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." Process this file with
." groff -man -Tascii pigpio.3
."
.TH pigpio 3 2012-2017 Linux "pigpio archive"
.SH NAME
pigpio - A C library to manipulate the Pi's GPIO.
.SH SYNOPSIS
#include <pigpio.h>
gcc -Wall -pthread -o prog prog.c -lpigpio -lrt
sudo ./prog
.SH DESCRIPTION
.ad l
.nh
.br
.br
pigpio is a C library for the Raspberry which allows control of the GPIO.
.br
.br
.SS Features
.br
.br
o hardware timed PWM on any of GPIO 0-31
.br
.br
o hardware timed servo pulses on any of GPIO 0-31
.br
.br
o callbacks when any of GPIO 0-31 change state
.br
.br
o callbacks at timed intervals
.br
.br
o reading/writing all of the GPIO in a bank as one operation
.br
.br
o individually setting GPIO modes, reading and writing
.br
.br
o notifications when any of GPIO 0-31 change state
.br
.br
o the construction of output waveforms with microsecond timing
.br
.br
o rudimentary permission control over GPIO
.br
.br
o a simple interface to start and stop new threads
.br
.br
o I2C, SPI, and serial link wrappers
.br
.br
o creating and running scripts
.br
.br
.SS GPIO
.br
.br
ALL GPIO are identified by their Broadcom number.
.br
.br
.SS Credits
.br
.br
The PWM and servo pulses are timed using the DMA and PWM peripherals.
.br
.br
This use was inspired by Richard Hirst's servoblaster kernel module.
.br
.br
See \fBhttps://github.com/richardghirst/PiBits/tree/master/ServoBlaster\fP
.br
.br
.SS Usage
.br
.br
Include <pigpio.h> in your source files.
.br
.br
Assuming your source is in prog.c use the following command to build and
run the executable.
.br
.br
.EX
gcc -Wall -pthread -o prog prog.c -lpigpio -lrt
.br
sudo ./prog
.br
.EE
.br
.br
For examples of usage see the C programs within the pigpio archive file.
.br
.br
.SS Notes
.br
.br
All the functions which return an int return < 0 on error.
.br
.br
\fBgpioInitialise\fP must be called before all other library functions
with the following exceptions:
.br
.br
.EX
\fBgpioCfg*\fP
.br
\fBgpioVersion\fP
.br
\fBgpioHardwareRevision\fP
.br
.EE
.br
.br
If the library is not initialised all but the \fBgpioCfg*\fP,
\fBgpioVersion\fP, and \fBgpioHardwareRevision\fP functions will
return error PI_NOT_INITIALISED.
.br
.br
If the library is initialised the \fBgpioCfg*\fP functions will return
error PI_INITIALISED.
.br
.br
.SH FUNCTIONS
.IP "\fBint gpioInitialise(void)\fP"
.IP "" 4
Initialises the library.
.br
.br
Returns the pigpio version number if OK, otherwise PI_INIT_FAILED.
.br
.br
gpioInitialise must be called before using the other library functions
with the following exceptions:
.br
.br
.EX
\fBgpioCfg*\fP
.br
\fBgpioVersion\fP
.br
\fBgpioHardwareRevision\fP
.br
.EE
.br
.br
\fBExample\fP
.br
.EX
if (gpioInitialise() < 0)
.br
{
.br
// pigpio initialisation failed.
.br
}
.br
else
.br
{
.br
// pigpio initialised okay.
.br
}
.br
.EE
.IP "\fBvoid gpioTerminate(void)\fP"
.IP "" 4
Terminates the library.
.br
.br
Returns nothing.
.br
.br
Call before program exit.
.br
.br
This function resets the used DMA channels, releases memory, and
terminates any running threads.
.br
.br
\fBExample\fP
.br
.EX
gpioTerminate();
.br
.EE
.IP "\fBint gpioSetMode(unsigned gpio, unsigned mode)\fP"
.IP "" 4
Sets the GPIO mode, typically input or output.
