myFig.py 8.15 KB
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#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# ================= FILE HEADER ========================================
#
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#   myplotlib v1.0.1,
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#
#   @file      myFig.py
#   @author    Yori 'AGy' Fournier
#   @licence   CC-BY-SA
#
#   MyFig class: Overlay of matplotlib Figure class
#   It is done such that the user can concentrate on
#   the important aspect of the figure and not the
#   technical part.
#
#   @Class MyFig
#
#   @Constructor
#
#                fignum:      number of the Figure.
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#                inputarg:    identifier of the raw data in G_RAWDATA.
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#                reformat:    flag for reComputing plotted data
#                             from rawData.
#                debug:       flag for debugging, more verbatile.
#                (kw)args:    user defined arguments and keywords.
#
#   @section Functions
#
#            - printDebug:    print some debug information.
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#
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#            - plot:          overlay of Figure.plot() function,
#                             should be overwrited by the user.
#                             Consists of
#                             - creating axes,
#                             - formating the data,
#                             - adding the axis to the figure
#                             - plotting the axis
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#
#            - update:        update the parameters in the
#                             keywords dictionary.
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#
#   @section History
#
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#   v 0.1.1 - MyFig class for the myplotlib module.
#
#   v 1.0.0 - Changed rawdata with inputarg to allows any type
#             of rawdata, can be an array.
#
#             replace the attribute format (reserved word) with
#             formatted.
#
#   v 1.0.1 - Suppress the explicit definitions of the keywords.
#             by the introduction of the keywords dictionary.
#             All parameters in this dictionary are automatically
#             updated.
#
#             suppress the default value of fignum and hardcode it
#             to be -1.
#
#             add the attribute boundedToWin required for the
#             interactive mode of myplotlib.
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#
# ======================================================================
#
#
# IMPORT ---------------------------------------------------------------
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from . import os
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from . import D_FIGSIZE, D_INPUTARG, D_DEBUG, D_REFORMAT, D_FORMATTED
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from . import D_OFORMAT, D_OPATH
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from . import DBUG, SEVR, INFO, SPCE, WARN
from . import G_RAWDATAS
from . import Figure, MyAxes
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# Class MyFig Overwriting Matplotlib.figure.Figure
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class MyFig(Figure):
  
    # Set the size of the Figure in inch
    # (private variable can not be updated)
    FIGSIZE = D_FIGSIZE
  
    # CONSTRUCTOR --------------------------------------------------------
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    def __init__(self, *args, **kwargs):
        
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        self.keywords = {'fignum': -1,  # need to be hard coded for interactive mode
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                         'inputarg': D_INPUTARG,
                         'reformat': D_REFORMAT,
                         'debug': D_DEBUG,
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                         'formatted': D_FORMATTED}
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        # check keywords
        for keyword in self.keywords.keys():
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            # if already in kwargs
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            if keyword in kwargs.keys():
                # overwrite default value
                self.keywords[keyword] = kwargs[keyword]
                # suppress keyword from kwargs for Figure.__init__
                del kwargs[keyword]
            
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        # add figsize in the kwargs for Figure.__init__
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        kwargs['figsize'] = self.FIGSIZE
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        # parent constructor
        Figure.__init__(self, *args, **kwargs)
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        # This is required for the interactive mode
        # it ensures that a figure can not be bounded
        # to several windows and prevent the loss of canvas.
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        self.boundedToWin = False
    
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    # DEBUG --------------------------------------------------------------
    def printDebug(self):
        className = str(self.__class__.__name__)
        print('\n' + DBUG + "  {0} PARAMETERS: ".format(className))
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        print(SPCE + "          Raw data: " + str(self.keywords['inputarg']))
        print(SPCE + "     ID the figure: " + str(self.keywords['fignum']))
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        print(SPCE + "Size of the figure: " + str(self.FIGSIZE) + ' [inch] \n')
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    # PLOT ---------------------------------------------------------------
    def plot(self):
        
        try:
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            self.rawdata = G_RAWDATAS[self.keywords['inputarg']]
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        except KeyError:
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            print(SEVR + "The dataset {dataName} does not exist. --> FALSE".format(dataName=self.keywords['inputarg']))
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            return(False)
        
        ratio = 6. / 8.  # height/width of the axes (in inch)
        frame = [0.0, 0.0, 1.0, 1.0]  # part of the fig that is available
        
        # create an axes MyAxes with a given rect
        ax = MyAxes(self, ratio, frame)
        
        # reformat the data if needed (default True)
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        if((self.keywords['reformat']) or (not self.keywords['formatted'])):
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            try:
                status = ax.formatRawData(self.rawdata)
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                self.keywords['formatted'] = True
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            except (TypeError, KeyError):
                print(SEVR + 'The formatting of the data was apparently wrong. --> EXIT')
                return(False)
        
        if(not status): return(False)
        
        # add the axis to the figure
        self.add_axes(ax)
        
        # try to plot the Axes
        status = ax.plotting()
        if(not status): return(False)
        
        return(True)
   
    # UPDATE -------------------------------------------------------------
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    def update(self, **kwargs):
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        # check keywords
        for keyword in self.keywords.keys():
            # if already in kwargs overwrite default value
            if keyword in kwargs.keys():
                self.keywords[keyword] = kwargs[keyword]
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    # PRINT 2 FILE -------------------------------------------------------
    def print2file(self, filename, *args, **kwargs):
        
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        debug = kwargs.get('debug', D_DEBUG)
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        oformat = kwargs.get('oformat', D_OFORMAT)
        opath = kwargs.get('opath', D_OPATH)
        
        if(oformat == 'png'):
            dpi = 300.
            addMetaData = True  # NOT YET IMPLEENTED
        else:
            dpi = 100.
            addMetaData = False  # NOT YET IMPLEMENTED
        
        from matplotlib.backends.backend_agg import FigureCanvasAgg as FigureCanvas
        # if the figure is boundedToWin unbound the fig so that the window
        # knows that it should rebound by refreshing.
        # Indeed the canvas of the fig will change.
        self.boundedToWin = False
        self.keywords['fignum'] = -1
        
        canvas = FigureCanvas(self)  # the canvas of the figure changed 
        
        # Plot the figure 
        self.plot()
        
        # draw the figure on the new canvas
        canvas.draw()  # not really needed (savefig does that)
        
        # check if the extention is in the name
        if '.png' in str(filename):
            oformat = 'png'
            filename = filename[:-4]
        elif '.eps' in str(filename):
            oformat = 'eps'
            filename = filename[:-4]
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        # check if the path is in the name
        if '/' in str(filename):
            if(debug):
                print(WARN + "I detect that the path is in the name of the file, will ignore D_OPATH.")
            arg = filename
            filename = os.path.basename(arg)
            opath = os.path.dirname(arg)
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        # take care of the . in the extention
        if oformat[0] == '.':
            oformat = oformat[1:]
        
        # clean the output path
        if str(opath)[-1] == '/':
            opath = str(opath)[:-1]
        else:
            opath = str(opath)
        
        try:
            self.savefig(str(opath) + '/' + str(filename) + '.' + str(oformat), dpi=dpi)  # ! this not the save from plt but from fig
        except IOError:
            print(SEVR + 'the path to the file does not exists:')
            print(SPCE + str(opath) + '/' + str(filename) + '.' + str(oformat) + ' --> EXIT')
            return(False)
        except:
            print(SEVR + 'Can not save file. sorry --> EXIT')
            return(False)
        
        return(True)