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docs: Change `\*` to `*` in argument lists. 

Latest versions of Sphinx (at least 3.1.0) do not need the `*` escaped and
will render the `\` in the output if it is there, so remove it.

Fixes issue #6209.
This commit is contained in:
Zenix27 2020-07-11 12:23:26 +05:30 committed by Damien George
parent 17689a71f6
commit e76c7466b6
28 changed files with 55 additions and 55 deletions
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2
docs/library/btree.rst
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@ -76,7 +76,7 @@ Example::
Functions
---------
.. function:: open(stream, \*, flags=0, pagesize=0, cachesize=0, minkeypage=0)
.. function:: open(stream, *, flags=0, pagesize=0, cachesize=0, minkeypage=0)
Open a database from a random-access `stream` (like an open file). All
other parameters are optional and keyword-only, and allow to tweak advanced

2
docs/library/esp32.rst
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@ -186,7 +186,7 @@ For more details see Espressif's `ESP-IDF RMT documentation.
*beta feature* and the interface may change in the future.
.. class:: RMT(channel, \*, pin=None, clock_div=8, carrier_freq=0, carrier_duty_percent=50)
.. class:: RMT(channel, *, pin=None, clock_div=8, carrier_freq=0, carrier_duty_percent=50)
This class provides access to one of the eight RMT channels. *channel* is
required and identifies which RMT channel (0-7) will be configured. *pin*,

2
docs/library/lcd160cr.rst
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@ -37,7 +37,7 @@ For example::
Constructors
------------
.. class:: LCD160CR(connect=None, \*, pwr=None, i2c=None, spi=None, i2c_addr=98)
.. class:: LCD160CR(connect=None, *, pwr=None, i2c=None, spi=None, i2c_addr=98)
Construct an LCD160CR object. The parameters are:

4
docs/library/machine.ADCWiPy.rst
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@ -22,7 +22,7 @@ Usage::
Constructors
------------
.. class:: ADCWiPy(id=0, \*, bits=12)
.. class:: ADCWiPy(id=0, *, bits=12)
Create an ADC object associated with the given pin.
This allows you to then read analog values on that pin.
@ -39,7 +39,7 @@ Constructors
Methods
-------
.. method:: ADCWiPy.channel(id, \*, pin)
.. method:: ADCWiPy.channel(id, *, pin)
Create an analog pin. If only channel ID is given, the correct pin will
be selected. Alternatively, only the pin can be passed and the correct

10
docs/library/machine.I2C.rst
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@ -33,7 +33,7 @@ Example usage::
Constructors
------------
.. class:: I2C(id=-1, \*, scl, sda, freq=400000)
.. class:: I2C(id=-1, *, scl, sda, freq=400000)
Construct and return a new I2C object using the following parameters:
@ -52,7 +52,7 @@ Constructors
General Methods
---------------
.. method:: I2C.init(scl, sda, \*, freq=400000)
.. method:: I2C.init(scl, sda, *, freq=400000)
Initialise the I2C bus with the given arguments:
@ -153,14 +153,14 @@ from and written to. In this case there are two addresses associated with an
I2C transaction: the slave address and the memory address. The following
methods are convenience functions to communicate with such devices.
.. method:: I2C.readfrom_mem(addr, memaddr, nbytes, \*, addrsize=8)
.. method:: I2C.readfrom_mem(addr, memaddr, nbytes, *, addrsize=8)
Read *nbytes* from the slave specified by *addr* starting from the memory
address specified by *memaddr*.
The argument *addrsize* specifies the address size in bits.
Returns a `bytes` object with the data read.
.. method:: I2C.readfrom_mem_into(addr, memaddr, buf, \*, addrsize=8)
.. method:: I2C.readfrom_mem_into(addr, memaddr, buf, *, addrsize=8)
Read into *buf* from the slave specified by *addr* starting from the
memory address specified by *memaddr*. The number of bytes read is the
@ -170,7 +170,7 @@ methods are convenience functions to communicate with such devices.
The method returns ``None``.
.. method:: I2C.writeto_mem(addr, memaddr, buf, \*, addrsize=8)
.. method:: I2C.writeto_mem(addr, memaddr, buf, *, addrsize=8)
Write *buf* to the slave specified by *addr* starting from the
memory address specified by *memaddr*.

