# -*- python -*-
'''
pylibcoopgamma -- Python library for interfacing with cooperative gamma servers
Copyright (C) 2016 Mattias Andrée (maandree@kth.se)
This library is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this library. If not, see <http://www.gnu.org/licenses/>.
'''
import enum, libcoopgamma_native
class Support(enum.IntEnum):
'''
Values used to indicate the support for gamma adjustments
@value NO=0 Gamma adjustments are not supported
@value MAYBE=1 Don't know whether gamma adjustments are supported
@value YES=2 Gamma adjustments are supported
'''
NO = 0
MAYBE = 1
YES = 2
class Depth(enum.IntEnum):
'''
Values used to tell which datatype is used for the gamma ramp stops
The values will always be the number of bits for integral types, and
negative for floating-point types
@value UINT8=8 Unsigned 8-bit integer
@value UINT16=16 Unsigned 16-bit integer
@value UINT32=32 Unsigned 32-bit integer
@value UINT64=64 Unsigned 64-bit integer
@value FLOAT<0 Single-precision floating-point
@value DOUBLE<0 Double-precision floating-point
'''
UINT8 = 8
UINT16 = 16
UINT32 = 32
UINT64 = 64
FLOAT = -1
DOUBLE = -2
class Lifespan(enum.IntEnum):
'''
Values used to tell when a filter should be removed
@value REMOVE=0 Remove the filter now
@value UNTIL_DEATH>0 Remove the filter when disconnecting from the coopgamma server
@value UNTIL_REMOVAL>0 Only remove the filter when it is explicitly requested
'''
REMOVE = 0
UNTIL_DEATH = 1
UNTIL_REMOVAL = 2
class Colourspace(enum.IntEnum):
'''
Colourspaces
@value UNKNOWN=0 The colourspace is unknown
@value SRGB>0 sRGB (Standard RGB)
@value RGB>0 RGB other than sRGB
@value NON_RGB>0 Non-RGB multicolour
@value GREY>0 Monochrome, greyscale, or some other singlecolour scale
'''
UNKNOWN = 0
SRGB = 1
RGB = 2
NON_RGB = 3
GREY = 4
class Ramps:
'''
Gamma ramp structure
@variable red:list<int> The red gamma ramp
@variable green:list<int> The green gamma ramp
@variable blue:list<int> The blue gamma ramp
'''
def __init__(self, red, green, blue):
'''
Constructor
@param red:int The number of stops in the red ramp
@param green:int The number of stops in the green ramp
@param blue:int The number of stops in the blue ramp
-- or --
@param red:list<int> The red gamma ramp
@param green:list<int> The green gamma ramp
@param blue:list<int> The blue gamma ramp
'''
if isinstance(red, list):
self.red = list(red)
self.green = list(green)
self.blue = list(blue)
else:
self.red = [0] * red
self.green = [0] * green
self.blue = [0] * blue
def clone(self) -> Ramps:
'''
Create a copy of the instance
'''
return Ramps(self.red, self.green, self.blue)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.red, self.green, self.blue)
return 'libcoopgamma.Ramps(%s)' % ', '.join(repr(p) for p in params)
class Filter:
'''
Data set to the coopgamma server to apply, update, or remove a filter
@variable priority:int The priority of the filter, higher priority
is applied first. The gamma correction should
have priority 0. This is a signed 64-bit integer.
@variable crtc:str The CRTC for which this filter shall be applied
@variable fclass:str Identifier for the filter.
The syntax must be "${PACKAGE_NAME}::${COMMAND_NAME}::${RULE}".
@variable lifespan:Lifespan When shall the filter be removed?
If this member's value is `LIBCOOPGAMMA_REMOVE`,
only `.crtc` and `.class` need also be defined.
@variable depth:Depth The data type and bit-depth of the ramp stops
@variable ramps:Ramps The gamma ramp adjustments of the filter
'''
def __init__(self, priority : int = None, crtc : str = None, fclass : str = None,
lifespan : Lifespan = None, depth : Depth = None, ramps : Ramps = None):
'''
Constructor
@param priority:int The priority of the filter, higher priority
is applied first. The gamma correction should
have priority 0. This is a signed 64-bit integer.
@param crtc:str The CRTC for which this filter shall be applied
@param fclass:str Identifier for the filter.
The syntax must be "${PACKAGE_NAME}::${COMMAND_NAME}::${RULE}".
