Ejemplos de analysis en Python

Lenguaje de programación: Python

Namespace/Package Name: functions.analysis

Método / Función: analysis

Ejemplos en hotexamples.com: 6

Python analysis - 6 ejemplos encontrados. Estos son los ejemplos en Python del mundo real mejor valorados de functions.analysis.analysis extraídos de proyectos de código abierto. Puedes valorar ejemplos para ayudarnos a mejorar la calidad de los ejemplos.

Ejemplo n.º 1

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Archivo: test_invivo_ssim.py Proyecto: yousefis/Hadamard-te-ASL-recon

def test_all_nets():
    data = 2

    data_path = '/exports/lkeb-hpc/syousefi/Data/invivo_decomposed/1/'
    # parent_path = '/exports/lkeb-hpc/syousefi/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/sythesize_code/ASL_LOG/normal_SSIM_p_a_newdb/experiment-1/'
    parent_path = '/exports/lkeb-hpc/syousefi/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/sythesize_code/ASL_LOG/Workshop_log/MSE/experiment-2/'

    # data_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/Data-01/BrainWeb_permutation00_low/'

    img_name = ''
    label_name = ''
    result_dir = 'results_mse/'
    _rd = _invivo_read_data(data=data,
                            reverse=False,
                            img_name=img_name,
                            label_name=label_name,
                            dataset_path=data_path)
    '''read path of the images for train, test, and validation'''
    test_data = _rd.read_data_path()

    chckpnt_dir = parent_path + 'unet_checkpoints/'
    result_path = parent_path + result_dir
    batch_no = 1
    batch_no_validation = batch_no
    # label_patchs_size = 87#39  # 63
    # patch_window = 103#53  # 77#89

    img_row1 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row2 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row3 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row4 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row5 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row6 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row7 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row8 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    mri_ph = tf.placeholder(tf.float32,
                            shape=[None, None, None, None, 1],
                            name='mri')
    segmentation = tf.placeholder(tf.float32,
                                  shape=[None, None, None, None, 1],
                                  name='segmentation')
    label1 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label2 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label3 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label4 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label5 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label6 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label7 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label8 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label9 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label10 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label11 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label12 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label13 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label14 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])

    all_loss = tf.placeholder(tf.float32, name='loss')
    is_training = tf.placeholder(tf.bool, name='is_training')
    input_dim = tf.placeholder(tf.int32, name='input_dim')
    # ave_huber = tf.placeholder(tf.float32, name='huber')

    densenet = _densenet()

    y, degree = densenet.densenet(img_row1=img_row1,
                                  img_row2=img_row2,
                                  img_row3=img_row3,
                                  img_row4=img_row4,
                                  img_row5=img_row5,
                                  img_row6=img_row6,
                                  img_row7=img_row7,
                                  img_row8=img_row8,
                                  input_dim=input_dim,
                                  mri=mri_ph,
                                  is_training=is_training)

    loss_instance = _loss_func()
    labels = []
    labels.append(label1)
    labels.append(label2)
    labels.append(label3)
    labels.append(label4)
    labels.append(label5)
    labels.append(label6)
    labels.append(label7)
    labels.append(label8)
    labels.append(label9)
    labels.append(label10)
    labels.append(label11)
    labels.append(label12)
    labels.append(label13)
    labels.append(label14)

    logits = []
    logits.append(y[:, :, :, :, 0, np.newaxis])
    logits.append(y[:, :, :, :, 1, np.newaxis])
    logits.append(y[:, :, :, :, 2, np.newaxis])
    logits.append(y[:, :, :, :, 3, np.newaxis])
    logits.append(y[:, :, :, :, 4, np.newaxis])
    logits.append(y[:, :, :, :, 5, np.newaxis])
    logits.append(y[:, :, :, :, 6, np.newaxis])
    logits.append(y[:, :, :, :, 7, np.newaxis])
    logits.append(y[:, :, :, :, 8, np.newaxis])
    logits.append(y[:, :, :, :, 9, np.newaxis])
    logits.append(y[:, :, :, :, 10, np.newaxis])
    logits.append(y[:, :, :, :, 11, np.newaxis])
    logits.append(y[:, :, :, :, 12, np.newaxis])
    logits.append(y[:, :, :, :, 13, np.newaxis])
    with tf.name_scope('Loss'):
        loss_dic = loss_instance.loss_selector('SSIM_perf_angio',
                                               labels=labels,
                                               logits=logits,
                                               angio_SSIM_weight=1)
        cost = tf.reduce_mean(loss_dic["loss"], name="cost")
        # cost_angio = tf.reduce_mean(loss_dic["angio_SSIM"], name="angio_SSIM")
        # cost_perf = tf.reduce_mean(loss_dic["perf_SSIM"], name="perf_SSIM")

    # ========================================================================
    # ave_loss = tf.placeholder(tf.float32, name='loss')
    # ave_loss_perf = tf.placeholder(tf.float32, name='loss_perf')
    # ave_loss_angio = tf.placeholder(tf.float32, name='loss_angio')
    #
    # average_gradient_perf = tf.placeholder(tf.float32, name='grad_ave_perf')
    # average_gradient_angio = tf.placeholder(tf.float32, name='grad_ave_angio')
    #
    # ave_huber = tf.placeholder(tf.float32, name='huber')
    # restore the model
    sess = tf.Session()
    saver = tf.train.Saver()

    ckpt = tf.train.get_checkpoint_state(chckpnt_dir)
    saver.restore(sess, ckpt.model_checkpoint_path)

    # copyfile('./test_synthesize_ssim_perf_angio.py', result_path + '/test_synthesize_ssim_perf_angio.py')

    _image_class = invivo_image_class(test_data,
                                      bunch_of_images_no=1,
                                      is_training=1,
                                      patch_window=patch_window,
                                      sample_no_per_bunch=1,
                                      label_patch_size=label_patchs_size,
                                      validation_total_sample=0)
    learning_rate = 1E-5
    extra_update_ops = tf.get_collection(tf.GraphKeys.UPDATE_OPS)
    with tf.control_dependencies(extra_update_ops):
        optimizer = tf.train.AdamOptimizer(learning_rate).minimize(cost)
        # init = tf.global_variables_initializer()
    dic_perf0 = []
    dic_perf1 = []
    dic_perf2 = []
    dic_perf3 = []
    dic_perf4 = []
    dic_perf5 = []
    dic_perf6 = []

    dic_angio0 = []
    dic_angio1 = []
    dic_angio2 = []
    dic_angio3 = []
    dic_angio4 = []
    dic_angio5 = []
    dic_angio6 = []
    loss = 0

    #min ASL crush : 0.499999, max ASL crush : 0.500000
    #min ASL noncrush : 0.499984, max ASL noncrush : 0.500000
    #min perfusion : 2.192158, max perfusion : 11.602790
    #min angio : 0.000000, max angio : 1309.346558

    max_angio = 1309.346558
    max_perf = 11.602790

    for img_indx in range(len(test_data)):
        crush, noncrush, perf, angio, mri, segmentation_, spacing, direction, origin = _image_class.read_image_for_test(
            test_set=test_data,
            img_indx=img_indx,
            input_size=in_dim,
            final_layer=final_layer,
            invivo=1)
        for i in range(8):
            crush[i][np.where(crush[i] < 0)] = 0
            # crush[i]=np.flipud(crush[i])
        crush = crush / np.max(crush)
        crush = crush * (0.500000)

        for i in range(8):
            noncrush[i][np.where(noncrush[i] < 0)] = 0
            # noncrush[i] = np.flipud(noncrush[i])
        noncrush = noncrush / np.max(noncrush)
        noncrush = noncrush * (0.500000)

        for i in range(7):
            perf[i][np.where(perf[i] < 0)] = 0
            # perf[i] = np.flipud(perf[i])
        perf = perf / np.max(perf) * max_perf

        for i in range(7):
            angio[i][np.where(angio[i] < 0)] = 0
            # angio[i] = np.flipud(angio[i])
        angio = angio / np.max(angio) * max_angio

