Python LabelImageStatistics.get_label_count示例

编程语言: Python

命名空间/包名称: medpy.filter

方法/功能: get_label_count

hotexamples.com的示例: 2

Python LabelImageStatistics.get_label_count - 已找到2个示例。这些是从开源项目中提取的最受好评的medpy.filter.LabelImageStatistics.get_label_count现实Python示例。您可以评价示例，以帮助我们提高示例质量。

常用方法

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LabelImageStatistics(6)

get_intensity_distributions(6)

get_intensity_distribution_histogram(3)

get_intensity_distribution_histogram_width(3)

get_sizes(2)

get_label_count(1)

get_max_intensity(1)

get_max_label(1)

get_min_intensity(1)

get_min_label(1)

get_size_histogram(1)

get_size_histogram_width(1)

labels_are_consecutive(1)

示例#1

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    def test_Basic(self):
        """Test the case of a region with only one intensity value and some basic return values."""
        # Create label image with only one region
        label_image = scipy.zeros(2 * 2 * 2, dtype=scipy.int8).reshape(2, 2, 2)

        # Create original image with only one intensity value
        original_image = scipy.zeros(2 * 2 * 2,
                                     dtype=scipy.int8).reshape(2, 2, 2)

        # Initialize object
        statistics = LabelImageStatistics(label_image, original_image)

        # Check created intensity distribution
        intensity_distributions = statistics.get_intensity_distributions()
        self.assertEqual(len(intensity_distributions), 1)
        self.assertEqual(intensity_distributions[0], 0)

        intensity_distribution_histogram = statistics.get_intensity_distribution_histogram(
        )
        self.assertEqual(
            len(intensity_distribution_histogram[0]),
            statistics.get_intensity_distribution_histogram_width())
        self.assertEqual(
            len(intensity_distribution_histogram[1]),
            statistics.get_intensity_distribution_histogram_width() + 1)
        self.assertEqual(
            intensity_distribution_histogram[0]
            [statistics.get_intensity_distribution_histogram_width() / 2], 1)
        self.assertEqual(intensity_distribution_histogram[0].max(), 1)
        self.assertEqual(intensity_distribution_histogram[0].min(), 0)

        # Check created size distribution
        sizes = statistics.get_sizes()
        self.assertEqual(len(sizes), 1)
        self.assertEqual(sizes[0], 2 * 2 * 2)

        sizes_histogram = statistics.get_size_histogram()
        self.assertEqual(len(sizes_histogram[0]),
                         statistics.get_size_histogram_width())
        self.assertEqual(len(sizes_histogram[1]),
                         statistics.get_size_histogram_width() + 1)
        self.assertEqual(
            sizes_histogram[0][statistics.get_size_histogram_width() / 2], 1)
        self.assertEqual(sizes_histogram[0].max(), 1)
        self.assertEqual(sizes_histogram[0].min(), 0)

        # Check other statistics values
        self.assertTrue(statistics.labels_are_consecutive())
        self.assertEqual(statistics.get_min_intensity(), 0)
        self.assertEqual(statistics.get_max_intensity(), 0)
        self.assertEqual(statistics.get_min_label(), 0)
        self.assertEqual(statistics.get_max_label(), 0)
        self.assertEqual(statistics.get_label_count(), 1)

示例#2

显示文件

文件： LabelImageStatistics.py 项目： AlexanderRuesch/medpy

 def test_Basic(self):
     """Test the case of a region with only one intensity value and some basic return values."""
     # Create label image with only one region
     label_image = scipy.zeros(2*2*2, dtype=scipy.int8).reshape(2,2,2)
     
     # Create original image with only one intensity value
     original_image = scipy.zeros(2*2*2, dtype=scipy.int8).reshape(2,2,2)
     
     # Initialize object
     statistics = LabelImageStatistics(label_image, original_image)
     
     # Check created intensity distribution
     intensity_distributions = statistics.get_intensity_distributions()
     self.assertEqual(len(intensity_distributions), 1)
     self.assertEqual(intensity_distributions[0], 0)
     
     intensity_distribution_histogram = statistics.get_intensity_distribution_histogram()
     self.assertEqual(len(intensity_distribution_histogram[0]), statistics.get_intensity_distribution_histogram_width())
     self.assertEqual(len(intensity_distribution_histogram[1]), statistics.get_intensity_distribution_histogram_width() + 1)
     self.assertEqual(intensity_distribution_histogram[0][statistics.get_intensity_distribution_histogram_width()/2], 1)
     self.assertEqual(intensity_distribution_histogram[0].max(), 1)
     self.assertEqual(intensity_distribution_histogram[0].min(), 0)
     
     # Check created size distribution
     sizes = statistics.get_sizes()
     self.assertEqual(len(sizes), 1)
     self.assertEqual(sizes[0], 2*2*2)
     
     sizes_histogram = statistics.get_size_histogram()
     self.assertEqual(len(sizes_histogram[0]), statistics.get_size_histogram_width())
     self.assertEqual(len(sizes_histogram[1]), statistics.get_size_histogram_width() + 1)
     self.assertEqual(sizes_histogram[0][statistics.get_size_histogram_width()/2], 1)
     self.assertEqual(sizes_histogram[0].max(), 1)
     self.assertEqual(sizes_histogram[0].min(), 0)
     
     # Check other statistics values
     self.assertTrue(statistics.labels_are_consecutive())
     self.assertEqual(statistics.get_min_intensity(), 0)
     self.assertEqual(statistics.get_max_intensity(), 0)
     self.assertEqual(statistics.get_min_label(), 0)
     self.assertEqual(statistics.get_max_label(), 0)
     self.assertEqual(statistics.get_label_count(), 1)