
-    sensors_vec_t gyro;        /**< gyroscope values are in rad/s */
-    float temperature; /**< temperature is in degrees centigrade (Celsius) */
-    float distance;    /**< distance in centimeters */
-    float light;       /**< light in SI lux units */
-    float pressure;    /**< pressure in hectopascal (hPa) */
-    float relative_humidity; /**< relative humidity in percent */
-    float current;           /**< current in milliamps (mA) */
-    float voltage;           /**< voltage in volts (V) */
-    float tvoc;              /**< Total Volatile Organic Compounds, in ppb */
-    float voc_index; /**< VOC (Volatile Organic Compound) index where 100 is
-                          normal (unitless) */
-    float nox_index; /**< NOx (Nitrogen Oxides) index where 100 is normal
-                          (unitless) */
-    sensors_color_t color; /**< color in RGB component values */
-  };                       ///< Union for the wide ranges of data we can carry
-} sensors_event_t;
-
-/* Sensor details (40 bytes) */
-/** struct sensor_s is used to describe basic information about a specific
- * sensor. */
-typedef struct {
-  char name[12];     /**< sensor name */
-  int32_t version;   /**< version of the hardware + driver */
-  int32_t sensor_id; /**< unique sensor identifier */
-  int32_t type;      /**< this sensor's type (ex. SENSOR_TYPE_LIGHT) */
-  float max_value;   /**< maximum value of this sensor's value in SI units */
-  float min_value;   /**< minimum value of this sensor's value in SI units */
-  float resolution; /**< smallest difference between two values reported by this
-                       sensor */
-  int32_t min_delay; /**< min delay in microseconds between events. zero = not a
-                        constant rate */
-} sensor_t;
-
-/** @brief Common sensor interface to unify various sensors.
- * Intentionally modeled after sensors.h in the Android API:
- * https://github.com/android/platform_hardware_libhardware/blob/master/include/hardware/sensors.h
- */
-class Adafruit_Sensor {
-public:
-  // Constructor(s)
-  Adafruit_Sensor() {}
-  virtual ~Adafruit_Sensor() {}
-
-  // These must be defined by the subclass
-
-  /*! @brief Whether we should automatically change the range (if possible) for
-     higher precision
-      @param enabled True if we will try to autorange */
-  virtual void enableAutoRange(bool enabled) {
-    (void)enabled; /* suppress unused warning */
-  };
-
-  /*! @brief Get the latest sensor event
-      @returns True if able to fetch an event */
-  virtual bool getEvent(sensors_event_t *) = 0;
-  /*! @brief Get info about the sensor itself */
-  virtual void getSensor(sensor_t *) = 0;
-
-  void printSensorDetails(void);
-
-private:
-  bool _autoRange;
-};
-
-#endif
+/*
+ * Copyright (C) 2008 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software< /span>
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/* Update by K. Townsend (Adafruit Industries) for lighter typedefs, and
+ * extended sensor support to include color, voltage and current */
+
+#ifndef _ADAFRUIT_SENSOR_H
+#define _ADAFRUIT_SENSOR_H
+
+#ifndef ARDUINO
+#include <stdint.h>
+#elif ARDUINO >= 100
+#include "Arduino.h"
+#include "Print.h"
+#else
+#include "WProgram.h"
+#endif
+
+/* Constants */
+#define SENSORS_GRAVITY_EARTH (9.80665F) /**< Earth's gravity in m/s^2 */
+#define SENSORS_GRAVITY_MOON (1.6F)      /**< The moon's gravity in m/s^2 */
+#define SENSORS_GRAVITY_SUN (275.0F)     /**< The sun's gravity in m/s^2 */
+#define SENSORS_GRAVITY_STANDARD (SENSORS_GRAVITY_EARTH)
+#define SENSORS_MAGFIELD_EARTH_MAX                                             \
+  (60.0F) /**< Maximum magnetic field on Earth's surface */
+#define SENSORS_MAGFIELD_EARTH_MIN                                             \
+  (30.0F) /**< Minimum magnetic field on Earth's surface */
+#define SENSORS_PRESSURE_SEALEVELHPA                                           \
+  (1013.25F) /**< Average sea level pressure is 1013.25 hPa */
+#define SENSORS_DPS_TO_RADS                                                    \
+  (0.017453293F) /**< Degrees/s to rad/s multiplier                            \
+                  */
+#define SENSORS_RADS_TO_DPS                                                    \
+  (57.29577793F) /**< Rad/s to degrees/s  multiplier */
+#define SENSORS_GAUSS_TO_MICROTESLA                                            \
+  (100) /**< Gauss to micro-Tesla multiplier */
+
+/** Sensor types */
+typedef enum {
+  SENSOR_TYPE_ACCELEROMETER = (1), /**< Gravity + linear acceleration */
+  SENSOR_TYPE_MAGNETIC_FIELD = (2),
+  SENSOR_TYPE_ORIENTATION = (3),
+  SENSOR_TYPE_GYROSCOPE = (4),
+  SENSOR_TYPE_LIGHT = (5),
+  SENSOR_TYPE_PRESSURE = (6),
+  SENSOR_TYPE_PROXIMITY = (8),
+  SENSOR_TYPE_GRAVITY = (9),
+  SENSOR_TYPE_LINEAR_ACCELERATION =
+      (10), /**< Acceleration not including gravity */
+  SENSOR_TYPE_ROTATION_VECTOR = (11),
+  SENSOR_TYPE_RELATIVE_HUMIDITY = (12),
+  SENSOR_TYPE_AMBIENT_TEMPERATURE = (13),
+  SENSOR_TYPE_OBJECT_TEMPERATURE = (14),
+  SENSOR_TYPE_VOLTAGE = (15),
+  SENSOR_TYPE_CURRENT = (16),
+  SENSOR_TYPE_COLOR = (17),
+  SENSOR_TYPE_TVOC = (18),
+  SENSOR_TYPE_VOC_INDEX = (19),
+  SENSOR_TYPE_NOX_INDEX = (20)
+} sensors_type_t;
+
+/** struct sensors_vec_s is used to return a vector in a common format. */
+typedef struct {
+  union {
+    float v[3]; ///< 3D vector elements
+    struct {
+      float x; ///< X component of vector
+      float y; ///< Y component of vector
+      float z; ///< Z component of vector
+    };         ///< Struct for holding XYZ component
+    /* Orientation sensors */
+    struct {
+      float roll; /**< Rotation around the longitudinal axis (the plane body, 'X
+                     axis'). Roll is positive and increasing when moving
+                     downward. -90 degrees <= roll <= 90 degrees */
