#C22.txt
Help22:=proc(): print(` Pn(n), AP(Y,i,m), SYT(L)  `): end:

#Ap(Y,i,m):write a procedure that inputs a Standard Young Tableau
#and an integer i between 1 and nops(Y)+1 and inserts the
#entry m at  the end of the i-th row, or if i=nops(Y)+1 make
#a new row with 1 cell occupied with m
AP:=proc(Y,i,m):

if i=nops(Y)+1 then
 RETURN([op(Y),[m]]):
fi:


if i>1 and nops(Y[i])=nops(Y[i-1]) then
  RETURN(FAIL):
fi:

[op(1..i-1,Y),[op(Y[i]),m],op(i+1..nops(Y),Y)]:


end:

#SYT(L): inputs an integer partion (given as a weakly decreasing
#list of POSITIVE integers OUTPUTS the LIST of
#Standard Young Tableax of shape L (n=Number of boxes of L)
#(A way of filling 1, ..., n in the boxes such that horiz. and
#vertically they are increasing
SYT:=proc(L) local n,L1,S,S1,i,j:
option remember:
n:=add(L):

if n=1 then 
  RETURN([[[1]]]):
fi:

S:=[]:

for i from 1 to nops(L)-1 do
 if L[i]>L[i+1] then
  L1:=[op(1..i-1,L),L[i]-1,op(i+1..nops(L),L)]:
  S1:=SYT(L1):
 S:=[op(S), seq(AP(S1[j],i,n),j=1..nops(S1))]:
 fi:
od:


 if L[-1]>1 then
  L1:=[op(1..nops(L)-1,L), L[nops(L)]-1 ]:
  else
  L1:=[op(1..nops(L)-1,L)]:
 fi:

 S1:=SYT(L1):
 S:=[op(S), seq(AP(S1[j],nops(L),n),j=1..nops(S1))]:

S:

end:


#syt(L): inputs an integer partion (given as a weakly decreasing
#list of POSITIVE integers OUTPUTS the NUMBER of
#Standard Young Tableax of shape L (n=Number of boxes of L)
#(A way of filling 1, ..., n in the boxes such that horiz. and
#vertically they are increasing
syt:=proc(L) local n,L1,S,S1,i,j:
option remember:
n:=add(L):

if n=1 then 
  RETURN(1):
fi:

S:=0:

for i from 1 to nops(L)-1 do
 if L[i]>L[i+1] then
  L1:=[op(1..i-1,L),L[i]-1,op(i+1..nops(L),L)]:
  S:=S+syt(L1):
 
fi:
od:


 if L[-1]>1 then
  L1:=[op(1..nops(L)-1,L), L[nops(L)]-1 ]:
  else
  L1:=[op(1..nops(L)-1,L)]:
 fi:

 S:=S+syt(L1):
S:
end:

##FROM C11.txt
#Pnk(n,k): The LIST of integer partitions of n with largest part k
Pnk:=proc(n,k) local k1,L,L1:
option remember:

if not (type(n,integer) and type(k,integer) and n>=1 and k>=1 )then
 RETURN([]):
fi:
 
if k>n then
 RETURN([]):
fi:

if k=n then
 RETURN([[n] ]):
fi:

L:=[]:

for k1 from min(n-k,k) by -1 to 1 do
 L1:=Pnk(n-k,k1):
 L:=[op(L), seq([k, op(L1[j])],j=1..nops(L1))]:
od:

L:

end:

#Pn(n): The list of integer partitions of n in rev. lex. order
Pn:=proc(n) local k:option remember:[seq(op(Pnk(n,n-k+1)),k=1..n)]:end:
#END FROM C11.txt