Mercurial > dive4elements > river
view backend/doc/schema/postgresql-minfo.sql @ 6229:3fea9701d58d
Fix gauge determination.
If we look upstream ( a > b ) we still have to compare
the start value of our range against the gauge and not the end
value. The start value is always the relevant value as we
handle the direction by checking this against A or B of the gauge.
Also:
I will never compare doubles with == again.
I will never compare doubles with == again.
I will never compare doubles with == again.
I will never compare doubles with == again.
I will never compare doubles with == again.
| author | Andre Heinecke <aheinecke@intevation.de> |
|---|---|
| date | Thu, 06 Jun 2013 18:23:17 +0200 |
| parents | 2d16f4a0bdcc |
| children | 7fb0e755e4fa df402b3e0281 |
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BEGIN; CREATE SEQUENCE LOCATION_SYSTEM_SEQ; CREATE TABLE location_system ( id int NOT NULL, name VARCHAR(32) NOT NULL, description VARCHAR(255), PRIMARY KEY(id) ); CREATE SEQUENCE ELEVATION_MODEL_SEQ; CREATE TABLE elevation_model ( id int NOT NULL, name VARCHAR(32) NOT NULL, unit_id int NOT NULL, PRIMARY KEY(id), CONSTRAINT fk_unit FOREIGN KEY (unit_id) REFERENCES units(id) ); -- lookup table for bedheight types CREATE TABLE bed_height_type ( id int NOT NULL, name VARCHAR(64) NOT NULL, PRIMARY KEY(id) ); INSERT INTO bed_height_type VALUES (1, 'Querprofile'); INSERT INTO bed_height_type VALUES (2, 'Flächenpeilung'); INSERT INTO bed_height_type VALUES (3, 'Flächen- u. Querprofilpeilungen'); INSERT INTO bed_height_type VALUES (4, 'DGM'); INSERT INTO bed_height_type VALUES (5, 'TIN'); INSERT INTO bed_height_type VALUES (6, 'Modell'); CREATE SEQUENCE BED_HEIGHT_SINGLE_ID_SEQ; CREATE TABLE bed_height_single ( id int NOT NULL, river_id int NOT NULL, year int, sounding_width int, type_id int NOT NULL, location_system_id int NOT NULL, cur_elevation_model_id int NOT NULL, old_elevation_model_id int, range_id int, evaluation_by VARCHAR(255), description VARCHAR(255), PRIMARY KEY(id), CONSTRAINT fk_bed_single_river_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE, CONSTRAINT fk_type FOREIGN KEY (type_id) REFERENCES bed_height_type(id), CONSTRAINT fk_location_system FOREIGN KEY (location_system_id) REFERENCES location_system(id), CONSTRAINT fk_cur_elevation_model FOREIGN KEY (cur_elevation_model_id) REFERENCES elevation_model(id), CONSTRAINT fk_old_elevation_model FOREIGN KEY (old_elevation_model_id) REFERENCES elevation_model(id), CONSTRAINT fk_range FOREIGN KEY (range_id) REFERENCES ranges(id) ON DELETE CASCADE ); CREATE SEQUENCE BED_HEIGHT_EPOCH_ID_SEQ; CREATE TABLE bed_height_epoch ( id int NOT NULL, river_id int NOT NULL, time_interval_id int NOT NULL, -- sounding_width int, -- type_id int NOT NULL, cur_elevation_model_id int NOT NULL, old_elevation_model_id int, range_id int, evaluation_by VARCHAR(255), description VARCHAR(255), PRIMARY KEY(id), CONSTRAINT fk_time_interval FOREIGN KEY (time_interval_id) REFERENCES time_intervals(id), CONSTRAINT fk_epoch_cur_elevation_model FOREIGN KEY (cur_elevation_model_id) REFERENCES elevation_model(id), CONSTRAINT fk_epoch_old_elevation_model FOREIGN KEY (old_elevation_model_id) REFERENCES elevation_model(id), CONSTRAINT fk_epoch_range FOREIGN KEY (range_id) REFERENCES ranges(id) ON DELETE CASCADE ); CREATE SEQUENCE BED_SINGLE_VALUES_ID_SEQ; CREATE TABLE bed_height_single_values ( id int NOT NULL, bed_height_single_id