Ejemplo n.º 1
0
    def setasref(self):
        L = self.filesTable.selectedItems()
        if len(L[0:len(L) / 2]) >= 2:
            msgBox = QMessageBox()
            msgBox.setText("Only one item can be selected.")
            msgBox.exec_()
        elif len(L[0:len(L) / 2]) == 1:
            if '&' in self.filesTable.item(0, 0).text():
                msgBox = QMessageBox()
                msgBox.setText("The ref has existed.")
                msgBox.exec_()
            else:
                self.filesTable.insertRow(0)
                fn = L[0].text()
                file = QtCore.QFile(self.currentDir.absoluteFilePath(fn))
                size = QtCore.QFileInfo(file).size()

                fileNameItem = QtGui.QTableWidgetItem('&' + fn)
                fileNameItem.setFlags(fileNameItem.flags()
                                      ^ QtCore.Qt.ItemIsEditable)
                sizeItem = QtGui.QTableWidgetItem("%d KB" % (int(
                    (size + 1023) / 1024)))
                sizeItem.setTextAlignment(QtCore.Qt.AlignVCenter
                                          | QtCore.Qt.AlignRight)
                sizeItem.setFlags(sizeItem.flags() ^ QtCore.Qt.ItemIsEditable)
                self.filesTable.setItem(0, 0, fileNameItem)
                self.filesTable.setItem(0, 1, sizeItem)
                ncr = netcdf_reader(self.currentDir.absoluteFilePath(fn),
                                    bmmap=False)
                self.emit(SIGNAL("ref_ncr"), ncr)
        self.updata_files()
Ejemplo n.º 2
0
def get_R2(bass=None):

    # pkl_file = open('standardn3')
    pkl_file = open('PD6--RM---')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    # fn = "F:\MARS\data_save\STDAND/zhi10-5vs1.CDF"
    fn = "F:\MARS\data_save\D6/73.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    mss = msrt['ms']
    mz = msrt['mz']
    segno = msrt['segno']
    results = data['results']

    inds = [75]
    tzs = results[0]['tzs'][inds, :]
    RG = np.arange(np.min(tzs), np.max(tzs))
    dd = np.zeros((len(RG), len(mz)))
    xx = ncr.mat(int(RG[0]), int(RG[-1]), 1)
    for j in inds:
        newd = np.zeros((len(RG), len(mz)))
        tz, seg, x, segx, maxpos, irr = findTZ(ncr, rts[j],
                                               np.array(mss[j], ndmin=2), pw,
                                               w, 'RM')
        c, vsel, pc = gridsearch(x, maxpos, 6, irr)
        chrom, area, heig, d = polyfitting(c, x, vsel, np.array(mss[j],
                                                                ndmin=2))
        re = np.searchsorted(RG, [tz[0], tz[1]])
        newd[re[0]:re[1], :] = d
        dd = dd + newd

    xx1 = ncr.mat(int(RG[0]) - 8, int(RG[-1]) + 8, 1)
    seg = np.array([[0, 8], [xx1['d'].shape[0] - 8, xx1['d'].shape[0]]])
    fit, bas = backremv(xx1['d'], seg)
    bbas = bas[8:xx1['d'].shape[0] - 8, :]

    if bass == 'baseline':
        xxo = xx['d'] - bbas
        resn = xx['d'] - bbas - dd
    else:
        xxo = xx['d']
        resn = xx['d'] - dd

    un = np.sum((np.power(resn, 2)))
    sstn = np.sum(np.power(xxo, 2))
    R2 = (sstn - un) / sstn
    print(R2)

    plt.plot(np.sum(xx1['d'], axis=1), 'b')
    # plt.plot(range(8,xx1['d'].shape[0]-8),np.sum(dd,axis=0),'r')
    t = range(8, xx1['d'].shape[0] - 8)
    plt.plot(t, np.sum(dd, axis=1), 'r')
    plt.plot(np.sum(bas, axis=1), 'k')
    plt.show()
Ejemplo n.º 3
0
def plot_compara1():
    pkl_file = open('PD6--RM--')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\D6/75.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']
    mz = msrt['mz']
    # com = [79]
    com = range(22, 27)

    rttic = ncr.tic()['rt']

    plt.figure()
    ax = plt.subplot(111)