        [out] = sess.run(
            [y],
            feed_dict={
                img_row1: np.expand_dims(np.expand_dims(crush[0], 0), -1),
                img_row2: np.expand_dims(np.expand_dims(noncrush[1], 0), -1),
                img_row3: np.expand_dims(np.expand_dims(crush[2], 0), -1),
                img_row4: np.expand_dims(np.expand_dims(noncrush[3], 0), -1),
                img_row5: np.expand_dims(np.expand_dims(crush[4], 0), -1),
                img_row6: np.expand_dims(np.expand_dims(noncrush[5], 0), -1),
                img_row7: np.expand_dims(np.expand_dims(crush[6], 0), -1),
                img_row8: np.expand_dims(np.expand_dims(noncrush[7], 0), -1),
                mri_ph: np.expand_dims(np.expand_dims(crush[0], 0),
                                       -1),  #useless input
                segmentation: np.expand_dims(np.expand_dims(crush[0], 0),
                                             -1),  #useless input
                label1: np.expand_dims(np.expand_dims(perf[0], 0), -1),
                label2: np.expand_dims(np.expand_dims(perf[1], 0), -1),
                label3: np.expand_dims(np.expand_dims(perf[2], 0), -1),
                label4: np.expand_dims(np.expand_dims(perf[3], 0), -1),
                label5: np.expand_dims(np.expand_dims(perf[4], 0), -1),
                label6: np.expand_dims(np.expand_dims(perf[5], 0), -1),
                label7: np.expand_dims(np.expand_dims(perf[6], 0), -1),
                label8: np.expand_dims(np.expand_dims(angio[0], 0), -1),
                label9: np.expand_dims(np.expand_dims(angio[1], 0), -1),
                label10: np.expand_dims(np.expand_dims(angio[2], 0), -1),
                label11: np.expand_dims(np.expand_dims(angio[3], 0), -1),
                label12: np.expand_dims(np.expand_dims(angio[4], 0), -1),
                label13: np.expand_dims(np.expand_dims(angio[5], 0), -1),
                label14: np.expand_dims(np.expand_dims(angio[6], 0), -1),
                is_training: False,
                input_dim: patch_window,
                all_loss: -1.,
            })
        parent_path = '/exports/lkeb-hpc/syousefi/Data/invivo_decomposed/1/00_PP0_0_cinema1/'
        # result_dir='normal_SSIM/'
        result_dir = 'results_mse/'
        for i in range(np.shape(out)[-1]):
            image = out[0, :, :, :, i]
            sitk_image = sitk.GetImageFromArray(image)
            res_dir = test_data[img_indx][0][0].split('/')[-2]
            if i == 0:
                os.mkdir(parent_path + result_dir + res_dir)
            if i < 7:
                nm = 'perf'
            else:
                nm = 'angi'
            sitk_image.SetDirection(direction=direction)
            sitk_image.SetOrigin(origin=origin)
            sitk_image.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_image, parent_path + result_dir + res_dir + '/' + nm +
                '_' + str(i % 7) + '.nii')
            print(parent_path + result_dir + res_dir + '/' + nm + '_' +
                  str(i % 7) + '.nii done!')
        for i in range(7):
            if i == 0:
                os.mkdir(parent_path + result_dir + res_dir + '/GT/')
            sitk_angio = sitk.GetImageFromArray(angio[i])
            sitk_angio.SetDirection(direction=direction)
            sitk_angio.SetOrigin(origin=origin)
            sitk_angio.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_angio, parent_path + result_dir + res_dir + '/GT/angio_' +
                str(i) + '.nii')

            sitk_perf = sitk.GetImageFromArray(perf[i])
            sitk_perf.SetDirection(direction=direction)
            sitk_perf.SetOrigin(origin=origin)
            sitk_perf.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_perf, parent_path + result_dir + res_dir + '/GT/perf_' +
                str(i) + '.nii')
        dic_perf0.append(
            anly.analysis(out[0, :, :, :, 0], perf[i], 0, max_perf))
        dic_perf1.append(
            anly.analysis(out[0, :, :, :, 1], perf[i], 0, max_perf))
        dic_perf2.append(
            anly.analysis(out[0, :, :, :, 2], perf[i], 0, max_perf))
        dic_perf3.append(
            anly.analysis(out[0, :, :, :, 3], perf[i], 0, max_perf))
        dic_perf4.append(
            anly.analysis(out[0, :, :, :, 4], perf[i], 0, max_perf))
        dic_perf5.append(
            anly.analysis(out[0, :, :, :, 5], perf[i], 0, max_perf))
        dic_perf6.append(
            anly.analysis(out[0, :, :, :, 6], perf[i], 0, max_perf))

        dic_angio0.append(
            anly.analysis(out[0, :, :, :, 7], angio[i], 0, max_angio))
        dic_angio1.append(
            anly.analysis(out[0, :, :, :, 8], angio[i], 0, max_angio))
        dic_angio2.append(
            anly.analysis(out[0, :, :, :, 9], angio[i], 0, max_angio))
        dic_angio3.append(
            anly.analysis(out[0, :, :, :, 10], angio[i], 0, max_angio))
        dic_angio4.append(
            anly.analysis(out[0, :, :, :, 11], angio[i], 0, max_angio))
        dic_angio5.append(
            anly.analysis(out[0, :, :, :, 12], angio[i], 0, max_angio))
        dic_angio6.append(
            anly.analysis(out[0, :, :, :, 13], angio[i], 0, max_angio))
        if img_indx == 0:
            headers = dic_perf0[0].keys()
        dics = [
            dic_perf0, dic_perf1, dic_perf2, dic_perf3, dic_perf4, dic_perf5,
            dic_perf6, dic_angio0, dic_angio1, dic_angio2, dic_angio3,
            dic_angio4, dic_angio5, dic_angio6
        ]

    save_in_xlsx(parent_path, headers, dics=dics)

    print('Total loss: ', loss / len(test_data))

Ejemplo n.º 2

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Archivo: test_synthesize_multistage_perf_angio.py Proyecto: yousefis/Hadamard-te-ASL-recon

def test_all_nets():
    data = 2

    Server = 'DL'

    if Server == 'DL':
        parent_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/sythesize_code/ASL_LOG/multi_stage/experiment-2/'
        data_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/Data-01/BrainWeb_permutation00_low/'
    else:
        parent_path = '/exports/lkeb-hpc/syousefi/Code/'
        data_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/Data-01/BrainWeb_permutation00_low/'

    img_name = ''
    label_name = ''