+      float pitch;   /**< Rotation around the lateral axis (the wing span, 'Y
+                        axis'). Pitch is positive and increasing when moving
+                        upwards. -180 degrees <= pitch <= 180 degrees) */
+      float heading; /**< Angle between the longitudinal axis (the plane body)
+                        and magnetic north, measured clockwise when viewing from
+                        the top of the device. 0-359 degrees */
+    };               ///< Struct for holding roll/pitch/heading
+  };                 ///< Union that can hold 3D vector array, XYZ components or
+                     ///< roll/pitch/heading
+  int8_t status;     ///< Status byte
+  uint8_t reserved[3]; ///< Reserved
+} sensors_vec_t;
+
+/** struct sensors_color_s is used to return color data in a common format. */
+typedef struct {
+  union {
+    float c[3]; ///< Raw 3-element data
+    /* RGB color space */
+    struct {
+      float r;   /**< Red component */
+      float g;   /**< Green component */
+      float b;   /**< Blue component */
+    };           ///< RGB data in floating point notation
+  };             ///< Union of various ways to describe RGB colorspace
+  uint32_t rgba; /**< 24-bit RGBA value */
+} sensors_color_t;
+
+/* Sensor event (36 bytes) */
+/** struct sensor_event_s is used to provide a single sensor event in a common
+ * format. */
+typedef struct {
+  int32_t version;   /**< must be sizeof(struct sensors_event_t) */
+  int32_t sensor_id; /**< unique sensor identifier */
+  int32_t type;      /**< sensor type */
+  int32_t reserved0; /**< reserved */
+  int32_t timestamp; /**< time is in milliseconds */
+  union {
+    float data[4];              ///< Raw data
+    sensors_vec_t acceleration; /**< acceleration values are in meter per second
+                                   per second (m/s^2) */
+    sensors_vec_t
+        magnetic; /**< magnetic vector values are in micro-Tesla (uT) */
+    sensors_vec_t orientation; /**< orientation values are in degrees */
+    sensors_vec_t gyro;        /**< gyroscope values are in rad/s */
+    float temperature; /**< temperature is in degrees centigrade (Celsius) */
+    float distance;    /**< distance in centimeters */
+    float light;       /**< light in SI lux units */
+    float pressure;    /**< pressure in hectopascal (hPa) */
+    float relative_humidity; /**< relative humidity in percent */
+    float current;           /**< current in milliamps (mA) */
+    float voltage;           /**< voltage in volts (V) */
+    float tvoc;              /**< Total Volatile Organic Compounds, in ppb */
+    float voc_index; /**< VOC (Volatile Organic Compound) index where 100 is
+                          normal (unitless) */
+    float nox_index; /**< NOx (Nitrogen Oxides) index where 100 is normal
+                          (unitless) */
+    sensors_color_t color; /**< color in RGB component values */
+  };                       ///< Union for the wide ranges of data we can carry
+} sensors_event_t;
+
+/* Sensor details (40 bytes) */
+/** struct sensor_s is used to describe basic information about a specific
+ * sensor. */
+typedef struct {
+  char name[12];     /**< sensor name */
+  int32_t version;   /**< version of the hardware + driver */
+  int32_t sensor_id; /**< unique sensor identifier */
+  int32_t type;      /**< this sensor's type (ex. SENSOR_TYPE_LIGHT) */
+  float max_value;   /**< maximum value of this sensor's value in SI units */
+  float min_value;   /**< minimum value of this sensor's value in SI units */
+  float resolution; /**< smallest difference between two values reported by this
+                       sensor */
+  int32_t min_delay; /**< min delay in microseconds between events. zero = not a
+                        constant rate */
+} sensor_t;
+
+/** @brief Common sensor interface to unify various sensors.
+ * Intentionally modeled after sensors.h in the Android API:
+ * https://github.com/android/platform_hardware_libhardware/blob/master/include/hardware/sensors.h
+ */
+class Adafruit_Sensor {
+public:
+  // Constructor(s)
+  Adafruit_Sensor() {}
+  virtual ~Adafruit_Sensor() {}
+
+  // These must be defined by the subclass
+
+  /*! @brief Whether we should automatically change the range (if possible) for
+     higher precision
+      @param enabled True if we will try to autorange */
+  virtual void enableAutoRange(bool enabled) {
+    (void)enabled; /* suppress unused warning */
+  };
+
+  /*! @brief Get the latest sensor event
+      @returns True if able to fetch an event */
+  virtual bool getEvent(sensors_event_t *) = 0;
+  /*! @brief Get info about the sensor itself */
+  virtual void getSensor(sensor_t *) = 0;
+
+  void printSensorDetails(void);
+
+private:
+  bool _autoRange;
+};
+
+#endif

+ 390 - 390
HomeServerIOExt_Arduino/DHT.cpp

@@ -1,390 +1,390 @@
-/*!
- *  @file DHT.cpp
- *
- *  @mainpage DHT series of low cost temperature/humidity sensors.
- *
- *  @section intro_sec Introduction
- *
- *  This is a library for DHT series of low cost temperature/humidity sensors.
- *
- *  You must have Adafruit Unified Sensor Library library installed to use this
- * class.
- *
- *  Adafruit invests time and resources providing this open source code,
- *  please support Adafruit andopen-source hardware by purchasing products
- *  from Adafruit!
- *
- *  @section author Author
- *
- *  Written by Adafruit Industries.
- *
- *  @section license License
- *
- *  MIT license, all text above must be included in any redistribution
- */
-
-#include "DHT.h"
-
-#define MIN_INTERVAL 2000 /**< min interval value */
-#define TIMEOUT                                                                \
-  UINT32_MAX /**< Used programmatically for timeout.                           \
-                   Not a timeout duration. Type: uint32_t. */
-
-/*!
