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# -*- coding: utf-8 -*- | |
""" | |
Resource Name handling routines | |
:copyright: 2014 by PyVISA-sim Authors, see AUTHORS for more details. | |
:license: MIT, see LICENSE for more details. | |
""" | |
from __future__ import division, unicode_literals, print_function, absolute_import | |
from collections import namedtuple, defaultdict | |
from pyvisa import constants | |
class InvalidResourceName(ValueError): | |
"""Exception raised when the resource name cannot be parsed. | |
""" | |
def __init__(self, resource_name, msg): | |
self.resource_name = resource_name | |
self.msg = msg | |
@classmethod | |
def from_syntax(cls, resource_name, syntax, ex=None): | |
"""Creates an exception providing the correct syntax and more information | |
""" | |
if ex: | |
msg = "The syntax is '%s' (%s)." % (syntax, ex) | |
else: | |
msg = "The syntax is '%s'." % syntax | |
return cls(resource_name, msg) | |
def __str__(self): | |
return " Invalid resource name string: '%s'\n%s" % (self.resource_name, | |
self.msg) | |
# :type: set[str] | |
_INTERFACE_TYPES = set() | |
# Resource Class for Interface type | |
# :type: dict[str, set[str]] | |
_RESOURCE_CLASSES = defaultdict(set) | |
# :type: dict[(str, str), ResourceName] | |
_SUBCLASSES = {} | |
# DEFAULT Resource Class for a given interface type. | |
# :type: dict[str, str] | |
_DEFAULT_RC = {} | |
def register_subclass(cls): | |
"""Register a subclass for a given interface type and resource class. | |
""" | |
key = (cls.interface_type, cls.resource_class) | |
if key in _SUBCLASSES: | |
raise ValueError('Class already registered for %s and %s' % key) | |
_SUBCLASSES[(cls.interface_type, cls.resource_class)] = cls | |
_INTERFACE_TYPES.add(cls.interface_type) | |
_RESOURCE_CLASSES[cls.interface_type].add(cls.resource_class) | |
if cls.is_rc_optional: | |
if cls.interface_type in _DEFAULT_RC: | |
raise ValueError('Default already specified for %s' % | |
cls.interface_type) | |
_DEFAULT_RC[cls.interface_type] = cls.resource_class | |
return cls | |
class ResourceName(object): | |
"""Base class for ResourceNames to be used as a Mixin | |
""" | |
# Interface type string | |
interface_type = '' | |
# Resource class string | |
resource_class = '' | |
# Specifices if the resource class part of the string is optional. | |
is_rc_optional = False | |
# Formatting string for canonical | |
_canonical_fmt = '' | |
# VISA syntax for resource | |
_visa_syntax = '' | |
# Resource name provided by the user (not empty only when parsing) | |
user = '' | |
@classmethod | |
def from_string(cls, resource_name): | |
"""Parse a resource name and return a ResourceName | |
:type resource_name: str | |
:rtype: ResourceName | |
:raises InvalidResourceName: if the resource name is invalid. | |
""" | |
# TODO Remote VISA | |
uname = resource_name.upper() | |
for interface_type in _INTERFACE_TYPES: | |
# Loop through all known interface types until we found one | |
# that matches the beginning of the resource name | |
if not uname.startswith(interface_type): | |
continue | |
if len(resource_name) == len(interface_type): | |
parts = () | |
else: | |
parts = resource_name[len(interface_type):].split('::') | |
# Try to match the last part of the resource name to | |
# one of the known resource classes for the given interface type. | |
# If not possible, use the default resource class | |
# for the given interface type. | |
if parts and parts[-1] in _RESOURCE_CLASSES[interface_type]: | |
parts, resource_class = parts[:-1], parts[-1] | |
else: | |
try: | |
resource_class = _DEFAULT_RC[interface_type] | |
except KeyError: | |
raise InvalidResourceName( | |
resource_name, | |
'no specified default resource class for %s' % | |
interface_type) | |
# Look for the subclass | |
try: | |
subclass = _SUBCLASSES[(interface_type, resource_class)] | |
except KeyError: | |
raise InvalidResourceName(resource_name, | |
'Could find parser for %s and %s' % | |
(interface_type, resource_class)) | |
# And create the object | |
try: | |
rn = subclass.from_parts(*parts) | |
rn.user = resource_name | |
return rn | |
except ValueError as ex: | |
raise InvalidResourceName.from_syntax(resource_name, ex) | |
raise InvalidResourceName(resource_name, 'unknown interface type') | |
def __str__(self): | |
return self._canonical_fmt.format(self) | |
def build_rn_class(interface_type, resource_parts, resource_class, | |
is_rc_optional=True): | |
"""Builds a resource name class by mixing a named tuple and ResourceName. | |
It also registers the class. | |
:param interface_type: the interface type | |
:type: interface_type: str | |
:param resource_parts: each of the parts of the resource name indicating | |
name and default value. Use None for mandatory | |
fields. | |
:type resource_parts: tuple[(str, str)] | |
:param resource_class: the resource class | |
:type resource_class: str | |
:param is_rc_optional: indicates if the resource class part is optional | |
:type is_rc_optional: boolean. | |
""" | |
interface_type = interface_type.upper() | |
resource_class = resource_class.upper() | |
syntax = interface_type | |
fmt = interface_type | |
fields = [] | |
# Contains the resource parts but using python friendly names | |
# (all lower case and replacing spaces by underscores) | |
p_resource_parts = [] | |
kwdoc = [] | |
# Assemble the syntax and format string based on the resource parts | |
for ndx, (name, default_value) in enumerate(resource_parts): | |
