WPILibC++ 2023.4.3-108-ge5452e3
AsynchronousInterrupt.h
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1// Copyright (c) FIRST and other WPILib contributors.
2// Open Source Software; you can modify and/or share it under the terms of
3// the WPILib BSD license file in the root directory of this project.
4
5#pragma once
6
8
9#include <atomic>
10#include <functional>
11#include <memory>
12#include <thread>
13#include <utility>
14
15#include <units/time.h>
16
17namespace frc {
18/**
19 * Class for handling asynchronous interrupts using a callback thread.
20 *
21 * <p> By default, interrupts will occur on rising edge. Callbacks are disabled
22 * by default, and Enable() must be called before they will occur.
23 *
24 * <p> Both rising and falling edges can be indicated in one callback if both a
25 * rising and falling edge occurred since the previous callback.
26 *
27 * <p>Synchronous (blocking) interrupts are handled by the SynchronousInterrupt
28 * class.
29 */
31 public:
32 /**
33 * Construct an Asynchronous Interrupt from a Digital Source.
34 *
35 * <p> At construction, the interrupt will trigger on the rising edge.
36 *
37 * <p> The first bool in the callback indicates the rising edge triggered the
38 * interrupt, the second bool is falling edge.
39 *
40 * @param source the DigitalSource the interrupts are triggered from
41 * @param callback the callback function to call when the interrupt is
42 * triggered
43 */
45 std::function<void(bool, bool)> callback);
46
47 /**
48 * Construct an Asynchronous Interrupt from a Digital Source.
49 *
50 * <p> At construction, the interrupt will trigger on the rising edge.
51 *
52 * <p> The first bool in the callback indicates the rising edge triggered the
53 * interrupt, the second bool is falling edge.
54 *
55 * @param source the DigitalSource the interrupts are triggered from
56 * @param callback the callback function to call when the interrupt is
57 * triggered
58 */
60 std::function<void(bool, bool)> callback);
61
62 /**
63 * Construct an Asynchronous Interrupt from a Digital Source.
64 *
65 * <p> At construction, the interrupt will trigger on the rising edge.
66 *
67 * <p> The first bool in the callback indicates the rising edge triggered the
68 * interrupt, the second bool is falling edge.
69 *
70 * @param source the DigitalSource the interrupts are triggered from
71 * @param callback the callback function to call when the interrupt is
72 * triggered
73 */
74 AsynchronousInterrupt(std::shared_ptr<DigitalSource> source,
75 std::function<void(bool, bool)> callback);
76
77 /**
78 * Construct an Asynchronous Interrupt from a Digital Source.
79 *
80 * <p> At construction, the interrupt will trigger on the rising edge.
81 *
82 * @param source the DigitalSource the interrupts are triggered from
83 * @param f the callback function to call when the interrupt is triggered
84 * @param arg the first argument, interrupt was triggered on rising edge
85 * @param args the remaining arguments, interrupt was triggered on falling
86 * edge
87 */
88 template <typename Callable, typename Arg, typename... Args>
90 Args&&... args)
92 source, std::bind(std::forward<Callable>(f), std::forward<Arg>(arg),
93 std::forward<Args>(args)...)) {}
94
95 /**
96 * Construct an Asynchronous Interrupt from a Digital Source.
97 *
98 * <p> At construction, the interrupt will trigger on the rising edge.
99 *
100 * @param source the DigitalSource the interrupts are triggered from
101 * @param f the callback function to call when the interrupt is triggered
102 * @param arg the first argument, interrupt was triggered on rising edge
103 * @param args the remaining arguments, interrupt was triggered on falling
104 * edge
105 */
106 template <typename Callable, typename Arg, typename... Args>
108 Args&&... args)
110 source, std::bind(std::forward<Callable>(f), std::forward<Arg>(arg),
111 std::forward<Args>(args)...)) {}
112
113 /**
114 * Construct an Asynchronous Interrupt from a Digital Source.
115 *
116 * <p> At construction, the interrupt will trigger on the rising edge.
