I have an NSArray which contains some NSString objects. For example:
NSArray *objects = #[#"Stin",#"Foo",#"Ray",#"Space"];
Now I need to sort this array based on following order of Strings.
NSArray *sortOrder = #[#"John",#"Foo",#"Space",#"Star",#"Ray",#"Stin"];
So the answer should be
NSArray *sorted = #[#"Foo",#"Space",#"Ray",#"Stin"];
How can I achieve this?
ANSWER:
Based on Accepted answer of dasblinkenlight, I did following and it worked to charm.
NSMutableArray *objects = #[#"Star",#"Stin",#"Foo",#"Ray",#"Space",#"John"];
NSArray *sortOrder = #[#"John",#"Foo",#"Space",#"Star",#"Ray",#"Stin"];
[objects sortUsingComparator:^NSComparisonResult(id obj1, id obj2) {
int index1 = [sortOrder indexOfObject:obj1];
int index2 = [sortOrder indexOfObject:obj2];
if (index1 > index2)
return NSOrderedDescending;
if (index1 < index2)
return NSOrderedAscending;
return NSOrderedSame;
}];
Create NSComparator that holds a reference to the superset array, and decides the relative order of strings by comparing the results of calling [superset indexOfObject:str] on both strings. Call sortedArrayUsingComparator: passing an instance of NSComparator to get the desired ordering.
dasblinkenlight's solution would work, but like most programming problems there are multiple ways to go about it. Here is one such alternative:
NSMutableArray *sorted = [NSMutableArray arrayWithCapacity:0];
[sortOrder enumerateObjectsUsingBlock:^(NSString *sortedString, NSUInteger idx, BOOL *stop) {
if ([objects containsObject:sortedString]) {
[sorted addObject:sortedString];
}
}];
The variable names correspond to the variable names used in the original question.
This works because the enumeration happens in order. Therefore, what takes place is, essentially, a cull of the objects that exist in both arrays in the order as specified by sortOrder.
I have an array of myObjects called arrayToFilter. One (element?) of myObject is an array of bezierpaths. I am comparing the bezierpath at a particular index (thispath) to a second path, and making filteredArray composed of only those objects in which the paths overlapped a certain amount (20%). I used indexedOfObjectsPassingTest to like this:
NSIndexSet * index = [[arrayToFilter objectsAtIndexes:index] indexesOfObjectsPassingTest:^BOOL (id obj, NSUInteger idx, BOOL *stop){
MyObject * anobject = obj;
UIBezierPath * thispath = [anobject.allPaths objectAtIndex:i];
NSInteger overlap = [self percentPathBoxOverlap:path: thispath];
return overlap>20;
}];
if ([index count] !=0){
filteredArray = [arrayToFilter objectsAtIndexes:index] ;
}
This works fine. But what i'd like to do is have filteredArray come out sorted with those object with the higher value for overlap coming out first. since overlap is calculated on the fly based on the current path and thispath, i don't know how to use any of the sorted array methods.
You can start off by creating an array of dictionaries containing both path and the overlap data. This will require some modification to your current approach where you search and extract over filter.
NSMutableArray * searchResults = [NSMutableArray array];
[arrayToSearch enumerateObjectsUsingBlock:^(id obj, NSUInteger idx, BOOL *stop){
MyObject * anobject = obj;
UIBezierPath * thispath = [anobject.allPaths objectAtIndex:i];
NSInteger overlap = [self percentPathBoxOverlap:path: thispath];
if ( overlap > 20 ) {
NSMutableDictionary * dictionary = [NSMutableDictionary dictionaryWithObjectsAndKeys:anObject, #"object", [NSNumber numberWithInteger:overlap], #"overlap", nil];
[searchResults addObject:dictionary];
}
}];
Now you can sort this array using the overlap key of the dictionaries.
NSSortDescriptor * descriptor = [NSSortDescriptor sortDescriptorWithKey:#"overlap" ascending:NO];
NSArray * sortedArray = [searchResults sortedArrayUsingDescriptors:[NSArray arrayWithObject:descriptor]];
Now sortedArray will have the sorted list of path and overlap information.
You'll have to sort the array first, then call indexesOfObjectsPassingTest for the sorted indices. sortedArrayUsingComparator: is one of the easier methods of sorting an array, it takes a block just like the indexesOfObjectsPassingTest method.
