wm/test-rivers.sql

\i wm.sql

-- wm_bbox clips a geometry by a bounding box around a given object,
-- matching dimensions of A-class paper (1 by sqrt(2).
drop function if exists wm_bbox;
create function wm_bbox(
  center geometry,
  scaledwidth float
) returns geometry as $$
declare
  halfX float;
  halfY float;
begin
  halfX = scaledwidth / 2;
  halfY = halfX * sqrt(2);
  return st_envelope(
    st_union(
      st_translate(center, halfX, halfY),
      st_translate(center, -halfX, -halfY)
    )
  );
end $$ language plpgsql;

-- wm_quadrant divides the given geometry to 4 rectangles
-- and returns the requested quadrant following cartesian
-- convention:
--  +----------+
--  | II  | I  |
--- +----------+
--  | III | IV |
--  +-----+----+
-- matching dimensions of A-class paper (1 by sqrt(2).
drop function if exists wm_quadrant;
create function wm_quadrant(
  geom geometry,
  quadrant integer
) returns geometry as $$
declare
  xmin float;
  xmax float;
  ymin float;
  ymax float;
begin
  xmin = st_xmin(geom);
  xmax = st_xmax(geom);
  ymin = st_ymin(geom);
  ymax = st_ymax(geom);

  if quadrant = 1 or quadrant = 2 then
    ymin = (ymin + ymax)/2;
  else
    ymax = (ymin + ymax)/2;
  end if;

  if quadrant = 2 or quadrant = 3 then
    xmax = (xmin + xmax)/2;
  else
    xmin = (xmin + xmax)/2;
  end if;

  return st_intersection(
    geom,
    st_makeenvelope(xmin, ymin, xmax, ymax, st_srid(geom))
  );
end $$ language plpgsql;


delete from wm_visuals where name like 'salvis%';
insert into wm_visuals(name, way) values('salvis', (
    select st_intersection(
      (select st_union(way) from wm_rivers where name in ('Šalčia', 'Visinčia')),
      wm_bbox(
        st_closestpoint(
          (select way from wm_rivers where name='Šalčia'),
          (select way from wm_rivers where name='Visinčia')
        ),
        :scaledwidth
      )
    )
));

do $$
declare
  i integer;
  geom1 geometry;
  geom2 geometry;
begin
  foreach i in array array[16, 64, 256] loop
    geom1 = st_simplify((select way from wm_visuals where name='salvis'), i);
    geom2 = st_simplifyvw((select way from wm_visuals where name='salvis'), i*i);
    insert into wm_visuals(name, way) values
      ('salvis-douglas-'     || i, geom1),
      ('salvis-douglas-'     || i || '-chaikin', st_chaikinsmoothing(geom1, 5)),
      ('salvis-visvalingam-' || i, geom2),
      ('salvis-visvalingam-' || i || '-chaikin', st_chaikinsmoothing(geom2, 5));
  end loop;
end $$ language plpgsql;

do $$
declare
  npoints bigint;
  secs bigint;
begin
  select * from ST_SimplifyWM_Estimate((select st_union(way) from wm_rivers)) into npoints, secs;
  raise notice 'Total points: %', npoints;
  raise notice 'Expected duration: %s (+-%s)', ceil(secs), floor(secs*.5);
end $$ language plpgsql;

delete from wm_debug where name in (select distinct name from wm_rivers);
delete from wm_demo where name in (select distinct name from wm_rivers);
insert into wm_demo (name, way) select name, ST_SimplifyWM(way, 75, null, name) from wm_rivers;
debugging 2021-05-19 22:57:46 +03:00			`\i wm.sql`