.br
.br
.EX
gpio: 0-53
.br
mode: 0-7
.br
.EE
.br
.br
Returns 0 if OK, otherwise PI_BAD_GPIO or PI_BAD_MODE.
.br
.br
Arduino style: pinMode.
.br
.br
\fBExample\fP
.br
.EX
gpioSetMode(17, PI_INPUT); // Set GPIO17 as input.
.br
.br
gpioSetMode(18, PI_OUTPUT); // Set GPIO18 as output.
.br
.br
gpioSetMode(22,PI_ALT0); // Set GPIO22 to alternative mode 0.
.br
.EE
.IP "\fBint gpioGetMode(unsigned gpio)\fP"
.IP "" 4
Gets the GPIO mode.
.br
.br
.EX
gpio: 0-53
.br
.EE
.br
.br
Returns the GPIO mode if OK, otherwise PI_BAD_GPIO.
.br
.br
\fBExample\fP
.br
.EX
if (gpioGetMode(17) != PI_ALT0)
.br
{
.br
gpioSetMode(17, PI_ALT0); // set GPIO17 to ALT0
.br
}
.br
.EE
.IP "\fBint gpioSetPullUpDown(unsigned gpio, unsigned pud)\fP"
.IP "" 4
Sets or clears resistor pull ups or downs on the GPIO.
.br
.br
.EX
gpio: 0-53
.br
pud: 0-2
.br
.EE
.br
.br
Returns 0 if OK, otherwise PI_BAD_GPIO or PI_BAD_PUD.
.br
.br
\fBExample\fP
.br
.EX
gpioSetPullUpDown(17, PI_PUD_UP); // Sets a pull-up.
.br
.br
gpioSetPullUpDown(18, PI_PUD_DOWN); // Sets a pull-down.
.br
.br
gpioSetPullUpDown(23, PI_PUD_OFF); // Clear any pull-ups/downs.
.br
.EE
.IP "\fBint gpioRead(unsigned gpio)\fP"
.IP "" 4
Reads the GPIO level, on or off.
.br
.br
.EX
gpio: 0-53
.br
.EE
.br
.br
Returns the GPIO level if OK, otherwise PI_BAD_GPIO.
.br
.br
Arduino style: digitalRead.
.br
.br
\fBExample\fP
.br
.EX
printf("GPIO24 is level %d", gpioRead(24));
.br
.EE
.IP "\fBint gpioWrite(unsigned gpio, unsigned level)\fP"
.IP "" 4
Sets the GPIO level, on or off.
.br
.br
.EX
gpio: 0-53
.br
level: 0-1
.br
.EE
.br
.br
Returns 0 if OK, otherwise PI_BAD_GPIO or PI_BAD_LEVEL.
.br
.br
If PWM or servo pulses are active on the GPIO they are switched off.
.br
.br
Arduino style: digitalWrite
.br
.br
\fBExample\fP
.br
.EX
gpioWrite(24, 1); // Set GPIO24 high.
.br
.EE
.IP "\fBint gpioPWM(unsigned user_gpio, unsigned dutycycle)\fP"
.IP "" 4
Starts PWM on the GPIO, dutycycle between 0 (off) and range (fully on).
Range defaults to 255.
.br
.br
.EX
user_gpio: 0-31
.br
dutycycle: 0-range
.br
.EE
.br
.br
Returns 0 if OK, otherwise PI_BAD_USER_GPIO or PI_BAD_DUTYCYCLE.
.br
.br
Arduino style: analogWrite
.br
.br
This and the servo functionality use the DMA and PWM or PCM peripherals
to control and schedule the pulse lengths and dutycycles.
.br
.br
The \fBgpioSetPWMrange\fP function may be used to change the default
range of 255.
.br
.br
\fBExample\fP
.br
.EX
gpioPWM(17, 255); // Sets GPIO17 full on.
.br
.br
gpioPWM(18, 128); // Sets GPIO18 half on.
.br
.br
gpioPWM(23, 0); // Sets GPIO23 full off.
