Source code for dclab.rtdc_dataset.config

# -*- coding: utf-8 -*-
"""RT-DC dataset configuration"""
from __future__ import division, print_function, unicode_literals

import copy
import pathlib
import sys
import warnings

from ..compat import str_types
from .. import definitions as dfn

class UnknownConfigurationKeyWarning(UserWarning):

class ConfigurationDict(dict):
    def __init__(self, section=None, *args, **kwargs):
        """A case-insensitive dict that is section-aware

        Instantiate this dictionary like any other dictionary.
        All keys will be treated as lower-case keys. If `section`
        is given, new entries will be checked using the function
        self.section = section
        super(ConfigurationDict, self).__init__(*args, **kwargs)

    def __getitem__(self, key):
        return super(ConfigurationDict,

    def __setitem__(self, key, value):
        key = self.__class__._k(key)
        if self.section:
            valid = verify_section_key(self.section, key)
            valid = True
        if valid:
            # only set valid keys
            super(ConfigurationDict, self).__setitem__(key, value)

    def __delitem__(self, key):
        return super(ConfigurationDict,

    def __contains__(self, key):
        return super(ConfigurationDict,

    def _k(cls, key):
        """Convert a key to lower case"""
        return key.lower() if isinstance(key, str_types) else key

    def _convert_keys(self):
        for k in list(self.keys()):
            v = super(ConfigurationDict, self).pop(k)
            self.__setitem__(k, v)

    def get(self, key, *args, **kwargs):
        return super(ConfigurationDict,
                     self).get(self.__class__._k(key), *args, **kwargs)

    def items(self):
        keys = list(self.keys())
        out = [(k, self[k]) for k in keys]
        return out

    def pop(self, key, *args, **kwargs):
        return super(ConfigurationDict,
                     self).pop(self.__class__._k(key), *args, **kwargs)

    def setdefault(self, key, *args, **kwargs):
        return super(ConfigurationDict,
                     self).setdefault(self.__class__._k(key), *args, **kwargs)

    def update(self, E={}, **F):
        for key in E:
            self.__setitem__(key, E[key])
        for key in F:
            self.__setitem__(key, F[key])