@param lifespan:Lifespan When shall the filter be removed?
If this member's value is `LIBCOOPGAMMA_REMOVE`,
only `.crtc` and `.class` need also be defined.
@param depth:Depth The data type and bit-depth of the ramp stops
@param ramps:Ramps The gamma ramp adjustments of the filter
'''
self.priority = priority
self.crtc = crtc
self.fclass = fclass
self.lifespan = lifespan
self.depth = depth
self.ramps = ramps
def clone(self, shallow = False) -> Filter:
'''
Create a copy of the instance
@param shallow:bool Create a shallow copy?
'''
ramps = self.ramps if shallow else self.ramps.clone()
return Filter(self.priority, self.crtc, self.fclass, self.lifespan, self.depth, ramps)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.priority, self.crtc, self.fclass, self.lifespan, self.depth, self.ramps)
return 'libcoopgamma.Filter(%s)' % ', '.join(repr(p) for p in params)
class GamutPoint:
'''
The x- and y-values (CIE xyY) of a colour
@variable x_raw:int The x-value (CIE xyY) multiplied by 1024
@variable y_raw:int The y-value (CIE xyY) multiplied by 1024
@variable x:int The x-value (CIE xyY)
@variable y:int The y-value (CIE xyY)
'''
def __init__(self, x, y):
'''
Constructor
@param x:int The x-value (CIE xyY) multiplied by 1024
@param y:int The y-value (CIE xyY) multiplied by 1024
'''
self.x_raw, self.x = x, x / 1024
self.y_raw, self.y = y, y / 1024
def clone(self) -> GamutPoint:
'''
Create a copy of the instance
'''
return GamutPoint(self.x_raw, self.y_raw)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.x_raw, self.y_raw)
return 'libcoopgamma.GamutPoint(%s)' % ', '.join(repr(p) for p in params)
class Gamut:
'''
The values of the monitor's colour stimuli
@variable red:GamutPoint The red stimuli
@variable green:GamutPoint The green stimuli
@variable blue:GamutPoint The blue stimuli
'''
def __init__(self, red : GamutPoint = None, green : GamutPoint = None, blue : GamutPoint = None):
'''
Constructor
@param red:GamutPoint The red stimuli
@param green:GamutPoint The green stimuli
@param blue:GamutPoint The blue stimuli
'''
self.red = red
self.green = green
self.blue = blue
def clone(self, shallow = True) -> Gamut:
'''
Create a copy of the instance
@param shallow:bool Create a shallow copy?
'''
if shallow:
return Gamut(self.red, self.green, self.blue)
return Gamut(self.red.clone(), self.green.clone(), self.blue.clone())
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (repr(self.red), repr(self.green), repr(self.blue))
return 'libcoopgamma.Gamut(%s)' % ', '.join(repr(p) for p in params)
class CRTCInfo:
'''
Gamma ramp meta information for a CRTC
@variable cooperative:bool Is cooperative gamma server running?
@variable depth:Depth? The data type and bit-depth of the ramp stops
@variable supported:Support Is gamma adjustments supported on the CRTC?
If not, `depth`, `red_size`, `green_size`,
and `blue_size` are undefined
@variable red_size:int? The number of stops in the red ramp
@variable green_size:int? The number of stops in the green ramp
@variable blue_size:int? The number of stops in the blue ramp
@variable colourspace:Colourspace The monitor's colourspace
@variable gamut:Gamut? Measurements of the monitor's colourspace,
`None` if the this information is unavailable.
If this is not `None`, but the colourspace
is not RGB (or sRGB), there is something
wrong. Always check the colourspace.
'''
def __init__(self, cooperative : bool = None, depth : Depth = None, supported : Support = None,
red_size : int = None, green_size : int = None, blue_size : int = None,
colourspace : Colourspace = None, gamut : Gamut = None):
'''
Constructor
@param cooperative:bool Is cooperative gamma server running?
@param depth:Depth? The data type and bit-depth of the ramp stops
@param supported:Support Is gamma adjustments supported on the CRTC?