- *  @brief  Instantiates a new DHT class
- *  @param  pin
- *          pin number that sensor is connected
- *  @param  type
- *          type of sensor
- *  @param  count
- *          number of sensors
- */
-DHT::DHT(uint8_t pin, uint8_t type, uint8_t count) {
-  (void)count; // Workaround to avoid compiler warning.
-  _pin = pin;
-  _type = type;
-#ifdef __AVR
-  _bit = digitalPinToBitMask(pin);
-  _port = digitalPinToPort(pin);
-#endif
-  _maxcycles =
-      microsecondsToClockCycles(1000); // 1 millisecond timeout for
-                                       // reading pulses from DHT sensor.
-  // Note that count is now ignored as the DHT reading algorithm adjusts itself
-  // based on the speed of the processor.
-}
-
-/*!
- *  @brief  Setup sensor pins and set pull timings
- *  @param  usec
- *          Optionally pass pull-up time (in microseconds) before DHT reading
- *starts. Default is 55 (see function declaration in DHT.h).
- */
-void DHT::begin(uint8_t usec) {
-  // set up the pins!
-  pinMode(_pin, INPUT_PULLUP);
-  // Using this value makes sure that millis() - lastreadtime will be
-  // >= MIN_INTERVAL right away. Note that this assignment wraps around,
-  // but so will the subtraction.
-  _lastreadtime = millis() - MIN_INTERVAL;
-  DEBUG_PRINT("DHT max clock cycles: ");
-  DEBUG_PRINTLN(_maxcycles, DEC);
-  pullTime = usec;
-}
-
-/*!
- *  @brief  Read temperature
- *  @param  S
- *          Scale. Boolean value:
- *					- true = Fahrenheit
- *					- false = Celcius
- *  @param  force
- *          true if in force mode
- *	@return Temperature value in selected scale
- */
-float DHT::readTemperature(bool S, bool force) {
-  float f = NAN;
-
-  if (read(force)) {
-    switch (_type) {
-    case DHT11:
-      f = data[2];
-      if (data[3] & 0x80) {
-        f = -1 - f;
-      }
-      f += (data[3] & 0x0f) * 0.1;
-      if (S) {
-        f = convertCtoF(f);
-      }
-      break;
-    case DHT12:
-      f = data[2];
-      f += (data[3] & 0x0f) * 0.1;
-      if (data[2] & 0x80) {
-        f *= -1;
-      }
-      if (S) {
-        f = convertCtoF(f);
-      }
-      break;
-    case DHT22:
-    case DHT21:
-      f = ((word)(data[2] & 0x7F)) << 8 | data[3];
-      f *= 0.1;
-      if (data[2] & 0x80) {
-        f *= -1;
-      }
-      if (S) {
-        f = convertCtoF(f);
-      }
-      break;
-    }
-  }
-  return f;
-}
-
-/*!
- *  @brief  Converts Celcius to Fahrenheit
- *  @param  c
- *					value in Celcius
- *	@return float value in Fahrenheit
- */
-float DHT::convertCtoF(float c) { return c * 1.8 + 32; }
-
-/*!
- *  @brief  Converts Fahrenheit to Celcius
- *  @param  f
- *					value in Fahrenheit
- *	@return float value in Celcius
- */
-float DHT::convertFtoC(float f) { return (f - 32) * 0.55555; }
-
-/*!
- *  @brief  Read Humidity
- *  @param  force
- *					force read mode
- *	@return float value - humidity in percent
- */
-float DHT::readHumidity(bool force) {
-  float f = NAN;
-  if (read(force)) {
-    switch (_type) {
-    case DHT11:
-    case DHT12:
-      f = data[0] + data[1] * 0.1;
-      break;
-    case DHT22:
-    case DHT21:
-      f = ((word)data[0]) << 8 | data[1];
-      f *= 0.1;
-      break;
-    }
-  }
-  return f;
-}
-
-/*!
- *  @brief  Compute Heat Index
- *          Simplified version that reads temp and humidity from sensor
- *  @param  isFahrenheit
- * 					true if fahrenheit, false if celcius
- *(default true)
- *	@return float heat index
- */
-float DHT::computeHeatIndex(bool isFahrenheit) {
-  float hi = computeHeatIndex(readTemperature(isFahrenheit), readHumidity(),
-                              isFahrenheit);
-  return hi;
-}
-
-/*!
- *  @brief  Compute Heat Index
- *  				Using both Rothfusz and Steadman's equations
- *					(http://www.wpc.ncep.noaa.gov/html/heatindex_equation.shtml)
- *  @param  temperature
- *          temperature in selected scale
- *  @param  percentHumidity
- *          humidity in percent
- *  @param  isFahrenheit
- * 					true if fahrenheit, false if celcius
- *	@return float heat index
- */
-float DHT::computeHeatIndex(float temperature, float percentHumidity,
-                            bool isFahrenheit) {
-  float hi;
-
-  if (!isFahrenheit)
-    temperature = convertCtoF(temperature);
-
-  hi = 0.5 * (temperature + 61.0 + ((temperature - 68.0) * 1.2) +
-              (percentHumidity * 0.094));
-
-  if (hi > 79) {
-    hi = -42.379 + 2.04901523 * temperature + 10.14333127 * percentHumidity +
-         -0.22475541 * temperature * percentHumidity +
-         -0.00683783 * pow(temperature, 2) +
-         -0.05481717 * pow(percentHumidity, 2) +
-         0.00122874 * pow(temperature, 2) * percentHumidity +
-         0.00085282 * temperature * pow(percentHumidity, 2) +
-         -0.00000199 * pow(temperature, 2) * pow(percentHumidity, 2);
-
-    if ((percentHumidity < 13) && (temperature >= 80.0) &&
-        (temperature <= 112.0))
-      hi -= ((13.0 - percentHumidity) * 0.25) *
-            sqrt((17.0 - abs(temperature - 95.0)) * 0.05882);
-
-    else if ((percentHumidity > 85.0) && (temperature >= 80.0) &&
-             (temperature <= 87.0))
-      hi += ((percentHumidity - 85.0) * 0.1) * ((87.0 - temperature) * 0.2);
-  }
-
-  return isFahrenheit ? hi : convertFtoC(hi);
-}
-
-/*!
