Struct rppal::gpio::OutputPin

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pub struct OutputPin { /* private fields */ }

Expand description

GPIO pin configured as output.

OutputPins are constructed by converting a Pin using Pin::into_output, Pin::into_output_low or Pin::into_output_high. The pin’s mode is automatically set to Mode::Output.

An OutputPin can be used to change a pin’s output state.

The embedded-hal trait implementations for OutputPin can be enabled by specifying the optional hal feature in the dependency declaration for the rppal crate.

Implementations§

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impl OutputPin

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pub fn pin(&self) -> u8

Returns the GPIO pin number.

Pins are addressed by their BCM numbers, rather than their physical location.

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pub fn is_set_low(&self) -> bool

Returns true if the pin’s output state is set to Low.

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pub fn is_set_high(&self) -> bool

Returns true if the pin’s output state is set to High.

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pub fn write(&mut self, level: Level)

Sets the pin’s output state.

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pub fn set_low(&mut self)

Sets the pin’s output state to Low.

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pub fn set_high(&mut self)

Sets the pin’s output state to High.

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pub fn toggle(&mut self)

Toggles the pin’s output state between Low and High.

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pub fn set_pwm(&mut self, period: Duration, pulse_width: Duration) -> Result<()>

Configures a software-based PWM signal.

period indicates the time it takes to complete one cycle.

pulse_width indicates the amount of time the PWM signal is active during a single period.

Software-based PWM is inherently inaccurate on a multi-threaded OS due to scheduling/preemption. If an accurate or faster PWM signal is required, use the hardware Pwm peripheral instead. More information can be found here.

If set_pwm is called when a PWM thread is already active, the existing thread will be reconfigured at the end of the current cycle.

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pub fn set_pwm_frequency( &mut self, frequency: f64, duty_cycle: f64 ) -> Result<()>

Configures a software-based PWM signal.

set_pwm_frequency is a convenience method that converts frequency to a period and duty_cycle to a pulse width, and then calls set_pwm.

frequency is specified in hertz (Hz).

duty_cycle is specified as a floating point value between 0.0 (0%) and 1.0 (100%).

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pub fn clear_pwm(&mut self) -> Result<()>

Stops a previously configured software-based PWM signal.

The thread responsible for emulating the PWM signal is stopped at the end of the current cycle.

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pub fn reset_on_drop(&self) -> bool

Returns the value of reset_on_drop.

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pub fn set_reset_on_drop(&mut self, reset_on_drop: bool)

When enabled, resets the pin’s mode to its original state and disables the built-in pull-up/pull-down resistors when the pin goes out of scope. By default, this is set to true.

Note

Drop methods aren’t called when a process is abnormally terminated, for instance when a user presses Ctrl + C, and the SIGINT signal isn’t caught. You can catch those using crates such as simple_signal.