If not, `depth`, `red_size`, `green_size`,
and `blue_size` are undefined
@param red_size:int? The number of stops in the red ramp
@param green_size:int? The number of stops in the green ramp
@param blue_size:int? The number of stops in the blue ramp
@param colourspace:Colourspace The monitor's colourspace
@param gamut:Gamut? Measurements of the monitor's colourspace,
`None` if the this information is unavailable
'''
self.cooperative = cooperative
self.depth = depth
self.supported = supported
self.red_size = red_size
self.green_size = green_size
self.blue_size = blue_size
self.colourspace = colourspace
self.gamut = gamut
def make_ramps(self) -> Ramps:
'''
Construct a `Ramps` instances for this CRTC
@return :Ramps An instance of `Ramps` with same a number of ramp stops
matching this CRTC
'''
return Ramps(self.red_size, self.green_size, self.blue_size)
def clone(self, shallow = True) -> CRTCInfo:
'''
Create a copy of the instance
@param shallow:bool Create a shallow copy?
'''
return CRTCInfo(self.cooperative, self.depth, self.supported, self.red_size,
self.green_size, self.blue_size, self.colourspace,
self.gamut if shallow else self.gamut.clone())
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.cooperative, self.depth, self.supported, self.red_size,
self.green_size, self.blue_size, self.colourspace, self.gamut)
return 'libcoopgamma.CRTCInfo(%s)' % ', '.join(repr(p) for p in params)
class FilterQuery:
'''
Data sent to the coopgamma server when requestng the current filter table
@variable high_priority:int Do no return filters with higher priority than
this value. This is a signed 64-bit integer.
@variable low_priority:int Do no return filters with lower priority than
this value. This is a signed 64-bit integer.
@variable crtc:str The CRTC for which the the current filters shall returned
@variable coalesce:bool Whether to coalesce all filters into one gamma ramp triplet
'''
def __init__(self, high_priority : int, low_priority : int, crtc : str, coalesce : bool):
'''
Constructor
@param high_priority:int Do no return filters with higher priority than
this value. This is a signed 64-bit integer.
@param low_priority:int Do no return filters with lower priority than
this value. This is a signed 64-bit integer.
@param crtc:str The CRTC for which the the current filters shall returned
@param coalesce:bool Whether to coalesce all filters into one gamma ramp triplet
'''
self.high_priority = high_priority
self.low_priority = low_priority
self.crtc = crtc
self.coalesce = coalesce
def clone(self) -> FilterQuery:
'''
Create a copy of the instance
'''
return FilterQuery(self.high_priority, self.low_priority, self.crtc, self.coalesce)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.high_priority, self.low_priority, self.crtc, self.coalesce)
return 'libcoopgamma.FilterQuery(%s)' % ', '.join(repr(p) for p in params)
class QueriedFilter:
'''
Stripped down version of `Filter` which only contains the
information returned in response to "Command: get-gamma"
@variable priority:int The filter's priority. This is a signed 64-bit integer.
@variable fclass:str The filter's class
@variable ramps:Ramps The gamma ramp adjustments of the filter
'''
def __init__(self, priority : int = None, fclass : str = None, ramps : Ramps = None):
'''
Constructor
@param priority:int The filter's priority. This is a signed 64-bit integer.
@param fclass:str The filter's class
@param ramps:Ramps The gamma ramp adjustments of the filter
'''
self.priority = priority
self.fclass = fclass
self.ramps = ramps
def clone(self, shallow = False) -> QueriedFilter:
'''
Create a copy of the instance
@param shallow:bool Create a sallow copy?
'''
ramps = self.ramps if shallow else self.ramps.clone()
return QueriedFilter(self.priority, self.fclass, ramps)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.priority, self.fclass, self.ramps)
return 'libcoopgamma.QueriedFilter(%s)' % ', '.join(repr(p) for p in params)
class FilterTable:
'''
Response type for "Command: get-gamma": a list of applied filters
and meta-information that was necessary for decoding the response
@variable red_size:int The number of stops in the red ramp
@variable green_size:int The number of stops in the green ramp
@variable blue_size:int The number of stops in the blue ramp
@variable depth:Depth The data type and bit-depth of the ramp stops
@variable filters:list<QueriedFilter> The filters, should be ordered by priority
in descending order, lest there is something
wrong with the coopgamma server.
If filter coalition was requested, there will
be exactly one filter and `filters[0].class`
and `filters[0].priority` are undefined.
'''
def __init__(self, red_size : int = None, green_size : int = None, blue_size : int = None,
depth : Depth = None, filters : list):
'''
Constructor
@param red_size:int The number of stops in the red ramp
@param green_size:int The number of stops in the green ramp
@param blue_size:int The number of stops in the blue ramp
@param depth:Depth The data type and bit-depth of the ramp stops
@param filters:list<QueriedFilter> The filters, should be ordered by priority
in descending order, lest there is something
wrong with the coopgamma server.
