evaluation.py 7.74 KB
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Wed Jan 22 13:57:28 2020

@author: luna
"""
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import pickle
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import sys
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import os
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from helpers import ParticleBinSorter
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import methods as meth
import geometricMethods as gmeth
sys.path.append("C://Users//xbrjos//Desktop//Python")
from gepard import dataset
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def get_name_from_directory(dirPath: str) -> str:
    return str(os.path.basename(dirPath).split('.')[0])


class TotalResults(object):
    methods: list = [meth.RandomSampling, meth.SizeBinFractioning, gmeth.CrossBoxSubSampling,
                     gmeth.SpiralBoxSubsampling]
    measuredFreactions: list = [0.1, 0.3, 0.5, 0.9]

    def __init__(self):
        super(TotalResults, self).__init__()
        self.sampleResults: list = []

    def add_sample(self, filePath: str) -> None:
        """
        Adds a new sampleResult object, if a .pkl file is given and if the sample name is not already present.
        :param filePath:
        :return:
        """
        sampleName: str = get_name_from_directory(filePath)
        presentSampleNames: list = [res.sampleName for res in self.sampleResults]
        if sampleName not in presentSampleNames:
            if os.path.basename(filePath).split('.')[-1] == 'pkl':
                self.sampleResults.append(SampleResult(filePath))

    def update_all(self) -> None:
        """
        Updates all samples with all methods and all fractions
        :return:
        """
        for sample in self.sampleResults:
            sample.load_dataset()
            for fraction in self.measuredFreactions:
                possibleMethods = self._get_methods_for_fraction(sample.dataset, fraction)
                for curMethod in possibleMethods:
                    print(f'updating {sample.sampleName} with {curMethod.label} at fraction {fraction}')
                    sample.update_result_with_method(curMethod)

    def _get_methods_for_fraction(self, dataset: dataset.DataSet, fraction: float) -> list:
        """
        :param fraction: The desired fraction to measure
        :return: list of measurement Objects that are applicable
        """
        particleContainer = dataset.particleContainer
        methods: list = [meth.RandomSampling(particleContainer, fraction),
                         meth.SizeBinFractioning(particleContainer, fraction)]

        boxCreator: gmeth.BoxSelectionCreator = gmeth.BoxSelectionCreator(dataset)
        methods += boxCreator.get_crossBoxSubsamplers_for_fraction(fraction)
        methods += boxCreator.get_spiralBoxSubsamplers_for_fraction(fraction)
        return methods


class SampleResult(object):
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    """
    An object the actually stores all generated results per sample and can update and report on them.
    """
    def __init__(self, filepath: str):
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        super(SampleResult, self).__init__()
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        self.filepath: str = filepath
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        self.dataset: dataset.DataSet = None
        self.results: list = []
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    @property
    def sampleName(self) -> str:
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        return get_name_from_directory(self.filepath)
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    def load_dataset(self) -> None:
        self.dataset = dataset.loadData(self.filepath)
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    def update_result_with_method(self, method: meth.SubsamplingMethod, force: bool = False) -> None:
        """
        Updates result with the given method (contains desiredFraction already)
        :param method: The SubsamplingMethod Object
        :param force: Wether to force an update. If False, the result is not updated, if it is already present.
        :return:
        """

        if not self._result_is_already_present(method) or force:
            if force:
                self._remove_result_of_method(method)

            if self.dataset is None:
                self.load_dataset()

            method.particleContainer = self.dataset.particleContainer
            newResult: SubsamplingResult = SubsamplingResult(method)
            self.results.append(newResult)
            newResult.update()

    def _remove_result_of_method(self, method: meth.SubsamplingMethod) -> None:
        """
        Removes the specified result from the list
        :param method:
        :return:
        """
        for result in self.results:
            if type(result.method) == type(method) and result.fraction == method.fraction:
                self.results.remove(result)

    def _result_is_already_present(self, method: meth.SubsamplingMethod) -> bool:
        """
        Checks, if a result with the given method (method type AND measured fraction) is already present.
        :param method: The method object, specifying the subsampling method and the measured fraction
        :return:
        """
        isPresent: bool = False
        for result in self.results:
            if type(result.method) == type(method) and result.fraction == method.fraction:
                isPresent = True
                break
        return isPresent


class SubsamplingResult(object):
    """
    Stores all interesting results from a subsampling experiment
    """
    def __init__(self, subsamplingMethod: meth.SubsamplingMethod):
        super(SubsamplingResult, self).__init__()
        self.method: meth.SubsamplingMethod = subsamplingMethod
        self.fraction = self.method.fraction
        self.origParticleCount: int = None
        self.subSampledParticleCount: int = None
        self.mpCountError: float = None
        self.mpCountErrorPerBin: tuple = None
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    def update(self) -> None:
        """
        Updates all results from the method.
        :return:
        """
        assert self.method.particleContainer is not None
        origParticles: list = self.method.particleContainer.particles
        self.origParticleCount = len(origParticles)
        subParticles: list = self.method.apply_subsampling_method()
        self.subSampledParticleCount = len(subParticles)
        fraction: float = self.method.fraction
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        self.mpCountError = self._get_mp_count_error(origParticles, subParticles, fraction)
        self.mpCountErrorPerBin = self._get_mp_count_error_per_bin(origParticles, subParticles, fraction)
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    def _get_mp_count_error_per_bin(self, allParticles: list, subParticles: list, fractionMeasured: float) -> tuple:
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        binSorter = ParticleBinSorter()
        allParticlesInBins = binSorter.sort_particles_into_bins(allParticles)
        subParticlesInBins = binSorter.sort_particles_into_bins(subParticles)
        mpCountErrorsPerBin = []
        for allParticleBin, subParticleBin in zip(allParticlesInBins, subParticlesInBins):
            mpCountErrorsPerBin.append(self._get_mp_count_error(allParticleBin, subParticleBin, fractionMeasured))
        return binSorter.bins, mpCountErrorsPerBin
        
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    def _get_mp_count_error(self, allParticles: list, subParticles: list, fractionMeasured: float) -> float:
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        numMPOrig = self._get_number_of_MP_particles(allParticles)
        numMPEstimate = self._get_number_of_MP_particles(subParticles) / fractionMeasured
        
        if numMPOrig != 0:
            mpCountError = self._get_error_from_values(numMPOrig, numMPEstimate)
        elif numMPEstimate == 0:
            mpCountError = 0
        else:
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            raise Exception  # >0 particles in subsample, whereas none in entire sample. This cannot be!
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        return mpCountError
    
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    def _get_error_from_values(self, exact: float, estimate: float) -> float:
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        assert(exact != 0)
        return abs(exact - estimate) / exact
    
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    def _get_number_of_MP_particles(self, particleList: list) -> int:
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        mpPatterns = ['poly', 'rubber', 'pb', 'pr', 'pg', 'py', 'pv']
        numMPParticles = 0
        
        for particle in particleList:
            assignment = particle.getParticleAssignment()
            for pattern in mpPatterns:
                if assignment.lower().find(pattern) != -1:
                    numMPParticles += 1
                    break

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        return numMPParticles