6
docs/library/machine.Pin.rst
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@ -42,7 +42,7 @@ Usage Model::
Constructors
------------
.. class:: Pin(id, mode=-1, pull=-1, \*, value, drive, alt)
.. class:: Pin(id, mode=-1, pull=-1, *, value, drive, alt)
Access the pin peripheral (GPIO pin) associated with the given ``id``. If
additional arguments are given in the constructor then they are used to initialise
@ -106,7 +106,7 @@ Constructors
Methods
-------
.. method:: Pin.init(mode=-1, pull=-1, \*, value, drive, alt)
.. method:: Pin.init(mode=-1, pull=-1, *, value, drive, alt)
Re-initialise the pin using the given parameters. Only those arguments that
are specified will be set. The rest of the pin peripheral state will remain
@ -179,7 +179,7 @@ Methods
Availability: WiPy.
.. method:: Pin.irq(handler=None, trigger=(Pin.IRQ_FALLING | Pin.IRQ_RISING), \*, priority=1, wake=None, hard=False)
.. method:: Pin.irq(handler=None, trigger=(Pin.IRQ_FALLING | Pin.IRQ_RISING), *, priority=1, wake=None, hard=False)
Configure an interrupt handler to be called when the trigger source of the
pin is active. If the pin mode is ``Pin.IN`` then the trigger source is

4
docs/library/machine.RTC.rst
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@ -38,7 +38,7 @@ Methods
Resets the RTC to the time of January 1, 2015 and starts running it again.
.. method:: RTC.alarm(id, time, \*, repeat=False)
.. method:: RTC.alarm(id, time, *, repeat=False)
Set the RTC alarm. Time might be either a millisecond value to program the alarm to
current time + time_in_ms in the future, or a datetimetuple. If the time passed is in
@ -52,7 +52,7 @@ Methods
Cancel a running alarm.
.. method:: RTC.irq(\*, trigger, handler=None, wake=machine.IDLE)
.. method:: RTC.irq(*, trigger, handler=None, wake=machine.IDLE)
Create an irq object triggered by a real time clock alarm.

2
docs/library/machine.SPI.rst
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@ -29,7 +29,7 @@ Constructors
Methods
-------
.. method:: SPI.init(baudrate=1000000, \*, polarity=0, phase=0, bits=8, firstbit=SPI.MSB, sck=None, mosi=None, miso=None, pins=(SCK, MOSI, MISO))
.. method:: SPI.init(baudrate=1000000, *, polarity=0, phase=0, bits=8, firstbit=SPI.MSB, sck=None, mosi=None, miso=None, pins=(SCK, MOSI, MISO))
Initialise the SPI bus with the given parameters:

2
docs/library/machine.Signal.rst
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@ -75,7 +75,7 @@ Constructors
------------
.. class:: Signal(pin_obj, invert=False)
Signal(pin_arguments..., \*, invert=False)
Signal(pin_arguments..., *, invert=False)
Create a Signal object. There're two ways to create it:

2
docs/library/machine.Timer.rst
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@ -35,7 +35,7 @@ Constructors
Methods
-------
.. method:: Timer.init(\*, mode=Timer.PERIODIC, period=-1, callback=None)
.. method:: Timer.init(*, mode=Timer.PERIODIC, period=-1, callback=None)
Initialise the timer. Example::

6
docs/library/machine.TimerWiPy.rst
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@ -39,7 +39,7 @@ Constructors
Methods
-------
.. method:: TimerWiPy.init(mode, \*, width=16)
.. method:: TimerWiPy.init(mode, *, width=16)
Initialise the timer. Example::
@ -64,7 +64,7 @@ Methods
Deinitialises the timer. Stops the timer, and disables the timer peripheral.
.. method:: TimerWiPy.channel(channel, \**, freq, period, polarity=TimerWiPy.POSITIVE, duty_cycle=0)
.. method:: TimerWiPy.channel(channel, **, freq, period, polarity=TimerWiPy.POSITIVE, duty_cycle=0)
If only a channel identifier passed, then a previously initialized channel
object is returned (or ``None`` if there is no previous channel).
@ -113,7 +113,7 @@ TimerChannel objects are created using the Timer.channel() method.
Methods
-------
.. method:: timerchannel.irq(\*, trigger, priority=1, handler=None)
.. method:: timerchannel.irq(*, trigger, priority=1, handler=None)
The behavior of this callback is heavily dependent on the operating
mode of the timer channel:

2
docs/library/machine.UART.rst
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@ -43,7 +43,7 @@ Constructors
Methods
-------
.. method:: UART.init(baudrate=9600, bits=8, parity=None, stop=1, \*, ...)
.. method:: UART.init(baudrate=9600, bits=8, parity=None, stop=1, *, ...)
Initialise the UART bus with the given parameters:

2
docs/library/network.CC3K.rst
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@ -51,7 +51,7 @@ Constructors
Methods
-------
.. method:: CC3K.connect(ssid, key=None, \*, security=WPA2, bssid=None)
.. method:: CC3K.connect(ssid, key=None, *, security=WPA2, bssid=None)
Connect to a WiFi access point using the given SSID, and other security
parameters.

2
docs/library/network.WLAN.rst
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@ -32,7 +32,7 @@ Methods
argument is passed. Otherwise, query current state if no argument is
provided. Most other methods require active interface.
.. method:: WLAN.connect(ssid=None, password=None, \*, bssid=None)
.. method:: WLAN.connect(ssid=None, password=None, *, bssid=None)
Connect to the specified wireless network, using the specified password.
If *bssid* is given then the connection will be restricted to the

6
docs/library/network.WLANWiPy.rst
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@ -43,7 +43,7 @@ Constructors
Methods
-------
.. method:: WLANWiPy.init(mode, \*, ssid, auth, channel, antenna)
.. method:: WLANWiPy.init(mode, *, ssid, auth, channel, antenna)
Set or get the WiFi network processor configuration.
@ -69,7 +69,7 @@ Methods
# configure as an station
wlan.init(mode=WLAN.STA)
.. method:: WLANWiPy.connect(ssid, \*, auth=None, bssid=None, timeout=None)
.. method:: WLANWiPy.connect(ssid, *, auth=None, bssid=None, timeout=None)
Connect to a WiFi access point using the given SSID, and other security
parameters.
@ -131,7 +131,7 @@ Methods
Get or set a 6-byte long bytes object with the MAC address.
.. method:: WLANWiPy.irq(\*, handler, wake)
.. method:: WLANWiPy.irq(*, handler, wake)
Create a callback to be triggered when a WLAN event occurs during ``machine.SLEEP``
mode. Events are triggered by socket activity or by WLAN connection/disconnection.

4
docs/library/network.rst
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@ -58,7 +58,7 @@ parameter should be `id`.
interface (behavior of calling them on inactive interface is
undefined).
.. method:: AbstractNIC.connect([service_id, key=None, \*, ...])
.. method:: AbstractNIC.connect([service_id, key=None, *, ...])
Connect the interface to a network. This method is optional, and
available only for interfaces which are not "always connected".
@ -82,7 +82,7 @@ parameter should be `id`.
Returns ``True`` if connected to network, otherwise returns ``False``.
.. method:: AbstractNIC.scan(\*, ...)
.. method:: AbstractNIC.scan(*, ...)
Scan for the available network services/connections. Returns a
list of tuples with discovered service parameters. For various

8
docs/library/pyb.CAN.rst
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@ -49,7 +49,7 @@ Class Methods
Methods
-------
.. method:: CAN.init(mode, extframe=False, prescaler=100, \*, sjw=1, bs1=6, bs2=8, auto_restart=False)
.. method:: CAN.init(mode, extframe=False, prescaler=100, *, sjw=1, bs1=6, bs2=8, auto_restart=False)
Initialise the CAN bus with the given parameters:
@ -135,7 +135,7 @@ Methods
- number of pending RX messages on fifo 0
- number of pending RX messages on fifo 1
.. method:: CAN.setfilter(bank, mode, fifo, params, \*, rtr)
.. method:: CAN.setfilter(bank, mode, fifo, params, *, rtr)
Configure a filter bank:
@ -187,7 +187,7 @@ Methods
Return ``True`` if any message waiting on the FIFO, else ``False``.
.. method:: CAN.recv(fifo, list=None, \*, timeout=5000)
.. method:: CAN.recv(fifo, list=None, *, timeout=5000)
Receive data on the bus:
@ -220,7 +220,7 @@ Methods
# No heap memory is allocated in the following call
can.recv(0, lst)
.. method:: CAN.send(data, id, \*, timeout=0, rtr=False)
.. method:: CAN.send(data, id, *, timeout=0, rtr=False)
Send a message on the bus:

6
docs/library/pyb.DAC.rst
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@ -49,7 +49,7 @@ To output a continuous sine-wave at 12-bit resolution::
Constructors
------------
.. class:: pyb.DAC(port, bits=8, \*, buffering=None)
.. class:: pyb.DAC(port, bits=8, *, buffering=None)
Construct a new DAC object.
@ -76,7 +76,7 @@ Constructors
Methods
-------
.. method:: DAC.init(bits=8, \*, buffering=None)
.. method:: DAC.init(bits=8, *, buffering=None)
Reinitialise the DAC. *bits* can be 8 or 12. *buffering* can be
``None``, ``False`` or ``True``; see above constructor for the meaning
@ -103,7 +103,7 @@ Methods
value is 2\*\*``bits``-1, where ``bits`` is set when creating the DAC
object or by using the ``init`` method.
.. method:: DAC.write_timed(data, freq, \*, mode=DAC.NORMAL)
.. method:: DAC.write_timed(data, freq, *, mode=DAC.NORMAL)
Initiates a burst of RAM to DAC using a DMA transfer.
The input data is treated as an array of bytes in 8-bit mode, and

2
docs/library/pyb.Flash.rst
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@ -25,7 +25,7 @@ Constructors
This constructor is deprecated and will be removed in a future version of MicroPython.
.. class:: pyb.Flash(\*, start=-1, len=-1)
.. class:: pyb.Flash(*, start=-1, len=-1)
:noindex:
Create and return a block device that accesses the flash at the specified offset. The length defaults to the remaining size of the device.

10
docs/library/pyb.I2C.rst
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@ -84,7 +84,7 @@ Methods
Turn off the I2C bus.
.. method:: I2C.init(mode, \*, addr=0x12, baudrate=400000, gencall=False, dma=False)
.. method:: I2C.init(mode, *, addr=0x12, baudrate=400000, gencall=False, dma=False)
Initialise the I2C bus with the given parameters:
@ -100,7 +100,7 @@ Methods
Check if an I2C device responds to the given address. Only valid when in master mode.
.. method:: I2C.mem_read(data, addr, memaddr, \*, timeout=5000, addr_size=8)
.. method:: I2C.mem_read(data, addr, memaddr, *, timeout=5000, addr_size=8)
Read from the memory of an I2C device:
@ -113,7 +113,7 @@ Methods
Returns the read data.
This is only valid in master mode.
.. method:: I2C.mem_write(data, addr, memaddr, \*, timeout=5000, addr_size=8)
.. method:: I2C.mem_write(data, addr, memaddr, *, timeout=5000, addr_size=8)
Write to the memory of an I2C device:
@ -126,7 +126,7 @@ Methods
Returns ``None``.
This is only valid in master mode.
.. method:: I2C.recv(recv, addr=0x00, \*, timeout=5000)
.. method:: I2C.recv(recv, addr=0x00, *, timeout=5000)
Receive data on the bus:
@ -138,7 +138,7 @@ Methods
Return value: if ``recv`` is an integer then a new buffer of the bytes received,
otherwise the same buffer that was passed in to ``recv``.
.. method:: I2C.send(send, addr=0x00, \*, timeout=5000)
.. method:: I2C.send(send, addr=0x00, *, timeout=5000)
Send data on the bus:

8
docs/library/pyb.SPI.rst
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@ -51,7 +51,7 @@ Methods
Turn off the SPI bus.
.. method:: SPI.init(mode, baudrate=328125, \*, prescaler, polarity=1, phase=0, bits=8, firstbit=SPI.MSB, ti=False, crc=None)
.. method:: SPI.init(mode, baudrate=328125, *, prescaler, polarity=1, phase=0, bits=8, firstbit=SPI.MSB, ti=False, crc=None)
Initialise the SPI bus with the given parameters:
@ -77,7 +77,7 @@ Methods
Printing the SPI object will show you the computed baudrate and the chosen
prescaler.
.. method:: SPI.recv(recv, \*, timeout=5000)
.. method:: SPI.recv(recv, *, timeout=5000)
Receive data on the bus:
@ -88,7 +88,7 @@ Methods
Return value: if ``recv`` is an integer then a new buffer of the bytes received,
otherwise the same buffer that was passed in to ``recv``.
.. method:: SPI.send(send, \*, timeout=5000)
.. method:: SPI.send(send, *, timeout=5000)
Send data on the bus:
@ -97,7 +97,7 @@ Methods
Return value: ``None``.
.. method:: SPI.send_recv(send, recv=None, \*, timeout=5000)
.. method:: SPI.send_recv(send, recv=None, *, timeout=5000)
Send and receive data on the bus at the same time:

2
docs/library/pyb.Timer.rst
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@ -62,7 +62,7 @@ Constructors
Methods
-------
.. method:: Timer.init(\*, freq, prescaler, period, mode=Timer.UP, div=1, callback=None, deadtime=0)
.. method:: Timer.init(*, freq, prescaler, period, mode=Timer.UP, div=1, callback=None, deadtime=0)
Initialise the timer. Initialisation must be either by frequency (in Hz)
or by prescaler and period::

2
docs/library/pyb.UART.rst
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@ -84,7 +84,7 @@ Constructors
Methods
-------
.. method:: UART.init(baudrate, bits=8, parity=None, stop=1, \*, timeout=0, flow=0, timeout_char=0, read_buf_len=64)
.. method:: UART.init(baudrate, bits=8, parity=None, stop=1, *, timeout=0, flow=0, timeout_char=0, read_buf_len=64)
Initialise the UART bus with the given parameters:

2
docs/library/pyb.USB_HID.rst
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@ -21,7 +21,7 @@ Constructors
Methods
-------
.. method:: USB_HID.recv(data, \*, timeout=5000)
.. method:: USB_HID.recv(data, *, timeout=5000)
Receive data on the bus:

6
docs/library/pyb.USB_VCP.rst
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@ -21,7 +21,7 @@ Constructors
Methods
-------
.. method:: USB_VCP.init(\*, flow=-1)
.. method:: USB_VCP.init(*, flow=-1)
Configure the USB VCP port. If the *flow* argument is not -1 then the value sets
the flow control, which can be a bitwise-or of ``USB_VCP.RTS`` and ``USB_VCP.CTS``.
@ -89,7 +89,7 @@ Methods
Returns the number of bytes written.
.. method:: USB_VCP.recv(data, \*, timeout=5000)
.. method:: USB_VCP.recv(data, *, timeout=5000)
Receive data on the bus:
@ -100,7 +100,7 @@ Methods
Return value: if ``data`` is an integer then a new buffer of the bytes received,
otherwise the number of bytes read into ``data`` is returned.
.. method:: USB_VCP.send(data, \*, timeout=5000)
.. method:: USB_VCP.send(data, *, timeout=5000)
Send data over the USB VCP:

2
docs/library/pyb.rst
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@ -210,7 +210,7 @@ Miscellaneous functions
It only makes sense to call this function from within boot.py.
.. function:: mount(device, mountpoint, \*, readonly=False, mkfs=False)
.. function:: mount(device, mountpoint, *, readonly=False, mkfs=False)
.. note:: This function is deprecated. Mounting and unmounting devices should
be performed by :meth:`uos.mount` and :meth:`uos.umount` instead.

2
docs/library/uasyncio.rst
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@ -80,7 +80,7 @@ Additional functions
This is a coroutine, and a MicroPython extension.
.. function:: gather(\*awaitables, return_exceptions=False)
.. function:: gather(*awaitables, return_exceptions=False)
Run all *awaitables* concurrently. Any *awaitables* that are not tasks are
promoted to tasks.

2
docs/library/uos.rst
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@ -144,7 +144,7 @@ programs. Ports that have this functionality provide the :func:`mount` and
:func:`umount` functions, and possibly various filesystem implementations
represented by VFS classes.
.. function:: mount(fsobj, mount_point, \*, readonly)
.. function:: mount(fsobj, mount_point, *, readonly)
Mount the filesystem object *fsobj* at the location in the VFS given by the
*mount_point* string. *fsobj* can be a a VFS object that has a ``mount()``