If filter coalition was requested, there will
be exactly one filter and `filters[0].class`
and `filters[0].priority` are undefined.
'''
self.red_size = red_size
self.green_size = green_size
self.blue_size = blue_size
self.depth = depth
self.filters = filters
def make_ramps(self) -> Ramps:
'''
Construct a `Ramps` instances for this CRTC
@return :Ramps An instance of `Ramps` with same a number of ramp stops
matching this CRTC
'''
return Ramps(self.red_size, self.green_size, self.blue_size)
def clone(self, shallow = False) -> FilterTable:
'''
Create a copy of the instance
@param shallow:bool Create a sallow copy?
'''
filters = list(self.filters) if shallow else [f.clone() for f in self.filters]
return FilterTable(self.red_size, self.green_size, self.blue_size, self.depth, filters)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.red_size, self.green_size, self.blue_size, self.depth, self.filters)
return 'libcoopgamma.FilterTable(%s)' % ', '.join(repr(p) for p in params)
class ErrorReport:
'''
Error message from coopgamma server
@variable number:int The error code. If `.custom` is false, 0 indicates success,
otherwise, 0 indicates that no error code has been assigned.
@variable custom:bool Is this a custom error?
@variable server_side:bool Did the error occur on the server-side?
@variable description:str? Error message, can be `None` if `custom` is false
'''
def __init__(self, number : int = None, custom : bool = None,
server_side : bool = None, description : str = None):
'''
Constructor
@param number:int The error code. If `.custom` is false, 0 indicates success,
otherwise, 0 indicates that no error code has been assigned.
@param custom:bool Is this a custom error?
@param server_side:bool Did the error occur on the server-side?
@param description:str? Error message, can be `None` if `custom` is false
'''
self.number = number
self.custom = custom
self.server_side = server_side
self.description = description
def clone(self) -> ErrorReport:
'''
Create a copy of the instance
'''
return ErrorReport(self.number, self.custom, self.server_side, self.description)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
params = (self.number, self.custom, self.server_side, self.description)
return 'libcoopgamma.ErrorReport(%s)' % ', '.join(repr(p) for p in params)
class Context:
'''
Library state
Use of this structure is not thread-safe, create
one instance per thread that uses this structure
@variable fd:int File descriptor for the socket
'''
def __init__(self, fd : int = -1, buf : bytes = None):
'''
Constructor
@param fd:int File descriptor for the socket
@param buf:bytes? Buffer to unmarshal
'''
self.fd = fd
if buf is None:
(successful, value) = libcoopgamma_native.libcoopgamma_native_context_create()
if not successful:
pass # TODO
else:
(error, value) = libcoopgamma_native.libcoopgamma_native_context_unmarshal(buf)
if error < 0:
pass # TODO
elif error == 1:
pass # TODO LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE
elif error == 2:
pass # TODO LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE
self.address = value
def __del__(self):
'''
Destructor
'''
libcoopgamma_native.libcoopgamma_native_context_free(self.address)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
data = libcoopgamma_libcoopgamma_native_context_marshal(self.address)
if isinstance(data, int):
pass # TODO
params = (self.fd, data)
return 'libcoopgamma.Context(%s)' % ', '.join(repr(p) for p in params)
def connect(self, method, site : str):
'''
Connect to a coopgamma server, and start it if necessary
Use `del` keyword to disconnect
SIGCHLD must not be ignored or blocked
All other methods in this class requires that this
method has been called successfully
@param method:int|str? The adjustment method, `None` for automatic
@param site:str? The site, `None` for automatic
'''
if method is not None and isinstance(method, int):
method = str(method)
error = libcoopgamma_native_connect(method, site, self.address)
if error is not None:
if errno == 0:
pass # TODO server failed to initialise
else:
pass # TODO
def detach(self):
'''
After calling this function, communication with the
server is impossible, but the connection is not
closed and the when the instance is destroyed the
connection will remain
'''
libcoopgamma_native.libcoopgamma_native_context_set_fd(self.address, -1)
def attach(self):
'''
Undoes the action of `detach`
'''
libcoopgamma_native.libcoopgamma_native_context_set_fd(self.address, self.fd)
def set_nonbreaking(self, nonbreaking : bool):
'''
By default communication is blocking, this function
can be used to switch between blocking and nonblocking
After setting the communication to nonblocking, `flush`, `synchronise` and
and request-sending functions can fail with EAGAIN and EWOULDBLOCK. It is
safe to continue with `flush` (for `flush` it selfand equest-sending functions)
or `synchronise` just like EINTR failure.