zoom quadrants 2021-05-19 22:57:48 +03:00			`-- wm_bbox clips a geometry by a bounding box around a given object,`
wip: wm_clip 2021-05-19 22:57:48 +03:00			`-- matching dimensions of A-class paper (1 by sqrt(2).`
working with clipping/display of rivers 2021-05-19 22:57:48 +03:00			`drop function if exists wm_bbox;`
			`create function wm_bbox(`
more visuals 2021-05-19 22:57:48 +03:00			`center geometry,`
			`scaledwidth float`
wip: wm_clip 2021-05-19 22:57:48 +03:00			`) returns geometry as $$`
			`declare`
			`halfX float;`
			`halfY float;`
			`begin`
more visuals 2021-05-19 22:57:48 +03:00			`halfX = scaledwidth / 2;`
wip: wm_clip 2021-05-19 22:57:48 +03:00			`halfY = halfX * sqrt(2);`
working with clipping/display of rivers 2021-05-19 22:57:48 +03:00			`return st_envelope(`
			`st_union(`
more visuals 2021-05-19 22:57:48 +03:00			`st_translate(center, halfX, halfY),`
			`st_translate(center, -halfX, -halfY)`
working with clipping/display of rivers 2021-05-19 22:57:48 +03:00			`)`
wip: wm_clip 2021-05-19 22:57:48 +03:00			`);`
split bendattrs to bends and attrs 2021-05-19 22:57:49 +03:00			`end $$ language plpgsql;`
wip: wm_clip 2021-05-19 22:57:48 +03:00
zoom quadrants 2021-05-19 22:57:48 +03:00			`-- wm_quadrant divides the given geometry to 4 rectangles`
			`-- and returns the requested quadrant following cartesian`
			`-- convention:`
			`-- +----------+`
			`-- \| II \| I \|`
			`--- +----------+`
			`-- \| III \| IV \|`
			`-- +-----+----+`
			`-- matching dimensions of A-class paper (1 by sqrt(2).`
			`drop function if exists wm_quadrant;`
			`create function wm_quadrant(`
			`geom geometry,`
			`quadrant integer`
			`) returns geometry as $$`
			`declare`
			`xmin float;`
			`xmax float;`
			`ymin float;`
			`ymax float;`
			`begin`
			`xmin = st_xmin(geom);`
			`xmax = st_xmax(geom);`
			`ymin = st_ymin(geom);`
			`ymax = st_ymax(geom);`

			`if quadrant = 1 or quadrant = 2 then`
			`ymin = (ymin + ymax)/2;`
			`else`
			`ymax = (ymin + ymax)/2;`
			`end if;`

			`if quadrant = 2 or quadrant = 3 then`
			`xmax = (xmin + xmax)/2;`
			`else`
			`xmin = (xmin + xmax)/2;`
			`end if;`

			`return st_intersection(`
			`geom,`
			`st_makeenvelope(xmin, ymin, xmax, ymax, st_srid(geom))`
			`);`
			`end $$ language plpgsql;`


douglas-peucker and visvalingam examples 2021-05-19 22:57:48 +03:00			`delete from wm_visuals where name like 'salvis%';`
more visuals 2021-05-19 22:57:48 +03:00			`insert into wm_visuals(name, way) values('salvis', (`
			`select st_intersection(`
			`(select st_union(way) from wm_rivers where name in ('Šalčia', 'Visinčia')),`
			`wm_bbox(`
			`st_closestpoint(`
			`(select way from wm_rivers where name='Šalčia'),`
			`(select way from wm_rivers where name='Visinčia')`
			`),`
			`:scaledwidth`
			`)`
			`)`
			`));`

douglas-peucker and visvalingam examples 2021-05-19 22:57:48 +03:00			`do $$`
			`declare`
			`i integer;`
			`geom1 geometry;`
			`geom2 geometry;`
			`begin`
			`foreach i in array array[16, 64, 256] loop`
			`geom1 = st_simplify((select way from wm_visuals where name='salvis'), i);`
			`geom2 = st_simplifyvw((select way from wm_visuals where name='salvis'), i*i);`
			`insert into wm_visuals(name, way) values`
			`('salvis-douglas-' \|\| i, geom1),`
			`('salvis-douglas-' \|\| i \|\| '-chaikin', st_chaikinsmoothing(geom1, 5)),`
			`('salvis-visvalingam-' \|\| i, geom2),`
			`('salvis-visvalingam-' \|\| i \|\| '-chaikin', st_chaikinsmoothing(geom2, 5));`
			`end loop;`
			`end $$ language plpgsql;`

estimate how long the algo will take 2021-05-19 22:57:48 +03:00			`do $$`
			`declare`
			`npoints bigint;`
			`secs bigint;`
			`begin`
simultaneous unit + integration tests 2021-05-19 22:57:48 +03:00			`select * from ST_SimplifyWM_Estimate((select st_union(way) from wm_rivers)) into npoints, secs;`
estimate how long the algo will take 2021-05-19 22:57:48 +03:00			`raise notice 'Total points: %', npoints;`
better estimation 2021-05-19 22:57:48 +03:00			`raise notice 'Expected duration: %s (+-%s)', ceil(secs), floor(secs*.5);`
estimate how long the algo will take 2021-05-19 22:57:48 +03:00			`end $$ language plpgsql;`

selfcrossing-1 too 2021-05-19 22:57:48 +03:00			`delete from wm_debug where name in (select distinct name from wm_rivers);`
proper cleanup before 'make test' 2021-05-19 22:57:48 +03:00			`delete from wm_demo where name in (select distinct name from wm_rivers);`
exaggeration: skip intersecting bends 2021-05-19 22:57:49 +03:00			`insert into wm_demo (name, way) select name, ST_SimplifyWM(way, 75, null, name) from wm_rivers;`