    _rd = _read_data(data=data,
                     reverse=False,
                     img_name=img_name,
                     label_name=label_name,
                     dataset_path=data_path)
    '''read path of the images for train, test, and validation'''
    train_data, validation_data, test_data = _rd.read_data_path()

    chckpnt_dir = parent_path + 'unet_checkpoints/'
    result_path = parent_path + 'results/'
    batch_no = 1
    batch_no_validation = batch_no
    # label_patchs_size = 87#39  # 63
    # patch_window = 103#53  # 77#89
    if test_vali == 1:
        test_set = validation_data
    else:
        test_set = test_data
    # ===================================================================================
    # img_row1 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row1')
    # img_row2 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row2')
    # img_row3 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row3')
    # img_row4 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row4')
    # img_row5 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row5')
    # img_row6 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row6')
    # img_row7 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row7')
    # img_row8 = tf.placeholder(tf.float32,
    #                           shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                           name='img_row8')
    #
    # mri_ph = tf.placeholder(tf.float32,
    #                         shape=[batch_no, patch_window, patch_window, patch_window, 1],
    #                         name='mri')
    #
    # segmentation = tf.placeholder(tf.float32,
    #                               shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                      label_patchs_size, 1], name='segments')
    #
    # label1 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label1')
    # label2 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label2')
    # label3 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label3')
    # label4 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label4')
    # label5 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label5')
    # label6 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label6')
    # label7 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label7')
    # label8 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label8')
    # label9 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                            label_patchs_size, 1], name='label9')
    # label10 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                             label_patchs_size, 1], name='label10')
    # label11 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                             label_patchs_size, 1], name='label11')
    # label12 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                             label_patchs_size, 1], name='label12')
    # label13 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                             label_patchs_size, 1], name='label13')
    # label14 = tf.placeholder(tf.float32, shape=[batch_no, label_patchs_size, label_patchs_size,
    #                                             label_patchs_size, 1], name='label14')

    img_row1 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row2 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row3 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row4 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row5 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row6 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row7 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row8 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    mri_ph = tf.placeholder(tf.float32,
                            shape=[None, None, None, None, 1],
                            name='mri')
    # segmentation = tf.placeholder(tf.float32, shape=[None, None, None, None, 1], name='segmentation')
    label1 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label2 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label3 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label4 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label5 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label6 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label7 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label8 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label9 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label10 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label11 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label12 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label13 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label14 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])

    all_loss = tf.placeholder(tf.float32, name='loss')
    is_training = tf.placeholder(tf.bool, name='is_training')
    input_dim = tf.placeholder(tf.int32, name='input_dim')
    # ave_huber = tf.placeholder(tf.float32, name='huber')

    multi_stage_densenet = _multi_stage_densenet()
    y, loss_upsampling11, loss_upsampling22 = multi_stage_densenet.multi_stage_densenet(
        img_row1=img_row1,
        img_row2=img_row2,
        img_row3=img_row3,
        img_row4=img_row4,
        img_row5=img_row5,
        img_row6=img_row6,
        img_row7=img_row7,
        img_row8=img_row8,
        input_dim=input_dim,
        mri=mri_ph,
        is_training=is_training)

    loss_instance = _loss_func()
    labels = []
    labels.append(label1)
    labels.append(label2)
    labels.append(label3)
    labels.append(label4)
    labels.append(label5)
    labels.append(label6)
    labels.append(label7)
    labels.append(label8)
    labels.append(label9)
    labels.append(label10)
    labels.append(label11)
    labels.append(label12)
    labels.append(label13)
    labels.append(label14)

    logits = []
    logits.append(y[:, :, :, :, 0, np.newaxis])
    logits.append(y[:, :, :, :, 1, np.newaxis])
    logits.append(y[:, :, :, :, 2, np.newaxis])
    logits.append(y[:, :, :, :, 3, np.newaxis])
    logits.append(y[:, :, :, :, 4, np.newaxis])
    logits.append(y[:, :, :, :, 5, np.newaxis])
    logits.append(y[:, :, :, :, 6, np.newaxis])
    logits.append(y[:, :, :, :, 7, np.newaxis])
    logits.append(y[:, :, :, :, 8, np.newaxis])
    logits.append(y[:, :, :, :, 9, np.newaxis])
    logits.append(y[:, :, :, :, 10, np.newaxis])
    logits.append(y[:, :, :, :, 11, np.newaxis])
    logits.append(y[:, :, :, :, 12, np.newaxis])
    logits.append(y[:, :, :, :, 13, np.newaxis])
    stage1 = []
    stage1.append(loss_upsampling11[:, :, :, :, 0, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 1, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 2, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 3, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 4, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 5, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 6, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 7, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 8, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 9, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 10, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 11, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 12, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 13, np.newaxis])

    stage2 = []
    stage2.append(loss_upsampling22[:, :, :, :, 0, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 1, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 2, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 3, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 4, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 5, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 6, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 7, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 8, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 9, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 10, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 11, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 12, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 13, np.newaxis])

    with tf.name_scope('Loss'):
        loss_dic = loss_instance.loss_selector(
            'Multistage_ssim_perf_angio_loss',
            labels=labels,
            logits=logits,
            stage1=stage1,
            stage2=stage2)
        cost = tf.reduce_mean(loss_dic["loss"], name="cost")
        # cost_angio = tf.reduce_mean(loss_dic["angio_SSIM"], name="angio_SSIM")
        # cost_perf = tf.reduce_mean(loss_dic["perf_SSIM"], name="perf_SSIM")

    # ========================================================================
    # ave_loss = tf.placeholder(tf.float32, name='loss')
    # ave_loss_perf = tf.placeholder(tf.float32, name='loss_perf')
    # ave_loss_angio = tf.placeholder(tf.float32, name='loss_angio')
    #
    # average_gradient_perf = tf.placeholder(tf.float32, name='grad_ave_perf')
    # average_gradient_angio = tf.placeholder(tf.float32, name='grad_ave_angio')
    #
    # ave_huber = tf.placeholder(tf.float32, name='huber')
    # restore the model
    sess = tf.Session()
    saver = tf.train.Saver()

    ckpt = tf.train.get_checkpoint_state(chckpnt_dir)
    saver.restore(sess, ckpt.model_checkpoint_path)

    copyfile('./test_synthesize_multistage_perf_angio.py',
             result_path + '/test_synthesize_multistage_perf_angio.py')

    _image_class = image_class(train_data,
                               bunch_of_images_no=1,
                               is_training=1,
                               patch_window=patch_window,
                               sample_no_per_bunch=1,
                               label_patch_size=label_patchs_size,
                               validation_total_sample=0)
    learning_rate = 1E-5
    extra_update_ops = tf.get_collection(tf.GraphKeys.UPDATE_OPS)
    with tf.control_dependencies(extra_update_ops):
        optimizer = tf.train.AdamOptimizer(learning_rate).minimize(cost)
        # init = tf.global_variables_initializer()

    dic_perf0 = []
    dic_perf1 = []
    dic_perf2 = []
    dic_perf3 = []
    dic_perf4 = []
    dic_perf5 = []
    dic_perf6 = []

    dic_angio0 = []
    dic_angio1 = []
    dic_angio2 = []
    dic_angio3 = []
    dic_angio4 = []
    dic_angio5 = []
    dic_angio6 = []
    loss = 0
    Elapsed = []
    for img_indx in range(2):  #len(test_set)):
        crush, noncrush, perf, angio, mri, segmentation_, spacing, direction, origin = _image_class.read_image_for_test(
            test_set=test_set,
            img_indx=img_indx,
            input_size=in_dim,
            final_layer=final_layer)
        t = time.time()