- *  @brief  Read value from sensor or return last one from less than two
- *seconds.
- *  @param  force
- *          true if using force mode
- *	@return float value
- */
-bool DHT::read(bool force) {
-  // Check if sensor was read less than two seconds ago and return early
-  // to use last reading.
-  uint32_t currenttime = millis();
-  if (!force && ((currenttime - _lastreadtime) < MIN_INTERVAL)) {
-    return _lastresult; // return last correct measurement
-  }
-  _lastreadtime = currenttime;
-
-  // Reset 40 bits of received data to zero.
-  data[0] = data[1] = data[2] = data[3] = data[4] = 0;
-
-#if defined(ESP8266)
-  yield(); // Handle WiFi / reset software watchdog
-#endif
-
-  // Send start signal.  See DHT datasheet for full signal diagram:
-  //   http://www.adafruit.com/datasheets/Digital%20humidity%20and%20temperature%20sensor%20AM2302.pdf
-
-  // Go into high impedence state to let pull-up raise data line level and
-  // start the reading process.
-  pinMode(_pin, INPUT_PULLUP);
-  delay(1);
-
-  // First set data line low for a period according to sensor type
-  pinMode(_pin, OUTPUT);
-  digitalWrite(_pin, LOW);
-  switch (_type) {
-  case DHT22:
-  case DHT21:
-    delayMicroseconds(1100); // data sheet says "at least 1ms"
-    break;
-  case DHT11:
-  default:
-    delay(20); // data sheet says at least 18ms, 20ms just to be safe
-    break;
-  }
-
-  uint32_t cycles[80];
-  {
-    // End the start signal by setting data line high for 40 microseconds.
-    pinMode(_pin, INPUT_PULLUP);
-
-    // Delay a moment to let sensor pull data line low.
-    delayMicroseconds(pullTime);
-
-    // Now start reading the data line to get the value from the DHT sensor.
-
-    // Turn off interrupts temporarily because the next sections
-    // are timing critical and we don't want any interruptions.
-    InterruptLock lock;
-
-    // First expect a low signal for ~80 microseconds followed by a high signal
-    // for ~80 microseconds again.
-    if (expectPulse(LOW) == TIMEOUT) {
-      DEBUG_PRINTLN(F("DHT timeout waiting for start signal low pulse."));
-      _lastresult = false;
-      return _lastresult;
-    }
-    if (expectPulse(HIGH) == TIMEOUT) {
-      DEBUG_PRINTLN(F("DHT timeout waiting for start signal high pulse."));
-      _lastresult = false;
-      return _lastresult;
-    }
-
-    // Now read the 40 bits sent by the sensor.  Each bit is sent as a 50
-    // microsecond low pulse followed by a variable length high pulse.  If the
-    // high pulse is ~28 microseconds then it's a 0 and if it's ~70 microseconds
-    // then it's a 1.  We measure the cycle count of the initial 50us low pulse
-    // and use that to compare to the cycle count of the high pulse to determine
-    // if the bit is a 0 (high state cycle count < low state cycle count), or a
-    // 1 (high state cycle count > low state cycle count). Note that for speed
-    // all the pulses are read into a array and then examined in a later step.
-    for (int i = 0; i < 80; i += 2) {
-      cycles[i] = expectPulse(LOW);
-      cycles[i + 1] = expectPulse(HIGH);
-    }
-  } // Timing critical code is now complete.
-
-  // Inspect pulses and determine which ones are 0 (high state cycle count < low
-  // state cycle count), or 1 (high state cycle count > low state cycle count).
-  for (int i = 0; i < 40; ++i) {
-    uint32_t lowCycles = cycles[2 * i];
-    uint32_t highCycles = cycles[2 * i + 1];
-    if ((lowCycles == TIMEOUT) || (highCycles == TIMEOUT)) {
-      DEBUG_PRINTLN(F("DHT timeout waiting for pulse."));
-      _lastresult = false;
-      return _lastresult;
-    }
-    data[i / 8] <<= 1;
-    // Now compare the low and high cycle times to see if the bit is a 0 or 1.
-    if (highCycles > lowCycles) {
-      // High cycles are greater than 50us low cycle count, must be a 1.
-      data[i / 8] |= 1;
-    }
-    // Else high cycles are less than (or equal to, a weird case) the 50us low
-    // cycle count so this must be a zero.  Nothing needs to be changed in the
-    // stored data.
-  }
-
-  DEBUG_PRINTLN(F("Received from DHT:"));
-  DEBUG_PRINT(data[0], HEX);
-  DEBUG_PRINT(F(", "));
-  DEBUG_PRINT(data[1], HEX);
-  DEBUG_PRINT(F(", "));
-  DEBUG_PRINT(data[2], HEX);
-  DEBUG_PRINT(F(", "));
-  DEBUG_PRINT(data[3], HEX);
-  DEBUG_PRINT(F(", "));
-  DEBUG_PRINT(data[4], HEX);
-  DEBUG_PRINT(F(" =? "));
-  DEBUG_PRINTLN((data[0] + data[1] + data[2] + data[3]) & 0xFF, HEX);
-
-  // Check we read 40 bits and that the checksum matches.
-  if (data[4] == ((data[0] + data[1] + data[2] + data[3]) & 0xFF)) {
-    _lastresult = true;
-    return _lastresult;
-  } else {
-    DEBUG_PRINTLN(F("DHT checksum failure!"));
-    _lastresult = false;
-    return _lastresult;
-  }
-}
-
-// Expect the signal line to be at the specified level for a period of time and
-// return a count of loop cycles spent at that level (this cycle count can be
-// used to compare the relative time of two pulses).  If more than a millisecond
-// ellapses without the level changing then the call fails with a 0 response.
