Exemplo n.º 1
0
    def show_page(self, bring_to_front=False):
        """ Plots all subaxes on a page """
        print('[querydec] show_page()')
        self.prepare_page()
        # Variables we will work with to paint a pretty picture
        #ibs = self.ibs
        nRows = self.nRows
        nCols = self.nCols

        #Plot the Comparisions
        for count, c_aid in enumerate(self.comp_aids):
            if c_aid is not None:
                px = nCols + count + 1
                title_suffix = ''
                if self.suggest_aids is not None and c_aid in self.suggest_aids:
                    title_suffix = 'SUGGESTED BY IBEIS'
                self.plot_chip(c_aid, nRows, nCols, px, title_suffix=title_suffix)
            else:
                pt.imshow_null(fnum=self.fnum, pnum=(nRows, nCols, nCols + count + 1), title='NO RESULT')

        #Plot the Query Chip last
        with ut.EmbedOnException():
            query_title = 'Identify This Animal'
            self.plot_chip(self.query_aid, nRows, 1, 1, title_suffix=query_title)

        self.show_hud()
        pt.adjust_subplots(top=0.88, hspace=0.12, left=.1, right=.9, bottom=.1,
                           wspace=.3)
        self.draw()
        self.show()
        if bring_to_front:
            self.bring_to_front()
Exemplo n.º 2
0
def show_time_distributions(ibs, unixtime_list):
    r"""
    """
    #import vtool_ibeis as vt
    import plottool_ibeis as pt
    unixtime_list = np.array(unixtime_list)
    num_nan = np.isnan(unixtime_list).sum()
    num_total = len(unixtime_list)
    unixtime_list = unixtime_list[~np.isnan(unixtime_list)]

    from ibeis.scripts.thesis import TMP_RC
    import matplotlib as mpl
    mpl.rcParams.update(TMP_RC)

    if False:
        from matplotlib import dates as mpldates
        #data_list = list(map(ut.unixtime_to_datetimeobj, unixtime_list))
        n, bins, patches = pt.plt.hist(unixtime_list, 365)
        #n_ = list(map(ut.unixtime_to_datetimeobj, n))
        #bins_ = list(map(ut.unixtime_to_datetimeobj, bins))
        pt.plt.setp(patches, 'facecolor', 'g', 'alpha', 0.75)
        ax = pt.gca()
        #ax.xaxis.set_major_locator(mpldates.YearLocator())
        #hfmt = mpldates.DateFormatter('%y/%m/%d')
        #ax.xaxis.set_major_formatter(hfmt)
        mpldates.num2date(unixtime_list)
        #pt.gcf().autofmt_xdate()
        #y = pt.plt.normpdf( bins, unixtime_list.mean(), unixtime_list.std())
        #ax.set_xticks(bins_)
        #l = pt.plt.plot(bins_, y, 'k--', linewidth=1.5)
    else:
        pt.draw_time_distribution(unixtime_list)
        #pt.draw_histogram()
        ax = pt.gca()
        ax.set_xlabel('Date')
        ax.set_title('Timestamp distribution of %s. #nan=%d/%d' %
                     (ibs.get_dbname_alias(), num_nan, num_total))
        pt.gcf().autofmt_xdate()

        icon = ibs.get_database_icon()
        if False and icon is not None:
            #import matplotlib as mpl
            #import vtool_ibeis as vt
            ax = pt.gca()
            # Overlay a species icon
            # http://matplotlib.org/examples/pylab_examples/demo_annotation_box.html
            #icon = vt.convert_image_list_colorspace([icon], 'RGB', 'BGR')[0]
            # pt.overlay_icon(icon, coords=(0, 1), bbox_alignment=(0, 1))
            pt.overlay_icon(icon,
                            coords=(0, 1),
                            bbox_alignment=(0, 1),
                            as_artist=1,
                            max_asize=(100, 200))
            #imagebox = mpl.offsetbox.OffsetImage(icon, zoom=1.0)
            ##xy = [ax.get_xlim()[0] + 5, ax.get_ylim()[1]]
            ##ax.set_xlim(1, 100)
            ##ax.set_ylim(0, 100)
            ##x = np.array(ax.get_xlim()).sum() / 2
            ##y = np.array(ax.get_ylim()).sum() / 2
            ##xy = [x, y]
            ##print('xy = %r' % (xy,))
            ##x = np.nanmin(unixtime_list)
            ##xy = [x, y]
            ##print('xy = %r' % (xy,))
            ##ax.get_ylim()[0]]
            #xy = [ax.get_xlim()[0], ax.get_ylim()[1]]
            #ab = mpl.offsetbox.AnnotationBbox(
            #    imagebox, xy, xycoords='data',
            #    xybox=(-0., 0.),
            #    boxcoords="offset points",
            #    box_alignment=(0, 1), pad=0.0)
            #ax.add_artist(ab)