        [out] = sess.run(
            [y],
            feed_dict={
                img_row1: np.expand_dims(np.expand_dims(crush[0], 0), -1),
                img_row2: np.expand_dims(np.expand_dims(noncrush[1], 0), -1),
                img_row3: np.expand_dims(np.expand_dims(crush[2], 0), -1),
                img_row4: np.expand_dims(np.expand_dims(noncrush[3], 0), -1),
                img_row5: np.expand_dims(np.expand_dims(crush[4], 0), -1),
                img_row6: np.expand_dims(np.expand_dims(noncrush[5], 0), -1),
                img_row7: np.expand_dims(np.expand_dims(crush[6], 0), -1),
                img_row8: np.expand_dims(np.expand_dims(noncrush[7], 0), -1),
                mri_ph: np.expand_dims(np.expand_dims(mri, 0), -1),
                label1: np.expand_dims(np.expand_dims(perf[0], 0), -1),
                label2: np.expand_dims(np.expand_dims(perf[1], 0), -1),
                label3: np.expand_dims(np.expand_dims(perf[2], 0), -1),
                label4: np.expand_dims(np.expand_dims(perf[3], 0), -1),
                label5: np.expand_dims(np.expand_dims(perf[4], 0), -1),
                label6: np.expand_dims(np.expand_dims(perf[5], 0), -1),
                label7: np.expand_dims(np.expand_dims(perf[6], 0), -1),
                label8: np.expand_dims(np.expand_dims(angio[0], 0), -1),
                label9: np.expand_dims(np.expand_dims(angio[1], 0), -1),
                label10: np.expand_dims(np.expand_dims(angio[2], 0), -1),
                label11: np.expand_dims(np.expand_dims(angio[3], 0), -1),
                label12: np.expand_dims(np.expand_dims(angio[4], 0), -1),
                label13: np.expand_dims(np.expand_dims(angio[5], 0), -1),
                label14: np.expand_dims(np.expand_dims(angio[6], 0), -1),
                is_training: False,
                input_dim: patch_window,
                all_loss: -1.,
            })
        elapsed = time.time() - t
        Elapsed.append(elapsed)
        print(elapsed)
        for i in range(np.shape(out)[-1]):
            image = out[0, :, :, :, i]
            sitk_image = sitk.GetImageFromArray(image)
            res_dir = test_set[img_indx][0][0].split('/')[-2]
            if i == 0:
                os.mkdir(parent_path + 'results/' + res_dir)
            if i < 7:
                nm = 'perf'
            else:
                nm = 'angi'
            sitk_image.SetDirection(direction=direction)
            sitk_image.SetOrigin(origin=origin)
            sitk_image.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_image, parent_path + 'results/' + res_dir + '/' + nm +
                '_' + str(i % 7) + '.mha')
            print(parent_path + 'results/' + res_dir + '/' + nm + '_' +
                  str(i % 7) + '.mha done!')
        for i in range(7):
            if i == 0:
                os.mkdir(parent_path + 'results/' + res_dir + '/GT/')
            sitk_angio = sitk.GetImageFromArray(angio[i])
            sitk_angio.SetDirection(direction=direction)
            sitk_angio.SetOrigin(origin=origin)
            sitk_angio.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_angio, parent_path + 'results/' + res_dir + '/GT/angio_' +
                str(i) + '.mha')

            sitk_perf = sitk.GetImageFromArray(perf[i])
            sitk_perf.SetDirection(direction=direction)
            sitk_perf.SetOrigin(origin=origin)
            sitk_perf.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_perf, parent_path + 'results/' + res_dir + '/GT/perf_' +
                str(i) + '.mha')

        dic_perf0.append(
            anly.analysis(out[0, :, :, :, 0], perf[i], 0, max_perf))
        dic_perf1.append(
            anly.analysis(out[0, :, :, :, 1], perf[i], 0, max_perf))
        dic_perf2.append(
            anly.analysis(out[0, :, :, :, 2], perf[i], 0, max_perf))
        dic_perf3.append(
            anly.analysis(out[0, :, :, :, 3], perf[i], 0, max_perf))
        dic_perf4.append(
            anly.analysis(out[0, :, :, :, 4], perf[i], 0, max_perf))
        dic_perf5.append(
            anly.analysis(out[0, :, :, :, 5], perf[i], 0, max_perf))
        dic_perf6.append(
            anly.analysis(out[0, :, :, :, 6], perf[i], 0, max_perf))

        dic_angio0.append(
            anly.analysis(out[0, :, :, :, 7], angio[i], 0, max_angio))
        dic_angio1.append(
            anly.analysis(out[0, :, :, :, 8], angio[i], 0, max_angio))
        dic_angio2.append(
            anly.analysis(out[0, :, :, :, 9], angio[i], 0, max_angio))
        dic_angio3.append(
            anly.analysis(out[0, :, :, :, 10], angio[i], 0, max_angio))
        dic_angio4.append(
            anly.analysis(out[0, :, :, :, 11], angio[i], 0, max_angio))
        dic_angio5.append(
            anly.analysis(out[0, :, :, :, 12], angio[i], 0, max_angio))
        dic_angio6.append(
            anly.analysis(out[0, :, :, :, 13], angio[i], 0, max_angio))
        if img_indx == 0:
            headers = dic_perf0[0].keys()
        dics = [
            dic_perf0, dic_perf1, dic_perf2, dic_perf3, dic_perf4, dic_perf5,
            dic_perf6, dic_angio0, dic_angio1, dic_angio2, dic_angio3,
            dic_angio4, dic_angio5, dic_angio6
        ]

    # print(np.mean(Elapsed))
    # print(np.std(Elapsed))
    save_in_xlsx(parent_path, headers, dics=dics)
    print('Total loss: ', loss / len(test_set))

Ejemplo n.º 3

Mostrar archivo

 dic_angio3 = []
 dic_angio4 = []
 dic_angio5 = []
 dic_angio6 = []
 max_angio = 2.99771428108
 max_perf = 17.0151833445
 type=["/angi_","/perf_"]
 gt_type=["/angio_","/perf_"]
 for i in range(2,len(data_dir)):
     for j in range(7):
         for k in range(2):
             output= sitk.GetArrayFromImage(sitk.ReadImage(data_dir[i] + type[k] +str(j)+ ".mha" ))
             GT= sitk.GetArrayFromImage(sitk.ReadImage(data_dir[i] +"/GT"+ gt_type[k] +str(j)+ ".mha" ))
             if k==1:
                 if j==0:
                     dic_perf0.append(anly.analysis(output,GT, 0, max_perf))
                 elif j==1:
                     dic_perf1.append(anly.analysis(output, GT, 0, max_perf))
                 elif j == 2:
                     dic_perf2.append(anly.analysis(output, GT, 0, max_perf))
                 elif j==3:
                     dic_perf3.append(anly.analysis(output, GT, 0, max_perf))
                 elif j==4:
                     dic_perf4.append(anly.analysis(output, GT, 0, max_perf))
                 elif j==5:
                     dic_perf5.append(anly.analysis(output, GT, 0, max_perf))
                 elif j==6:
                     dic_perf6.append(anly.analysis(output, GT, 0, max_perf))
             else:
                 if j==0:
                     dic_angio0.append(anly.analysis(output,GT, 0, max_angio))

Ejemplo n.º 4

Mostrar archivo

Archivo: analysis.py Proyecto: yousefis/Hadamard-te-ASL-recon

import functions.analysis as anly
import SimpleITK as sitk
if __name__ == '__main__':
    path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/sythesize_code/ASL_LOG/multi_stage/'
    experiment = 'experiment-2/'
    results = 'results/'
    subject = '18_PP5_53_cinema2/'
    type = 'perf_0.mha'
    gt_pth = path + experiment + results + subject + 'GT/' + type
    img_pth = path + experiment + results + subject + type

    gt = sitk.GetArrayFromImage(sitk.ReadImage(gt_pth))
    img = sitk.GetArrayFromImage(sitk.ReadImage(img_pth))

    max_angio = 2.99771428108
    max_perf = 17.0151833445

    print(anly.analysis(img, gt, 0, max_perf))