.br
.EE
.IP "\fBint gpioGetPWMdutycycle(unsigned user_gpio)\fP"
.IP "" 4
Returns the PWM dutycycle setting for the GPIO.
.br
.br
.EX
user_gpio: 0-31
.br
.EE
.br
.br
Returns between 0 (off) and range (fully on) if OK, otherwise
PI_BAD_USER_GPIO or PI_NOT_PWM_GPIO.
.br
.br
For normal PWM the dutycycle will be out of the defined range
for the GPIO (see \fBgpioGetPWMrange\fP).
.br
.br
If a hardware clock is active on the GPIO the reported dutycycle
will be 500000 (500k) out of 1000000 (1M).
.br
.br
If hardware PWM is active on the GPIO the reported dutycycle
will be out of a 1000000 (1M).
.br
.br
Normal PWM range defaults to 255.
.IP "\fBint gpioSetPWMrange(unsigned user_gpio, unsigned range)\fP"
.IP "" 4
Selects the dutycycle range to be used for the GPIO. Subsequent calls
to gpioPWM will use a dutycycle between 0 (off) and range (fully on).
.br
.br
.EX
user_gpio: 0-31
.br
range: 25-40000
.br
.EE
.br
.br
Returns the real range for the given GPIO's frequency if OK,
otherwise PI_BAD_USER_GPIO or PI_BAD_DUTYRANGE.
.br
.br
If PWM is currently active on the GPIO its dutycycle will be scaled
to reflect the new range.
.br
.br
The real range, the number of steps between fully off and fully
on for each frequency, is given in the following table.
.br
.br
.EX
25, 50, 100, 125, 200, 250, 400, 500, 625,
.br
800, 1000, 1250, 2000, 2500, 4000, 5000, 10000, 20000
.br
.EE
.br
.br
The real value set by \fBgpioPWM\fP is (dutycycle * real range) / range.
.br
.br
\fBExample\fP
.br
.EX
gpioSetPWMrange(24, 2000); // Now 2000 is fully on
.br
// 1000 is half on
.br
// 500 is quarter on, etc.
.br
.EE
.IP "\fBint gpioGetPWMrange(unsigned user_gpio)\fP"
.IP "" 4
Returns the dutycycle range used for the GPIO if OK, otherwise
PI_BAD_USER_GPIO.
.br
.br
.EX
user_gpio: 0-31
.br
.EE
.br
.br
If a hardware clock or hardware PWM is active on the GPIO
the reported range will be 1000000 (1M).
.br
.br
\fBExample\fP
.br
.EX
r = gpioGetPWMrange(23);
.br
.EE
.IP "\fBint gpioGetPWMrealRange(unsigned user_gpio)\fP"
.IP "" 4
Returns the real range used for the GPIO if OK, otherwise
PI_BAD_USER_GPIO.
.br
.br
.EX
user_gpio: 0-31
.br
.EE
.br
.br
If a hardware clock is active on the GPIO the reported real
range will be 1000000 (1M).
.br
.br
If hardware PWM is active on the GPIO the reported real range
will be approximately 250M divided by the set PWM frequency.
.br
.br
\fBExample\fP
.br
.EX
rr = gpioGetPWMrealRange(17);
.br
.EE
.IP "\fBint gpioSetPWMfrequency(unsigned user_gpio, unsigned frequency)\fP"
.IP "" 4
Sets the frequency in hertz to be used for the GPIO.
.br
.br
.EX
user_gpio: 0-31
.br
frequency: >=0
.br
.EE
.br
.br
Returns the numerically closest frequency if OK, otherwise
PI_BAD_USER_GPIO.
.br
.br
If PWM is currently active on the GPIO it will be
switched off and then back on at the new frequency.
.br
.br
Each GPIO can be independently set to one of 18 different PWM
frequencies.
.br
.br
The selectable frequencies depend upon the sample rate which
may be 1, 2, 4, 5, 8, or 10 microseconds (default 5).