[docs]class Configuration(object): def __init__(self, files=[], cfg={}, disable_checks=False): """Configuration class for RT-DC datasets This class has a dictionary-like interface to access and set configuration values, e.g. .. code:: cfg = load_from_file("/path/to/config.txt") # access the channel width cfg["setup"]["channel width"] # modify the channel width cfg["setup"]["channel width"] = 30 Parameters ---------- files: list of files The config files with which to initialize the configuration cfg: dict-like The dictionary with which to initialize the configuration disable_checks: bool Set this to True if you want to avoid checking against section and key names defined in `dclab.definitions` using :func:`verify_section_key`. This avoids excess warning messages when loading data from configuration files not generated by dclab. """ self.disable_checks = disable_checks self._cfg = ConfigurationDict() # set initial default values self._init_default_filter_values() # Update with additional dictionary self.update(cfg) # Load configuration files for f in files: self.update(load_from_file(f)) def __contains__(self, key): return self._cfg.__contains__(key) def __getitem__(self, sec): if sec not in self and sec in dfn.config_keys: # create an empty section for user-convenience section = None if self.disable_checks else sec self._cfg[sec] = ConfigurationDict(section=section) item = self._cfg.__getitem__(sec) return item def __iter__(self): return self._cfg.__iter__() def __len__(self): return len(self._cfg) def __repr__(self): rep = "" keys = sorted(list(self.keys())) for key in keys: rep += "- {}\n".format(key) subkeys = sorted(list(self[key].keys())) for subkey in subkeys: rep += " {}: {}\n".format(subkey, self[key][subkey]) return rep def __setitem__(self, *args): self._cfg.__setitem__(*args) def _init_default_filter_values(self): """Set default initial values The default values are hard-coded for backwards compatibility and for several functionalities in dclab. """ # Do not filter out invalid event values self["filtering"]["remove invalid events"] = False # Enable filters switch is mandatory self["filtering"]["enable filters"] = True # Limit events integer to downsample output data self["filtering"]["limit events"] = 0 # Polygon filter list self["filtering"]["polygon filters"] = [] # Defaults to no hierarchy parent self["filtering"]["hierarchy parent"] = "none" # Make sure that all filtering values have a default value # (otherwise we will get problems with resetting filters) for item in dfn.CFG_ANALYSIS["filtering"]: if item[0] not in self["filtering"]: raise KeyError( "No default value set for [filtering]:{}".format(item[0]))
[docs] def copy(self): """Return copy of current configuration""" return Configuration(cfg=copy.deepcopy(self._cfg))
[docs] def keys(self): """Return the configuration keys (sections)""" return self._cfg.keys()
[docs] def save(self, filename): """Save the configuration to a file""" filename = pathlib.Path(filename) out_str = self.tostring() with"w") as f: f.write(out_str)
[docs] def tostring(self, sections=None): """Convert the configuration to its string representation The optional argument `sections` allows to export only specific sections of the configuration, i.e. `sections=dclab.dfn.CFG_METADATA` will only export configuration data from the original measurement and no filtering data. """ out = [] if sections is None: keys = sorted(list(self.keys())) else: keys = sorted([k for k in sections if k in self.keys()]) for key in keys: out.append("[{}]".format(key)) section = self[key] ikeys = list(section.keys()) ikeys.sort() for ikey in ikeys: var, val = keyval_typ2str(ikey, section[ikey]) out.append("{} = {}".format(var, val)) out.append("") out_str = "" for i in range(len(out)): # win-like line endings out_str += out[i]+"\n" return out_str
[docs] def update(self, newcfg): """Update current config with a dictionary""" for sec in newcfg.keys(): if sec not in self._cfg: section = None if self.disable_checks else sec self._cfg[sec] = ConfigurationDict(section=section) self._cfg[sec].update(newcfg[sec])
class CaseInsensitiveDict(ConfigurationDict): def __init__(self, *args, **kwargs): warnings.warn("CaseInsensitiveDict is deprecated, use " + "ConfigurationDict instead.", DeprecationWarning) super(CaseInsensitiveDict, self).__init__(*args, **kwargs) def verify_section_key(section, key): """Return True if the section-key combination exists""" wcount = 0 if section in dfn.config_keys and key in dfn.config_keys[section]: pass elif section in ["plotting", "analysis"]: if sys.version_info[0] != 2: # hijacked by Shape-Out 1 warnings.warn("The '{}' configuration key is deprecated!".format( section), UnknownConfigurationKeyWarning) wcount += 1 elif section == "filtering": if key.endswith(" min") or key.endswith(" max"): feat = key[:-4] if not dfn.scalar_feature_exists(feat): warnings.warn( "A range has been specified for an unknown feature " + "'{}' in the 'filtering' section!".format(feat), UnknownConfigurationKeyWarning) wcount += 1 elif key == "limit events auto": # Shape-Out 1 used this to limit the number of events to # a common minimum. if sys.version_info[0] != 2: warnings.warn("The 'limit events auto' configuration key " " in the 'filtering' section is deprecated!") wcount += 1 else: warnings.warn( "Unknown key '{}' in the 'filtering' section!".format(key), UnknownConfigurationKeyWarning) wcount += 1 elif section not in dfn.config_keys: warnings.warn("Unknown section '{}'!".format(section), UnknownConfigurationKeyWarning) wcount += 1 else: warnings.warn( "Unknown key '{}' in the '{}' section!".format(key, section), UnknownConfigurationKeyWarning) wcount += 1 return wcount == 0
[docs]def load_from_file(cfg_file): """Load the configuration from a file Parameters ---------- cfg_file: str Path to configuration file Returns ------- cfg : ConfigurationDict Dictionary with configuration parameters """ path = pathlib.Path(cfg_file).resolve() with"r", errors="replace") as f: code = f.readlines() cfg = ConfigurationDict() for line in code: # We deal with comments and empty lines # We need to check line length first and then we look for # a hash. line = line.split("#")[0].strip() if len(line) != 0: if line.startswith("[") and line.endswith("]"): sec = line[1:-1].lower() if sec not in cfg: cfg[sec] = ConfigurationDict() continue elif not line.count("="): # ignore invalid lines continue var, val = line.split("=", 1) var = var.strip().lower() val = val.strip("' ").strip('" ').strip() if len(val) == 0: # skip invalid values continue # convert parameter value to correct type if (sec in dfn.config_funcs and var in dfn.config_funcs[sec]): # standard parameter with known type val = dfn.config_funcs[sec][var](val) else: # unknown parameter (e.g. plotting in Shape-Out), guess type var, val = keyval_str2typ(var, val) if len(var) != 0 and len(str(val)) != 0: cfg[sec][var] = val return cfg
def keyval_str2typ(var, val): """Convert a variable from a string to its correct type Parameters ---------- var: str The variable name val: str The value of the variable represented as a string Returns ------- varout: str Stripped lowercase `var` valout: any type The value converted from string to its presumed type Notes ----- This method is heuristic and is only intended for usage in dclab. See Also -------- keyval_typ2str: the opposite """ if not (isinstance(val, str_types)): # already a type: return var.strip(), val var = var.strip().lower() val = val.strip() # Find values if len(var) != 0 and len(val) != 0: # check for float if val.startswith("[") and val.endswith("]"): if len(val.strip("[],")) == 0: # empty list values = [] else: values = val.strip("[],").split(",") values = [float(v) for v in values] return var, values elif val.lower() in ["true", "y"]: return var, True elif val.lower() in ["false", "n"]: return var, False elif val[0] in ["'", '"'] and val[-1] in ["'", '"']: return var, val.strip("'").strip('"').strip() elif dfn.scalar_feature_exists(val): return var, val else: try: return var, float(val.replace(",", ".")) except ValueError: return var, val def keyval_typ2str(var, val): """Convert a variable to a string Parameters ---------- var: str The variable name val: any type The value of the variable Returns ------- varout: str Stripped lowercase `var` valout: any type The value converted to a useful string representation See Also -------- keyval_str2typ: the opposite """ varout = var.strip() if isinstance(val, list): data = ", ".join([keyval_typ2str(var, it)[1] for it in val]) valout = "["+data+"]" elif isinstance(val, float): valout = "{:.12f}".format(val) else: valout = "{}".format(val) return varout, valout