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#!/usr/bin/env python
# -*- coding: utf-8 -*-
import glob
from nose . tools import *
from utilities import execution_path
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import os , mapnik
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def setup ( ) :
# All of the paths used are relative, if we run the tests
# from another directory we need to chdir()
os . chdir ( execution_path ( ' . ' ) )
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if ' csv ' in mapnik . DatasourceCache . instance ( ) . plugin_names ( ) :
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def get_csv_ds ( filename ) :
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return mapnik . Datasource ( type = ' csv ' , file = os . path . join ( ' ../data/csv/ ' , filename ) , quiet = True )
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def test_broken_files ( visual = False ) :
broken = glob . glob ( " ../data/csv/fails/*.* " )
broken . extend ( glob . glob ( " ../data/csv/warns/*.* " ) )
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# Add a filename that doesn't exist
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broken . append ( " ../data/csv/fails/does_not_exist.csv " )
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for csv in broken :
throws = False
if visual :
try :
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ds = mapnik . Datasource ( type = ' csv ' , file = csv , strict = True , quiet = True )
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print ' \x1b [33mfailed \x1b [0m ' , csv
except Exception :
print ' \x1b [1;32m✓ \x1b [0m ' , csv
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def test_good_files ( visual = False ) :
good_files = glob . glob ( " ../data/csv/*.* " )
good_files . extend ( glob . glob ( " ../data/csv/warns/*.* " ) )
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for csv in good_files :
if visual :
try :
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ds = mapnik . Datasource ( type = ' csv ' , file = csv , quiet = True )
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print ' \x1b [1;32m✓ \x1b [0m ' , csv
except Exception :
print ' \x1b [33mfailed \x1b [0m ' , csv
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def test_lon_lat_detection ( * * kwargs ) :
ds = get_csv_ds ( ' lon_lat.csv ' )
eq_ ( len ( ds . fields ( ) ) , 2 )
eq_ ( ds . fields ( ) , [ ' lon ' , ' lat ' ] )
eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' ] )
query = mapnik . Query ( ds . envelope ( ) )
for fld in ds . fields ( ) :
query . add_property_name ( fld )
fs = ds . features ( query )
desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
feat = fs . next ( )
attr = { ' lon ' : 0 , ' lat ' : 0 }
eq_ ( feat . attributes , attr )
def test_lon_lat_detection ( * * kwargs ) :
ds = get_csv_ds ( ' lng_lat.csv ' )
eq_ ( len ( ds . fields ( ) ) , 2 )
eq_ ( ds . fields ( ) , [ ' lng ' , ' lat ' ] )
eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' ] )
query = mapnik . Query ( ds . envelope ( ) )
for fld in ds . fields ( ) :
query . add_property_name ( fld )
fs = ds . features ( query )
desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
feat = fs . next ( )
attr = { ' lng ' : 0 , ' lat ' : 0 }
eq_ ( feat . attributes , attr )
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def test_type_detection ( * * kwargs ) :
ds = get_csv_ds ( ' nypd.csv ' )
eq_ ( ds . fields ( ) , [ ' Precinct ' , ' Phone ' , ' Address ' , ' City ' , ' geo_longitude ' , ' geo_latitude ' , ' geo_accuracy ' ] )
eq_ ( ds . field_types ( ) , [ ' str ' , ' str ' , ' str ' , ' str ' , ' float ' , ' float ' , ' str ' ] )
feat = ds . featureset ( ) . next ( )
attr = { ' City ' : u ' New York, NY ' , ' geo_accuracy ' : u ' house ' , ' Phone ' : u ' (212) 334-0711 ' , ' Address ' : u ' 19 Elizabeth Street ' , ' Precinct ' : u ' 5th Precinct ' , ' geo_longitude ' : - 70 , ' geo_latitude ' : 40 }
eq_ ( feat . attributes , attr )
eq_ ( len ( ds . all_features ( ) ) , 2 )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_skipping_blank_rows ( * * kwargs ) :
ds = get_csv_ds ( ' blank_rows.csv ' )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' name ' ] )
eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' , ' str ' ] )
eq_ ( len ( ds . all_features ( ) ) , 2 )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_empty_rows ( * * kwargs ) :
ds = get_csv_ds ( ' empty_rows.csv ' )
eq_ ( len ( ds . fields ( ) ) , 10 )
eq_ ( len ( ds . field_types ( ) ) , 10 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' text ' , ' date ' , ' integer ' , ' boolean ' , ' float ' , ' time ' , ' datetime ' , ' empty_column ' ] )
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eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' , ' str ' , ' str ' , ' int ' , ' str ' , ' float ' , ' str ' , ' str ' , ' str ' ] )