NSArray arrayToFilter = [originalArray sortedArrayUsingComparator: ^(id a, id b)
{
if (a.someValue > b.someValue) return NSOrderedAscending;
if (a.someValue < b.someValue) return NSOrderedDescending;
return NSOrderedSame;
}];
Then you can perform your existing filtering on the arrayToFilter
What I want to do seems pretty simple, but I can't find any answers on the web. I have an NSMutableArray of objects, and let's say they are 'Person' objects. I want to sort the NSMutableArray by Person.birthDate which is an NSDate.
I think it has something to do with this method:
NSArray *sortedArray = [drinkDetails sortedArrayUsingSelector:#selector(???)];
In Java I would make my object implement Comparable, or use Collections.sort with an inline custom comparator...how on earth do you do this in Objective-C?
Compare method
Either you implement a compare-method for your object:
- (NSComparisonResult)compare:(Person *)otherObject {
return [self.birthDate compare:otherObject.birthDate];
}
NSArray *sortedArray = [drinkDetails sortedArrayUsingSelector:#selector(compare:)];
NSSortDescriptor (better)
or usually even better:
NSSortDescriptor *sortDescriptor;
sortDescriptor = [[NSSortDescriptor alloc] initWithKey:#"birthDate"
ascending:YES];
NSArray *sortedArray = [drinkDetails sortedArrayUsingDescriptors:#[sortDescriptor]];
You can easily sort by multiple keys by adding more than one to the array. Using custom comparator-methods is possible as well. Have a look at the documentation.
Blocks (shiny!)
There's also the possibility of sorting with a block since Mac OS X 10.6 and iOS 4:
NSArray *sortedArray;
sortedArray = [drinkDetails sortedArrayUsingComparator:^NSComparisonResult(Person *a, Person *b) {
return [a.birthDate compare:b.birthDate];
}];
Performance
The -compare: and block-based methods will be quite a bit faster, in general, than using NSSortDescriptor as the latter relies on KVC. The primary advantage of the NSSortDescriptor method is that it provides a way to define your sort order using data, rather than code, which makes it easy to e.g. set things up so users can sort an NSTableView by clicking on the header row.
See the NSMutableArray method sortUsingFunction:context:
You will need to set up a compare function which takes two objects (of type Person, since you are comparing two Person objects) and a context parameter.
The two objects are just instances of Person. The third object is a string, e.g. #"birthDate".
This function returns an NSComparisonResult: It returns NSOrderedAscending if PersonA.birthDate < PersonB.birthDate. It will return NSOrderedDescending if PersonA.birthDate > PersonB.birthDate. Finally, it will return NSOrderedSame if PersonA.birthDate == PersonB.birthDate.
This is rough pseudocode; you will need to flesh out what it means for one date to be "less", "more" or "equal" to another date (such as comparing seconds-since-epoch etc.):
NSComparisonResult compare(Person *firstPerson, Person *secondPerson, void *context) {
if ([firstPerson birthDate] < [secondPerson birthDate])
return NSOrderedAscending;
else if ([firstPerson birthDate] > [secondPerson birthDate])
return NSOrderedDescending;
else
return NSOrderedSame;
}
If you want something more compact, you can use ternary operators:
NSComparisonResult compare(Person *firstPerson, Person *secondPerson, void *context) {
return ([firstPerson birthDate] < [secondPerson birthDate]) ? NSOrderedAscending : ([firstPerson birthDate] > [secondPerson birthDate]) ? NSOrderedDescending : NSOrderedSame;
}
Inlining could perhaps speed this up a little, if you do this a lot.
I did this in iOS 4 using a block.
Had to cast the elements of my array from id to my class type.
In this case it was a class called Score with a property called points.
Also you need to decide what to do if the elements of your array are not the right type, for this example I just returned NSOrderedSame, however in my code I though an exception.
NSArray *sorted = [_scores sortedArrayUsingComparator:^(id obj1, id obj2){
if ([obj1 isKindOfClass:[Score class]] && [obj2 isKindOfClass:[Score class]]) {
Score *s1 = obj1;
Score *s2 = obj2;
if (s1.points > s2.points) {
return (NSComparisonResult)NSOrderedAscending;
} else if (s1.points < s2.points) {
return (NSComparisonResult)NSOrderedDescending;
}
}
// TODO: default is the same?
return (NSComparisonResult)NSOrderedSame;
}];
return sorted;
PS: This is sorting in descending order.
I tried all, but this worked for me. In a class I have another class named "crimeScene", and want to sort by a property of "crimeScene".
