let i, m be Nat; :: thesis: for D being non empty set
for d being Element of D
for F being FinSequence_of_Matrix of D st i in Seg (Sum (Len F)) & m = min (Len F),i holds
Line (block_diagonal F,d),i = (((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum (Len (F | (m -' 1))))))) ^ (((Sum (Width F)) -' (Sum (Width (F | m)))) |-> d)
let D be non empty set ; :: thesis: for d being Element of D
for F being FinSequence_of_Matrix of D st i in Seg (Sum (Len F)) & m = min (Len F),i holds
Line (block_diagonal F,d),i = (((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum (Len (F | (m -' 1))))))) ^ (((Sum (Width F)) -' (Sum (Width (F | m)))) |-> d)
let d be Element of D; :: thesis: for F being FinSequence_of_Matrix of D st i in Seg (Sum (Len F)) & m = min (Len F),i holds
Line (block_diagonal F,d),i = (((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum (Len (F | (m -' 1))))))) ^ (((Sum (Width F)) -' (Sum (Width (F | m)))) |-> d)
let F be FinSequence_of_Matrix of D; :: thesis: ( i in Seg (Sum (Len F)) & m = min (Len F),i implies Line (block_diagonal F,d),i = (((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum (Len (F | (m -' 1))))))) ^ (((Sum (Width F)) -' (Sum (Width (F | m)))) |-> d) )
assume that
A1: i in Seg (Sum (Len F)) and
A2: m = min (Len F),i ; :: thesis: Line (block_diagonal F,d),i = (((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum (Len (F | (m -' 1))))))) ^ (((Sum (Width F)) -' (Sum (Width (F | m)))) |-> d)
set L = Len F;
A3: ((Len F) | m) . m = (Len F) . m by FINSEQ_3:121;
set BF9m = block_diagonal (F /^ m),d;
set BFm = block_diagonal (F | m),d;
A4: len (block_diagonal (F | m),d) = Sum (Len (F | m)) by Def5
.= Sum ((Len F) | m) by Th17 ;
F = (F | m) ^ (F /^ m) by RFINSEQ:21;
then A5: block_diagonal F,d = block_diagonal ((F | m) ^ <*(block_diagonal (F /^ m),d)*>),d by Th36
.= block_diagonal <*(block_diagonal (F | m),d),(block_diagonal (F /^ m),d)*>,d by Th35 ;
then Sum (Width F) = width (block_diagonal <*(block_diagonal (F | m),d),(block_diagonal (F /^ m),d)*>,d) by Def5
.= Sum (Width <*(block_diagonal (F | m),d),(block_diagonal (F /^ m),d)*>) by Def5
.= (width (block_diagonal (F | m),d)) + (width (block_diagonal (F /^ m),d)) by Th20
.= (Sum (Width (F | m))) + (width (block_diagonal (F /^ m),d)) by Def5 ;
then A6: (Sum (Width F)) -' (Sum (Width (F | m))) = ((Sum (Width (F | m))) + (width (block_diagonal (F /^ m),d))) - (Sum (Width (F | m))) by NAT_1:11, XREAL_1:235
.= width (block_diagonal (F /^ m),d) ;
Sum ((Len F) | (m -' 1)) < i by A1, A2, Th7;
then A7: i - (Sum ((Len F) | (m -' 1))) = i -' (Sum ((Len F) | (m -' 1))) by XREAL_1:235;
A8: m in dom (Len F) by A1, A2, Def1;
then 1 <= m by FINSEQ_3:27;
then m -' 1 = m - 1 by XREAL_1:235;
then A9: m = (m -' 1) + 1 ;
then m -' 1 <= m by NAT_1:11;
then A10: Seg (m -' 1) c= Seg m by FINSEQ_1:7;
then A11: (F | m) | (m -' 1) = F | (m -' 1) by RELAT_1:103;
m <= len (Len F) by A8, FINSEQ_3:27;
then len ((Len F) | m) = m by FINSEQ_1:80;
then A12: (Len F) | m = (((Len F) | m) | (m -' 1)) ^ <*(((Len F) | m) . m)*> by A9, FINSEQ_3:61;
((Len F) | m) | (m -' 1) = (Len F) | (m -' 1) by A10, RELAT_1:103;
then Sum ((Len F) | m) = (Sum ((Len F) | (m -' 1))) + ((Len F) . m) by A12, A3, RVSUM_1:104
.= (Sum ((Len F) | (m -' 1))) + (len (F . m)) by A8, Def3 ;
then (len (F . m)) + (Sum ((Len F) | (m -' 1))) >= (i -' (Sum ((Len F) | (m -' 1)))) + (Sum ((Len F) | (m -' 1))) by A1, A2, A7, Def1;
then A13: len (F . m) >= i -' (Sum ((Len F) | (m -' 1))) by XREAL_1:8;
i - (Sum ((Len F) | (m -' 1))) <> 0 by A1, A2, Th7;
then i -' (Sum ((Len F) | (m -' 1))) >= 1 by A7, NAT_1:14;
then A14: i -' (Sum ((Len F) | (m -' 1))) in dom (F . m) by A13, FINSEQ_3:27;
set BFm1 = block_diagonal (F | (m -' 1)),d;
A15: (F | m) . m = F . m by FINSEQ_3:121;
A16: width (block_diagonal (F | (m -' 1)),d) = Sum (Width (F | (m -' 1))) by Def5
.= Sum ((Width F) | (m -' 1)) by Th21 ;
A17: 1 <= i by A1, FINSEQ_1:3;
i <= Sum ((Len F) | m) by A1, A2, Def1;
then i in dom (block_diagonal (F | m),d) by A17, A4, FINSEQ_3:27;
then A18: Line (block_diagonal F,d),i = (Line (block_diagonal (F | m),d),i) ^ ((width (block_diagonal (F /^ m),d)) |-> d) by A5, Th23;
dom (Len F) = dom F by Def3;
then m <= len F by A8, FINSEQ_3:27;
then len (F | m) = m by FINSEQ_1:80;
then F | m = ((F | m) | (m -' 1)) ^ <*((F | m) . m)*> by A9, FINSEQ_3:61;
then A19: block_diagonal (F | m),d = block_diagonal <*(block_diagonal (F | (m -' 1)),d),(F . m)*>,d by A15, A11, Th35;
len (block_diagonal (F | (m -' 1)),d) = Sum (Len (F | (m -' 1))) by Def5
.= Sum ((Len F) | (m -' 1)) by Th17 ;
then ((Sum ((Width F) | (m -' 1))) |-> d) ^ (Line (F . m),(i -' (Sum ((Len F) | (m -' 1))))) = Line (block_diagonal (F | m),d),((Sum ((Len F) | (m -' 1))) + (i -' (Sum ((Len F) | (m -' 1))))) by A14, A16, A19, Th23
.= Line (block_diagonal (F | m),d),i by A7 ;
then Line (block_diagonal (F | m),d),i = ((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum ((Len F) | (m -' 1))))) by Th21;
hence Line (block_diagonal F,d),i = (((Sum (Width (F | (m -' 1)))) |-> d) ^ (Line (F . m),(i -' (Sum (Len (F | (m -' 1))))))) ^ (((Sum (Width F)) -' (Sum (Width (F | m)))) |-> d) by A6, A18, Th17; :: thesis: verum