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fs = ds . featureset ( )
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attr = { ' x ' : 0 , ' empty_column ' : u ' ' , ' text ' : u ' a b ' , ' float ' : 1.0 , ' datetime ' : u ' 1971-01-01T04:14:00 ' , ' y ' : 0 , ' boolean ' : u ' True ' , ' time ' : u ' 04:14:00 ' , ' date ' : u ' 1971-01-01 ' , ' integer ' : 40 }
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first = True
for feat in fs :
if first :
first = False
eq_ ( feat . attributes , attr )
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eq_ ( len ( feat ) , 10 )
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eq_ ( feat [ ' empty_column ' ] , u ' ' )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_slashes ( * * kwargs ) :
ds = get_csv_ds ( ' has_attributes_with_slashes.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
fs = ds . all_features ( )
eq_ ( fs [ 0 ] . attributes , { ' x ' : 0 , ' y ' : 0 , ' name ' : u ' a/a ' } )
eq_ ( fs [ 1 ] . attributes , { ' x ' : 1 , ' y ' : 4 , ' name ' : u ' b/b ' } )
eq_ ( fs [ 2 ] . attributes , { ' x ' : 10 , ' y ' : 2.5 , ' name ' : u ' c/c ' } )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_wkt_field ( * * kwargs ) :
ds = get_csv_ds ( ' wkt.csv ' )
eq_ ( len ( ds . fields ( ) ) , 2 )
eq_ ( ds . fields ( ) , [ ' type ' , ' WKT ' ] )
eq_ ( ds . field_types ( ) , [ ' str ' , ' str ' ] )
fs = ds . all_features ( )
#import pdb;pdb.set_trace()
eq_ ( len ( fs [ 0 ] . geometries ( ) ) , 1 )
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eq_ ( fs [ 0 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . Point )
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eq_ ( len ( fs [ 1 ] . geometries ( ) ) , 1 )
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eq_ ( fs [ 1 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . LineString )
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eq_ ( len ( fs [ 2 ] . geometries ( ) ) , 1 )
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eq_ ( fs [ 2 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . Polygon )
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eq_ ( len ( fs [ 3 ] . geometries ( ) ) , 1 ) # one geometry, two parts
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eq_ ( fs [ 3 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . Polygon )
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# tests assuming we want to flatten geometries
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# ideally we should not have to:
# https://github.com/mapnik/mapnik/issues?labels=multigeom+robustness&sort=created&direction=desc&state=open&page=1
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eq_ ( len ( fs [ 4 ] . geometries ( ) ) , 4 )
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eq_ ( fs [ 4 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . Point )
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eq_ ( len ( fs [ 5 ] . geometries ( ) ) , 2 )
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eq_ ( fs [ 5 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . LineString )
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eq_ ( len ( fs [ 6 ] . geometries ( ) ) , 2 )
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eq_ ( fs [ 6 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . Polygon )
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eq_ ( len ( fs [ 7 ] . geometries ( ) ) , 2 )
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eq_ ( fs [ 7 ] . geometries ( ) [ 0 ] . type ( ) , mapnik . DataGeometryType . Polygon )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Collection )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_handling_of_missing_header ( * * kwargs ) :
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ds = get_csv_ds ( ' missing_header.csv ' )
eq_ ( len ( ds . fields ( ) ) , 6 )
eq_ ( ds . fields ( ) , [ ' one ' , ' two ' , ' x ' , ' y ' , ' _4 ' , ' aftermissing ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' _4 ' ] , ' missing ' )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_handling_of_headers_that_are_numbers ( * * kwargs ) :
ds = get_csv_ds ( ' numbers_for_headers.csv ' )
eq_ ( len ( ds . fields ( ) ) , 5 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' 1990 ' , ' 1991 ' , ' 1992 ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' 1990 ' ] , 1 )
eq_ ( feat [ ' 1991 ' ] , 2 )
eq_ ( feat [ ' 1992 ' ] , 3 )
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eq_ ( mapnik . Expression ( " [1991]=2 " ) . evaluate ( feat ) , True )
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def test_quoted_numbers ( * * kwargs ) :
ds = get_csv_ds ( ' points.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' label ' ] )
fs = ds . all_features ( )
eq_ ( fs [ 0 ] [ ' label ' ] , " 0,0 " )
eq_ ( fs [ 1 ] [ ' label ' ] , " 5,5 " )
eq_ ( fs [ 2 ] [ ' label ' ] , " 0,5 " )