    rang = []
    colors = ['r', 'g', 'c', 'y', 'm']
    for ii, i in enumerate(com):
        tz, seg2, x, segx, maxpos, irr = findTZ(ncr,
                                                rts[i],
                                                np.array(ms[i], ndmin=2),
                                                pw,
                                                w,
                                                mth='RM')
        rang.extend(tz)
        c, vsel, pc = gridsearch(x, maxpos, 6, irr)
        chrom, area, heig, d = polyfitting(c, x, vsel, np.array(ms[i],
                                                                ndmin=2))
        # plt.subplot(111)
        # plt.plot(np.sum(x, axis=1))
        plt.plot(rttic[range(tz[0], tz[1])],
                 chrom,
                 color=colors[ii],
                 linewidth=3.0,
                 label='c' + str(ii + 1))
    plt.plot(
        rttic[range(tz[0], tz[1])],
        chrom,
        color='m',
    )
    segx = ncr.mat(min(rang), max(rang) - 1, 1)
    rtseg = rttic[range(min(rang), max(rang))]
    plt.plot(rtseg,
             np.sum(segx['d'], axis=1),
             color='b',
             linewidth=3.0,
             label='raw')
    ax.set_xlim((min(rtseg), max(rtseg)))
    ax.set_xlabel('retention time (min)')
    ax.set_ylabel('intensity')
    # plt.legend(loc='upper left')
    plt.show()
Ejemplo n.º 4
0
    def updata_inputs(self, pdata, path):
        self.results = []
        self.idents = []
        self.seleno = 0
        self.refflag = QString()
        self.ticflag = QString()
        self.selefiles = str()
        self.msrtflag = str()
        self.massflag = str()
        self.MSRT = pdata['MSRT']

        self.files = pdata['files']
        files = []
        if not os.path.isdir(self.files['dir']):
            dir = str(self.fileWidget.directoryComboBox.currentText())
        else:
            dir = self.files['dir']

        for fn in self.files['fn']:
            if '&' in fn:
                fnl = fn[1:]
            else:
                fnl = fn
            if os.path.isfile(dir + '/' + fnl):
                files.append(dir + '/' + fnl)
        if len(files) == len(self.files['files']):
            self.files['dir'] = dir
            self.files['files'] = files
        elif len(files):
            msgBox = QMessageBox()
            msgBox.setText("CDF Files not complete")
            msgBox.exec_()
            return
        else:
            msgBox = QMessageBox()
            msgBox.setText("CDF Files not exist in Dir")
            msgBox.exec_()
            return

        self.options = pdata['options']
        self.results = pdata['results']
        self.finish_files = pdata['finish_files']
        ref_seg = pdata['ref_seg']
        segments = pdata['segments']
        resu_results = pdata['resu_results']
        ncr = netcdf_reader(self.files['files'][0], bmmap=False)
        finished = pdata['finished']

        self.fileWidget.loading(self.files)
        self.segtable.loading(segments, resu_results)
        self.refplot.loading(ref_seg, ncr, self.files['fn'][0])
        self.msrttable.loading(self.MSRT, finished)
        self.ticplot.loading()
        self.resoluset.loading(segments, ncr)
        self.massdlg.loading()
        self.mcralsmass.loading()
        self.setmarsdlg.loading(self.options)
Ejemplo n.º 5
0
 def mainaddresol(self, num, row):
     rt = self.MSRT['rt'][num]
     ms = self.MSRT['ms'][num]
     mz = self.MSRT['mz']
     chrom = {}
     if num in self.msrttable.finished:
         nnum = np.searchsorted(self.msrttable.finished, num)
         if row >= 0:
             res = self.results[row - 1]
             file = self.files['files'][row]
             rts = netcdf_reader(file, bmmap=False).tic()
             tz = res['tzs'][nnum, :]
             seg = res['segs'][nnum, :]
             tzs = rts['rt'][tz[0]:tz[1]]
             segs = rts['rt'][seg[0]:seg[1]]
             orc = res['orc'][nnum]
             chr = res['chrs'][nnum]
             chrom = {'rts': tzs, 'chrom': chr, 'segs': segs, 'orc': orc}
     self.massdlg.addresolmass(rt, ms, mz, num, chrom, self.ticflag)
Ejemplo n.º 6
0
 def ticfig(self, fn, row):
     file = self.files['files'][row]
     ncr = netcdf_reader(file, bmmap=False)
     # self.refflag = str(fn)
     if '&' in fn:
         self.refplot.add_tic(ncr, fn)
         self.refflag = fn
         self.resoluset.update_ncr(ncr)
     else:
         self.ticplot.add_tic(ncr, fn)
         self.ticflag = fn
         massplot = self.massdlg.massplot
         files = self.files['fn']
         row = files.index(self.ticflag)
         rtitems = self.msrttable.get_rtitem()
         if len(massplot):
             num = rtitems.index(massplot)
             rt = self.MSRT['rt'][num]
             self.mainaddresol(num, row)
Ejemplo n.º 7
0
    starttime_t = datetime.datetime.now()
    COMs = [1, 2, 3, 4, 5]