This works like a charm:
NSSortDescriptor *sorter = [[NSSortDescriptor alloc] initWithKey:#"crimeScene.distance" ascending:YES];
[self.arrAnnotations sortUsingDescriptors:[NSArray arrayWithObject:sorter]];
Starting in iOS 4 you can also use blocks for sorting.
For this particular example I'm assuming that the objects in your array have a 'position' method, which returns an NSInteger.
NSArray *arrayToSort = where ever you get the array from... ;
NSComparisonResult (^sortBlock)(id, id) = ^(id obj1, id obj2)
{
if ([obj1 position] > [obj2 position])
{
return (NSComparisonResult)NSOrderedDescending;
}
if ([obj1 position] < [obj2 position])
{
return (NSComparisonResult)NSOrderedAscending;
}
return (NSComparisonResult)NSOrderedSame;
};
NSArray *sorted = [arrayToSort sortedArrayUsingComparator:sortBlock];
Note: the "sorted" array will be autoreleased.
There is a missing step in Georg Schölly's second answer, but it works fine then.
NSSortDescriptor *sortDescriptor;
sortDescriptor = [[[NSSortDescriptor alloc] initWithKey:#"birthDate"
ascending:YES] autorelease];
NSArray *sortDescriptors = [NSArray arrayWithObject:sortDescriptor];
NSArray *sortedArray;
sortedArray = [drinkDetails sortedArrayUsingDescriptors:sortDescriptors];
// added the 's' because time was wasted when I copied and pasted and it failed without the 's' in sortedArrayUsingDescriptors
NSSortDescriptor *sortDescriptor;
sortDescriptor = [[[NSSortDescriptor alloc] initWithKey:#"birthDate" ascending:YES] autorelease];
NSArray *sortDescriptors = [NSArray arrayWithObject:sortDescriptor];
NSArray *sortedArray;
sortedArray = [drinkDetails sortedArrayUsingDescriptors:sortDescriptors];
Thanks, it's working fine...
Your Person objects need to implement a method, say compare: which takes another Person object, and return NSComparisonResult according to the relationship between the 2 objects.
Then you would call sortedArrayUsingSelector: with #selector(compare:) and it should be done.
There are other ways, but as far as I know there is no Cocoa-equiv of the Comparable interface. Using sortedArrayUsingSelector: is probably the most painless way to do it.
iOS 4 blocks will save you :)
featuresArray = [[unsortedFeaturesArray sortedArrayUsingComparator: ^(id a, id b)
{
DMSeatFeature *first = ( DMSeatFeature* ) a;
DMSeatFeature *second = ( DMSeatFeature* ) b;
if ( first.quality == second.quality )
return NSOrderedSame;
else
{
if ( eSeatQualityGreen == m_seatQuality || eSeatQualityYellowGreen == m_seatQuality || eSeatQualityDefault == m_seatQuality )
{
if ( first.quality < second.quality )
return NSOrderedAscending;
else
return NSOrderedDescending;
}
else // eSeatQualityRed || eSeatQualityYellow
{
if ( first.quality > second.quality )
return NSOrderedAscending;
else
return NSOrderedDescending;
}
}
}] retain];
http://sokol8.blogspot.com/2011/04/sorting-nsarray-with-blocks.html a bit of description
For NSMutableArray, use the sortUsingSelector method. It sorts it-place, without creating a new instance.
You can use the following generic method for your purpose. It should solve your issue.
//Called method
-(NSMutableArray*)sortArrayList:(NSMutableArray*)arrDeviceList filterKeyName:(NSString*)sortKeyName ascending:(BOOL)isAscending{
NSSortDescriptor *sorter = [[NSSortDescriptor alloc] initWithKey:sortKeyName ascending:isAscending];
[arrDeviceList sortUsingDescriptors:[NSArray arrayWithObject:sorter]];
return arrDeviceList;
}
//Calling method
[self sortArrayList:arrSomeList filterKeyName:#"anything like date,name etc" ascending:YES];
If you're just sorting an array of NSNumbers, you can sort them with 1 call:
[arrayToSort sortUsingSelector: #selector(compare:)];
That works because the objects in the array (NSNumber objects) implement the compare method. You could do the same thing for NSString objects, or even for an array of custom data objects that implement a compare method.
Here's some example code using comparator blocks. It sorts an array of dictionaries where each dictionary includes a number in a key "sort_key".