    if ut.get_argflag('--contextadjust'):
        #pt.adjust_subplots(left=.08, bottom=.1, top=.9, wspace=.3, hspace=.1)
        pt.adjust_subplots(use_argv=True)
Exemplo n.º 3
0
    def show_page(self, bring_to_front=False, onlyrows=None, fulldraw=True):
        """ Plots all subaxes on a page

        onlyrows is a hack to only draw a subset of the data again
        """
        if ut.VERBOSE:
            if not fulldraw:
                print('[matchver] show_page(fulldraw=%r, onlyrows=%r)' %
                      (fulldraw, onlyrows))
            else:
                print('[matchver] show_page(fulldraw=%r)' % (fulldraw))
        self.prepare_page(fulldraw=fulldraw)
        # Variables we will work with to paint a pretty picture
        ibs = self.ibs
        nRows = self.nRows
        colpad = 1 if self.cm is not None else 0
        nCols = self.nCols + colpad

        # Distinct color for every unique name
        unique_nids = ut.unique_ordered(
            ibs.get_annot_name_rowids(self.all_aid_list,
                                      distinguish_unknowns=False))
        unique_colors = pt.distinct_colors(len(unique_nids),
                                           brightness=.7,
                                           hue_range=(.05, .95))
        self.nid2_color = dict(zip(unique_nids, unique_colors))

        row_aids_list = self.get_row_aids_list()

        if self.cm is not None:
            print("DRAWING QRES")
            pnum = (1, nCols, 1)
            if not fulldraw:
                # not doing full draw so we have to clear any axes
                # that are here already manually
                ax = self.fig.add_subplot(*pnum)
                self.clear_parent_axes(ax)
            self.cm.show_single_annotmatch(self.qreq_,
                                           self.aid2,
                                           fnum=self.fnum,
                                           pnum=pnum,
                                           draw_fmatch=True,
                                           colorbar_=False)

        # For each row
        for rowx, aid_list in enumerate(row_aids_list):
            offset = rowx * nCols + 1
            if onlyrows is not None and rowx not in onlyrows:
                continue
            #ibsfuncs.assert_valid_aids(ibs, groundtruth)
            # For each column
            for colx, aid in enumerate(aid_list, start=colpad):
                if colx >= nCols:
                    break
                try:
                    nid = ibs.get_annot_name_rowids(aid)
                    if ibsfuncs.is_nid_unknown(ibs, [nid])[0]:
                        color = const.UNKNOWN_PURPLE_RGBA01
                    else:
                        color = self.nid2_color[nid]
                except Exception as ex:
                    ut.printex(ex)
                    print('nid = %r' % (nid, ))
                    print('self.nid2_color = %s' %
                          (ut.repr2(self.nid2_color), ))
                    raise
                px = colx + offset
                ax = self.plot_chip(int(aid),
                                    nRows,
                                    nCols,
                                    px,
                                    color=color,
                                    fulldraw=fulldraw)
                # If there are still more in this row to display
                if colx + 1 < len(aid_list) and colx + 1 >= nCols:
                    total_indices = len(aid_list)
                    current_index = self.col_offset_list[rowx] + 1
                    next_text = 'next\n%d/%d' % (current_index, total_indices)
                    next_func = functools.partial(self.rotate_row, rowx=rowx)
                    self.append_button(next_text,
                                       callback=next_func,
                                       location='right',
                                       size='33%',
                                       ax=ax)

        if fulldraw:
            self.show_hud()
            hspace = .05 if (self.nCols) > 1 else .1
            subplotspar = {
                'left': .1,
                'right': .9,
                'top': .85,
                'bottom': .1,
                'wspace': .3,
                'hspace': hspace,
            }
            pt.adjust_subplots(**subplotspar)
        self.draw()
        self.show()
        if bring_to_front:
            self.bring_to_front()
Exemplo n.º 4
0
def draw_feat_scoresep(testres, f=None, disttype=None):
    r"""
    SeeAlso:
        ibeis.algo.hots.scorenorm.train_featscore_normalizer