    work_path = 'C:/Users/admin/Desktop/DeepResolution2_upload'
    model_size = 128

    data_path = 'F:/GCMS/male infertility plasma'
    result_path = work_path + '/resultpath'
    mkdir(result_path)
    pathDir = os.listdir(data_path)
    for file in pathDir:
        data_file = os.path.join(data_path, file)

        print('Data file: ' + str(file) + ' start...')

        ncr = netcdf_reader(data_file, bmmap=False)
        m = ncr.mat(1, 8774, 1)

        #########################  U-Net4S  ################################
        tf.keras.backend.clear_session()
        ops.reset_default_graph()

        starttime = datetime.datetime.now()
        y_DeepSeg, ind_st_DeepSeg, ind_en_DeepSeg = UNet4S(work_path,
                                                           m,
                                                           model_size,
                                                           distance=5,
                                                           threshold=15)

        endtime = datetime.datetime.now()
Ejemplo n.º 8
0
            tiab.extend(x[tt, i])
            reg.extend(np.arange(seg[j][0], seg[j][1]))
        rm = reg - np.mean(reg)
        tm = tiab - np.mean(tiab)
        b = np.dot(np.dot(float(1) / np.dot(rm.T, rm), rm.T), tm)
        s = np.mean(tiab) - np.dot(np.mean(reg), b)
        b_est = s + b * np.arange(mn[0])
        bak2[:, i] = x[:, i] - b_est
    bak = x - bak2
    return bak2, bak


if __name__ == '__main__':

    filename = 'F:\MARS\data_save\D6/73.CDF'
    ncr = netcdf_reader(filename, True)
    options = {'chrom': ['fnnls', 'average'], 'mass': ['fnnls']}
    x = ncr.mat(1850, 1890, 1)
    # ax = plt.figure()
    # ax.add_subplot(111)
    # ax.show()
    plt.plot(x['d'])
    plt.show()

    ### test MCR_ALS
    pures = pure(x['d'].T, 3, 10)
    # RESU = MCRALS(x, 3, pures['SP'], options)

    # moptions = {'pw':80, 'w':3, 'thres':0.8}
    # MSRT = {'ms': RESU['spec'], 'rt': RESU['rt']}
Ejemplo n.º 9
0
#     vsel90 = vse[np.where(np.array(SI) >= 0.90)[0]]
#     vsel95 = vse[np.where(np.array(SI) >= 0.95)[0]]
#     # plt.plot(x[:, vsel95])
#     # plt.show()
#     return vsel90, vsel95

if __name__ == '__main__':
    # pkl_file = open('heye12-4.pkl')
    pkl_file = open('PD6--RM--')
    # pkl_file = open('standardn2')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\D6/73.CDF"
    # fn = "F:\MARS\data_save\STDAND/zhi50-5vs1.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']

    com = 48
    tz, seg, x, segx, maxpos, irr = findTZ(ncr,
                                           rts[com],
                                           np.array(ms[com], ndmin=2),
                                           pw,
                                           w,
                                           mth='RM')
    # RM = reverse_match(x,  ms[com])
    # plt.plot(RM)
Ejemplo n.º 10
0
                "select peakindex,peakintensity  from catalog where id=%d" %
                (self.corrs_top10[i][0]))
            temp = self.cur.fetchall()
            masstemp = np.frombuffer(temp[0][0], dtype=np.int)
            intensitytemp = np.frombuffer(temp[0][1], dtype=np.int)
            temp2 = (self.corrs_top10[i][0],
                     corrcoef_ms(masstemp, intensitytemp, self.ms_search['mz'],
                                 self.ms_search['val']))
            self.corrs.append(temp2)
        self.corrs.sort(key=lambda d: d[1], reverse=True)


