ST_MapAlgebraFct — 1 band version - Creates a new one band raster formed by applying a valid PostgreSQL function on the input raster band and of pixeltype prodived. Band 1 is assumed if no band is specified.
raster ST_MapAlgebraFct(
raster rast, regprocedure onerasteruserfunc)
;
raster ST_MapAlgebraFct(
raster rast, regprocedure onerasteruserfunc, text[] VARIADIC args)
;
raster ST_MapAlgebraFct(
raster rast, text pixeltype, regprocedure onerasteruserfunc)
;
raster ST_MapAlgebraFct(
raster rast, text pixeltype, regprocedure onerasteruserfunc, text[] VARIADIC args)
;
raster ST_MapAlgebraFct(
raster rast, integer band, regprocedure onerasteruserfunc)
;
raster ST_MapAlgebraFct(
raster rast, integer band, regprocedure onerasteruserfunc, text[] VARIADIC args)
;
raster ST_MapAlgebraFct(
raster rast, integer band, text pixeltype, regprocedure onerasteruserfunc)
;
raster ST_MapAlgebraFct(
raster rast, integer band, text pixeltype, regprocedure onerasteruserfunc, text[] VARIADIC args)
;
ST_MapAlgebraFct is deprecated as of 2.1.0. Use ST_MapAlgebra (callback function version) instead. |
Creates a new one band raster formed by applying a valid PostgreSQL function specified by the onerasteruserfunc
on the input raster (rast
). If no band
is specified, band 1 is assumed. The new raster will have the same georeference, width, and height as the original raster but will only have one band.
If pixeltype
is passed in, then the new raster will have a band of that pixeltype. If pixeltype is passed NULL, then the new raster band will have the same pixeltype as the input rast
band.
The onerasteruserfunc
parameter must be the name and signature of a SQL or PL/pgSQL function, cast to a regprocedure. A very simple and quite useless PL/pgSQL function example is:
CREATE OR REPLACE FUNCTION simple_function(pixel FLOAT, pos INTEGER[], VARIADIC args TEXT[]) RETURNS FLOAT AS $$ BEGIN RETURN 0.0; END; $$ LANGUAGE 'plpgsql' IMMUTABLE;
The userfunction
may accept two or three arguments: a float value, an optional integer array, and a variadic text array. The first argument is the value of an individual raster cell (regardless of the raster datatype). The second argument is the position of the current processing cell in the form '{x,y}'. The third argument indicates that all remaining parameters to ST_MapAlgebraFct shall be passed through to the userfunction
.
Passing a regprodedure argument to a SQL function requires the full function signature to be passed, then cast to a regprocedure type. To pass the above example PL/pgSQL function as an argument, the SQL for the argument is:
'simple_function(float,integer[],text[])'::regprocedure
Note that the argument contains the name of the function, the types of the function arguments, quotes around the name and argument types, and a cast to a regprocedure.
The third argument to the userfunction
is a variadic text array. All trailing text arguments to any ST_MapAlgebraFct call are passed through to the specified userfunction
, and are contained in the args
argument.
For more information about the VARIADIC keyword, please refer to the PostgreSQL documentation and the "SQL Functions with Variable Numbers of Arguments" section of Query Language (SQL) Functions. |
The text[] argument to the |
Disponibilidad: 2.0.0
Create a new 1 band raster from our original that is a function of modulo 2 of the original raster band.
ALTER TABLE dummy_rast ADD COLUMN map_rast raster; CREATE FUNCTION mod_fct(pixel float, pos integer[], variadic args text[]) RETURNS float AS $$ BEGIN RETURN pixel::integer % 2; END; $$ LANGUAGE 'plpgsql' IMMUTABLE; UPDATE dummy_rast SET map_rast = ST_MapAlgebraFct(rast,NULL,'mod_fct(float,integer[],text[])'::regprocedure) WHERE rid = 2; SELECT ST_Value(rast,1,i,j) As origval, ST_Value(map_rast, 1, i, j) As mapval FROM dummy_rast CROSS JOIN generate_series(1, 3) AS i CROSS JOIN generate_series(1,3) AS j WHERE rid = 2; origval | mapval ---------+-------- 253 | 1 254 | 0 253 | 1 253 | 1 254 | 0 254 | 0 250 | 0 254 | 0 254 | 0
Create a new 1 band raster of pixel-type 2BUI from our original that is reclassified and set the nodata value to a passed parameter to the user function (0).
ALTER TABLE dummy_rast ADD COLUMN map_rast2 raster; CREATE FUNCTION classify_fct(pixel float, pos integer[], variadic args text[]) RETURNS float AS $$ DECLARE nodata float := 0; BEGIN IF NOT args[1] IS NULL THEN nodata := args[1]; END IF; IF pixel < 251 THEN RETURN 1; ELSIF pixel = 252 THEN RETURN 2; ELSIF pixel > 252 THEN RETURN 3; ELSE RETURN nodata; END IF; END; $$ LANGUAGE 'plpgsql'; UPDATE dummy_rast SET map_rast2 = ST_MapAlgebraFct(rast,'2BUI','classify_fct(float,integer[],text[])'::regprocedure, '0') WHERE rid = 2; SELECT DISTINCT ST_Value(rast,1,i,j) As origval, ST_Value(map_rast2, 1, i, j) As mapval FROM dummy_rast CROSS JOIN generate_series(1, 5) AS i CROSS JOIN generate_series(1,5) AS j WHERE rid = 2; origval | mapval ---------+-------- 249 | 1 250 | 1 251 | 252 | 2 253 | 3 254 | 3 SELECT ST_BandPixelType(map_rast2) As b1pixtyp FROM dummy_rast WHERE rid = 2; b1pixtyp ---------- 2BUI
|
|
Create a new 3 band raster same pixel type from our original 3 band raster with first band altered by map algebra and remaining 2 bands unaltered.
CREATE FUNCTION rast_plus_tan(pixel float, pos integer[], variadic args text[]) RETURNS float AS $$ BEGIN RETURN tan(pixel) * pixel; END; $$ LANGUAGE 'plpgsql'; SELECT ST_AddBand( ST_AddBand( ST_AddBand( ST_MakeEmptyRaster(rast_view), ST_MapAlgebraFct(rast_view,1,NULL,'rast_plus_tan(float,integer[],text[])'::regprocedure) ), ST_Band(rast_view,2) ), ST_Band(rast_view, 3) As rast_view_ma ) FROM wind WHERE rid=167;
ST_MapAlgebraExpr, ST_BandPixelType, ST_GeoReference, ST_SetValue