-// This is adapted from Arduino's pulseInLong function (which is only available
-// in the very latest IDE versions):
-//   https://github.com/arduino/Arduino/blob/master/hardware/arduino/avr/cores/arduino/wiring_pulse.c
-uint32_t DHT::expectPulse(bool level) {
-// F_CPU is not be known at compile time on platforms such as STM32F103.
-// The preprocessor seems to evaluate it to zero in that case.
-#if (F_CPU > 16000000L) || (F_CPU == 0L)
-  uint32_t count = 0;
-#else
-  uint16_t count = 0; // To work fast enough on slower AVR boards
-#endif
-// On AVR platforms use direct GPIO port access as it's much faster and better
-// for catching pulses that are 10's of microseconds in length:
-#ifdef __AVR
-  uint8_t portState = level ? _bit : 0;
-  while ((*portInputRegister(_port) & _bit) == portState) {
-    if (count++ >= _maxcycles) {
-      return TIMEOUT; // Exceeded timeout, fail.
-    }
-  }
-// Otherwise fall back to using digitalRead (this seems to be necessary on
-// ESP8266 right now, perhaps bugs in direct port access functions?).
-#else
-  while (digitalRead(_pin) == level) {
-    if (count++ >= _maxcycles) {
-      return TIMEOUT; // Exceeded timeout, fail.
-    }
-  }
-#endif
-
-  return count;
-}
+/*!
+ *  @file DHT.cpp
+ *
+ *  @mainpage DHT series of low cost temperature/humidity sensors.
+ *
+ *  @section intro_sec Introduction
+ *
+ *  This is a library for DHT series of low cost temperature/humidity sensors.
+ *
+ *  You must have Adafruit Unified Sensor Library library installed to use this
+ * class.
+ *
+ *  Adafruit invests time and resources providing this open source code,
+ *  please support Adafruit andopen-source hardware by purchasing products
+ *  from Adafruit!
+ *
+ *  @section author Author
+ *
+ *  Written by Adafruit Industries.
+ *
+ *  @section license License
+ *
+ *  MIT license, all text above must be included in any redistribution
+ */
+
+#include "DHT.h"
+
+#define MIN_INTERVAL 2000 /**< min interval value */
+#define TIMEOUT                                                                \
+  UINT32_MAX /**< Used programmatically for timeout.                           \
+                   Not a timeout duration. Type: uint32_t. */
+
+/*!
+ *  @brief  Instantiates a new DHT class
+ *  @param  pin
+ *          pin number that sensor is connected
+ *  @param  type
+ *          type of sensor
+ *  @param  count
+ *          number of sensors
+ */
+DHT::DHT(uint8_t pin, uint8_t type, uint8_t count) {
+  (void)count; // Workaround to avoid compiler warning.
+  _pin = pin;
+  _type = type;
+#ifdef __AVR
+  _bit = digitalPinToBitMask(pin);
+  _port = digitalPinToPort(pin);
+#endif
+  _maxcycles =
+      microsecondsToClockCycles(1000); // 1 millisecond timeout for
+                                       // reading pulses from DHT sensor.
+  // Note that count is now ignored as the DHT reading algorithm adjusts itself
+  // based on the speed of the processor.
+}
+
+/*!
+ *  @brief  Setup sensor pins and set pull timings
+ *  @param  usec
+ *          Optionally pass pull-up time (in microseconds) before DHT reading
+ *starts. Default is 55 (see function declaration in DHT.h).
+ */
+void DHT::begin(uint8_t usec) {
+  // set up the pins!
+  pinMode(_pin, INPUT_PULLUP);
+  // Using this value makes sure that millis() - lastreadtime will be
+  // >= MIN_INTERVAL right away. Note that this assignment wraps around,
+  // but so will the subtraction.
+  _lastreadtime = millis() - MIN_INTERVAL;
+  DEBUG_PRINT("DHT max clock cycles: ");
+  DEBUG_PRINTLN(_maxcycles, DEC);
+  pullTime = usec;
+}
+
+/*!
+ *  @brief  Read temperature
+ *  @param  S
+ *          Scale. Boolean value:
+ *					- true = Fahrenheit
+ *					- false = Celcius
+ *  @param  force
+ *          true if in force mode
+ *	@return Temperature value in selected scale
+ */
+float DHT::readTemperature(bool S, bool force) {
+  float f = NAN;
+
+  if (read(force)) {
+    switch (_type) {
+    case DHT11:
+      f = data[2];
+      if (data[3] & 0x80) {
+        f = -1 - f;
+      }
+      f += (data[3] & 0x0f) * 0.1;
+      if (S) {
+        f = convertCtoF(f);
+      }
+      break;
+    case DHT12:
+      f = data[2];
+      f += (data[3] & 0x0f) * 0.1;
+      if (data[2] & 0x80) {
+        f *= -1;
+      }
+      if (S) {
+        f = convertCtoF(f);
+      }
+      break;
+    case DHT22:
+    case DHT21:
+      f = ((word)(data[2] & 0x7F)) << 8 | data[3];
+      f *= 0.1;
+      if (data[2] & 0x80) {
+        f *= -1;
+      }
+      if (S) {
+        f = convertCtoF(f);
+      }
+      break;
+    }
+  }
+  return f;
+}
+
+/*!
+ *  @brief  Converts Celcius to Fahrenheit
+ *  @param  c
+ *					value in Celcius
+ *	@return float value in Fahrenheit
+ */
+float DHT::convertCtoF(float c) { return c * 1.8 + 32; }
+
+/*!
+ *  @brief  Converts Fahrenheit to Celcius
+ *  @param  f
+ *					value in Fahrenheit
+ *	@return float value in Celcius
+ */
+float DHT::convertFtoC(float f) { return (f - 32) * 0.55555; }
+
+/*!
+ *  @brief  Read Humidity
+ *  @param  force
+ *					force read mode
+ *	@return float value - humidity in percent
+ */
+float DHT::readHumidity(bool force) {
+  float f = NAN;
+  if (read(force)) {
+    switch (_type) {
+    case DHT11:
+    case DHT12:
+      f = data[0] + data[1] * 0.1;
+      break;
+    case DHT22:
+    case DHT21:
+      f = ((word)data[0]) << 8 | data[1];
+      f *= 0.1;
+      break;
+    }
+  }
+  return f;
+}
+
+/*!
