A decoded MDL0 file can only be used for analysis. Encoding or creating a new MDL0 file is not supported.
Options | |||
---|---|---|---|
Option | Param | Description | |
--no-wildcards | Disable wildcard parsing and use each filename exactly as specified. | ||
--in-order | Process the input files in order of the command line and don't delete duplicates. | ||
-i | --ignore | Ignore non existing source files without warning. | |
-H | --no-header | Suppress the syntax information section in MDL text files. | |
-B | --brief | Suppress cross reference comments. | |
--no-echo | Suppress output of @ECHO commands while scanning text files. | ||
-N | --no-check | Do not make plausibility checks for KMP files. | |
--scale | vector[@origin] | Transform the data: Scale all coordinates and size values by 'vector' relative to the point 'origin'. If the origin is not set, Negative values mirror the coordinates. Each parameter is either a vector expression or a comma separated expression list of coordinates ('x,z' or 'x,y,z'). Transformations are calculated in the order SCALE, SHIFT, ROTATE, TRANSLATE. |
|
--shift | vector | Transform the data: Add 'vector' to all coordinates. It's simlar to --translate, but the addition is done before rotation. The parameter is either a vector expression or a comma separated expression list of coordinates ('x,z' or 'x,y,z').
Transformations are calculated in the order SCALE, SHIFT, ROTATE, TRANSLATE. |
|
--xss | x1old,x1new,x2old,x2new | --xss (x-scale-shift) calculates the X values of --scale and --shift, so that old values are transformed to the new values. The parameters are numbers or expression. | |
--yss | y1old,y1new,y2old,y2new | --yss (y-scale-shift) calculates the Y values of --scale and --shift, so that old values are transformed to the new values. The parameters are numbers or expression. | |
--zss | z1old,z1new,z2old,z2new | --zss (z-scale-shift) calculates the Z values of --scale and --shift, so that old values are transformed to the new values. The parameters are numbers or expression. | |
--rot | degree[@origin] | Transform the data: Rotate all coordinates and rotation values by the angle 'degree' (is a vector) around the 3 axes. All 3 axes goes through the point 'origin'. If the origin is not set, Each parameter is either a vector expression or a comma separated expression list of coordinates ('x,y,z'). Option --rot is an alternative for --xrot, --yrot and --zrot to define all 3 rotations in one step. Transformations are calculated in the order SCALE, SHIFT, X-ROTATE, Y-ROTATE, Z-ROTATE, TRANSLATE. |
|
--xrot | degree[@origin] | Transform the data: Rotate all coordinates and rotation values by the angle 'degree' around the x-axis, that goes through the point 'origin'. If the origin is not set, Each parameter is either a vector expression or a comma separated expression list of coordinates ('y,z' or 'x,y,z'). Transformations are calculated in the order SCALE, SHIFT, X-ROTATE, Y-ROTATE, Z-ROTATE, TRANSLATE. |
|
--yrot | degree[@origin] | Transform the data: Rotate all coordinates and rotation values by the angle 'degree' around the x-axis, that goes through the point 'origin'. If the origin is not set, Each parameter is either a vector expression or a comma separated expression list of coordinates ('x,z' or 'x,y,z'). Transformations are calculated in the order SCALE, SHIFT, X-ROTATE, Y-ROTATE, Z-ROTATE, TRANSLATE. |
|
--zrot | degree[@origin] | Transform the data: Rotate all coordinates and rotation values by the angle 'degree' around the z-axis, that goes through the point 'origin'. If the origin is not set, Each parameter is either a vector expression or a comma separated expression list of coordinates ('x,y' or 'x,y,z'). Transformations are calculated in the order SCALE, SHIFT, X-ROTATE, Y-ROTATE, Z-ROTATE, TRANSLATE. |
|
--translate | vector | Transform the data: Add 'vector' to all coordinates. It's simlar to --shift, but the addition is done after rotation. The parameter is either a vector expression or a comma separated expression list of coordinates ('x,z' or 'x,y,z'). Transformations are calculated in the order SCALE, SHIFT, ROTATE, TRANSLATE. |
|
--null | Create a neutral transformation without affecting the coordinates. The only influence is, that the dependent values (like maximum) are re-calculated as if a transformation has taken place. | ||
--ascale | factor@dir | Transform the data and do an axis scale: Close the current transformation step like --next and scale the data by This kind of transformation is EXPERIMENTAL! |
|
--arot | degree[@pos1]@pos2 | Transform the data and do an axis rotation: Close the current transformation step like --next and rotate the data by This kind of transformation is EXPERIMENTAL! |
|
--tform-script | script | Load the script and execute it by the text parser.
Then for each coordinate (2D and 3D), call the macro
For each file, macro Before each macro call, the private and local variables are cleared and only global parameters are permanent. The zero based index is cleared for each new source. The parameters of the macro calls are defined in the local name space. |
|
--next | Close the current transformation step with all scaling, shifting, rotation and translation options and open a new step with cleared options. On transformation each step is logical done one by one. In real, one total transformation matrix is calculated and used for fast transformations.
If option --next is used, the ability for modifying the scale and rotation vectors (not the positions) of different KMP sections is nearly always lost. A warning is printed if this occurs. |
||
--mdl | list | Set global options for MDL processing. To enable MDL patching, use option --patch-files and select BRRES files for patching.
Parameter
A MDL transformation (controlled by the transformation options) is only done, if at least one of the keywords
Keyword |