if __name__ == "__main__":

    from NetCDF import netcdf_reader
    import time
    filename = 'E:\MARS\data_save\D6/73.CDF'
    ncr = netcdf_reader(filename)

    ms = binMS(ncr.mz_rt(20.50))
    ms_bg = binMS(ncr.mz_rt(20.60))

    ms['val'] = np.abs(ms['val'] - ms_bg['val'])  # background correction

    t = time.time()
    nist = NISTSearch(NIST_DBPath)
    nist.top10_screen(ms)
    nist.corr()
    print nist.corrs
    print time.time() - t
Ejemplo n.º 11
0
def get_feature():
    pkl_file = open('PD6--RM--')
    # pkl_file = open('standardn2')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\D6/73.CDF"
    # fn = "F:\MARS\data_save\STDAND/zhi50-5vs1.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']

    com = 49
    tz, seg, x, segx, maxpos, irr = findTZ(ncr, rts[com],
                                           np.array(ms[com], ndmin=2), pw, w,
                                           thre)
    c, vsel, pc = gridsearch(x, maxpos, 6, irr)
    c0 = ittfa(x, maxpos, 1)
    c1 = ittfa(x, maxpos, 2)
    c2 = ittfa(x, maxpos, 3)
    c3 = ittfa(x, maxpos, 4)
    c4 = ittfa(x, maxpos, 5)
    c5 = ittfa(x, maxpos, 11)
    #
    # fig1 = plt.figure(321)
    plt.subplot(322)
    plt.plot(x, color='k', linewidth=1.5, alpha=0.35)
    plt.subplot(324)
    plt.plot(c0, 'k')
    # plt.plot(c2, 'y')
    # plt.plot(c3, 'c')
    # plt.plot(c4, 'k')
    plt.plot(c5, 'b')
    plt.plot(c1, 'r')

    chrom, area, heig, d = polyfitting(c, x, vsel, np.array(ms[com], ndmin=2))
    ax2 = plt.subplot(326)
    plt.plot(np.sum(x, axis=1))
    plt.plot(chrom, 'r')
    ax2.set_xlabel('scans')

    com = 48
    tz, seg, x, segx, maxpos, irr = findTZ(ncr, rts[com],
                                           np.array(ms[com], ndmin=2), pw, w,
                                           thre)
    c, vsel, pc = gridsearch(x, maxpos, 6, irr)
    c0 = ittfa(x, maxpos, 1)
    c1 = ittfa(x, maxpos, 2)
    c2 = ittfa(x, maxpos, 3)
    c3 = ittfa(x, maxpos, 4)
    c4 = ittfa(x, maxpos, 5)
    c5 = ittfa(x, maxpos, 11)
    #
    # fig1 = plt.figure(321)
    plt.subplot(321)
    plt.plot(x, color='k', linewidth=1.5, alpha=0.35)
    plt.subplot(323)
    # plt.plot(c0, 'g')
    plt.plot(c1, 'k')
    # plt.plot(c2, 'y')
    # plt.plot(c3, 'c')
    plt.plot(c5, 'b')
    plt.plot(c4, 'r')

    chrom, area, heig, d = polyfitting(c, x, vsel, np.array(ms[com], ndmin=2))
    ax1 = plt.subplot(325)
    plt.plot(np.sum(x, axis=1))
    plt.plot(chrom, 'r')
    ax1.set_xlabel('scans')
    plt.subplots_adjust(left=0.08,
                        right=0.95,
                        bottom=0.1,
                        top=0.9,
                        hspace=0.35)
    plt.show()
Ejemplo n.º 12
0
def plot_fig5():
    pkl_file = open('PD6--RM--')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\D6/73.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']
    mz = msrt['mz']
    com = 23

    d = ncr.mat(1845, 1895, 1)
    rttic = ncr.tic()['rt']
    rts = rttic[range(1845, 1896)]
    pos = np.searchsorted(rts, [12.753])
    plt.plot(d['d'][pos[0], :])
    plt.show()
    map = np.argsort(d['d'][pos[0], :])[::-1][0:10]
    print(map)