Ejemplo n.º 5

Mostrar archivo

Archivo: validation_plotting.py Proyecto: yousefis/Hadamard-te-ASL-recon

def test_all_nets(num, test_set):

    chckpnt_dir = parent_path + 'unet_checkpoints/'

    img_row1 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row2 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row3 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row4 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row5 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row6 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row7 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    img_row8 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    mri_ph = tf.placeholder(tf.float32,
                            shape=[None, None, None, None, 1],
                            name='mri')
    label1 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label2 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label3 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label4 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label5 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label6 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label7 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label8 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label9 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label10 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label11 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label12 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label13 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])
    label14 = tf.placeholder(tf.float32, shape=[None, None, None, None, 1])

    all_loss = tf.placeholder(tf.float32, name='loss')
    is_training = tf.placeholder(tf.bool, name='is_training')
    input_dim = tf.placeholder(tf.int32, name='input_dim')

    multi_stage_densenet = _multi_stage_densenet()
    y, loss_upsampling11, loss_upsampling22 = multi_stage_densenet.multi_stage_densenet(
        img_row1=img_row1,
        img_row2=img_row2,
        img_row3=img_row3,
        img_row4=img_row4,
        img_row5=img_row5,
        img_row6=img_row6,
        img_row7=img_row7,
        img_row8=img_row8,
        input_dim=input_dim,
        mri=mri_ph,
        is_training=is_training)

    loss_instance = _loss_func()
    labels = []
    labels.append(label1)
    labels.append(label2)
    labels.append(label3)
    labels.append(label4)
    labels.append(label5)
    labels.append(label6)
    labels.append(label7)
    labels.append(label8)
    labels.append(label9)
    labels.append(label10)
    labels.append(label11)
    labels.append(label12)
    labels.append(label13)
    labels.append(label14)

    logits = []
    logits.append(y[:, :, :, :, 0, np.newaxis])
    logits.append(y[:, :, :, :, 1, np.newaxis])
    logits.append(y[:, :, :, :, 2, np.newaxis])
    logits.append(y[:, :, :, :, 3, np.newaxis])
    logits.append(y[:, :, :, :, 4, np.newaxis])
    logits.append(y[:, :, :, :, 5, np.newaxis])
    logits.append(y[:, :, :, :, 6, np.newaxis])
    logits.append(y[:, :, :, :, 7, np.newaxis])
    logits.append(y[:, :, :, :, 8, np.newaxis])
    logits.append(y[:, :, :, :, 9, np.newaxis])
    logits.append(y[:, :, :, :, 10, np.newaxis])
    logits.append(y[:, :, :, :, 11, np.newaxis])
    logits.append(y[:, :, :, :, 12, np.newaxis])
    logits.append(y[:, :, :, :, 13, np.newaxis])
    stage1 = []
    stage1.append(loss_upsampling11[:, :, :, :, 0, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 1, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 2, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 3, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 4, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 5, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 6, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 7, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 8, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 9, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 10, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 11, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 12, np.newaxis])
    stage1.append(loss_upsampling11[:, :, :, :, 13, np.newaxis])

    stage2 = []
    stage2.append(loss_upsampling22[:, :, :, :, 0, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 1, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 2, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 3, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 4, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 5, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 6, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 7, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 8, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 9, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 10, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 11, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 12, np.newaxis])
    stage2.append(loss_upsampling22[:, :, :, :, 13, np.newaxis])

    with tf.name_scope('Loss'):
        loss_dic = loss_instance.loss_selector(
            'Multistage_ssim_perf_angio_loss',
            labels=labels,
            logits=logits,
            stage1=stage1,
            stage2=stage2)
        cost = tf.reduce_mean(loss_dic["loss"], name="cost")

    sess = tf.Session()
    saver = tf.train.Saver()

    ckpt = tf.train.get_checkpoint_state(chckpnt_dir)

    model_path = ckpt.model_checkpoint_path.rsplit(
        '/',
        1)[0] + '/unet_inter_epoch0_point' + str(num) + '.ckpt-' + str(num)
    saver.restore(sess, model_path)

    # copyfile('./test_synthesize_multistage_perf_angio.py', result_path + '/test_synthesize_multistage_perf_angio.py')

    _image_class = image_class(train_data,
                               bunch_of_images_no=1,
                               is_training=1,
                               patch_window=patch_window,
                               sample_no_per_bunch=1,
                               label_patch_size=label_patchs_size,
                               validation_total_sample=0)
    learning_rate = 1E-5
    extra_update_ops = tf.get_collection(tf.GraphKeys.UPDATE_OPS)
    with tf.control_dependencies(extra_update_ops):
        optimizer = tf.train.AdamOptimizer(learning_rate).minimize(cost)
        # init = tf.global_variables_initializer()

    loss = 0
    for img_indx in range(len(test_set[0:1])):
        crush, noncrush, perf, angio, mri, segmentation_, spacing, direction, origin = _image_class.read_image_for_test(
            test_set=test_set,
            img_indx=img_indx,
            input_size=in_dim,
            final_layer=final_layer)

        [out] = sess.run(
            [y],
            feed_dict={
                img_row1: np.expand_dims(np.expand_dims(crush[0], 0), -1),
                img_row2: np.expand_dims(np.expand_dims(noncrush[1], 0), -1),
                img_row3: np.expand_dims(np.expand_dims(crush[2], 0), -1),
                img_row4: np.expand_dims(np.expand_dims(noncrush[3], 0), -1),
                img_row5: np.expand_dims(np.expand_dims(crush[4], 0), -1),
                img_row6: np.expand_dims(np.expand_dims(noncrush[5], 0), -1),
                img_row7: np.expand_dims(np.expand_dims(crush[6], 0), -1),
                img_row8: np.expand_dims(np.expand_dims(noncrush[7], 0), -1),
                mri_ph: np.expand_dims(np.expand_dims(mri, 0), -1),
                label1: np.expand_dims(np.expand_dims(perf[0], 0), -1),
                label2: np.expand_dims(np.expand_dims(perf[1], 0), -1),
                label3: np.expand_dims(np.expand_dims(perf[2], 0), -1),
                label4: np.expand_dims(np.expand_dims(perf[3], 0), -1),
                label5: np.expand_dims(np.expand_dims(perf[4], 0), -1),
                label6: np.expand_dims(np.expand_dims(perf[5], 0), -1),
                label7: np.expand_dims(np.expand_dims(perf[6], 0), -1),
                label8: np.expand_dims(np.expand_dims(angio[0], 0), -1),
                label9: np.expand_dims(np.expand_dims(angio[1], 0), -1),
                label10: np.expand_dims(np.expand_dims(angio[2], 0), -1),
                label11: np.expand_dims(np.expand_dims(angio[3], 0), -1),
                label12: np.expand_dims(np.expand_dims(angio[4], 0), -1),
                label13: np.expand_dims(np.expand_dims(angio[5], 0), -1),
                label14: np.expand_dims(np.expand_dims(angio[6], 0), -1),
                is_training: False,
                input_dim: patch_window,
                all_loss: -1.,
            })

        for i in range(np.shape(out)[-1]):
            image = out[0, :, :, :, i]
            gt = sitk.GetArrayFromImage(sitk.GetImageFromArray(perf[i]))
            dic = analysis.analysis(result=image, gt=gt, min=0, max=max_perf)
            print(dic)

        # for i in range(np.shape(out)[-1]):
        #     image = out[0, :, :, :, i]
        #     sitk_image = sitk.GetImageFromArray(image)
        #     res_dir = test_set[img_indx][0][0].split('/')[-2]
        #     if i == 0:
        #         os.mkdir(parent_path + 'results/' + res_dir)
        #     if i < 7:
        #         nm = 'perf'
        #     else:
        #         nm = 'angi'
        #     sitk_image.SetDirection(direction=direction)
        #     sitk_image.SetOrigin(origin=origin)
        #     sitk_image.SetSpacing(spacing=spacing)
        #     sitk.WriteImage(sitk_image, parent_path + 'results/' + res_dir + '/' + nm + '_' + str(i % 7) + '.mha')
        #     print(parent_path + 'results/' + res_dir + '/' + nm + '_' + str(i % 7) + '.mha done!')
        # for i in range(7):
        #     if i == 0:
        #         os.mkdir(parent_path + 'results/' + res_dir + '/GT/')
        #     sitk_angio = sitk.GetImageFromArray(angio[i])
        #     sitk_angio.SetDirection(direction=direction)
        #     sitk_angio.SetOrigin(origin=origin)
        #     sitk_angio.SetSpacing(spacing=spacing)
        #     sitk.WriteImage(sitk_angio, parent_path + 'results/' + res_dir + '/GT/angio_' + str(i) + '.mha')
        #
        #     sitk_perf = sitk.GetImageFromArray(perf[i])
        #     sitk_perf.SetDirection(direction=direction)
        #     sitk_perf.SetOrigin(origin=origin)
        #     sitk_perf.SetSpacing(spacing=spacing)
        #     sitk.WriteImage(sitk_perf, parent_path + 'results/' + res_dir + '/GT/perf_' + str(i) + '.mha')
        a = 1