#define SORT_KEY #\"sort_key\"
[anArray sortUsingComparator:
^(id obj1, id obj2)
{
NSInteger value1 = [[obj1 objectForKey: SORT_KEY] intValue];
NSInteger value2 = [[obj2 objectForKey: SORT_KEY] intValue];
if (value1 > value2)
{
return (NSComparisonResult)NSOrderedDescending;
}
if (value1 < value2)
{
return (NSComparisonResult)NSOrderedAscending;
}
return (NSComparisonResult)NSOrderedSame;
}];
The code above goes through the work of getting an integer value for each sort key and comparing them, as an illustration of how to do it. Since NSNumber objects implement a compare method, it could be rewritten much more simply:
#define SORT_KEY #\"sort_key\"
[anArray sortUsingComparator:
^(id obj1, id obj2)
{
NSNumber* key1 = [obj1 objectForKey: SORT_KEY];
NSNumber* key2 = [obj2 objectForKey: SORT_KEY];
return [key1 compare: key2];
}];
or the body of the comparator could even be distilled down to 1 line:
return [[obj1 objectForKey: SORT_KEY] compare: [obj2 objectForKey: SORT_KEY]];
I tend to prefer simple statements and lots of temporary variables because the code is easier to read, and easier to debug. The compiler optimizes away the temporary variables anyway, so there is no advantage to the all-in-one-line version.
You use NSSortDescriptor to sort an NSMutableArray with custom objects
NSSortDescriptor *sortingDescriptor;
sortingDescriptor = [[NSSortDescriptor alloc] initWithKey:#"birthDate"
ascending:YES];
NSArray *sortArray = [drinkDetails sortedArrayUsingDescriptors:#[sortDescriptor]];
-(NSMutableArray*) sortArray:(NSMutableArray *)toBeSorted
{
NSArray *sortedArray;
sortedArray = [toBeSorted sortedArrayUsingComparator:^NSComparisonResult(id a, id b)
{
return [a compare:b];
}];
return [sortedArray mutableCopy];
}
I have created a small library of category methods, called Linq to ObjectiveC, that makes this sort of thing more easy. Using the sort method with a key selector, you can sort by birthDate as follows:
NSArray* sortedByBirthDate = [input sort:^id(id person) {
return [person birthDate];
}]
I just done multi level sorting based on custom requirement.
//sort the values
[arrItem sortUsingComparator:^NSComparisonResult (id a, id b){
ItemDetail * itemA = (ItemDetail*)a;
ItemDetail* itemB =(ItemDetail*)b;
//item price are same
if (itemA.m_price.m_selling== itemB.m_price.m_selling) {
NSComparisonResult result= [itemA.m_itemName compare:itemB.m_itemName];
//if item names are same, then monogramminginfo has to come before the non monograme item
if (result==NSOrderedSame) {
if (itemA.m_monogrammingInfo) {
return NSOrderedAscending;
}else{
return NSOrderedDescending;
}
}
return result;
}
//asscending order
return itemA.m_price.m_selling > itemB.m_price.m_selling;
}];
https://sites.google.com/site/greateindiaclub/mobil-apps/ios/multilevelsortinginiosobjectivec
I've used sortUsingFunction:: in some of my projects:
int SortPlays(id a, id b, void* context)
{
Play* p1 = a;
Play* p2 = b;
if (p1.score<p2.score)
return NSOrderedDescending;
else if (p1.score>p2.score)
return NSOrderedAscending;
return NSOrderedSame;
}
...
[validPlays sortUsingFunction:SortPlays context:nil];
Sorting NSMutableArray is very simple:
NSMutableArray *arrayToFilter =
[[NSMutableArray arrayWithObjects:#"Photoshop",
#"Flex",
#"AIR",
#"Flash",
#"Acrobat", nil] autorelease];
NSMutableArray *productsToRemove = [[NSMutableArray array] autorelease];
for (NSString *products in arrayToFilter) {
if (fliterText &&
[products rangeOfString:fliterText
options:NSLiteralSearch|NSCaseInsensitiveSearch].length == 0)
[productsToRemove addObject:products];
}
[arrayToFilter removeObjectsInArray:productsToRemove];
Sort using NSComparator
If we want to sort custom objects we need to provide NSComparator, which is used to compare custom objects. The block returns an NSComparisonResult value to denote the ordering of the two objects. So in order to sort whole array NSComparator is used in following way.