@param nonblocking:bool Nonblocking mode?
'''
error = libcoopgamma_native.libcoopgamma_native_set_nonblocking(self.address, nonbreaking)
if error != 0:
pass # TODO
def flush(self):
'''
Send all pending outbound data
If this function or another function that sends a request to the server fails
with EINTR, call this function to complete the transfer. The `async` parameter
will always be in a properly configured state if a function fails with EINTR.
'''
error = libcoopgamma_native.libcoopgamma_native_flush(self.address)
if error != 0:
pass # TODO
def synchronise(self, pending : list) -> int:
'''
Wait for the next message to be received
@param pending:list<AsyncContext> Information for each pending request
@return :int? The index of the element in `pending` which corresponds
to the first inbound message, note that this only means
that the message is not for any of the other request,
if the message is corrupt any of the listed requests can
be selected even if it is not for any of the requests.
Functions that parse the message will detect such corruption.
`None` if the message is ignored, which happens if
corresponding AsyncContext is not listed.
'''
pending = [p.address for p in pending]
(successful, value) = libcoopgamma_native.libcoopgamma_native_flush(self.address, pending)
if not successful:
if error == 0:
return None
else:
pass # TODO
else:
return value
def skip_message(self):
'''
Tell the library that you will not be parsing a receive message
'''
libcoopgamma_native.libcoopgamma_native_skip_message(self.address)
def get_crtcs_send(self) -> AsyncContext:
'''
List all available CRTC:s, send request part
@return :AsyncContext Information about the request, that is needed to
identify and parse the response
'''
pass
def get_crtcs_recv(self, async : AsyncContext) -> list:
'''
List all available CRTC:s, receive response part
@param async:AsyncContext Information about the request
@return :list<str> A list of names. You should only free the outer
pointer, inner pointers are subpointers of the
outer pointer and cannot be freed.
'''
pass
def get_crtcs_sync(self) -> list:
'''
List all available CRTC:s, synchronous version
This is a synchronous request function, as such, you have to ensure that
communication is blocking (default), and that there are not asynchronous
requests waiting, it also means that EINTR:s are silently ignored and
there no wait to cancel the operation without disconnection from the server
@return :list<str> A list of names. You should only free the outer pointer, inner
pointers are subpointers of the outer pointer and cannot be freed.
'''
pass
def get_gamma_info_send(self, crtc : str) -> AsyncContext:
'''
Retrieve information about a CRTC:s gamma ramps, send request part
@param crtc:str The name of the CRT
@return :AsyncContext Information about the request, that is needed to
identify and parse the response
'''
pass
def get_gamma_info_recv(self, async : AsyncContext) -> CRTCInfo:
'''
Retrieve information about a CRTC:s gamma ramps, receive response part
@param async:AsyncContext Information about the request
@return :CRTCInfo Information about the CRTC
'''
pass
def get_gamma_info_sync(self, crtc : str) -> CRTCInfo:
'''
Retrieve information about a CRTC:s gamma ramps, synchronous version
This is a synchronous request function, as such, you have to ensure that
communication is blocking (default), and that there are not asynchronous
requests waiting, it also means that EINTR:s are silently ignored and
there no wait to cancel the operation without disconnection from the server
@param crtc:str The name of the CRT
@return :CRTCInfo Information about the CRTC
'''
pass
def get_gamma_send(self, query : FilterQuery) -> AsyncContext:
'''
Retrieve the current gamma ramp adjustments, send request part
@param query:FilterQuery The query to send
@return :AsyncContext Information about the request, that is
needed to identify and parse the response
'''
pass
def get_gamma_recv(self, async : AsyncContext) -> FilterTable:
'''
Retrieve the current gamma ramp adjustments, receive response part
@param async:AsyncContext Information about the request
@return :FilterTable Filter table
'''
pass
def get_gamma_sync(self, query : FilterQuery) -> FilterTable:
'''
Retrieve the current gamma ramp adjustments, synchronous version
This is a synchronous request function, as such, you have to ensure that
communication is blocking (default), and that there are not asynchronous
requests waiting, it also means that EINTR:s are silently ignored and
