Exemplo n.º 1
0
 def test_remove_procedure_exclude(self):
     """Test that exclude does not list excluded maps"""
     rmapcalc("test_apples = 100")
     rmapcalc("test_oranges = 200")
     rmapcalc("test_apples_big = 300")
     rmapcalc("test_apples_small = 300")
     module = SimpleModule('g.remove',
                           type='raster',
                           pattern='test_{apples,oranges}*',
                           exclude="*_small")
     self.assertModule(module)
     self.assertMultiLineEqual(
         module.outputs.stdout, 'raster/test_apples@user1\n'
         'raster/test_apples_big@user1\n'
         'raster/test_oranges@user1\n'.replace('user1',
                                               get_current_mapset()))
     module = SimpleModule('g.remove',
                           type='raster',
                           pattern='test_{apples,oranges}{_small,_big,*}',
                           flags='f')
     self.assertModule(module)
     self.assertMultiLineEqual(module.outputs.stdout, '')
     self.assertRegexpMatches(module.outputs.stderr,
                              "(.*<.+>[^\n]*\n){4}",
                              msg="4 maps should be removed")
Exemplo n.º 2
0
 def test_remove_procedure_exclude(self):
     """Test that exclude does not list excluded maps"""
     rmapcalc("test_apples = 100")
     rmapcalc("test_oranges = 200")
     rmapcalc("test_apples_big = 300")
     rmapcalc("test_apples_small = 300")
     module = SimpleModule(
         "g.remove",
         type="raster",
         pattern="test_{apples,oranges}*",
         exclude="*_small",
     )
     self.assertModule(module)
     self.assertMultiLineEqual(
         module.outputs.stdout,
         "raster/test_apples@user1\n"
         "raster/test_apples_big@user1\n"
         "raster/test_oranges@user1\n".replace("user1",
                                               get_current_mapset()),
     )
     module = SimpleModule(
         "g.remove",
         type="raster",
         pattern="test_{apples,oranges}{_small,_big,*}",
         flags="f",
     )
     self.assertModule(module)
     self.assertMultiLineEqual(module.outputs.stdout, "")
     self.assertRegexpMatches(module.outputs.stderr,
                              "(.*<.+>[^\n]*\n){4}",
                              msg="4 maps should be removed")
Exemplo n.º 3
0
    def test_remove_procedure(self):
        """Test that maps are removed only with -f"""
        for i in range(0, 10):
            rmapcalc("test_map_%i = 100" % i)
        rmapcalc("test_two = 2")

        module = SimpleModule('g.remove',
                              type='rast', pattern='test_map_*,*two')
        self.assertModule(module)
        self.assertMultiLineEqual(module.outputs.stdout,
                                  REMOVE_RASTERS.replace('user1',
                                                         get_current_mapset()))

        module = SimpleModule('g.remove', type='rast',
                              pattern='test_map_*,*two', flags='f')
        self.assertModule(module)
        self.assertMultiLineEqual(module.outputs.stdout, '')
        self.assertMultiLineEqual(module.outputs.stderr, REMOVING_RASTERS_LOG)
Exemplo n.º 4
0
    def test_remove_procedure(self):
        """Test that maps are removed only with -f"""
        for i in range(0, 10):
            rmapcalc("test_map_%i = 100" % i)
        rmapcalc("test_two = 2")

        module = SimpleModule('g.remove',
                              type='raster',
                              pattern='test_map_*,*two')
        self.assertModule(module)
        self.assertMultiLineEqual(
            module.outputs.stdout,
            REMOVE_RASTERS.replace('user1', get_current_mapset()))

        module = SimpleModule('g.remove',
                              type='raster',
                              pattern='test_map_*,*two',
                              flags='f')
        self.assertModule(module)
        self.assertMultiLineEqual(module.outputs.stdout, '')
        self.assertMultiLineEqual(module.outputs.stderr, REMOVING_RASTERS_LOG)
Exemplo n.º 5
0
 def test_remove_procedure_exclude(self):
     """Test that exclude does not list excluded maps"""
     rmapcalc("test_apples = 100")
     rmapcalc("test_oranges = 200")
     rmapcalc("test_apples_big = 300")
     rmapcalc("test_apples_small = 300")
     module = SimpleModule('g.remove', type='rast',
                           pattern='test_{apples,oranges}*',
                           exclude="*_small")
     self.assertModule(module)
     self.assertMultiLineEqual(module.outputs.stdout,
                               'rast/test_apples@user1\n'
                               'rast/test_apples_big@user1\n'
                               'rast/test_oranges@user1\n'.replace(
                                   'user1', get_current_mapset()))
     module = SimpleModule('g.remove', type='rast',
                           pattern='test_{apples,oranges}{_small,_big,*}',
                           flags='f')
     self.assertModule(module)
     self.assertMultiLineEqual(module.outputs.stdout, '')
     self.assertRegexpMatches(module.outputs.stderr, "(.*<.+>[^\n]*\n){4}",
                              msg="4 maps should be removed")
            output=stc_surface_increasing_countours)

# invert surface to have time going down the hill
#rmapcalc('%s = -%s' % (stc_surface_decreasing_elevation, stc_surface_increasing_elevation))
# compute surface properties
# computing slope (surface gradient magnitude)
# and aspect (surface gradient direction projected to xy plane)
#run_command('r.slope.aspect', elevation=stc_surface_increasing_elevation,
#            slope=stc_surface_decreasing_slope,
#            aspect=stc_surface_decreasing_aspect,
#            format='degrees', precision='FCELL',
#            zfactor=1.0, min_slp_allowed=0.0)
# invert slope to have higher values where slope is lower
# to avoid negative values subtract from global max instead of 0
# using 90 as maximum slope possible
rmapcalc('eval(t = 1. / tan({slope}))\n{speed} = if(t > 15, 15, t)'.format(speed=speed,
                              slope=stc_surface_increasing_slope))

rmapcalc('eval(f = 180 + {a})\n{d} = if(f > 360, f - 360, f)'.format(d=direction, a=stc_surface_increasing_aspect))

num_elev = len(elevations)
expr_eval_values = []
expr_comp_values = []
for i in range(num_elev):
    if num_elev > i + 1:
        expr_comp = ""
        a = elevations[i]
        b = elevations[i + 1]
        r = 'rc' + a + b
        expr_comp += "{r} = xor({a} > {l}, {b} > {l})".format(a=a, b=b, l=level, r=r)
        expr_comp_values.append(expr_comp)
        expr_eval_values.append("{r}".format(r=r))