eq_ ( fs [ 3 ] [ ' label ' ] , " 5,0 " )
eq_ ( fs [ 4 ] [ ' label ' ] , " 2.5,2.5 " )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_windows_newlines ( * * kwargs ) :
ds = get_csv_ds ( ' windows_newlines.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
feats = ds . all_features ( )
eq_ ( len ( feats ) , 1 )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 1 )
eq_ ( feat [ ' y ' ] , 10 )
eq_ ( feat [ ' z ' ] , 9999.9999 )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_mac_newlines ( * * kwargs ) :
ds = get_csv_ds ( ' windows_newlines.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
feats = ds . all_features ( )
eq_ ( len ( feats ) , 1 )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 1 )
eq_ ( feat [ ' y ' ] , 10 )
eq_ ( feat [ ' z ' ] , 9999.9999 )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_tabs ( * * kwargs ) :
ds = get_csv_ds ( ' tabs_in_csv.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' z ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , - 122 )
eq_ ( feat [ ' y ' ] , 48 )
eq_ ( feat [ ' z ' ] , 0 )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_separator_pipes ( * * kwargs ) :
ds = get_csv_ds ( ' pipe_delimiters.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' z ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' z ' ] , ' hello ' )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_separator_semicolon ( * * kwargs ) :
ds = get_csv_ds ( ' semicolon_delimiters.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' z ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' z ' ] , ' hello ' )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
eq_ ( desc [ ' name ' ] , ' csv ' )
eq_ ( desc [ ' type ' ] , mapnik . DataType . Vector )
eq_ ( desc [ ' encoding ' ] , ' utf-8 ' )
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def test_that_null_and_bool_keywords_are_empty_strings ( * * kwargs ) :
ds = get_csv_ds ( ' nulls_and_booleans_as_strings.csv ' )
eq_ ( len ( ds . fields ( ) ) , 4 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' null ' , ' boolean ' ] )
eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' , ' str ' , ' str ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' null ' ] , ' null ' )
eq_ ( feat [ ' boolean ' ] , ' true ' )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' null ' ] , ' ' )
eq_ ( feat [ ' boolean ' ] , ' false ' )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
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@raises ( RuntimeError )
def test_that_nonexistant_query_field_throws ( * * kwargs ) :
ds = get_csv_ds ( ' lon_lat.csv ' )
eq_ ( len ( ds . fields ( ) ) , 2 )
eq_ ( ds . fields ( ) , [ ' lon ' , ' lat ' ] )
eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' ] )
query = mapnik . Query ( ds . envelope ( ) )
for fld in ds . fields ( ) :
query . add_property_name ( fld )
# also add an invalid one, triggering throw
query . add_property_name ( ' bogus ' )
fs = ds . features ( query )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
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def test_that_leading_zeros_mean_strings ( * * kwargs ) :
ds = get_csv_ds ( ' leading_zeros.csv ' )
eq_ ( len ( ds . fields ( ) ) , 3 )
eq_ ( ds . fields ( ) , [ ' x ' , ' y ' , ' fips ' ] )
eq_ ( ds . field_types ( ) , [ ' int ' , ' int ' , ' str ' ] )
fs = ds . featureset ( )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' fips ' ] , ' 001 ' )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' fips ' ] , ' 003 ' )
feat = fs . next ( )
eq_ ( feat [ ' x ' ] , 0 )
eq_ ( feat [ ' y ' ] , 0 )
eq_ ( feat [ ' fips ' ] , ' 005 ' )
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desc = ds . describe ( )
eq_ ( desc [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
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def test_advanced_geometry_detection ( * * kwargs ) :
ds = get_csv_ds ( ' point_wkt.csv ' )
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eq_ ( ds . describe ( ) [ ' geometry_type ' ] , mapnik . DataGeometryType . Point )
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ds = get_csv_ds ( ' poly_wkt.csv ' )
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eq_ ( ds . describe ( ) [ ' geometry_type ' ] , mapnik . DataGeometryType . Polygon )
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ds = get_csv_ds ( ' multi_poly_wkt.csv ' )
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eq_ ( ds . describe ( ) [ ' geometry_type ' ] , mapnik . DataGeometryType . Polygon )
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ds = get_csv_ds ( ' line_wkt.csv ' )
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eq_ ( ds . describe ( ) [ ' geometry_type ' ] , mapnik . DataGeometryType . LineString )
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if __name__ == " __main__ " :
setup ( )
[ eval ( run ) ( visual = True ) for run in dir ( ) if ' test_ ' in run ]