    mzs = d['mz']
    mz1 = mzs[123]
    mz2 = mzs[265]
    mz3 = mzs[170]
    ax1 = plt.subplot(211)
    plt.plot(rts, d['d'], color='k', linewidth=1.5, alpha=0.35)
    plt.plot(rts,
             d['d'][:, 123],
             color='k',
             linewidth=1.5,
             alpha=0.35,
             label='raw')
    plt.plot(rts, d['d'][:, 123], color='g', label='m/z=' + str(int(mz1)))
    plt.plot(rts, d['d'][:, 265], color='r', label='m/z=' + str(int(mz2)))
    plt.plot(rts, d['d'][:, 170], color='b', label='m/z=' + str(int(mz3)))

    ax1.set_xlim((min(rts), max(rts)))
    ax1.set_xlabel('retention time (min)')
    ax1.set_ylabel('intensity')
    plt.legend(loc='upper right')

    pkl_file = open('standard')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\STDAND/zhi10-5vs1.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)

    d = ncr.mat(1470, 1506, 1)
    rttic = ncr.tic()['rt']
    rts = rttic[range(1470, 1507)]
    # pos = np.searchsorted(rts, [12.753])
    # plt.plot(d['d'][pos[0], :])
    # plt.show()
    # map = np.argsort(d['d'][pos[0], :])[::-1][0:10]
    # print(map)

    mzs = d['mz']
    ax2 = plt.subplot(212)
    plt.plot(rts, d['d'], color='k', linewidth=1.5, alpha=0.35)

    ax2.set_xlim((min(rts), max(rts)))
    ax2.set_ylim((0, 400000))
    ax2.set_xlabel('retention time (min)')
    ax2.set_ylabel('intensity')
    plt.legend(loc='upper right')

    plt.show()
Ejemplo n.º 13
0
def plot_compara2():
    pkl_file = open('PD6--RM--')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\D6/73.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']
    mz = msrt['mz']
    com = 23

    rttic = ncr.tic()['rt']

    plt.figure()
    ax = plt.subplot(111)

    colors = ['r', 'g', 'c', 'y', 'm']
    tz, seg2, x, segx, maxpos, irr = findTZ(ncr,
                                            rts[com],
                                            np.array(ms[com], ndmin=2),
                                            pw,
                                            w,
                                            mth='RM')
    # c1, vsel1 = gridsearch(x, maxpos, 6, irr)
    c1 = ittfa(x, maxpos, 3)
    vsel2, vsel99 = count99(x, c1)
    chrom1, area, heig, d = polyfitting(c1, x, vsel2, np.array(ms[com],
                                                               ndmin=2))
    print(len(vsel99))

    # c2 = ittfa(x, maxpos, 2)
    c2, vsel1, pc = gridsearch(x, maxpos, 6, irr)
    vsel2, vsel99 = count99(x, c2)
    chrom2, area, heig, d = polyfitting(c2, x, vsel2, np.array(ms[com],
                                                               ndmin=2))
    print(len(vsel99))

    plt.plot(rttic[range(tz[0], tz[1])],
             chrom1,
             color=colors[0],
             linewidth=3.0,
             label='com number =' + str(3))
    plt.plot(rttic[range(tz[0], tz[1])],
             chrom2,
             color=colors[1],
             linewidth=3.0,
             label='com number =' + str(4))
    plt.plot(rttic[range(tz[0], tz[1])],
             np.sum(x, axis=1),
             color='b',
             linewidth=3.0,
             label='raw')
    ax.set_xlim((min(rttic[range(tz[0],
                                 tz[1])]), max(rttic[range(tz[0], tz[1])])))
    ax.set_xlabel('retention time (min)')
    ax.set_ylabel('intensity')
    plt.legend(loc='upper left')
    plt.show()
Ejemplo n.º 14
0
        S[:, j] = a

    #S = np.dot(np.linalg.pinv(C), X)
    Res = X - np.dot(C, S)
    S = S.T

    return C, S, Res


if __name__ == "__main__":
    from NetCDF import netcdf_reader
    from pylab import plot, show, figure, scatter, xlabel, ylabel, hist, ylim, axhline, vlines, subplot
    import sys

    filename = 'C:/Users/admin/Desktop/DeepResolution/CDF/zhi10-5vs1.CDF'
    ncr = netcdf_reader(filename, bmmap=False)
    m = ncr.mat(0, ncr.scan_acquisition_time.shape[0] - 1, 1)

    m = m['d']
    plot(m)
    show()