    CommandLine:
        python -m ibeis --tf TestResult.draw_feat_scoresep --show
        python -m ibeis --tf TestResult.draw_feat_scoresep --show -t default:sv_on=[True,False]
        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1
        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1 --disttype=L2_sift,fg
        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1 --disttype=L2_sift
        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_MTEST -t best:lnbnn_on=True --namemode=True
        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_MTEST -t best:lnbnn_on=True --namemode=False

        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_MTEST --disttype=L2_sift
        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_MTEST --disttype=L2_sift -t best:SV=False

        utprof.py -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1
        utprof.py -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1 --fsvx=1:2
        utprof.py -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1 --fsvx=0:1

        utprof.py -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_Master1 -t best:lnbnn_on=False,bar_l2_on=True  --fsvx=0:1

        # We want to query the oxford annots taged query
        # and we want the database to contain
        # K correct images per query, as well as the distractors

        python -m ibeis --tf TestResult.draw_feat_scoresep  --show --db Oxford -a default:qhas_any=\(query,\),dpername=1,exclude_reference=True,minqual=ok
        python -m ibeis --tf TestResult.draw_feat_scoresep  --show --db Oxford -a default:qhas_any=\(query,\),dpername=1,exclude_reference=True,minqual=good

        python -m ibeis --tf get_annotcfg_list  --db PZ_Master1 -a timectrl --acfginfo --verbtd  --veryverbtd --nocache-aid

        python -m ibeis --tf TestResult.draw_feat_scoresep --show --db PZ_MTEST --disttype=ratio

    Example:
        >>> # SCRIPT
        >>> from ibeis.expt.test_result import *  # NOQA
        >>> from ibeis.init import main_helpers
        >>> disttype = ut.get_argval('--disttype', type_=list, default=None)
        >>> ibs, testres = main_helpers.testdata_expts(
        >>>     defaultdb='PZ_MTEST', a=['timectrl'], t=['best'])
        >>> f = ut.get_argval(('--filt', '-f'), type_=list, default=[''])
        >>> testres.draw_feat_scoresep(f=f)
        >>> ut.show_if_requested()
    """
    print('[testres] draw_feat_scoresep')
    import plottool_ibeis as pt

    def load_feat_scores(qreq_, qaids):
        import ibeis  # NOQA
        from os.path import dirname, join  # NOQA
        # HACKY CACHE
        cfgstr = qreq_.get_cfgstr(with_input=True)
        cache_dir = join(dirname(dirname(ibeis.__file__)),
                         'TMP_FEATSCORE_CACHE')
        namemode = ut.get_argval('--namemode', default=True)
        fsvx = ut.get_argval('--fsvx',
                             type_='fuzzy_subset',
                             default=slice(None, None, None))
        threshx = ut.get_argval('--threshx', type_=int, default=None)
        thresh = ut.get_argval('--thresh', type_=float, default=.9)
        num = ut.get_argval('--num', type_=int, default=1)
        cfg_components = [
            cfgstr, disttype, namemode, fsvx, threshx, thresh, f, num
        ]
        cache_cfgstr = ','.join(ut.lmap(six.text_type, cfg_components))
        cache_hashid = ut.hashstr27(cache_cfgstr + '_v1')
        cache_name = ('get_cfgx_feat_scores_' + cache_hashid)

        @ut.cached_func(cache_name,
                        cache_dir=cache_dir,
                        key_argx=[],
                        use_cache=True)
        def get_cfgx_feat_scores(qreq_, qaids):
            from ibeis.algo.hots import scorenorm
            cm_list = qreq_.execute(qaids)
            # print('Done loading cached chipmatches')
            tup = scorenorm.get_training_featscores(qreq_,
                                                    cm_list,
                                                    disttype,
                                                    namemode,
                                                    fsvx,
                                                    threshx,
                                                    thresh,
                                                    num=num)
            # print(ut.depth_profile(tup))
            tp_scores, tn_scores, scorecfg = tup
            return tp_scores, tn_scores, scorecfg

        tp_scores, tn_scores, scorecfg = get_cfgx_feat_scores(qreq_, qaids)
        return tp_scores, tn_scores, scorecfg

    valid_case_pos = testres.case_sample2(filt_cfg=f, return_mask=False)
    cfgx2_valid_qxs = ut.group_items(valid_case_pos.T[0], valid_case_pos.T[1])
    test_qaids = testres.get_test_qaids()
    cfgx2_valid_qaids = ut.map_dict_vals(ut.partial(ut.take, test_qaids),
                                         cfgx2_valid_qxs)