.br
.br
The frequencies for each sample rate are:
.br
.br
.EX
Hertz
.br
.br
1: 40000 20000 10000 8000 5000 4000 2500 2000 1600
.br
1250 1000 800 500 400 250 200 100 50
.br
.br
2: 20000 10000 5000 4000 2500 2000 1250 1000 800
.br
625 500 400 250 200 125 100 50 25
.br
.br
4: 10000 5000 2500 2000 1250 1000 625 500 400
.br
313 250 200 125 100 63 50 25 13
.br
sample
.br
rate
.br
(us) 5: 8000 4000 2000 1600 1000 800 500 400 320
.br
250 200 160 100 80 50 40 20 10
.br
.br
8: 5000 2500 1250 1000 625 500 313 250 200
.br
156 125 100 63 50 31 25 13 6
.br
.br
10: 4000 2000 1000 800 500 400 250 200 160
.br
125 100 80 50 40 25 20 10 5
.br
.EE
.br
.br
\fBExample\fP
.br
.EX
gpioSetPWMfrequency(23, 0); // Set GPIO23 to lowest frequency.
.br
.br
gpioSetPWMfrequency(24, 500); // Set GPIO24 to 500Hz.
.br
.br
gpioSetPWMfrequency(25, 100000); // Set GPIO25 to highest frequency.
.br
.EE
.IP "\fBint gpioGetPWMfrequency(unsigned user_gpio)\fP"
.IP "" 4
Returns the frequency (in hertz) used for the GPIO if OK, otherwise
PI_BAD_USER_GPIO.
.br
.br
.EX
user_gpio: 0-31
.br
.EE
.br
.br
For normal PWM the frequency will be that defined for the GPIO by
\fBgpioSetPWMfrequency\fP.
.br
.br
If a hardware clock is active on the GPIO the reported frequency
will be that set by \fBgpioHardwareClock\fP.
.br
.br
If hardware PWM is active on the GPIO the reported frequency
will be that set by \fBgpioHardwarePWM\fP.
.br
.br
\fBExample\fP
.br
.EX
f = gpioGetPWMfrequency(23); // Get frequency used for GPIO23.
.br
.EE
.IP "\fBint gpioServo(unsigned user_gpio, unsigned pulsewidth)\fP"
.IP "" 4
Starts servo pulses on the GPIO, 0 (off), 500 (most anti-clockwise) to
2500 (most clockwise).
.br
.br
.EX
user_gpio: 0-31
.br
pulsewidth: 0, 500-2500
.br
.EE
.br
.br
Returns 0 if OK, otherwise PI_BAD_USER_GPIO or PI_BAD_PULSEWIDTH.
.br
.br
The range supported by servos varies and should probably be determined
by experiment. A value of 1500 should always be safe and represents
the mid-point of rotation. You can DAMAGE a servo if you command it
to move beyond its limits.
.br
.br
The following causes an on pulse of 1500 microseconds duration to be
transmitted on GPIO 17 at a rate of 50 times per second. This will
command a servo connected to GPIO 17 to rotate to its mid-point.
.br
.br
\fBExample\fP
.br
.EX
gpioServo(17, 1000); // Move servo to safe position anti-clockwise.
.br
.br
gpioServo(23, 1500); // Move servo to centre position.
.br
.br
gpioServo(25, 2000); // Move servo to safe position clockwise.
.br
.EE
.br
.br
OTHER UPDATE RATES:
.br
.br
This function updates servos at 50Hz. If you wish to use a different
update frequency you will have to use the PWM functions.
.br
.br
.EX
PWM Hz 50 100 200 400 500
.br
1E6/Hz 20000 10000 5000 2500 2000
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.EE
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Firstly set the desired PWM frequency using \fBgpioSetPWMfrequency\fP.
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Then set the PWM range using \fBgpioSetPWMrange\fP to 1E6/frequency.
Doing this allows you to use units of microseconds when setting
the servo pulsewidth.
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E.g. If you want to update a servo connected to GPIO25 at 400Hz
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.EX
gpioSetPWMfrequency(25, 400);
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gpioSetPWMrange(25, 2500);
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.EE