    #Pures = SelectPureChromatogram(m, 0.0001, 10)

    # t = [6, 7, 8,13]#[0, 8, 12,14,16,20] #[9, 12, 15,20]
    # C, S, Res = iskss(m, t)
    # plot(C)
    # show()
    #
    # for i in range(0, C.shape[1]):
    #     plot(np.dot(C[:, i:i+1],S[:,i:i+1].T))
Ejemplo n.º 15
0
    def getmars_results(self):
        if len(self.MSRT) == 0:
            msgBox = QMessageBox()
            msgBox.setText("Please input MSRT.")
            msgBox.exec_()
        elif len(self.files) == 0:
            msgBox = QMessageBox()
            msgBox.setText("Please loading files.")
            msgBox.exec_()
        else:
            if len(self.results) == 0:
                MSRT = self.MSRT
                files = self.files
                fns = self.files['fn']
                flag = 0
                fflag = 0
            else:
                if len(self.MSRT['rt']) == len(self.results[0]['tzs']):
                    MSRT = self.MSRT
                    flag = 0
                else:
                    flag = 1
                    new_rt = []
                    new_ms = []
                    vsel = []
                    for i in range(0, len(self.MSRT['rt'])):
                        if i not in self.msrttable.finished:
                            vsel.append(i)
                            new_rt.append(self.MSRT['rt'][i])
                            new_ms.append(self.MSRT['ms'][i])
                    MSRT = {'ms': new_ms, 'rt': new_rt}

                if self.files['fn'] == self.finish_files:
                    fils = self.files['files']
                    fns = self.files['fn']
                    fflag = 0
                else:
                    fflag = 1
                    fns = []
                    fils = []
                    for i, fn in enumerate(self.files['fn']):
                        if str(fn) not in self.finish_files:
                            fns.append(fn)
                            fils.append(self.files['files'][i])
                if flag == 0 and fflag == 0:
                    return
                dir = self.files['dir']
                files = {'fn': fns, 'files': fils, 'dir': dir}

            progressDialog = QProgressDialog(self)
            progressDialog.setWindowModality(Qt.WindowModal)
            progressDialog.setMinimumDuration(1)
            progressDialog.setWindowTitle('waiting...')
            progressDialog.setCancelButtonText('cancle')
            progressDialog.setRange(1, len(self.files['files']))

            if flag == 1 and fflag == 1:
                results1 = []
                results2 = []
                for ind, fn in enumerate(self.files['files']):
                    QApplication.processEvents()
                    # progressDialog.setLabelText(str(ind+1)+'/' + str(len(self.files['files']))+'th files processing')
                    # progressDialog.setValue(ind + 1)
                    if '&' not in self.files['fn'][ind]:
                        ncr = netcdf_reader(fn, bmmap=False)
                        if str(self.files['fn'][ind]) in self.finish_files:
                            result = mars(ncr, MSRT, self.options)
                            results1.append(result)
                        else:
                            result = mars(ncr, self.MSRT, self.options)
                            results2.append(result)
                    print(ind)
                    QApplication.processEvents()
                    progressDialog.setLabelText(
                        str(ind + 1) + '/' + str(len(self.files['files'])) +
                        'th files processing')
                    progressDialog.setValue(ind + 1)
                    if progressDialog.wasCanceled():
                        return
                self.results = self.combine_result(results1, vsel)
                self.results.extend(results2)
            else:
                results = []
                for ind, fn in enumerate(files['files']):
                    QApplication.processEvents()
                    progressDialog.setLabelText(
                        str(ind + 1) + '/' + str(len(fns)) +
                        'th files processing')
                    progressDialog.setValue(ind + 1)
                    if '&' not in files['fn'][ind]:
                        ncr = netcdf_reader(fn, bmmap=False)
                        result = mars(ncr, MSRT, self.options)
                        results.append(result)
                    print(ind)
                    QApplication.processEvents()
                    progressDialog.setLabelText(
                        str(ind + 1) + '/' + str(len(fns)) +
                        'th files processing')
                    progressDialog.setValue(ind + 1)
                    if progressDialog.wasCanceled():
                        return
                if flag == 1 and fflag == 0:
                    self.results = self.combine_result(results, vsel)
                elif flag == 0:
                    self.results.extend(results)
            self.finish_files = self.files['fn']
            self.msrttable.update_resulist(self.results)
Ejemplo n.º 16
0
def plot_RM():
    pkl_file = open('PD6--RM--')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    fn = "F:\MARS\data_save\D6/73.CDF"
    options = data['options']
    ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']
    mz = msrt['mz']
    com = 33