    join_acfgs = True

    # TODO: option to average over pipeline configurations
    if join_acfgs:
        groupxs = testres.get_cfgx_groupxs()
    else:
        groupxs = list(zip(range(len(testres.cfgx2_qreq_))))
    grouped_qreqs = ut.apply_grouping(testres.cfgx2_qreq_, groupxs)

    grouped_scores = []
    for cfgxs, qreq_group in zip(groupxs, grouped_qreqs):
        # testres.print_pcfg_info()
        score_group = []
        for cfgx, qreq_ in zip(cfgxs, testres.cfgx2_qreq_):
            print('Loading cached chipmatches')
            qaids = cfgx2_valid_qaids[cfgx]
            tp_scores, tn_scores, scorecfg = load_feat_scores(qreq_, qaids)
            score_group.append((tp_scores, tn_scores, scorecfg))
        grouped_scores.append(score_group)

    cfgx2_shortlbl = testres.get_short_cfglbls(join_acfgs=join_acfgs)
    for score_group, lbl in zip(grouped_scores, cfgx2_shortlbl):
        tp_scores = np.hstack(ut.take_column(score_group, 0))
        tn_scores = np.hstack(ut.take_column(score_group, 1))
        scorecfg = '+++'.join(ut.unique(ut.take_column(score_group, 2)))
        score_group
        # TODO: learn this score normalizer as a model
        # encoder = vt.ScoreNormalizer(adjust=4, monotonize=False)
        encoder = vt.ScoreNormalizer(adjust=2, monotonize=True)
        encoder.fit_partitioned(tp_scores, tn_scores, verbose=False)
        figtitle = 'Feature Scores: %s, %s' % (scorecfg, lbl)
        fnum = None

        vizkw = {}
        sephack = ut.get_argflag('--sephack')
        if not sephack:
            vizkw['target_tpr'] = .95
            vizkw['score_range'] = (0, 1.0)

        encoder.visualize(
            figtitle=figtitle,
            fnum=fnum,
            with_scores=False,
            #with_prebayes=True,
            with_prebayes=False,
            with_roc=True,
            with_postbayes=False,
            #with_postbayes=True,
            **vizkw)
        icon = testres.ibs.get_database_icon()
        if icon is not None:
            pt.overlay_icon(icon, coords=(1, 0), bbox_alignment=(1, 0))

        if ut.get_argflag('--contextadjust'):
            pt.adjust_subplots(left=.1, bottom=.25, wspace=.2, hspace=.2)
            pt.adjust_subplots(use_argv=True)
    return encoder
Exemplo n.º 5
0
def compare_featscores():
    """
    CommandLine:

        ibeis --tf compare_featscores  --db PZ_MTEST \
            --nfscfg :disttype=[L2_sift,lnbnn],top_percent=[None,.5,.1] -a timectrl \
            -p default:K=[1,2],normalizer_rule=name \
            --save featscore{db}.png --figsize=13,20 --diskshow

        ibeis --tf compare_featscores  --db PZ_MTEST \
            --nfscfg :disttype=[L2_sift,normdist,lnbnn],top_percent=[None,.5] -a timectrl \
            -p default:K=[1],normalizer_rule=name,sv_on=[True,False] \
            --save featscore{db}.png --figsize=13,10 --diskshow

        ibeis --tf compare_featscores --nfscfg :disttype=[L2_sift,normdist,lnbnn] \
            -a timectrl -p default:K=1,normalizer_rule=name --db PZ_Master1 \
            --save featscore{db}.png  --figsize=13,13 --diskshow

        ibeis --tf compare_featscores --nfscfg :disttype=[L2_sift,normdist,lnbnn] \
            -a timectrl -p default:K=1,normalizer_rule=name --db GZ_ALL \
            --save featscore{db}.png  --figsize=13,13 --diskshow

        ibeis --tf compare_featscores  --db GIRM_Master1 \
            --nfscfg ':disttype=fg,L2_sift,normdist,lnbnn' \
            -a timectrl -p default:K=1,normalizer_rule=name \
            --save featscore{db}.png  --figsize=13,13

        ibeis --tf compare_featscores --nfscfg :disttype=[L2_sift,normdist,lnbnn] \
            -a timectrl -p default:K=[1,2,3],normalizer_rule=name,sv_on=False \
            --db PZ_Master1 --save featscore{db}.png  \
                --dpi=128 --figsize=15,20 --diskshow

