Release Notes for Version 1.04 of Suppose: N.L.Crookston RMRS-Moscow, August 13, 1997 This is the first edition of the Release Notes. It may not include all changes made from version 1.03. Changes from version 1.03: 0. (Nov 13, 1997 amendment) The ability to create/edit tree data files was added. 1. The .slf file was changed to add 3 new fields: model type, physiographic region, and forest type. When any one of these are coded, Suppose builds the now ModType keyword for FVS. The old .slf files still work fine. The .slf editor was updated to edit the new fields and an error was corrected. The error was that the field for entering the proportion of stockable area was omitted in the editor. 2. The installation process/procedures for the Forest Service 615 IBM-AIX systems has been created and tested. 3. For AIX, the run script was changed to introduce $FVSHOME and corresponding changes were made to the Suppose .prm file entries regarding run commands for Suppose and the post processors. 4. The order that post processors are listed has been changed to list the most commonly used first. These cover all variants of FVS, the post processors, and Suppose. 5. Drag and drop was fixed for AIX. You can drag a suppose-created .key file to the suppose icon and drop it. This was failing in the case where the full path name to the .key file included periods prior to the period in . 6. The run wizard now has instructions on how to add a stand for bare ground projections. 7. The "production" versions of the .prm files are now in Ft. Collins. 8. Fixed printing of help on AIX. Now help "prints" to a file named suppose.ps rather than /tmp/suppose.ps (which was a mess because /tmp is not part of DFS and because more than one user might use the help file at the same time). Also included the correct postscript prolog files needed by the help printer drivers. These had been left out of the distribution. 9. The SStage keyword entry in .prm was slightly modified. 10. Provision was made in suppose (not yet in the .prm file) for the newest version of the root disease model.