Cody

Solution 1471127

Submitted on 26 Mar 2018 by J-G van der Toorn
  • Size: 27
  • This is the leading solution.
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Test Suite

Test Status Code Input and Output
1   Pass
assessFunctionAbsence({'regexp', 'regexpi'}, 'FileName','checkForMistake.m')

2   Pass
xVec = round( 100*[5 1 5]/11 ); containsMistake = false; assert( isequal(checkForMistake(xVec), containsMistake) )

3   Pass
xVec = round( 100*[5 1 5]/11 )'; containsMistake = false; assert( isequal(checkForMistake(xVec), containsMistake) )

4   Pass
xVec = [42 20 45]; containsMistake = true; assert( isequal(checkForMistake(xVec), containsMistake) )

5   Pass
xVec = [100]; containsMistake = false; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test a') xVec = round([100.5]); containsMistake = true; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test b') xVec = round([99.49]); containsMistake = true; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test c')

6   Pass
xVec = [50 50]; containsMistake = false; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test a') xVec = round([49.5 50.5]); containsMistake = false; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test b') xVec = round([50.5 50.5]); containsMistake = true; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test c') xVec = round([49.49 50.49]); containsMistake = true; assert( isequal(checkForMistake(xVec), containsMistake) , 'Failed test d')

7   Pass
for j = [2:250 1000:1000:10000] xVec = round( repelem(100/j, j) ); containsMistake = false; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

8   Pass
for j = 10:30 xVec = round( 10 * (9/10).^[0:j] ); containsMistake = j < 21; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

9   Pass
for j = 2:40 xVec = round( 10 * (9/10).^[0:j] ); xVec = xVec( randperm(j+1) ); containsMistake = j < 21; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

10   Pass
for j = 2:100 xVec = round( (99/100).^[0:j] ); xVec = xVec( randperm(j+1) ); containsMistake = j < 66; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

11   Pass
for j = 2:30 xVec = round( 20 * (4/5).^[0:j] ); xVec = xVec( randperm(j+1) ); containsMistake = j < 12; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

12   Pass
for j = 2:20 xVec = round( 25 * (3/4).^[0:j] ); xVec = xVec( randperm(j+1) ); containsMistake = j < 10; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

13   Pass
for j = 2:20 xVec = round( 50 * (1/2).^[0:j] ); xVec = xVec( randperm(j+1) ); containsMistake = j < 5; assert( isequal(checkForMistake(xVec), containsMistake) ) end;

14   Pass
for j = 2:100 num = randi(round(100/j)+1) - 1; xRaw = repelem(num+0.5, j); % cf. https://oletus.github.io/float16-simulator.js/ sm = sum(xRaw); xRaw = [xRaw max(100-sm, 0)]; if sm > 100.5, % Not sm>100, because need to account for extra zero added. containsMistake = true; else containsMistake = false; end; xVec = round( xRaw ); xVec = xVec( randperm(j+1) ); assert( isequal(checkForMistake(xVec), containsMistake) , ['Failed with xRaw = ' num2str(xRaw)] ) end;

15   Pass
for j = 2:100 num = randi(round(100/j)+1) - 1; xRaw = repelem(num+0.499755859375, j); % cf. https://oletus.github.io/float16-simulator.js/ & https://au.mathworks.com/help/matlab/matlab_prog/floating-point-numbers.html cs = cumsum(xRaw); if cs(end) > 100, xRaw( cs > 100 ) = []; containsMistake = true; else xRaw = [xRaw (100-cs(end))]; containsMistake = false; end; xVec = round( xRaw ); assert( isequal(checkForMistake(xVec), containsMistake) , ['Failed with xRaw = ' num2str(xRaw)] ) end;