Moved well_ord_Memrel, lt_eq_pred, Ord_iso_implies_eq_lemma,
Ord_iso_implies_eq to top of file, as they do not require the other
material. Simplified proof of ordertype_subset.
Proved ordertype_eq: a short proof using deepen_tac! Deleted
bij_ordermap_vimage and ordermap_Memrel
"bij_ordermap_vimage and ordermap_Memrelf. [| f: bij(A,B); well_ord(B,r); x:A |] ==>\
\ ordermap(A,rvimage(A,f,r)) ` x = ordermap(B,r) ` (f`x)";
"\ ordermap(A,rvimage(A,f,r)) ` x = ordermap(B,r) ` (f`x)";i. [| Ord(i); j:i |] ==> ordermap(i,Memrel(i)) ` j = j"
because ordertype_eq serves the same purpose. Proofs of bij_ordertype_vimage
and ordertype_Memrel are now trivial.
ISABELLE -- INSTRUCTIONS FOR UNPACKING THE EMAIL DISTRIBUTION
The Isabelle email distribution consists of about 8 installments, each
small enough to send by electronic mail. The files are called Isabelle.aa,
Isabelle.ab, .... They have been generated by tar, compress, uuencode, and
split, and are packed for email using shar. To unpack the files, perform
the following steps:
STEP 1. Create a new directory to hold Isabelle and move to that
directory (the name of the directory does not matter):
mkdir Isabelle; cd Isabelle
STEP 2. Put each message into a separate file and pipe it through unshar.
(If you don't have unshar, remove the header lines generated by the mail
system and submit the file to sh.)
STEP 3. Concatenate the files into one file using the command
cat Isabelle.?? > 92.tar.Z.uu
STEP 4. Undo the uuencode operation using the command
uudecode 92.tar.Z.uu
STEP 5. You should now have a file 92.tar.Z; uncompress and unpack it using...
uncompress -c 92.tar.Z | tar xf -
STEP 6. You should now have a complete Isabelle directory, called 92. You
may now tidy up by executing
rm Isabelle.?? *.hdr 92.tar.Z.uu 92.tar.Z
Consult the file 92/README for information on compiling Isabelle.
Good luck!