there no wait to cancel the operation without disconnection from the server
@param query:FilterQuery The query to send
@return :FilterTable Filter table
'''
pass
def set_gamma_send(self, filtr : Filter) -> AsyncContext:
'''
Apply, update, or remove a gamma ramp adjustment, send request part
@param filtr:Filter The filter to apply, update, or remove, gamma ramp
meta-data must match the CRTC's
@return :AsyncContext Information about the request, that is needed to
identify and parse the response
'''
pass
def set_gamma_recv(self, async : AsyncContext):
'''
Apply, update, or remove a gamma ramp adjustment, receive response part
@param async:AsyncContext Information about the request
'''
pass
def set_gamma_sync(self, filtr : Filter):
'''
Apply, update, or remove a gamma ramp adjustment, synchronous version
This is a synchronous request function, as such, you have to ensure that
communication is blocking (default), and that there are not asynchronous
requests waiting, it also means that EINTR:s are silently ignored and
there no wait to cancel the operation without disconnection from the server
@param filtr:Filter The filter to apply, update, or remove,
gamma ramp meta-data must match the CRTC's
'''
pass
class AsyncContext:
'''
Information necessary to identify and parse a response from the server
'''
def __init__(self, buf : bytes = None):
'''
Constructor
@param buf:bytes? Buffer to unmarshal
'''
if buf is None:
(successful, value) = libcoopgamma_native.libcoopgamma_native_async_context_create()
if not successful:
pass # TODO
else:
(error, value) = libcoopgamma_native.libcoopgamma_native_async_context_unmarshal(buf)
if error < 0:
pass # TODO
elif error == 1:
pass # TODO LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE
elif error == 2:
pass # TODO LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE
self.address = value
def __del__(self):
'''
Destructor
'''
libcoopgamma_native.libcoopgamma_native_async_context_free(self.address)
def __repr__(self) -> str:
'''
Create a parsable string representation of the instance
@return :str Parsable representation of the instance
'''
data = libcoopgamma_libcoopgamma_native_async_context_marshal(self.address)
if isinstance(data, int):
pass # TODO
return 'libcoopgamma.AsyncContext(%s)' % repr(data)
def get_methods() -> list:
'''
List all recognised adjustment method
SIGCHLD must not be ignored or blocked
@return :list<str> A list of names. You should only free the outer pointer, inner
pointers are subpointers of the outer pointer and cannot be freed.
'''
ret = libcoopgamma_native.libcoopgamma_native_get_methods()
if isinstance(ret, int):
pass # TODO
return ret
def get_method_and_site(method, site : str) -> tuple:
'''
Get the adjustment method and site
SIGCHLD must not be ignored or blocked
@param method:int|str? The adjustment method, `None` for automatic
@param site:str? The site, `None` for automatic
@return :(:str, :str?) The selected adjustment method and the selected the
selected site. If the adjustment method only supports
one site or if `site` is `None` and no site can be
selected automatically, the selected site (the second
element in the returned tuple) will be `None`.
'''
if method is not None:
method = str(method)
ret = libcoopgamma_native.libcoopgamma_native_get_method_and_site(method, site)
if isinstance(ret, int):
pass # TODO
return ret
def get_pid_file(method, site : str) -> str:
'''
Get the PID file of the coopgamma server
SIGCHLD must not be ignored or blocked
@param method:int|str? The adjustment method, `None` for automatic
@param site:str? The site, `None` for automatic
@return :str? The pathname of the server's PID file.
`None` if the server does not use PID files.
'''
if method is not None:
method = str(method)
ret = libcoopgamma_native.libcoopgamma_native_get_pid_file(method, site)
if ret is not None and isinstance(ret, int):
pass # TODO
return ret
def get_socket_file(method, site : str) -> str:
'''
Get the socket file of the coopgamma server
SIGCHLD must not be ignored or blocked
@param method:int|str? The adjustment method, `None` for automatic
@param site:str? The site, `None` for automatic
@return :str? The pathname of the server's socket, `None` if the server does have
its own socket, which is the case when communicating with a server
in a multi-server display server like mds
'''
if method is not None:
method = str(method)
ret = libcoopgamma_native.libcoopgamma_native_get_pid_file(method, site)
if ret is not None and isinstance(ret, int):
pass # TODO
return ret