[directories] # all paths are relative to the workdir set on the command line # The directories in which the scripts store the output: step1dir = step1 step2dir = step2 [files] # Name of the DEM to use masterdem=srtm_58_14.map # name of the lad-use map to use landuse=globcover_javabali.map soil=soil.map # Shape file with river/drain network. Use to "burn in" into the dem. river=river.shp [settings] # Nr to reduce the initial map with in step 1. This means that all work is done # on an upscaled version of the initial DEM. May be usefull for very # large maps. If set to 1 no scaling is taking place initialscale=1 # Set lddmethod to dem (other methods are not working at the moment) lddmethod=dem # If set to 1 the gauge points are moved to the neares river point on a river # with a strahler order higher of identical as defined in this ini file snapgaugestoriver=1 # The strahler order above (and including) a pixel is defined as a river cell riverorder=4 # X and y cooordinates of gauges (subcatchments). Please note the the locations # are based on the river network of the DEM used in step2 (the lower resuolution # DEM). This may need some experimenting... is most case the snap function # will work by ymmv. To set multiple gauges use x_gauge_1, x_gauge_2 gauges_y = -6.1037 gauges_x = 107.4357 # settings for subgrid to create. This also determines how the # original dem is (up)scaled. If the cellsize is the same # as the original dem no scaling is performed. This grid will # be the grid the final model runs on Yul = -6.07 Xul = 106.9 Ylr = -7.30271 Xlr = 107.992 cellsize = 0.009166666663 # tweak ldd creation. Default should be fine lddoutflowdepth=1E35 lddglobaloption=lddout