+ *  @brief  Compute Heat Index
+ *          Simplified version that reads temp and humidity from sensor
+ *  @param  isFahrenheit
+ * 					true if fahrenheit, false if celcius
+ *(default true)
+ *	@return float heat index
+ */
+float DHT::computeHeatIndex(bool isFahrenheit) {
+  float hi = computeHeatIndex(readTemperature(isFahrenheit), readHumidity(),
+                              isFahrenheit);
+  return hi;
+}
+
+/*!
+ *  @brief  Compute Heat Index
+ *  				Using both Rothfusz and Steadman's equations
+ *					(http://www.wpc.ncep.noaa.gov/html/heatindex_equation.shtml)
+ *  @param  temperature
+ *          temperature in selected scale
+ *  @param  percentHumidity
+ *          humidity in percent
+ *  @param  isFahrenheit
+ * 					true if fahrenheit, false if celcius
+ *	@return float heat index
+ */
+float DHT::computeHeatIndex(float temperature, float percentHumidity,
+                            bool isFahrenheit) {
+  float hi;
+
+  if (!isFahrenheit)
+    temperature = convertCtoF(temperature);
+
+  hi = 0.5 * (temperature + 61.0 + ((temperature - 68.0) * 1.2) +
+              (percentHumidity * 0.094));
+
+  if (hi > 79) {
+    hi = -42.379 + 2.04901523 * temperature + 10.14333127 * percentHumidity +
+         -0.22475541 * temperature * percentHumidity +
+         -0.00683783 * pow(temperature, 2) +
+         -0.05481717 * pow(percentHumidity, 2) +
+         0.00122874 * pow(temperature, 2) * percentHumidity +
+         0.00085282 * temperature * pow(percentHumidity, 2) +
+         -0.00000199 * pow(temperature, 2) * pow(percentHumidity, 2);
+
+    if ((percentHumidity < 13) && (temperature >= 80.0) &&
+        (temperature <= 112.0))
+      hi -= ((13.0 - percentHumidity) * 0.25) *
+            sqrt((17.0 - abs(temperature - 95.0)) * 0.05882);
+
+    else if ((percentHumidity > 85.0) && (temperature >= 80.0) &&
+             (temperature <= 87.0))
+      hi += ((percentHumidity - 85.0) * 0.1) * ((87.0 - temperature) * 0.2);
+  }
+
+  return isFahrenheit ? hi : convertFtoC(hi);
+}
+
+/*!
+ *  @brief  Read value from sensor or return last one from less than two
+ *seconds.
+ *  @param  force
+ *          true if using force mode
+ *	@return float value
+ */
+bool DHT::read(bool force) {
+  // Check if sensor was read less than two seconds ago and return early
+  // to use last reading.
+  uint32_t currenttime = millis();
+  if (!force && ((currenttime - _lastreadtime) < MIN_INTERVAL)) {
+    return _lastresult; // return last correct measurement
+  }
+  _lastreadtime = currenttime;
+
+  // Reset 40 bits of received data to zero.
+  data[0] = data[1] = data[2] = data[3] = data[4] = 0;
+
+#if defined(ESP8266)
+  yield(); // Handle WiFi / reset software watchdog
+#endif
+
+  // Send start signal.  See DHT datasheet for full signal diagram:
+  //   http://www.adafruit.com/datasheets/Digital%20humidity%20and%20temperature%20sensor%20AM2302.pdf
+
+  // Go into high impedence state to let pull-up raise data line level and
+  // start the reading process.
+  pinMode(_pin, INPUT_PULLUP);
+  delay(1);
+
+  // First set data line low for a period according to sensor type
+  pinMode(_pin, OUTPUT);
+  digitalWrite(_pin, LOW);
+  switch (_type) {
+  case DHT22:
+  case DHT21:
+    delayMicroseconds(1100); // data sheet says "at least 1ms"
+    break;
+  case DHT11:
+  default:
+    delay(20); // data sheet says at least 18ms, 20ms just to be safe
+    break;
+  }
+
+  uint32_t cycles[80];
+  {
+    // End the start signal by setting data line high for 40 microseconds.
+    pinMode(_pin, INPUT_PULLUP);
+
+    // Delay a moment to let sensor pull data line low.
+    delayMicroseconds(pullTime);
+
+    // Now start reading the data line to get the value from the DHT sensor.
+
+    // Turn off interrupts temporarily because the next sections
+    // are timing critical and we don't want any interruptions.
+    InterruptLock lock;
+
+    // First expect a low signal for ~80 microseconds followed by a high signal
+    // for ~80 microseconds again.
+    if (expectPulse(LOW) == TIMEOUT) {
+      DEBUG_PRINTLN(F("DHT timeout waiting for start signal low pulse."));
+      _lastresult = false;
+      return _lastresult;
+    }
+    if (expectPulse(HIGH) == TIMEOUT) {
+      DEBUG_PRINTLN(F("DHT timeout waiting for start signal high pulse."));
+      _lastresult = false;
+      return _lastresult;
+    }
+
+    // Now read the 40 bits sent by the sensor.  Each bit is sent as a 50
+    // microsecond low pulse followed by a variable length high pulse.  If the
+    // high pulse is ~28 microseconds then it's a 0 and if it's ~70 microseconds
+    // then it's a 1.  We measure the cycle count of the initial 50us low pulse
+    // and use that to compare to the cycle count of the high pulse to determine
+    // if the bit is a 0 (high state cycle count < low state cycle count), or a
+    // 1 (high state cycle count > low state cycle count). Note that for speed
+    // all the pulses are read into a array and then examined in a later step.
+    for (int i = 0; i < 80; i += 2) {
+      cycles[i] = expectPulse(LOW);
+      cycles[i + 1] = expectPulse(HIGH);
+    }
+  } // Timing critical code is now complete.
+
+  // Inspect pulses and determine which ones are 0 (high state cycle count < low
+  // state cycle count), or 1 (high state cycle count > low state cycle count).