    rttic = ncr.tic()['rt']

    tz, seg1, x, segx, maxpos, irr = findTZ(ncr,
                                            rts[com],
                                            np.array(ms[com], ndmin=2),
                                            pw,
                                            w,
                                            mth='MSWFA')
    resp1, eig1, ir = MSWFA(segx,
                            np.array(ms[com], ndmin=2),
                            5,
                            w,
                            mth='MSWFA')

    tz, seg2, x, segx, maxpos, irr = findTZ(ncr,
                                            rts[com],
                                            np.array(ms[com], ndmin=2),
                                            pw,
                                            w,
                                            mth='RM')
    resp2, eig2, ir = MSWFA(segx, np.array(ms[com], ndmin=2), 5, w, mth='RM')

    po = rttic[tz]
    x1 = rttic[range(seg1[0], seg1[1])]
    x2 = rttic[range(seg2[0], seg2[1])]
    pos = np.searchsorted(x2, po)

    plt.figure()
    ax1 = plt.subplot(211)

    ax1.plot(x1, eig1, color='r', label='MSWFA')
    ax1.plot(x2, eig2, color='b', label='RM')

    ax1.scatter(np.array(po),
                np.array(eig2)[pos],
                s=45,
                marker='^',
                color='black')
    maxpos = np.argmax(eig2)
    maxrt = rttic[np.arange(seg1[0], seg1[1])[maxpos]]
    ax1.scatter(np.array([maxrt]),
                np.array(eig2)[maxpos],
                s=45,
                marker='o',
                color='blue')
    ax1.set_xlim((min(x1), max(x1)))
    ax1.set_ylim((0, 1.02))
    plt.subplots_adjust(bottom=0.1, top=0.95, hspace=0.25)

    ax1.set_ylabel('score')
    ax1.set_xlabel('retention time (min)')
    plt.legend(loc='upper left')

    ax = plt.subplot(212)
    ii = 12
    y1 = x[ii, :] / norm(x[ii, :])
    ax.vlines(mz,
              np.zeros((len(mz), )),
              y1,
              color='b',
              linestyles='solid',
              label='R')

    y2 = ms[com] / norm(ms[com])
    ind = np.argsort(y2)[::-1][1:20]
    yy = y2[ind]
    mz1 = mz[ind]
    ax.vlines(mz1,
              np.zeros((len(mz1), )),
              -yy,
              color='r',
              linestyles='solid',
              label='E')
    ax.plot(range(0, len(mz)), np.zeros(len(mz)), color='k')

    ax.set_xlim((min(mz), 350))
    ax.set_ylim((-0.25, 0.25))

    ax.set_xlabel('m/z')
    ax.set_ylabel('intensity')
    plt.legend(loc='lower left')
    plt.show()
Ejemplo n.º 17
0
    pkl_file = open('PD6--RM--')
    data = pickle.load(pkl_file)
    msrt = data['MSRT']
    # fn = "F:\MARS\data_save\D6/75.CDF"
    options = data['options']
    # ncr = netcdf_reader(fn, bmmap=False)
    pw = options['pw']
    w = options['w']
    thre = options['thres']
    rts = msrt['rt']
    ms = msrt['ms']
    mz = msrt['mz']
    files = data['files']['files']
    # fn = files[0]
    ncr = netcdf_reader("F:\\MARS\\data_save\\D6/73.CDF", bmmap=False)

    # sics = []
    # times = []
    # pcs = []
    # R2 = []
    # nums = []
    #
    # tt1 = time.time()
    # for i, m in enumerate(ms):
    #
    #     t1 = time.time()
    #     tz1, seg1, x1, segx1, maxpos1, irr1 = findTZ(ncr, rts[i], np.array(ms[i], ndmin=2), pw, w, mth='MSWFA')
    #     t2 = time.time()
    #     dt1 = t2-t1
    #