        # plt.imshow(out[0, int(gt_cube_size / 2), :, :, 0])
        # plt.figure()
        # loss += loss_train1
        # print('Loss_train: ', loss_train1)

    print('Total loss: ', loss / len(test_set))

Ejemplo n.º 6

Mostrar archivo

def test_all_nets():
    data = 2

    Server = 'DL'
    if Server == 'DL':
        parent_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/sythesize_code/ASL_LOG/Log_perceptual/regularization/perceptual-0/'
        data_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/Data-01/BrainWeb_permutation00_low/'
    else:
        parent_path = '/exports/lkeb-hpc/syousefi/Code/'
        data_path = '/srv/2-lkeb-17-dl01/syousefi/TestCode/EsophagusProject/Data-01/BrainWeb_permutation00_low/'

    img_name = ''
    label_name = ''

    _rd = _read_data(data=data,
                     reverse=False,
                     img_name=img_name,
                     label_name=label_name,
                     dataset_path=data_path)
    '''read path of the images for train, test, and validation'''
    train_data, validation_data, test_data = _rd.read_data_path()

    chckpnt_dir = parent_path + 'unet_checkpoints/'
    result_path = parent_path + 'results/'
    batch_no = 1
    batch_no_validation = batch_no
    # label_patchs_size = 87#39  # 63
    # patch_window = 103#53  # 77#89
    if test_vali == 1:
        test_set = validation_data
    else:
        test_set = test_data
    # ===================================================================================
    img_row1 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row1')
    img_row2 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row2')
    img_row3 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row3')
    img_row4 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row4')
    img_row5 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row5')
    img_row6 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row6')
    img_row7 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row7')
    img_row8 = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='img_row8')

    mri_ph = tf.placeholder(
        tf.float32,
        shape=[batch_no, patch_window, patch_window, patch_window, 1],
        name='mri')

    label1 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label1')
    label2 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label2')
    label3 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label3')
    label4 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label4')
    label5 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label5')
    label6 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label6')
    label7 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label7')
    label8 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label8')
    label9 = tf.placeholder(tf.float32,
                            shape=[
                                batch_no, label_patchs_size, label_patchs_size,
                                label_patchs_size, 1
                            ],
                            name='label9')
    label10 = tf.placeholder(tf.float32,
                             shape=[
                                 batch_no, label_patchs_size,
                                 label_patchs_size, label_patchs_size, 1
                             ],
                             name='label10')
    label11 = tf.placeholder(tf.float32,
                             shape=[
                                 batch_no, label_patchs_size,
                                 label_patchs_size, label_patchs_size, 1
                             ],
                             name='label11')
    label12 = tf.placeholder(tf.float32,
                             shape=[
                                 batch_no, label_patchs_size,
                                 label_patchs_size, label_patchs_size, 1
                             ],
                             name='label12')
    label13 = tf.placeholder(tf.float32,
                             shape=[
                                 batch_no, label_patchs_size,
                                 label_patchs_size, label_patchs_size, 1
                             ],
                             name='label13')
    label14 = tf.placeholder(tf.float32,
                             shape=[
                                 batch_no, label_patchs_size,
                                 label_patchs_size, label_patchs_size, 1
                             ],
                             name='label14')

    is_training = tf.placeholder(tf.bool, name='is_training')
    input_dim = tf.placeholder(tf.int32, name='input_dim')

    perf_vgg_loss_tens = tf.placeholder(tf.float32, name='VGG_perf')
    angio_vgg_loss_tens = tf.placeholder(tf.float32, name='VGG_angio')
    perf_vgg_tens0 = tf.placeholder(tf.float32, name='vgg_perf0')
    perf_vgg_tens1 = tf.placeholder(tf.float32, name='vgg_perf1')
    perf_vgg_tens2 = tf.placeholder(tf.float32, name='vgg_perf2')
    perf_vgg_tens3 = tf.placeholder(tf.float32, name='vgg_perf3')
    perf_vgg_tens4 = tf.placeholder(tf.float32, name='vgg_perf4')
    perf_vgg_tens5 = tf.placeholder(tf.float32, name='vgg_perf5')
    perf_vgg_tens6 = tf.placeholder(tf.float32, name='vgg_perf6')

    angio_vgg_tens0 = tf.placeholder(tf.float32, name='vgg_angio0')
    angio_vgg_tens1 = tf.placeholder(tf.float32, name='vgg_angio1')
    angio_vgg_tens2 = tf.placeholder(tf.float32, name='vgg_angio2')
    angio_vgg_tens3 = tf.placeholder(tf.float32, name='vgg_angio3')
    angio_vgg_tens4 = tf.placeholder(tf.float32, name='vgg_angio4')
    angio_vgg_tens5 = tf.placeholder(tf.float32, name='vgg_angio5')
    angio_vgg_tens6 = tf.placeholder(tf.float32, name='vgg_angio6')
    perf_huber_loss_tens = tf.placeholder(tf.float32, name='huber_perf')
    angio_huber_loss_tens = tf.placeholder(tf.float32, name='huber_angio')

    perf_huber_tens0 = tf.placeholder(tf.float32, name='huber_perf0')
    perf_huber_tens1 = tf.placeholder(tf.float32, name='huber_perf1')
    perf_huber_tens2 = tf.placeholder(tf.float32, name='huber_perf2')
    perf_huber_tens3 = tf.placeholder(tf.float32, name='huber_perf3')
    perf_huber_tens4 = tf.placeholder(tf.float32, name='huber_perf4')
    perf_huber_tens5 = tf.placeholder(tf.float32, name='huber_perf5')
    perf_huber_tens6 = tf.placeholder(tf.float32, name='huber_perf6')

    angio_huber_tens0 = tf.placeholder(tf.float32, name='huber_angio0')
    angio_huber_tens1 = tf.placeholder(tf.float32, name='huber_angio1')
    angio_huber_tens2 = tf.placeholder(tf.float32, name='huber_angio2')
    angio_huber_tens3 = tf.placeholder(tf.float32, name='huber_angio3')
    angio_huber_tens4 = tf.placeholder(tf.float32, name='huber_angio4')
    angio_huber_tens5 = tf.placeholder(tf.float32, name='huber_angio5')
    angio_huber_tens6 = tf.placeholder(tf.float32, name='huber_angio6')
    # ===================================================================================
    densenet = _densenet()

