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 |
% The Test Suite will be updated if inappropriate submissions are received.
% This includes hard-coded (pre-calculated, externally calculated, manually calculated) 'solutions'.
filetext = fileread('standardGame.m');
vec = [923273, 144780, 713710, 217788, 507812, 992110, 170355, 264270, 376851, 475014];
msg = 'Please do not hard-code your ''solution''.';
assert( all( arrayfun(@(z) isempty(strfind(filetext, num2str(z))), vec) ) , msg )
|
| 2 | Pass |
% There are only two players, so the chances for each should add up to one.
assert( abs(standardGame(100)+standardGame(0) - 1) < 20 * eps(single(1)) )
assert( abs(standardGame(90)+standardGame(10) - 1) < 20 * eps(single(1)) )
assert( abs(standardGame(80)+standardGame(20) - 1) < 20 * eps(single(1)) )
assert( abs(standardGame(70)+standardGame(30) - 1) < 20 * eps(single(1)) )
assert( abs(standardGame(60)+standardGame(40) - 1) < 20 * eps(single(1)) )
assert( abs(standardGame(50)+standardGame(50) - 1) < 20 * eps(single(1)) )
|
| 3 | Pass |
x = uint8(50);
y_correct = 0.50;
assert( isequal(standardGame(x), y_correct) )
|
| 4 | Pass |
x = uint8(0);
y_correct = 0;
assert( isequal(standardGame(x), y_correct) )
|
| 5 | Pass |
x = uint8(100);
y_correct = 1;
assert( isequal(standardGame(x), y_correct) )
|
| 6 | Pass |
x = uint8(5);
y_correct = 0.0000923273480663;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 7 | Pass |
x = uint8(10);
y_correct = 0.0014478048780488;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 8 | Pass |
x = uint8(15);
y_correct = 0.0071371057046980;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 9 | Pass |
x = uint8(20);
y_correct = 0.0217788235294118;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 10 | Pass |
x = uint8(25);
y_correct = 0.0507812500000000;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 11 | Pass |
x = uint8(30);
y_correct = 0.0992110344827586;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 12 | Pass |
x = uint8(35);
y_correct = 0.1703553555045871;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 13 | Pass |
x = uint8(40);
y_correct = 0.2642707692307693;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 14 | Pass |
x = uint8(45);
y_correct = 0.3768514975247527;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 15 | Pass |
x = uint8(49);
y_correct = 0.4750149924031987;
assert( abs( standardGame(x) - y_correct ) < 10 * eps(single(y_correct)) )
|
| 16 | Pass |
for i = 1:5
x = uint8( randi(100) );
assert( isequal(class(standardGame(x)), 'single') )
end;
|
Suggested Problems
-
193 Solvers
-
244 Solvers
-
140 Solvers
-
138 Solvers
-
246 Solvers
More from this Author31
Select a Web Site
Choose a web site to get translated content where available and see local events and offers. Based on your location, we recommend that you select: .
Select web siteYou can also select a web site from the following list:
Americas
- América Latina (Español)
- Canada (English)
- United States (English)
Europe
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)