int NOT NULL, station NUMERIC NOT NULL, height NUMERIC, uncertainty NUMERIC, data_gap NUMERIC, sounding_width NUMERIC, width NUMERIC, PRIMARY KEY(id), UNIQUE (station, bed_height_single_id), CONSTRAINT fk_bed_single_values_parent FOREIGN KEY (bed_height_single_id) REFERENCES bed_height_single(id) ON DELETE CASCADE ); CREATE SEQUENCE BED_EPOCH_VALUES_ID_SEQ; CREATE TABLE bed_height_epoch_values ( id int NOT NULL, bed_height_epoch_id int NOT NULL, station NUMERIC NOT NULL, height NUMERIC, PRIMARY KEY(id), CONSTRAINT fk_bed_epoch_values_parent FOREIGN KEY (bed_height_epoch_id) REFERENCES bed_height_epoch(id) ON DELETE CASCADE ); CREATE SEQUENCE DEPTHS_ID_SEQ; CREATE TABLE depths ( id int NOT NULL, lower NUMERIC NOT NULL, upper NUMERIC NOT NULL, PRIMARY KEY(id) ); CREATE SEQUENCE SEDIMENT_DENSITY_ID_SEQ; CREATE TABLE sediment_density ( id int NOT NULL, river_id int NOT NULL, depth_id int NOT NULL, description VARCHAR(256), PRIMARY KEY(id), CONSTRAINT fk_sd_river_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE, CONSTRAINT fk_sd_depth_id FOREIGN KEY (depth_id) REFERENCES depths(id) ); CREATE SEQUENCE SEDIMENT_DENSITY_VALUES_ID_SEQ; CREATE TABLE sediment_density_values ( id int NOT NULL, sediment_density_id int NOT NULL, station NUMERIC NOT NULL, shore_offset NUMERIC, density NUMERIC NOT NULL, description VARCHAR(256), year int, PRIMARY KEY(id), CONSTRAINT fk_sdv_sediment_density_id FOREIGN KEY(sediment_density_id) REFERENCES sediment_density(id) ON DELETE CASCADE ); CREATE SEQUENCE MORPHOLOGIC_WIDTH_ID_SEQ; CREATE TABLE morphologic_width ( id int NOT NULL, river_id int NOT NULL, unit_id int NOT NULL, PRIMARY KEY(id), CONSTRAINT fk_mw_river_id FOREIGN KEY(river_id) REFERENCES rivers(id) ON DELETE CASCADE, CONSTRAINT fk_mw_unit_id FOREIGN KEY(unit_id) REFERENCES units(id) ); CREATE SEQUENCE MORPH_WIDTH_VALUES_ID_SEQ; CREATE TABLE morphologic_width_values ( id int NOT NULL, morphologic_width_id int NOT NULL, station NUMERIC NOT NULL, width NUMERIC NOT NULL, description VARCHAR(256), PRIMARY KEY(id), CONSTRAINT fk_mwv_morphologic_width_id FOREIGN KEY (morphologic_width_id) REFERENCES morphologic_width(id) ON DELETE CASCADE ); CREATE SEQUENCE DISCHARGE_ZONE_ID_SEQ; CREATE TABLE discharge_zone ( id int NOT NULL, river_id int NOT NULL, gauge_name VARCHAR(64) NOT NULL, -- this is not very proper, but there are gauges with no db instance value NUMERIC NOT NULL, lower_discharge VARCHAR(16) NOT NULL, upper_discharge VARCHAR(16), PRIMARY KEY(id), CONSTRAINT fk_dz_river_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE ); CREATE SEQUENCE FLOW_VELOCITY_MODEL_ID_SEQ; CREATE TABLE flow_velocity_model ( id int NOT NULL, discharge_zone_id int NOT NULL, description VARCHAR(256), PRIMARY KEY (id), CONSTRAINT fk_fvm_discharge_zone_id FOREIGN KEY (discharge_zone_id) REFERENCES discharge_zone (id) ON DELETE CASCADE ); CREATE SEQUENCE FLOW_VELOCITY_M_VALUES_ID_SEQ; CREATE TABLE flow_velocity_model_values ( id int NOT NULL, flow_velocity_model_id int NOT NULL, station NUMERIC NOT NULL, q NUMERIC NOT NULL, total_channel NUMERIC NOT NULL, main_channel NUMERIC NOT NULL, shear_stress NUMERIC NOT NULL, PRIMARY KEY(id), UNIQUE (station, flow_velocity_model_id), CONSTRAINT fk_fvv_flow_velocity_model_id FOREIGN KEY (flow_velocity_model_id) REFERENCES flow_velocity_model(id) ON DELETE CASCADE ); CREATE SEQUENCE FV_MEASURE_ID_SEQ; CREATE TABLE flow_velocity_measurements ( id int