    [y, _] = densenet.densenet(img_row1=img_row1,
                               img_row2=img_row2,
                               img_row3=img_row3,
                               img_row4=img_row4,
                               img_row5=img_row5,
                               img_row6=img_row6,
                               img_row7=img_row7,
                               img_row8=img_row8,
                               input_dim=input_dim,
                               is_training=is_training)
    vgg = vgg_feature_maker(test=1)
    feature_type = 'huber'
    vgg_y0 = vgg.feed_img(y[:, :, :, :, 0], feature_type=feature_type).copy()
    vgg_y1 = vgg.feed_img(y[:, :, :, :, 1], feature_type=feature_type).copy()
    vgg_y2 = vgg.feed_img(y[:, :, :, :, 2], feature_type=feature_type).copy()
    vgg_y3 = vgg.feed_img(y[:, :, :, :, 3], feature_type=feature_type).copy()
    vgg_y4 = vgg.feed_img(y[:, :, :, :, 4], feature_type=feature_type).copy()
    vgg_y5 = vgg.feed_img(y[:, :, :, :, 5], feature_type=feature_type).copy()
    vgg_y6 = vgg.feed_img(y[:, :, :, :, 6], feature_type=feature_type).copy()

    vgg_y7 = vgg.feed_img(y[:, :, :, :, 7], feature_type=feature_type)
    vgg_y8 = vgg.feed_img(y[:, :, :, :, 8], feature_type=feature_type)
    vgg_y9 = vgg.feed_img(y[:, :, :, :, 9], feature_type=feature_type)
    vgg_y10 = vgg.feed_img(y[:, :, :, :, 10], feature_type=feature_type)
    vgg_y11 = vgg.feed_img(y[:, :, :, :, 11], feature_type=feature_type)
    vgg_y12 = vgg.feed_img(y[:, :, :, :, 12], feature_type=feature_type)
    vgg_y13 = vgg.feed_img(y[:, :, :, :, 13], feature_type=feature_type)

    vgg_label0 = vgg.feed_img(label1[:, :, :, :, 0],
                              feature_type=feature_type).copy()
    vgg_label1 = vgg.feed_img(label2[:, :, :, :, 0],
                              feature_type=feature_type).copy()
    vgg_label2 = vgg.feed_img(label3[:, :, :, :, 0],
                              feature_type=feature_type).copy()
    vgg_label3 = vgg.feed_img(label4[:, :, :, :, 0],
                              feature_type=feature_type).copy()
    vgg_label4 = vgg.feed_img(label5[:, :, :, :, 0],
                              feature_type=feature_type).copy()
    vgg_label5 = vgg.feed_img(label6[:, :, :, :, 0],
                              feature_type=feature_type).copy()
    vgg_label6 = vgg.feed_img(label7[:, :, :, :, 0],
                              feature_type=feature_type).copy()

    vgg_label7 = vgg.feed_img(label8[:, :, :, :, 0], feature_type=feature_type)
    vgg_label8 = vgg.feed_img(label9[:, :, :, :, 0], feature_type=feature_type)
    vgg_label9 = vgg.feed_img(label10[:, :, :, :, 0],
                              feature_type=feature_type)
    vgg_label10 = vgg.feed_img(label11[:, :, :, :, 0],
                               feature_type=feature_type)
    vgg_label11 = vgg.feed_img(label12[:, :, :, :, 0],
                               feature_type=feature_type)
    vgg_label12 = vgg.feed_img(label13[:, :, :, :, 0],
                               feature_type=feature_type)
    vgg_label13 = vgg.feed_img(label14[:, :, :, :, 0],
                               feature_type=feature_type)

    all_loss = tf.placeholder(tf.float32, name='loss')
    # is_training = tf.placeholder(tf.bool, name='is_training')
    # input_dim = tf.placeholder(tf.int32, name='input_dim')
    # ave_huber = tf.placeholder(tf.float32, name='huber')

    labels = []
    labels.append(label1)
    labels.append(label2)
    labels.append(label3)
    labels.append(label4)
    labels.append(label5)
    labels.append(label6)
    labels.append(label7)

    labels.append(label8)
    labels.append(label9)
    labels.append(label10)
    labels.append(label11)
    labels.append(label12)
    labels.append(label13)
    labels.append(label14)

    logits = []
    logits.append(y[:, :, :, :, 0, np.newaxis])
    logits.append(y[:, :, :, :, 1, np.newaxis])
    logits.append(y[:, :, :, :, 2, np.newaxis])
    logits.append(y[:, :, :, :, 3, np.newaxis])
    logits.append(y[:, :, :, :, 4, np.newaxis])
    logits.append(y[:, :, :, :, 5, np.newaxis])
    logits.append(y[:, :, :, :, 6, np.newaxis])

    logits.append(y[:, :, :, :, 7, np.newaxis])
    logits.append(y[:, :, :, :, 8, np.newaxis])
    logits.append(y[:, :, :, :, 9, np.newaxis])
    logits.append(y[:, :, :, :, 10, np.newaxis])
    logits.append(y[:, :, :, :, 11, np.newaxis])
    logits.append(y[:, :, :, :, 12, np.newaxis])
    logits.append(y[:, :, :, :, 13, np.newaxis])

    loss_instance = _loss_func()
    vgg_in_feature = []
    vgg_in_feature.append(vgg_y0)
    vgg_in_feature.append(vgg_y1)
    vgg_in_feature.append(vgg_y2)
    vgg_in_feature.append(vgg_y3)
    vgg_in_feature.append(vgg_y4)
    vgg_in_feature.append(vgg_y5)
    vgg_in_feature.append(vgg_y6)

    vgg_in_feature.append(vgg_y7)
    vgg_in_feature.append(vgg_y8)
    vgg_in_feature.append(vgg_y9)
    vgg_in_feature.append(vgg_y10)
    vgg_in_feature.append(vgg_y11)
    vgg_in_feature.append(vgg_y12)
    vgg_in_feature.append(vgg_y13)

    vgg_label_feature = []
    vgg_label_feature.append(vgg_label0)
    vgg_label_feature.append(vgg_label1)
    vgg_label_feature.append(vgg_label2)
    vgg_label_feature.append(vgg_label3)
    vgg_label_feature.append(vgg_label4)
    vgg_label_feature.append(vgg_label5)
    vgg_label_feature.append(vgg_label6)

    vgg_label_feature.append(vgg_label7)
    vgg_label_feature.append(vgg_label8)
    vgg_label_feature.append(vgg_label9)
    vgg_label_feature.append(vgg_label10)
    vgg_label_feature.append(vgg_label11)
    vgg_label_feature.append(vgg_label12)
    vgg_label_feature.append(vgg_label13)
    with tf.name_scope('Loss'):
        loss_dic = loss_instance.loss_selector(
            'content_vgg_pairwise_loss_huber',
            labels=vgg_label_feature,
            logits=vgg_in_feature,
            vgg=vgg,
            h_labels=labels,
            h_logits=logits)
        cost = tf.reduce_mean(loss_dic["loss"], name="cost")
        # cost_angio = tf.reduce_mean(loss_dic["angio_SSIM"], name="angio_SSIM")
        # cost_perf = tf.reduce_mean(loss_dic["perf_SSIM"], name="perf_SSIM")

    # ========================================================================
    # ave_loss = tf.placeholder(tf.float32, name='loss')
    # ave_loss_perf = tf.placeholder(tf.float32, name='loss_perf')
    # ave_loss_angio = tf.placeholder(tf.float32, name='loss_angio')
    #
    # average_gradient_perf = tf.placeholder(tf.float32, name='grad_ave_perf')
    # average_gradient_angio = tf.placeholder(tf.float32, name='grad_ave_angio')
    #
    # ave_huber = tf.placeholder(tf.float32, name='huber')
    # restore the model
    sess = tf.Session()
    saver = tf.train.Saver()

    ckpt = tf.train.get_checkpoint_state(chckpnt_dir)
    saver.restore(sess, ckpt.model_checkpoint_path)

    copyfile('./test_synthesize_ssim_perf_angio.py',
             result_path + '/test_synthesize_ssim_perf_angio.py')

