Cody

# Problem 1506. Maximum Intra-Vector Swaps

Solution 243874

Submitted on 14 May 2013 by Richard Zapor
This solution is locked. To view this solution, you need to provide a solution of the same size or smaller.

### Test Suite

Test Status Code Input and Output
1   Pass
tic feval(@assignin,'caller','score',2000);

``` ```

2   Pass
%% % 2 1 global cseq cseq{1}=1; % Gift answer max_seq=find_max_swap_seq(2); assert(isequal(1:2,unique(max_seq))) cseq{2}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 1 2 1 ```

3   Pass
%% % 3 2 global cseq max_seq=find_max_swap_seq(3); assert(isequal(1:3,unique(max_seq))) cseq{3}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 2 3 1 2 ```

4   Pass
%% % 4 4 global cseq max_seq=find_max_swap_seq(4); assert(isequal(1:4,unique(max_seq))) cseq{4}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 4 3 1 4 2 ```

5   Pass
%% % 5 7 global cseq max_seq=find_max_swap_seq(5); assert(isequal(1:5,unique(max_seq))) cseq{5}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 7 3 1 4 5 2 ```

6   Pass
%% % 6 10 global cseq max_seq=find_max_swap_seq(6); assert(isequal(1:6,unique(max_seq))) cseq{6}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 10 5 6 4 1 3 2 ```

7   Pass
%% % 7 16 global cseq max_seq=find_max_swap_seq(7); assert(isequal(1:7,unique(max_seq))) cseq{7}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 16 4 7 6 2 1 5 3 ```

8   Pass
%% % 8 22 global cseq max_seq=find_max_swap_seq(8); assert(isequal(1:8,unique(max_seq))) cseq{8}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 22 6 1 5 7 8 3 2 4 ```

9   Pass
%% % 9 30 global cseq max_seq=find_max_swap_seq(9); assert(isequal(1:9,unique(max_seq))) cseq{9}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 30 6 1 5 9 7 2 8 3 4 ```

10   Pass
%% %10 38 global cseq max_seq=find_max_swap_seq(10); assert(isequal(1:10,unique(max_seq))) cseq{10}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 38 5 9 1 8 6 2 10 4 7 3 ```

11   Pass
%% %11 51 global cseq max_seq=find_max_swap_seq(11); assert(isequal(1:11,unique(max_seq))) cseq{11}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 51 4 9 11 6 10 7 8 2 1 3 5 ```

12   Pass
%% %13 80 case 12 global cseq max_seq=find_max_swap_seq(13); assert(isequal(1:13,unique(max_seq))) cseq{12}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 80 2 9 4 5 11 12 10 1 8 13 3 6 7 ```

13   Pass
%% %17 159 case 13 global cseq max_seq=find_max_swap_seq(17); assert(isequal(1:17,unique(max_seq))) cseq{13}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 142 8 12 11 13 1 2 5 3 7 17 15 16 10 4 6 9 14 ```

14   Pass
%% %19 221 case 14 global cseq max_seq=find_max_swap_seq(19); assert(isequal(1:19,unique(max_seq))) cseq{14}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 177 4 5 15 9 18 16 17 6 8 1 10 11 12 19 3 14 13 2 7 ```

15   Pass
%% %23 382 case 15 global cseq max_seq=find_max_swap_seq(23); assert(isequal(1:23,unique(max_seq))) cseq{15}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 260 8 11 19 1 9 15 17 4 10 14 23 21 5 2 20 6 12 22 7 18 16 13 3 ```

16   Pass
%% %29 689 case 16 global cseq max_seq=find_max_swap_seq(29); assert(isequal(1:29,unique(max_seq))) cseq{16}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n')

```count 426 7 18 26 6 28 17 4 22 12 29 13 23 16 19 2 27 24 11 8 14 1 25 15 3 10 20 9 21 5 ```

17   Pass
%% %31 819 case 17 global cseq max_seq=find_max_swap_seq(31); assert(isequal(1:31,unique(max_seq))) cseq{17}=max_seq; seq=max_seq; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end fprintf('count %i\n',count) fprintf('%i ',max_seq) fprintf('\n') toc

```count 481 3 19 15 16 9 22 11 26 28 21 2 13 30 4 18 29 27 14 23 17 8 24 6 25 7 1 10 31 12 20 5 Elapsed time is 53.535306 seconds. ```

18   Pass
%% global cseq total=0; for i=2:17 seq=cseq{i}; count=0; while seq(1)>1 count=count+1; seq(1:seq(1))=seq(seq(1):-1:1); end total=total+count; end % 2531 is optimal sum total=sum([0 1 2 4 7 10 16 22 30 38 51 80 159 221 382 689 819])-total; assert(total<2001); % Minimum performance requirement toc feval(@assignin,'caller','score',min(2000,total));

```Elapsed time is 53.578373 seconds. ```