// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.

package edu.wpi.first.hal;

public class SimDeviceJNI extends JNIWrapper {
  public static final int kInput = 0;
  public static final int kOutput = 1;
  public static final int kBidir = 2;

  /**
   * Creates a simulated device.
   *
   * <p>The device name must be unique. 0 is returned if the device name already exists. If multiple
   * instances of the same device are desired, recommend appending the instance/unique identifier in
   * brackets to the base name, e.g. "device[1]".
   *
   * <p>0 is returned if not in simulation.
   *
   * @param name device name
   * @return simulated device handle
   */
  public static native int createSimDevice(String name);

  /**
   * Frees a simulated device.
   *
   * <p>This also allows the same device name to be used again. This also frees all the simulated
   * values created on the device.
   *
   * @param handle simulated device handle
   */
  public static native void freeSimDevice(int handle);

  /**
   * Get the name of a simulated device.
   *
   * @param handle simulated device handle
   * @return name of the simulated device
   */
  public static native String getSimDeviceName(int handle);

  private static native int createSimValueNative(
      int device, String name, int direction, int type, long value1, double value2);

  /**
   * Creates a value on a simulated device.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param initialValue initial value
   * @return simulated value handle
   */
  public static int createSimValue(int device, String name, int direction, HALValue initialValue) {
    return createSimValueNative(
        device,
        name,
        direction,
        initialValue.getType(),
        initialValue.getNativeLong(),
        initialValue.getNativeDouble());
  }

  /**
   * Creates an int value on a simulated device.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param initialValue initial value
   * @return simulated value handle
   */
  public static int createSimValueInt(int device, String name, int direction, int initialValue) {
    return createSimValueNative(device, name, direction, HALValue.kInt, initialValue, 0.0);
  }

  /**
   * Creates a long value on a simulated device.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param initialValue initial value
   * @return simulated value handle
   */
  public static int createSimValueLong(int device, String name, int direction, long initialValue) {
    return createSimValueNative(device, name, direction, HALValue.kLong, initialValue, 0.0);
  }

  /**
   * Creates a double value on a simulated device.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param initialValue initial value
   * @return simulated value handle
   */
  public static int createSimValueDouble(
      int device, String name, int direction, double initialValue) {
    return createSimValueNative(device, name, direction, HALValue.kDouble, 0, initialValue);
  }

  /**
   * Creates an enumerated value on a simulated device.
   *
   * <p>Enumerated values are always in the range 0 to numOptions-1.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param options array of option descriptions
   * @param initialValue initial value (selection)
   * @return simulated value handle
   */
  public static native int createSimValueEnum(
      int device, String name, int direction, String[] options, int initialValue);

  /**
   * Creates an enumerated value on a simulated device with double values.
   *
   * <p>Enumerated values are always in the range 0 to numOptions-1.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param options array of option descriptions
   * @param optionValues array of option values (must be the same size as options)
   * @param initialValue initial value (selection)
   * @return simulated value handle
   */
  public static native int createSimValueEnumDouble(
      int device,
      String name,
      int direction,
      String[] options,
      double[] optionValues,
      int initialValue);

  /**
   * Creates a boolean value on a simulated device.
   *
   * <p>Returns 0 if not in simulation; this can be used to avoid calls to Set/Get functions.
   *
   * @param device simulated device handle
   * @param name value name
   * @param direction input/output/bidir (from perspective of user code)
   * @param initialValue initial value
   * @return simulated value handle
   */
  public static int createSimValueBoolean(
      int device, String name, int direction, boolean initialValue) {
    return createSimValueNative(
        device, name, direction, HALValue.kBoolean, initialValue ? 1 : 0, 0.0);
  }

  /**
   * Gets a simulated value.
   *
   * @param handle simulated value handle
   * @return The current value
   */
  public static native HALValue getSimValue(int handle);

  /**
   * Gets a simulated value (int).
   *
   * @param handle simulated value handle
   * @return The current value
   */
  public static native int getSimValueInt(int handle);

  /**
   * Gets a simulated value (long).
   *
   * @param handle simulated value handle
   * @return The current value
   */
  public static native long getSimValueLong(int handle);

  /**
   * Gets a simulated value (double).
   *
   * @param handle simulated value handle
   * @return The current value
   */
  public static native double getSimValueDouble(int handle);

  /**
   * Gets a simulated value (enum).
   *
   * @param handle simulated value handle
   * @return The current value
   */
  public static native int getSimValueEnum(int handle);

  /**
   * Gets a simulated value (boolean).
   *
   * @param handle simulated value handle
   * @return The current value
   */
  public static native boolean getSimValueBoolean(int handle);

  private static native void setSimValueNative(int handle, int type, long value1, double value2);

  /**
   * Sets a simulated value.
   *
   * @param handle simulated value handle
   * @param value the value to set
   */
  public static void setSimValue(int handle, HALValue value) {
    setSimValueNative(handle, value.getType(), value.getNativeLong(), value.getNativeDouble());
  }

  /**
   * Sets a simulated value (int).
   *
   * @param handle simulated value handle
   * @param value the value to set
   */
  public static void setSimValueInt(int handle, int value) {
    setSimValueNative(handle, HALValue.kInt, value, 0.0);
  }

  /**
   * Sets a simulated value (long).
   *
   * @param handle simulated value handle
   * @param value the value to set
   */
  public static void setSimValueLong(int handle, long value) {
    setSimValueNative(handle, HALValue.kLong, value, 0.0);
  }

  /**
   * Sets a simulated value (double).
   *
   * @param handle simulated value handle
   * @param value the value to set
   */
  public static void setSimValueDouble(int handle, double value) {
    setSimValueNative(handle, HALValue.kDouble, 0, value);
  }

  /**
   * Sets a simulated value (enum).
   *
   * @param handle simulated value handle
   * @param value the value to set
   */
  public static void setSimValueEnum(int handle, int value) {
    setSimValueNative(handle, HALValue.kEnum, value, 0.0);
  }

  /**
   * Sets a simulated value (boolean).
   *
   * @param handle simulated value handle
   * @param value the value to set
   */
  public static void setSimValueBoolean(int handle, boolean value) {
    setSimValueNative(handle, HALValue.kBoolean, value ? 1 : 0, 0.0);
  }

  /**
   * Resets a simulated double or integral value to 0. Has no effect on other value types. Use this
   * instead of Set(0) for resetting incremental sensor values like encoder counts or gyro
   * accumulated angle to ensure correct behavior in a distributed system (e.g. WebSockets).
   *
   * @param handle simulated value handle
   */
  public static native void resetSimValue(int handle);
}