NOT NULL, river_id int NOT NULL, description VARCHAR(256), PRIMARY KEY (id), CONSTRAINT fk_fvm_rivers_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE ); CREATE SEQUENCE FV_MEASURE_VALUES_ID_SEQ; CREATE TABLE flow_velocity_measure_values ( id int NOT NULL, measurements_id int NOT NULL, station NUMERIC NOT NULL, datetime TIMESTAMP, w NUMERIC NOT NULL, q NUMERIC NOT NULL, v NUMERIC NOT NULL, description VARCHAR(256), PRIMARY KEY (id), CONSTRAINT fk_fvmv_measurements_id FOREIGN KEY (measurements_id) REFERENCES flow_velocity_measurements (id) ON DELETE CASCADE ); CREATE SEQUENCE GRAIN_FRACTION_ID_SEQ; CREATE TABLE grain_fraction ( id int NOT NULL, name VARCHAR(64) NOT NULL, lower NUMERIC, upper NUMERIC, PRIMARY KEY (id), ); CREATE SEQUENCE SEDIMENT_YIELD_ID_SEQ; CREATE TABLE sediment_yield ( id int NOT NULL, river_id int NOT NULL, grain_fraction_id int, unit_id int NOT NULL, time_interval_id int NOT NULL, description VARCHAR(256), PRIMARY KEY (id), CONSTRAINT fk_sy_river_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE, CONSTRAINT fk_sy_grain_fraction_id FOREIGN KEY (grain_fraction_id) REFERENCES grain_fraction(id), CONSTRAINT fk_sy_unit_id FOREIGN KEY (unit_id) REFERENCES units(id), CONSTRAINT fk_sy_time_interval_id FOREIGN KEY (time_interval_id) REFERENCES time_intervals(id) ); CREATE SEQUENCE SEDIMENT_YIELD_VALUES_ID_SEQ; CREATE TABLE sediment_yield_values ( id int NOT NULL, sediment_yield_id int NOT NULL, station NUMERIC NOT NULL, value NUMERIC NOT NULL, PRIMARY KEY (id), CONSTRAINT fk_syv_sediment_yield_id FOREIGN KEY (sediment_yield_id) REFERENCES sediment_yield(id) ON DELETE CASCADE ); CREATE SEQUENCE MEASUREMENT_STATION_ID_SEQ; CREATE TABLE measurement_station ( id int NOT NULL, name VARCHAR(256) NOT NULL, river_id int NOT NULL, station NUMERIC NOT NULL, range_id int, measurement_type VARCHAR(64) NOT NULL, riverside VARCHAR(16), reference_gauge_id int, -- store name of reference gauges here too, as not all are in gauges reference_gauge_name VARCHAR(64), observation_timerange_id int, operator VARCHAR(64), description VARCHAR(512), PRIMARY KEY (id), CONSTRAINT fk_ms_river_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE, CONSTRAINT fk_ms_range_id FOREIGN KEY (range_id) REFERENCES ranges(id) ON DELETE CASCADE, CONSTRAINT fk_ms_reference_gauge_id FOREIGN KEY (reference_gauge_id) REFERENCES gauges(id) ON DELETE CASCADE, CONSTRAINT fk_ms_observation_timerange_id FOREIGN KEY (observation_timerange_id) REFERENCES time_intervals(id) ); CREATE SEQUENCE SQ_RELATION_ID_SEQ; CREATE TABLE sq_relation ( id int NOT NULL, river_id int NOT NULL, time_interval_id int NOT NULL, description VARCHAR(256), PRIMARY KEY (id), CONSTRAINT fk_sqr_river_id FOREIGN KEY (river_id) REFERENCES rivers(id) ON DELETE CASCADE, CONSTRAINT fk_sqr_tinterval_id FOREIGN KEY (time_interval_id) REFERENCES time_intervals(id) ); CREATE SEQUENCE SQ_RELATION_VALUES_ID_SEQ; CREATE TABLE sq_relation_value ( id int NOT NULL, sq_relation_id int NOT NULL, measurement_station_id int NOT NULL, parameter VARCHAR(1) NOT NULL, a NUMERIC NOT NULL, b NUMERIC NOT NULL, qmax NUMERIC NOT NULL, rsq NUMERIC, ntot int, noutl int, cferguson NUMERIC, cduan NUMERIC, PRIMARY KEY (id), CONSTRAINT fk_sqr_id FOREIGN KEY (sq_relation_id) REFERENCES sq_relation(id) ON DELETE CASCADE, CONSTRAINT fk_mstation_id FOREIGN KEY (measurement_station_id) REFERENCES measurement_station(id) ON DELETE CASCADE ); COMMIT;