# See ../README.md for a description of the file format tests: - name: Centroid # Human readable identifier algorithm: qgis:polygoncentroids # Algorithm name params: # A list of parameters (only 1 here) - type: vector # Param is a vector layer name: polys.gml # file name results: # A map of results (only one here) OUTPUT_LAYER: type: vector # Expected result is a vector layer name: expected/polys_centroid.gml # The relative filepath from the processing testdata directory compare: geometry: precision: 7 - name: Delete Holes algorithm: qgis:deleteholes params: - name: polys.gml type: vector results: OUTPUT: name: expected/polys_deleteholes.gml type: vector # These datasets should produce a geometry collection and not a polygon only # dataset. If the algorithm is fixed, a new test should be introduced to # check this behavior. # This test should stay in place because for shapefiles there should always # be a polygon result created since it does not support geometry collections. - name: Intersection (Collection Fallback) algorithm: qgis:intersection params: INPUT: name: multipolys.gml type: vector INPUT2: name: polys.gml type: vector results: OUTPUT: name: expected/intersection_collection_fallback.shp type: vector - name: Densify geometries algorithm: qgis:densifygeometries params: - name: multipolys.gml type: vector - '4' results: OUTPUT: name: expected/multipolys_densify.gml type: vector - name: Polygons to Lines algorithm: qgis:polygonstolines params: - name: multipolys.gml type: vector results: OUTPUT: name: expected/polys_to_lines.gml type: vector - algorithm: qgis:basicstatisticsfornumericfields name: Test (qgis:basicstatisticsfornumericfields) params: - name: multipolys.gml type: vector - 'Bfloatval' results: OUTPUT_HTML_FILE: name: expected/basic_statistics_numeric_float.html type: file - algorithm: qgis:basicstatisticsfortextfields name: Test (qgis:basicstatisticsfortextfields) params: - name: multipolys.gml type: vector - 'Bname' results: OUTPUT_HTML_FILE: name: expected/basic_statistics_string.html type: file # Split lines with lines considers two cases # case 1: two different layers - algorithm: qgis:splitlineswithlines name: Split lines with lines params: INPUT_A: name: lines.gml type: vector INPUT_B: name: custom/lines2.gml type: vector results: OUTPUT: name: expected/lines_split_with_lines.gml type: vector compare: geometry: precision: 7 # case 2 split line layer with iself - algorithm: qgis:splitlineswithlines name: Split lines with same lines params: INPUT_A: name: custom/lines2.gml type: vector INPUT_B: name: custom/lines2.gml type: vector results: OUTPUT: name: expected/lines_split_with_same_lines.gml type: vector compare: geometry: precision: 7 - algorithm: qgis:addautoincrementalfield name: Add autoincremental field params: INPUT: name: points.gml type: vector results: OUTPUT: name: expected/autoincrement_field.gml type: vector # Eliminate sliver polygons # case 1: merge with largest area - algorithm: qgis:eliminatesliverpolygons name: Eliminate sliver polygons largest area params: ATTRIBUTE: 'fid' COMPARISON: '0' COMPARISONVALUE: 'polys.5' INPUT: name: polys.gml type: vector KEEPSELECTION: 'False' MODE: '0' results: OUTPUT: name: expected/eliminate_largest_area.gml type: vector # case 2: merge with smallest area - algorithm: qgis:eliminatesliverpolygons name: Eliminate sliver polygons smallest area params: ATTRIBUTE: 'fid' COMPARISON: '0' COMPARISONVALUE: 'polys.5' INPUT: name: polys.gml type: vector KEEPSELECTION: 'False' MODE: '1' results: OUTPUT: name: expected/eliminate_smallest_area.gml type: vector # case 3: merge with longest common boundary - algorithm: qgis:eliminatesliverpolygons name: Eliminate sliver polygons largest area params: ATTRIBUTE: 'fid' COMPARISON: '0' COMPARISONVALUE: 'polys.5' INPUT: name: polys.gml type: vector KEEPSELECTION: 'False' MODE: '2' results: OUTPUT: name: expected/eliminate_largest_area.gml type: vector