    _image_class = image_class(train_data,
                               bunch_of_images_no=1,
                               is_training=1,
                               patch_window=patch_window,
                               sample_no_per_bunch=1,
                               label_patch_size=label_patchs_size,
                               validation_total_sample=0)
    learning_rate = 1E-5
    extra_update_ops = tf.get_collection(tf.GraphKeys.UPDATE_OPS)
    with tf.control_dependencies(extra_update_ops):
        optimizer = tf.train.AdamOptimizer(learning_rate).minimize(cost)
        # init = tf.global_variables_initializer()
    dic_perf0 = []
    dic_perf1 = []
    dic_perf2 = []
    dic_perf3 = []
    dic_perf4 = []
    dic_perf5 = []
    dic_perf6 = []

    dic_angio0 = []
    dic_angio1 = []
    dic_angio2 = []
    dic_angio3 = []
    dic_angio4 = []
    dic_angio5 = []
    dic_angio6 = []
    loss = 0
    for img_indx in range(len(test_set)):
        crush, noncrush, perf, angio, mri, segmentation_, spacing, direction, origin = _image_class.read_image_for_test(
            test_set=test_set,
            img_indx=img_indx,
            input_size=in_dim,
            final_layer=final_layer)
        [out] = sess.run(
            [y],
            feed_dict={
                img_row1: np.expand_dims(np.expand_dims(crush[0], 0), -1),
                img_row2: np.expand_dims(np.expand_dims(noncrush[1], 0), -1),
                img_row3: np.expand_dims(np.expand_dims(crush[2], 0), -1),
                img_row4: np.expand_dims(np.expand_dims(noncrush[3], 0), -1),
                img_row5: np.expand_dims(np.expand_dims(crush[4], 0), -1),
                img_row6: np.expand_dims(np.expand_dims(noncrush[5], 0), -1),
                img_row7: np.expand_dims(np.expand_dims(crush[6], 0), -1),
                img_row8: np.expand_dims(np.expand_dims(noncrush[7], 0), -1),
                mri_ph: np.expand_dims(np.expand_dims(mri, 0), -1),
                label1: np.expand_dims(np.expand_dims(perf[0], 0), -1),
                label2: np.expand_dims(np.expand_dims(perf[1], 0), -1),
                label3: np.expand_dims(np.expand_dims(perf[2], 0), -1),
                label4: np.expand_dims(np.expand_dims(perf[3], 0), -1),
                label5: np.expand_dims(np.expand_dims(perf[4], 0), -1),
                label6: np.expand_dims(np.expand_dims(perf[5], 0), -1),
                label7: np.expand_dims(np.expand_dims(perf[6], 0), -1),
                label8: np.expand_dims(np.expand_dims(angio[0], 0), -1),
                label9: np.expand_dims(np.expand_dims(angio[1], 0), -1),
                label10: np.expand_dims(np.expand_dims(angio[2], 0), -1),
                label11: np.expand_dims(np.expand_dims(angio[3], 0), -1),
                label12: np.expand_dims(np.expand_dims(angio[4], 0), -1),
                label13: np.expand_dims(np.expand_dims(angio[5], 0), -1),
                label14: np.expand_dims(np.expand_dims(angio[6], 0), -1),
                is_training: False,
                input_dim: patch_window,
                all_loss: -1.,
                angio_vgg_loss_tens: -1,  # vgg angio
                perf_vgg_loss_tens: -1,
                perf_vgg_tens0: -1,
                perf_vgg_tens1: -1,
                perf_vgg_tens2: -1,
                perf_vgg_tens3: -1,
                perf_vgg_tens4: -1,
                perf_vgg_tens5: -1,
                perf_vgg_tens6: -1,
                angio_vgg_tens0: -1,
                angio_vgg_tens1: -1,
                angio_vgg_tens2: -1,
                angio_vgg_tens3: -1,
                angio_vgg_tens4: -1,
                angio_vgg_tens5: -1,
                angio_vgg_tens6: -1,
                perf_huber_loss_tens: -1,
                angio_huber_loss_tens: -1,
                perf_huber_tens0: -1,
                perf_huber_tens1: -1,
                perf_huber_tens2: -1,
                perf_huber_tens3: -1,
                perf_huber_tens4: -1,
                perf_huber_tens5: -1,
                perf_huber_tens6: -1,
                angio_huber_tens0: -1,
                angio_huber_tens1: -1,
                angio_huber_tens2: -1,
                angio_huber_tens3: -1,
                angio_huber_tens4: -1,
                angio_huber_tens5: -1,
                angio_huber_tens6: -1,
            })

        for i in range(np.shape(out)[-1]):
            image = out[0, :, :, :, i]
            sitk_image = sitk.GetImageFromArray(image)
            res_dir = test_set[img_indx][0][0].split('/')[-2]
            if i == 0:
                os.mkdir(parent_path + 'results/' + res_dir)
            if i < 7:
                nm = 'perf'
            else:
                nm = 'angi'
            sitk_image.SetDirection(direction=direction)
            sitk_image.SetOrigin(origin=origin)
            sitk_image.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_image, parent_path + 'results/' + res_dir + '/' + nm +
                '_' + str(i % 7) + '.mha')
            print(parent_path + 'results/' + res_dir + '/' + nm + '_' +
                  str(i % 7) + '.mha done!')
        for i in range(7):
            if i == 0:
                os.mkdir(parent_path + 'results/' + res_dir + '/GT/')
            sitk_angio = sitk.GetImageFromArray(angio[i])
            sitk_angio.SetDirection(direction=direction)
            sitk_angio.SetOrigin(origin=origin)
            sitk_angio.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_angio, parent_path + 'results/' + res_dir + '/GT/angio_' +
                str(i) + '.mha')

            sitk_perf = sitk.GetImageFromArray(perf[i])
            sitk_perf.SetDirection(direction=direction)
            sitk_perf.SetOrigin(origin=origin)
            sitk_perf.SetSpacing(spacing=spacing)
            sitk.WriteImage(
                sitk_perf, parent_path + 'results/' + res_dir + '/GT/perf_' +
                str(i) + '.mha')
        a = 1
        dic_perf0.append(
            anly.analysis(out[0, :, :, :, 0], perf[i], 0, max_perf))
        dic_perf1.append(
            anly.analysis(out[0, :, :, :, 1], perf[i], 0, max_perf))
        dic_perf2.append(
            anly.analysis(out[0, :, :, :, 2], perf[i], 0, max_perf))
        dic_perf3.append(
            anly.analysis(out[0, :, :, :, 3], perf[i], 0, max_perf))
        dic_perf4.append(
            anly.analysis(out[0, :, :, :, 4], perf[i], 0, max_perf))
        dic_perf5.append(
            anly.analysis(out[0, :, :, :, 5], perf[i], 0, max_perf))
        dic_perf6.append(
            anly.analysis(out[0, :, :, :, 6], perf[i], 0, max_perf))

        dic_angio0.append(
            anly.analysis(out[0, :, :, :, 7], angio[i], 0, max_angio))
        dic_angio1.append(
            anly.analysis(out[0, :, :, :, 8], angio[i], 0, max_angio))
        dic_angio2.append(
            anly.analysis(out[0, :, :, :, 9], angio[i], 0, max_angio))
        dic_angio3.append(
            anly.analysis(out[0, :, :, :, 10], angio[i], 0, max_angio))
        dic_angio4.append(
            anly.analysis(out[0, :, :, :, 11], angio[i], 0, max_angio))
        dic_angio5.append(
            anly.analysis(out[0, :, :, :, 12], angio[i], 0, max_angio))
        dic_angio6.append(
            anly.analysis(out[0, :, :, :, 13], angio[i], 0, max_angio))
        if img_indx == 0:
            headers = dic_perf0[0].keys()
        dics = [
            dic_perf0, dic_perf1, dic_perf2, dic_perf3, dic_perf4, dic_perf5,
            dic_perf6, dic_angio0, dic_angio1, dic_angio2, dic_angio3,
            dic_angio4, dic_angio5, dic_angio6
        ]
    save_in_xlsx(parent_path, headers, dics=dics)
    # plt.imshow(out[0, int(gt_cube_size / 2), :, :, 0])
    # plt.figure()
    # loss += loss_train1
    # print('Loss_train: ', loss_train1)

    print('Total loss: ', loss / len(test_set))