        ibeis --tf compare_featscores --show --nfscfg :disttype=[L2_sift,normdist] -a timectrl -p :K=1 --db PZ_MTEST
        ibeis --tf compare_featscores --show --nfscfg :disttype=[L2_sift,normdist] -a timectrl -p :K=1 --db GZ_ALL
        ibeis --tf compare_featscores --show --nfscfg :disttype=[L2_sift,normdist] -a timectrl -p :K=1 --db PZ_Master1
        ibeis --tf compare_featscores --show --nfscfg :disttype=[L2_sift,normdist] -a timectrl -p :K=1 --db GIRM_Master1

        ibeis --tf compare_featscores  --db PZ_MTEST \
            --nfscfg :disttype=[L2_sift,normdist,lnbnn],top_percent=[None,.5,.2] -a timectrl \
            -p default:K=[1],normalizer_rule=name \
            --save featscore{db}.png --figsize=13,20 --diskshow

        ibeis --tf compare_featscores  --db PZ_MTEST \
            --nfscfg :disttype=[L2_sift,normdist,lnbnn],top_percent=[None,.5,.2] -a timectrl \
            -p default:K=[1],normalizer_rule=name \
            --save featscore{db}.png --figsize=13,20 --diskshow

    Example:
        >>> # DISABLE_DOCTEST
        >>> from ibeis.algo.hots.scorenorm import *  # NOQA
        >>> result = compare_featscores()
        >>> print(result)
        >>> ut.quit_if_noshow()
        >>> import plottool_ibeis as pt
        >>> ut.show_if_requested()
    """
    import plottool_ibeis as pt
    import ibeis
    nfs_cfg_list = NormFeatScoreConfig.from_argv_cfgs()
    learnkw = {}
    ibs, testres = ibeis.testdata_expts(defaultdb='PZ_MTEST',
                                        a=['default'],
                                        p=['default:K=1'])
    print('nfs_cfg_list = ' + ut.repr3(nfs_cfg_list))

    encoder_list = []
    lbl_list = []

    varied_nfs_lbls = ut.get_varied_cfg_lbls(nfs_cfg_list)
    varied_qreq_lbls = ut.get_varied_cfg_lbls(testres.cfgdict_list)
    #varies_qreq_lbls

    #func = ut.cached_func(cache_dir='.')(learn_featscore_normalizer)
    for datakw, nlbl in zip(nfs_cfg_list, varied_nfs_lbls):
        for qreq_, qlbl in zip(testres.cfgx2_qreq_, varied_qreq_lbls):
            lbl = qlbl + ' ' + nlbl
            cfgstr = '_'.join([datakw.get_cfgstr(), qreq_.get_full_cfgstr()])
            try:
                encoder = vt.ScoreNormalizer()
                encoder.load(cfgstr=cfgstr)
            except IOError:
                print('datakw = %r' % (datakw, ))
                encoder = learn_featscore_normalizer(qreq_, datakw, learnkw)
                encoder.save(cfgstr=cfgstr)
            encoder_list.append(encoder)
            lbl_list.append(lbl)

    fnum = 1
    # next_pnum = pt.make_pnum_nextgen(nRows=len(encoder_list), nCols=3)
    next_pnum = pt.make_pnum_nextgen(nRows=len(encoder_list) + 1,
                                     nCols=3,
                                     start=3)

    iconsize = 94
    if len(encoder_list) > 3:
        iconsize = 64

    icon = qreq_.ibs.get_database_icon(max_dsize=(None, iconsize),
                                       aid=qreq_.qaids[0])
    score_range = (0, .6)
    for encoder, lbl in zip(encoder_list, lbl_list):
        #encoder.visualize(figtitle=encoder.get_cfgstr(), with_prebayes=False, with_postbayes=False)
        encoder._plot_score_support_hist(fnum,
                                         pnum=next_pnum(),
                                         titlesuf='\n' + lbl,
                                         score_range=score_range)
        encoder._plot_prebayes(fnum, pnum=next_pnum())
        encoder._plot_roc(fnum, pnum=next_pnum())
        if icon is not None:
            pt.overlay_icon(icon, coords=(1, 0), bbox_alignment=(1, 0))

    nonvaried_lbl = ut.get_nonvaried_cfg_lbls(nfs_cfg_list)[0]
    figtitle = qreq_.__str__() + '\n' + nonvaried_lbl

    pt.set_figtitle(figtitle)
    pt.adjust_subplots(hspace=.5, top=.92, bottom=.08, left=.1, right=.9)
    pt.update_figsize()
    pt.plt.tight_layout()