2 added 35 characters in body edited Apr 19 '13 at 21:56 Pursuit 8,5421927 Given A and B ``````A={{'a','b'},{'c'},{'d','e'}} B={{'a','b'},{'c','d'},{'e'}} `````` We can define a function `isSubset`, as follows: ``````isSubset = @(superSet,subSet)isempty(setdiff(subSet, superSet)); `````` And test it: ``````isSubset(B{1}, A{1}) %true isSubset(B{2}, A{2}) %true isSubset(B{3}, A{3}) %false `````` Now we can use `isSubSet` and `cellfun` to define a function `isSubSetOfAny`, which checks to see if a particular subset is a subset of any or of a set of sets, like this: ``````isSubSetOfAny = @(superSetSet, subSet) any(cellfun(@(x)isSubset(x, subSet), superSetSet)); `````` And test it: ``````isSubSetOfAny(B, A{1}) %True isSubSetOfAny(B, A{2}) %True isSubSetOfAny(B, A{3}) %True `````` Now we can use `isSubSetOfAny` plus `cellfun` (again) to define `isEachMemberASubsetOfAny`, which performs the operation you describe: `````` isEachMemberASubsetOfAny = @(superSetSet, subSetSet) all(cellfun(@(x)isSubSetOfAny(superSetSet, x), subSetSet)); `````` And test it: ``````isEachMemberASubsetOfAny(B, A) %Returns false A_1 = {{'a','b'},{'c'},{'e'}}; %Define a variant of `A` isEachMemberASubsetOfAny(B, A_1) %Returns false `````` Given A and B ``````A={{'a','b'},{'c'},{'d','e'}} `````` We can define a function `isSubset`, as follows: ``````isSubset = @(superSet,subSet)isempty(setdiff(subSet, superSet)); `````` And test it: ``````isSubset(B{1}, A{1}) %true isSubset(B{2}, A{2}) %true isSubset(B{3}, A{3}) %false `````` Now we can use `isSubSet` and `cellfun` to define a function `isSubSetOfAny`, which checks to see if a particular subset is a subset of any or a set of sets, like this: ``````isSubSetOfAny = @(superSetSet, subSet) any(cellfun(@(x)isSubset(x, subSet), superSetSet)); `````` And test it: ``````isSubSetOfAny(B, A{1}) %True isSubSetOfAny(B, A{2}) %True isSubSetOfAny(B, A{3}) %True `````` Now we can use `isSubSetOfAny` plus `cellfun` (again) to define `isEachMemberASubsetOfAny`, which performs the operation you describe: `````` isEachMemberASubsetOfAny = @(superSetSet, subSetSet) all(cellfun(@(x)isSubSetOfAny(superSetSet, x), subSetSet)); `````` And test it: ``````isEachMemberASubsetOfAny(B, A) %Returns false A_1 = {{'a','b'},{'c'},{'e'}}; %Define a variant of `A` isEachMemberASubsetOfAny(B, A_1) %Returns false `````` Given A and B ``````A={{'a','b'},{'c'},{'d','e'}} B={{'a','b'},{'c','d'},{'e'}} `````` We can define a function `isSubset`, as follows: ``````isSubset = @(superSet,subSet)isempty(setdiff(subSet, superSet)); `````` And test it: ``````isSubset(B{1}, A{1}) %true isSubset(B{2}, A{2}) %true isSubset(B{3}, A{3}) %false `````` Now we can use `isSubSet` and `cellfun` to define a function `isSubSetOfAny`, which checks to see if a particular subset is a subset of any of a set of sets, like this: ``````isSubSetOfAny = @(superSetSet, subSet) any(cellfun(@(x)isSubset(x, subSet), superSetSet)); `````` And test it: ``````isSubSetOfAny(B, A{1}) %True isSubSetOfAny(B, A{2}) %True isSubSetOfAny(B, A{3}) %True `````` Now we can use `isSubSetOfAny` plus `cellfun` (again) to define `isEachMemberASubsetOfAny`, which performs the operation you describe: `````` isEachMemberASubsetOfAny = @(superSetSet, subSetSet) all(cellfun(@(x)isSubSetOfAny(superSetSet, x), subSetSet)); `````` And test it: ``````isEachMemberASubsetOfAny(B, A) %Returns false A_1 = {{'a','b'},{'c'},{'e'}}; %Define a variant of `A` isEachMemberASubsetOfAny(B, A_1) %Returns false `````` 1 answered Apr 19 '13 at 20:45 Pursuit 8,5421927 Given A and B ``````A={{'a','b'},{'c'},{'d','e'}} `````` We can define a function `isSubset`, as follows: ``````isSubset = @(superSet,subSet)isempty(setdiff(subSet, superSet)); `````` And test it: ``````isSubset(B{1}, A{1}) %true isSubset(B{2}, A{2}) %true isSubset(B{3}, A{3}) %false `````` Now we can use `isSubSet` and `cellfun` to define a function `isSubSetOfAny`, which checks to see if a particular subset is a subset of any or a set of sets, like this: ``````isSubSetOfAny = @(superSetSet, subSet) any(cellfun(@(x)isSubset(x, subSet), superSetSet)); `````` And test it: ``````isSubSetOfAny(B, A{1}) %True isSubSetOfAny(B, A{2}) %True isSubSetOfAny(B, A{3}) %True `````` Now we can use `isSubSetOfAny` plus `cellfun` (again) to define `isEachMemberASubsetOfAny`, which performs the operation you describe: `````` isEachMemberASubsetOfAny = @(superSetSet, subSetSet) all(cellfun(@(x)isSubSetOfAny(superSetSet, x), subSetSet)); `````` And test it: ``````isEachMemberASubsetOfAny(B, A) %Returns false A_1 = {{'a','b'},{'c'},{'e'}}; %Define a variant of `A` isEachMemberASubsetOfAny(B, A_1) %Returns false ``````