• EICH

For plotting measurement data and differences to measurement data.

Inputs (separated by spaces or tabs):

1^st line: Identification number of the data type for differences, conversion flag and time step

2^nd line: Colour number, line width, flag for displaying the differences:

0 = circlular representation

1 = Bar chart, additional flag for scaling parameters for the bar height

3^rd line: Name of the file with the measurement data

 

The file with the measurement data must be in the ASCII structure data format . If the identification number = 0, the measurement data is plotted as values.

If the identification number > 0, the identification number of a node data type is expected for all nodes or an element data type for all elements. The differences between the identification data (of the current layer) and the measurement data at all measurement points within the model area are calculated and displayed as circles or bars. The marker type and marker height can be influenced via the plogeo.ini commands ETYP and EHGT. In addition, the calculated differences are logged in an ASCII file (DiffEich.tmp) together with measured and calculated values if the plogeo.ini command EDIF = 1 is set.

It is not possible to plot measurement data/differences for vertical sections.

 

• FUNK

This command can only be executed via the batch-controlled parameter input.

For displaying any data as a "hydrograph" with "target values" in hydrograph format if necessary.

Inputs (separated by spaces or tabs):

1^st line: Designation for the x-axis

2^nd line: Designation for the y-axis

3^rd line: Name of the file with function values

4^th line: Colour number for "hydrograph”

5^th line: Min-/Max/delta: Values (for min = max, the global values are used)

6^th line: Flag for interpolation (1 = with interpolation, 0 = without interpolation)

7^th line: Flag for target values (1 = with target values, 0 = without target values) For target values)

8^th line: Colour number for target values

9^th line: Name of the file with the target values

 

The FUNK batch command can only be executed after a transient calculation.

 

• RECH

For offsetting two data types.

Inputs (separated by spaces or tabs):

1^st line: Identification number of the 1st data type, conversion flag, time step and layer number for layer number > 0: Data from another layer (3D model)

If the identification number is negative: data from another run ( other directory), in this case: subsequent line with the directory from which the data is to be read (absolute, or relative to the current working directory with "/" at the end!)

2^nd line: Identification number of the 2nd data type, conversion flag, time step and layer number for layer number > 0: Data from another layer (3D model

If the identification number is negative: data from another run ( other directory), in this case: subsequent line with the directory from which the data is to be read (absolute, or relative to the current working directory with "/" at the end!)

Identification number = 0: (only permitted if the first data type comes from another directory or another layer): In this case, the first data type is not "offset". With this trick, data from another run / directory or another layer can be plotted directly to a limited extent (without offsetting)).

 

3^rd line: Calculation type: '+', '-' , '*' or '/' (1st character in the line!)

(The line with the allocation type is omitted if the 2nd identifier = 0).

Note: At most one data type from another directory / another layer can be used for offsetting!

To plot the calculated data, one of the batch commands WERT, KREI, ISOL, FLAE or SCHR with the identification number -99 must follow.

 

• UGSC

This command can currently only be accessed via batch-controlled parameter input.

For hatching the elements of a 3D model with a negative difference between potential heads and Z-coordinate in a horizontal section.

Inputs (separated by spaces or tabs):

1st line: Colour number, line width, line type and time step (for potential heads)

 

This plot is only possible for 3D models in horizontal section. The difference between potential head and the Z-coordinate are calculated for the element centres. The hatching information can be interpreted as follows:

If plane 0 or 1 (i.e. the Z coordinates of the 1st node layer (corresponds to the terrain height) is used as the horizontal section plane, the elements in which the depth to the water table (terrain height minus potential head) is positive are hatched.

If the section plane for the horizontal section represents the base of a floor plan, the elements in which the potential head lies below the base (Z coordinate) of the floor plan are hatched.