+  for (int i = 0; i < 40; ++i) {
+    uint32_t lowCycles = cycles[2 * i];
+    uint32_t highCycles = cycles[2 * i + 1];
+    if ((lowCycles == TIMEOUT) || (highCycles == TIMEOUT)) {
+      DEBUG_PRINTLN(F("DHT timeout waiting for pulse."));
+      _lastresult = false;
+      return _lastresult;
+    }
+    data[i / 8] <<= 1;
+    // Now compare the low and high cycle times to see if the bit is a 0 or 1.
+    if (highCycles > lowCycles) {
+      // High cycles are greater than 50us low cycle count, must be a 1.
+      data[i / 8] |= 1;
+    }
+    // Else high cycles are less than (or equal to, a weird case) the 50us low
+    // cycle count so this must be a zero.  Nothing needs to be changed in the
+    // stored data.
+  }
+
+  DEBUG_PRINTLN(F("Received from DHT:"));
+  DEBUG_PRINT(data[0], HEX);
+  DEBUG_PRINT(F(", "));
+  DEBUG_PRINT(data[1], HEX);
+  DEBUG_PRINT(F(", "));
+  DEBUG_PRINT(data[2], HEX);
+  DEBUG_PRINT(F(", "));
+  DEBUG_PRINT(data[3], HEX);
+  DEBUG_PRINT(F(", "));
+  DEBUG_PRINT(data[4], HEX);
+  DEBUG_PRINT(F(" =? "));
+  DEBUG_PRINTLN((data[0] + data[1] + data[2] + data[3]) & 0xFF, HEX);
+
+  // Check we read 40 bits and that the checksum matches.
+  if (data[4] == ((data[0] + data[1] + data[2] + data[3]) & 0xFF)) {
+    _lastresult = true;
+    return _lastresult;
+  } else {
+    DEBUG_PRINTLN(F("DHT checksum failure!"));
+    _lastresult = false;
+    return _lastresult;
+  }
+}
+
+// Expect the signal line to be at the specified level for a period of time and
+// return a count of loop cycles spent at that level (this cycle count can be
+// used to compare the relative time of two pulses).  If more than a millisecond
+// ellapses without the level changing then the call fails with a 0 response.
+// This is adapted from Arduino's pulseInLong function (which is only available
+// in the very latest IDE versions):
+//   https://github.com/arduino/Arduino/blob/master/hardware/arduino/avr/cores/arduino/wiring_pulse.c
+uint32_t DHT::expectPulse(bool level) {
+// F_CPU is not be known at compile time on platforms such as STM32F103.
+// The preprocessor seems to evaluate it to zero in that case.
+#if (F_CPU > 16000000L) || (F_CPU == 0L)
+  uint32_t count = 0;
+#else
+  uint16_t count = 0; // To work fast enough on slower AVR boards
+#endif
+// On AVR platforms use direct GPIO port access as it's much faster and better
+// for catching pulses that are 10's of microseconds in length:
+#ifdef __AVR
+  uint8_t portState = level ? _bit : 0;
+  while ((*portInputRegister(_port) & _bit) == portState) {
+    if (count++ >= _maxcycles) {
+      return TIMEOUT; // Exceeded timeout, fail.
+    }
+  }
+// Otherwise fall back to using digitalRead (this seems to be necessary on
+// ESP8266 right now, perhaps bugs in direct port access functions?).
+#else
+  while (digitalRead(_pin) == level) {
+    if (count++ >= _maxcycles) {
+      return TIMEOUT; // Exceeded timeout, fail.
+    }
+  }
+#endif
+
+  return count;
+}

+ 109 - 109
HomeServerIOExt_Arduino/DHT.h

@@ -1,109 +1,109 @@
-/*!
- *  @file DHT.h
- *
- *  This is a library for DHT series of low cost temperature/humidity sensors.
- *
- *  You must have Adafruit Unified Sensor Library library installed to use this
- * class.
- *
- *  Adafruit invests time and resources providing this open source code,
- *  please support Adafruit andopen-source hardware by purchasing products
- *  from Adafruit!
- *
- *  Written by Adafruit Industries.
- *
- *  MIT license, all text above must be included in any redistribution
- */
-
-#ifndef DHT_H
-#define DHT_H
-
-#include "Arduino.h"
-
-/* Uncomment to enable printing out nice debug messages. */
-//#define DHT_DEBUG
-
-#define DEBUG_PRINTER                                                          \
-  Serial /**< Define where debug output will be printed.                       \
-          */
-
-/* Setup debug printing macros. */
-#ifdef DHT_DEBUG
-#define DEBUG_PRINT(...)                                                       \
-  { DEBUG_PRINTER.print(__VA_ARGS__); }
-#define DEBUG_PRINTLN(...)                                                     \
-  { DEBUG_PRINTER.println(__VA_ARGS__); }
-#else
-#define DEBUG_PRINT(...)                                                       \
-  {} /**< Debug Print Placeholder if Debug is disabled */
-#define DEBUG_PRINTLN(...)                                                     \
-  {} /**< Debug Print Line Placeholder if Debug is disabled */
-#endif
-
-/* Define types of sensors. */
-static const uint8_t DHT11{11};  /**< DHT TYPE 11 */
-static const uint8_t DHT12{12};  /**< DHY TYPE 12 */
-static const uint8_t DHT21{21};  /**< DHT TYPE 21 */
-static const uint8_t DHT22{22};  /**< DHT TYPE 22 */
-static const uint8_t AM2301{21}; /**< AM2301 */
-
-#if defined(TARGET_NAME) && (TARGET_NAME == ARDUINO_NANO33BLE)
-#ifndef microsecondsToClockCycles
-/*!
- * As of 7 Sep 2020 the Arduino Nano 33 BLE boards do not have
- * microsecondsToClockCycles defined.
- */
-#define microsecondsToClockCycles(a) ((a) * (SystemCoreClock / 1000000L))
-#endif
-#endif
-
-/*!
