Esempio n. 1
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    def test_validationInputsNoMax(self):
        """
        Test the GaiaProcess.validate() function - pass on no max input types
        """

        raster_io1 = RasterFileIO(uri='/fake/path1')
        raster_io2 = RasterFileIO(uri='/fake/path2')

        try:
            geo.RasterMathProcess(inputs=[raster_io1, raster_io2], calc='A+B')
        except geo.GaiaException:
            self.fail("Multiple inputs should have passed validation")
Esempio n. 2
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    def test_rastermath_add(self):
        """
        Test adding two rasters together
        """
        raster1_io = RasterFileIO(name='A',
                                  uri=os.path.join(testfile_path,
                                                   'globalairtemp.tif'))
        raster2_io = RasterFileIO(name='B',
                                  uri=os.path.join(testfile_path,
                                                   'globalprecip.tif'))
        calc = 'A + B'
        bands = [1, 1]

        process = geo.RasterMathProcess(inputs=[raster1_io, raster2_io],
                                        calc=calc,
                                        bands=bands)
        try:
            process.compute()
            self.assertTrue(os.path.exists(process.output.uri))
            oraster, raster1, raster2 = [
                x.read() for x in (process.output, raster1_io, raster2_io)
            ]
            # Output raster should be same dimensions as raster 1
            self.assertEquals((oraster.RasterXSize, oraster.RasterYSize),
                              (raster1.RasterXSize, raster1.RasterYSize))
            orb, r1b, r2b = [
                x.GetRasterBand(1) for x in (oraster, raster1, raster2)
            ]
            # Min value of output should be >= the max minimum of inputs
            self.assertGreaterEqual(
                orb.GetStatistics(False, True)[0],
                max(
                    r1b.GetStatistics(False, True)[0],
                    r2b.GetStatistics(False, True)[0]))

            # Max value of output >=  max(minimum)+min(maximum) of inputs
            self.assertGreaterEqual(
                orb.GetStatistics(False, True)[1],
                max(
                    r1b.GetStatistics(False, True)[0],
                    r2b.GetStatistics(False, True)[0]) + min(
                        r1b.GetStatistics(False, True)[1],
                        r2b.GetStatistics(False, True)[1]))
        finally:
            if process:
                process.purge()
Esempio n. 3
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    def test_rastermath_multiply_by_value(self):
        """
        Test multiplying a raster by a value,
        and specifying output type (Float32)
        """
        raster1_io = RasterFileIO(name='A',
                                  uri=os.path.join(testfile_path,
                                                   'globalprecip.tif'))
        calc = 'A * 2'
        output_type = 'Float32'

        process = geo.RasterMathProcess(inputs=[
            raster1_io,
        ],
                                        calc=calc,
                                        output_type=output_type)
        try:
            process.compute()
            self.assertTrue(os.path.exists(process.output.uri))
            oraster, raster1 = [x.read() for x in (process.output, raster1_io)]
            # Output raster should be same dimensions as raster 1
            self.assertEquals((oraster.RasterXSize, oraster.RasterYSize),
                              (raster1.RasterXSize, raster1.RasterYSize))
            orb, r1b = [x.GetRasterBand(1) for x in (oraster, raster1)]
            # Maximum value of output should be 2x the max of input raster
            self.assertEqual(
                orb.GetStatistics(False, True)[1],
                r1b.GetStatistics(False, True)[1] * 2)
            # Datatype of band should be Float32 (== gdal.GDT_Float32 == 6)
            self.assertEquals(6, orb.DataType)
            self.assertEquals(1.175494351E-38, orb.GetNoDataValue())

            # Each pixel of output raster should equal 2x input raster
            # unless it is a nodata value
            ora, r1a = [x.ReadAsArray() for x in (orb, r1b)]
            for x in range(raster1.RasterXSize):
                for y in range(raster1.RasterYSize):
                    if r1a[y, x] != r1b.GetNoDataValue():
                        self.assertEquals(ora[y, x], r1a[y, x] * 2)
        finally:
            if process:
                process.purge()
Esempio n. 4
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    def test_rastermath_logical_operators(self):
        """
        Test creation of a masked raster based on logical operators
        """
        raster1_io = RasterFileIO(name='A',
                                  uri=os.path.join(testfile_path,
                                                   'globalairtemp.tif'))
        calc = 'logical_or(logical_and(A >= 27000, A <= 28000), ' \
               'logical_and(A >= 30000, A <= 31000))'

        process = geo.RasterMathProcess(inputs=[
            raster1_io,
        ], calc=calc)
        try:
            process.compute()
            self.assertTrue(os.path.exists(process.output.uri))
            oraster, raster1 = [x.read() for x in (process.output, raster1_io)]
            # Output raster should be same dimensions as raster 1
            self.assertEquals((oraster.RasterXSize, oraster.RasterYSize),
                              (raster1.RasterXSize, raster1.RasterYSize))
            orb, r1b = [x.GetRasterBand(1) for x in (oraster, raster1)]
            # Maximum value of output should be 1
            self.assertEqual(orb.GetStatistics(False, True)[1], 1)
            # Minimum value of output should be 0
            self.assertEqual(orb.GetStatistics(False, True)[0], 0)
            # Pixels should be 1 where source is between 27K-28K or 30-31K
            ora, r1a = [x.ReadAsArray() for x in (orb, r1b)]
            self.assertTrue(ora[90, 10] == 1 and r1a[90, 10] == 30083)
            self.assertTrue(ora[160, 10] == 1 and r1a[160, 10] == 27074)
            # Pixels should be 0 where source is not between 27K-28K or 30-31K
            ora, r1a = [x.ReadAsArray() for x in (orb, r1b)]
            self.assertTrue(ora[120, 10] == 0 and r1a[120, 10] == 29623)
            self.assertTrue(ora[175, 10] == 0 and r1a[175, 10] == 23928)
        finally:
            if process:
                process.purge()