pname = name.lower().replace(' ', '_') | |
fields.append(pname) | |
p_resource_parts.append((pname, default_value)) | |
sep = '::' if ndx else '' | |
fmt += sep + '{0.%s}' % pname | |
if default_value is None: | |
syntax += sep + name | |
else: | |
syntax += '[' + sep + name + ']' | |
kwdoc.append('- %s (%s)' % (pname, 'required' if default_value is None | |
else default_value)) | |
fmt += '::' + resource_class | |
if not is_rc_optional: | |
syntax += '::' + resource_class | |
else: | |
syntax += '[' + '::' + resource_class + ']' | |
doc = """%s %s" | |
Can be created with the following keyword only arguments: | |
%s | |
Format : | |
%s | |
""" % (resource_class, interface_type, ' \n'.join(kwdoc), syntax) | |
class _C(namedtuple('Internal', ' '.join(fields)), ResourceName): | |
def __new__(cls, **kwargs): | |
new_kwargs = dict(p_resource_parts, **kwargs) | |
for key, value in new_kwargs.items(): | |
if value is None: | |
raise ValueError(key + ' is a required parameter') | |
return super(_C, cls).__new__(cls, **new_kwargs) | |
@classmethod | |
def from_parts(cls, *parts): | |
if len(parts) < sum(1 for _, v in p_resource_parts if v is not None): | |
raise ValueError('not enough parts') | |
elif len(parts) > len(p_resource_parts): | |
raise ValueError('too many parts') | |
(k, default), rp = p_resource_parts[0], p_resource_parts[1:] | |
# The first part (just after the interface_type) is the only | |
# optional part which can be and empty and therefore the | |
# default value should be used. | |
p, pending = parts[0], parts[1:] | |
kwargs = {k: default if p == '' else p} | |
# The rest of the parts are consumed when mandatory elements are required. | |
while len(pending) < len(rp): | |
(k, default), rp = rp[0], rp[1:] | |
if default is None: | |
if not parts: | |
raise ValueError(k + ' part is mandatory') | |
p, pending = pending[0], pending[1:] | |
if not p: | |
raise ValueError(k + ' part is mandatory') | |
kwargs[k] = p | |
else: | |
kwargs[k] = default | |
# When the length of the pending provided and resource parts | |
# are equal, we just consume everything. | |
kwargs.update((k, p) for (k, v), p in zip(rp, pending)) | |
return cls(**kwargs) | |
_C.interface_type = interface_type | |
_C.resource_class = resource_class | |
_C.is_rc_optional = is_rc_optional | |
_C._canonical_fmt = fmt | |
_C._visa_syntax = syntax | |
_C.__name__ = interface_type + resource_class.title() | |
_C.__doc__ = doc | |
return register_subclass(_C) | |
# Build subclasses for each resource | |
GPIBInstr = build_rn_class('GPIB', | |
(('board', '0'), ('primary address', None), | |
('secondary address', constants.VI_NO_SEC_ADDR)), | |
'INSTR') | |
GPIBIntfc = build_rn_class('GPIB', (('board', '0'), ), 'INTFC', False) | |
ASRLInstr = build_rn_class('ASRL', (('board', '0'), ), 'INSTR') | |
TCPIPInstr = build_rn_class('TCPIP', (('board', '0'), ('host address', None), | |
('LAN device name', 'inst0'), ), 'INSTR') | |
TCPIPSocket = build_rn_class('TCPIP', (('board', '0'), ('host address', None), | |
('port', None), ), 'SOCKET', False) | |
USBInstr = build_rn_class('USB', | |
(('board', '0'), ('manufacturer ID', None), | |
('model code', None), ('serial number', None), | |
('USB interface number', '0')), 'INSTR') | |
USBRaw = build_rn_class('USB', (('board', '0'), ('manufacturer ID', None), | |
('model code', None), ('serial number', None), | |
('USB interface number', '0')), 'RAW', False) | |
def to_canonical_name(resource_name): | |
"""Parse a resource name and return the canonical version. | |
:type resource_name: str | |
:rtype: str | |
""" | |
return str(ResourceName.from_string(resource_name)) | |
parse_resource_name = ResourceName.from_string |
The idea is to integrate it with pyvisa and therefore you are completely right. It does not have to be independent, but it could be a nice extra bonus in case somebody wants it.
Regarding your utility function. Do you mean to return a ResourceName or a canonical resource name string. In any case the core could be something like this.
class ResourceName(object):
# Code
@classmethod
def from_kwargs(cls, **kwargs):
interface_type = kwargs.pop('interface_type')
resource_class = kwargs.pop('resource_class', _DEFAULT_RC[interface_type])
try:
resource_class = _DEFAULT_RC[interface_type]
except KeyError:
raise InvalidResourceName(
resource_name,
'no specified default resource class for %s' %
interface_type)
# Look for the subclass
try:
subclass = _SUBCLASSES[(interface_type, resource_class)]
except KeyError:
raise InvalidResourceName(resource_name,
'Could find parser for %s and %s' %
(interface_type, resource_class))
# And create the object
try:
rn = subclass(**kwargs)
rn.user = resource_name
return rn
except ValueError as ex:
raise InvalidResourceName.from_syntax(resource_name, ex)
and then we could have something like:
def assemble_canonical_name(**kwargs):
return str(ResourceName.from_kwargs(**kwargs)
by the way, I am trying YAPF as a way to format python code automatically. It is quite nice and might be a way to standarize this and Lantz.
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I like it. We could add a utility function returning a ResourceName given a dict (or **kwargs) which would do the job of my assemble_resource_name, this avoid the necessity to now the class to use for this kind of resource.
I actually prefer to keep the interface type as string.
Regarding the questions :