117 *
118 * @param source the DigitalSource the interrupts are triggered from
119 * @param f the callback function to call when the interrupt is triggered
120 * @param arg the first argument, interrupt was triggered on rising edge
121 * @param args the remaining arguments, interrupt was triggered on falling
122 * edge
123 */
124 template <typename Callable, typename Arg, typename... Args>
125 AsynchronousInterrupt(std::shared_ptr<DigitalSource> source, Callable&& f,
126 Arg&& arg, Args&&... args)
128 source, std::bind(std::forward<Callable>(f), std::forward<Arg>(arg),
129 std::forward<Args>(args)...)) {}
130
132
133 /**
134 * Enables interrupt callbacks. Before this, callbacks will not occur. Does
135 * nothing if already enabled.
136 */
137 void Enable();
138
139 /**
140 * Disables interrupt callbacks. Does nothing if already disabled.
141 */
142 void Disable();
143
144 /**
145 * Set which edges to trigger the interrupt on.
146 *
147 * @param risingEdge %Trigger on rising edge
148 * @param fallingEdge %Trigger on falling edge
149 */
150 void SetInterruptEdges(bool risingEdge, bool fallingEdge);
151
152 /**
153 * Get the timestamp of the last rising edge.
154 *
155 * <p>This function does not require the interrupt to be enabled to work.
156 *
157 * <p>This only works if rising edge was configured using SetInterruptEdges.
158 * @return the timestamp in seconds relative to GetFPGATime
159 */
160 units::second_t GetRisingTimestamp();
161
162 /**
163 * Get the timestamp of the last falling edge.
164 *
165 * <p>This function does not require the interrupt to be enabled to work.
166 *
167 * <p>This only works if falling edge was configured using SetInterruptEdges.
168 * @return the timestamp in seconds relative to GetFPGATime
169 */
170 units::second_t GetFallingTimestamp();
171
172 private:
173 void ThreadMain();
174
175 std::atomic_bool m_keepRunning{false};
176 std::thread m_thread;
177 SynchronousInterrupt m_interrupt;
178 std::function<void(bool, bool)> m_callback;
179};
180} // namespace frc
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const ArgReturnType arg() const
Definition: ArrayCwiseUnaryOps.h:66
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Definition: ThirdPartyNotices.txt:111
Class for handling asynchronous interrupts using a callback thread.
Definition: AsynchronousInterrupt.h:30
AsynchronousInterrupt(DigitalSource &source, std::function< void(bool, bool)> callback)
Construct an Asynchronous Interrupt from a Digital Source.
AsynchronousInterrupt(DigitalSource *source, std::function< void(bool, bool)> callback)
Construct an Asynchronous Interrupt from a Digital Source.
AsynchronousInterrupt(std::shared_ptr< DigitalSource > source, std::function< void(bool, bool)> callback)
Construct an Asynchronous Interrupt from a Digital Source.
void Disable()
Disables interrupt callbacks.
AsynchronousInterrupt(DigitalSource *source, Callable &&f, Arg &&arg, Args &&... args)
Construct an Asynchronous Interrupt from a Digital Source.
Definition: AsynchronousInterrupt.h:107
AsynchronousInterrupt(DigitalSource &source, Callable &&f, Arg &&arg, Args &&... args)
Construct an Asynchronous Interrupt from a Digital Source.
Definition: AsynchronousInterrupt.h:89
units::second_t GetRisingTimestamp()
Get the timestamp of the last rising edge.
void Enable()
Enables interrupt callbacks.
void SetInterruptEdges(bool risingEdge, bool fallingEdge)
Set which edges to trigger the interrupt on.
AsynchronousInterrupt(std::shared_ptr< DigitalSource > source, Callable &&f, Arg &&arg, Args &&... args)
Construct an Asynchronous Interrupt from a Digital Source.
Definition: AsynchronousInterrupt.h:125
units::second_t GetFallingTimestamp()
Get the timestamp of the last falling edge.
DigitalSource Interface.
Definition: DigitalSource.h:22
Class for handling synchronous (blocking) interrupts.
Definition: SynchronousInterrupt.h:22
Definition: AprilTagPoseEstimator.h:15
Definition: BFloat16.h:88