- *  @brief  Class that stores state and functions for DHT
- */
-class DHT {
-public:
-  DHT(uint8_t pin, uint8_t type, uint8_t count = 6);
-  void begin(uint8_t usec = 55);
-  float readTemperature(bool S = false, bool force = false);
-  float convertCtoF(float);
-  float convertFtoC(float);
-  float computeHeatIndex(bool isFahrenheit = true);
-  float computeHeatIndex(float temperature, float percentHumidity,
-                         bool isFahrenheit = true);
-  float readHumidity(bool force = false);
-  bool read(bool force = false);
-
-private:
-  uint8_t data[5];
-  uint8_t _pin, _type;
-#ifdef __AVR
-  // Use direct GPIO access on an 8-bit AVR so keep track of the port and
-  // bitmask for the digital pin connected to the DHT.  Other platforms will use
-  // digitalRead.
-  uint8_t _bit, _port;
-#endif
-  uint32_t _lastreadtime, _maxcycles;
-  bool _lastresult;
-  uint8_t pullTime; // Time (in usec) to pull up data line before reading
-
-  uint32_t expectPulse(bool level);
-};
-
-/*!
- *  @brief  Class that defines Interrupt Lock Avaiability
- */
-class InterruptLock {
-public:
-  InterruptLock() {
-#if !defined(ARDUINO_ARCH_NRF52)
-    noInterrupts();
-#endif
-  }
-  ~InterruptLock() {
-#if !defined(ARDUINO_ARCH_NRF52)
-    interrupts();
-#endif
-  }
-};
-
-#endif
+/*!
+ *  @file DHT.h
+ *
+ *  This is a library for DHT series of low cost temperature/humidity sensors.
+ *
+ *  You must have Adafruit Unified Sensor Library library installed to use this
+ * class.
+ *
+ *  Adafruit invests time and resources providing this open source code,
+ *  please support Adafruit andopen-source hardware by purchasing products
+ *  from Adafruit!
+ *
+ *  Written by Adafruit Industries.
+ *
+ *  MIT license, all text above must be included in any redistribution
+ */
+
+#ifndef DHT_H
+#define DHT_H
+
+#include "Arduino.h"
+
+/* Uncomment to enable printing out nice debug messages. */
+//#define DHT_DEBUG
+
+#define DEBUG_PRINTER                                                          \
+  Serial /**< Define where debug output will be printed.                       \
+          */
+
+/* Setup debug printing macros. */
+#ifdef DHT_DEBUG
+#define DEBUG_PRINT(...)                                                       \
+  { DEBUG_PRINTER.print(__VA_ARGS__); }
+#define DEBUG_PRINTLN(...)                                                     \
+  { DEBUG_PRINTER.println(__VA_ARGS__); }
+#else
+#define DEBUG_PRINT(...)                                                       \
+  {} /**< Debug Print Placeholder if Debug is disabled */
+#define DEBUG_PRINTLN(...)                                                     \
+  {} /**< Debug Print Line Placeholder if Debug is disabled */
+#endif
+
+/* Define types of sensors. */
+static const uint8_t DHT11{11};  /**< DHT TYPE 11 */
+static const uint8_t DHT12{12};  /**< DHY TYPE 12 */
+static const uint8_t DHT21{21};  /**< DHT TYPE 21 */
+static const uint8_t DHT22{22};  /**< DHT TYPE 22 */
+static const uint8_t AM2301{21}; /**< AM2301 */
+
+#if defined(TARGET_NAME) && (TARGET_NAME == ARDUINO_NANO33BLE)
+#ifndef microsecondsToClockCycles
+/*!
+ * As of 7 Sep 2020 the Arduino Nano 33 BLE boards do not have
+ * microsecondsToClockCycles defined.
+ */
+#define microsecondsToClockCycles(a) ((a) * (SystemCoreClock / 1000000L))
+#endif
+#endif
+
+/*!
+ *  @brief  Class that stores state and functions for DHT
+ */
+class DHT {
+public:
+  DHT(uint8_t pin, uint8_t type, uint8_t count = 6);
+  void begin(uint8_t usec = 55);
+  float readTemperature(bool S = false, bool force = false);
+  float convertCtoF(float);
+  float convertFtoC(float);
+  float computeHeatIndex(bool isFahrenheit = true);
+  float computeHeatIndex(float temperature, float percentHumidity,
+                         bool isFahrenheit = true);
+  float readHumidity(bool force = false);
+  bool read(bool force = false);
+
+private:
+  uint8_t data[5];
+  uint8_t _pin, _type;
+#ifdef __AVR
+  // Use direct GPIO access on an 8-bit AVR so keep track of the port and
+  // bitmask for the digital pin connected to the DHT.  Other platforms will use
+  // digitalRead.
+  uint8_t _bit, _port;
+#endif
+  uint32_t _lastreadtime, _maxcycles;
+  bool _lastresult;
+  uint8_t pullTime; // Time (in usec) to pull up data line before reading
+
+  uint32_t expectPulse(bool level);
+};
+
+/*!
+ *  @brief  Class that defines Interrupt Lock Avaiability
+ */
+class InterruptLock {
+public:
+  InterruptLock() {
+#if !defined(ARDUINO_ARCH_NRF52)
+    noInterrupts();
+#endif
+  }
+  ~InterruptLock() {
+#if !defined(ARDUINO_ARCH_NRF52)
+    interrupts();
+#endif
+  }
+};
+
+#endif

+ 2 - 2
HomeServerIOExt_Arduino/HomeServerIOExt_Arduino.ino

@@ -2,7 +2,7 @@
 #define INTERVAL 60000
 
 // define how many input pins should be used
-#define IN_PINS 3
+#define IN_PINS 4
 // which pin number to start at (default = 2)
 #define START_AT_PIN 2
 // 
@@ -44,7 +44,7 @@ bool state_pin_pending[IN_PINS];
 unsigned long lastPinChange[IN_PINS];
 
 void setup() {
-  Serial.begin(57600);
+  Serial.begin(115200);
   Serial.print(F("HomeServerIOExt v"));
   Serial.println("0.1");
 

+ 182 - 184
HomeServerIOExt_Arduino/HomeServerIOExt_Arduino.ino.eightanaloginputs.hex

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