NSArray *sortedArray = [employeesArray sortedArrayUsingComparator:^NSComparisonResult(Employee *e1, Employee *e2){
return [e1.firstname compare:e2.firstname];
}];
Sorts Using NSSortDescriptor
Let’s assume, as an example, that we have an array containing instances of a custom class, Employee has attributes firstname, lastname and age. The following example illustrates how to create an NSSortDescriptor that can be used to sort the array contents in ascending order by the age key.
NSSortDescriptor *ageDescriptor = [[NSSortDescriptor alloc] initWithKey:#"age" ascending:YES];
NSArray *sortDescriptors = #[ageDescriptor];
NSArray *sortedArray = [employeesArray sortedArrayUsingDescriptors:sortDescriptors];
Sort using Custom Comparisons
Names are strings, and when you sort strings to present to the user you should always use a localized comparison. Often you also want to perform a case insensitive comparison. Here comes an example with (localizedStandardCompare:) to order the array by last and first name.
NSSortDescriptor *lastNameDescriptor = [[NSSortDescriptor alloc]
initWithKey:#"lastName" ascending:YES selector:#selector(localizedStandardCompare:)];
NSSortDescriptor * firstNameDescriptor = [[NSSortDescriptor alloc]
initWithKey:#"firstName" ascending:YES selector:#selector(localizedStandardCompare:)];
NSArray *sortDescriptors = #[lastNameDescriptor, firstNameDescriptor];
NSArray *sortedArray = [employeesArray sortedArrayUsingDescriptors:sortDescriptors];
For reference and detailed discussion please refer:
https://developer.apple.com/library/ios/documentation/Cocoa/Conceptual/SortDescriptors/Articles/Creating.html
http://www.ios-blog.co.uk/tutorials/objective-c/how-to-sort-nsarray-with-custom-objects/
Swift's protocols and functional programming makes that very easy you just have to make your class conform to the Comparable protocol, implement the methods required by the protocol and then use the sorted(by: ) high order function to create a sorted array without need to use mutable arrays by the way.
class Person: Comparable {
var birthDate: NSDate?
let name: String
init(name: String) {
self.name = name
}
static func ==(lhs: Person, rhs: Person) -> Bool {
return lhs.birthDate === rhs.birthDate || lhs.birthDate?.compare(rhs.birthDate as! Date) == .orderedSame
}
static func <(lhs: Person, rhs: Person) -> Bool {
return lhs.birthDate?.compare(rhs.birthDate as! Date) == .orderedAscending
}
static func >(lhs: Person, rhs: Person) -> Bool {
return lhs.birthDate?.compare(rhs.birthDate as! Date) == .orderedDescending
}
}
let p1 = Person(name: "Sasha")
p1.birthDate = NSDate()
let p2 = Person(name: "James")
p2.birthDate = NSDate()//he is older by miliseconds
if p1 == p2 {
print("they are the same") //they are not
}
let persons = [p1, p2]
//sort the array based on who is older
let sortedPersons = persons.sorted(by: {$0 > $1})
//print sasha which is p1
print(persons.first?.name)
//print James which is the "older"
print(sortedPersons.first?.name)
In my case, I use "sortedArrayUsingComparator" to sort an array. Look at the below code.
contactArray = [[NSArray arrayWithArray:[contactSet allObjects]] sortedArrayUsingComparator:^NSComparisonResult(ContactListData *obj1, ContactListData *obj2) {
NSString *obj1Str = [NSString stringWithFormat:#"%# %#",obj1.contactName,obj1.contactSurname];
NSString *obj2Str = [NSString stringWithFormat:#"%# %#",obj2.contactName,obj2.contactSurname];
return [obj1Str compare:obj2Str];
}];
Also my object is,
#interface ContactListData : JsonData
#property(nonatomic,strong) NSString * contactName;
#property(nonatomic,strong) NSString * contactSurname;
#property(nonatomic,strong) NSString * contactPhoneNumber;
#property(nonatomic) BOOL isSelected;
#end
You have to create sortDescriptor and then you can sort the nsmutablearray by using sortDescriptor like below.
let sortDescriptor = NSSortDescriptor(key: "birthDate", ascending: true, selector: #selector(NSString.compare(_:)))
let array = NSMutableArray(array: self.aryExist.sortedArray(using: [sortDescriptor]))
print(array)
Sort Array In Swift
For Swifty Person below is a very clean technique to achieve above goal for globally. Lets have an example custom class of User which have some attributes.
class User: NSObject {
var id: String?
var name: String?
var email: String?
var createdDate: Date?
}
Now we have an array which we need to sort on the basis of createdDate either ascending and/or descending. So lets add a function for date comparison.
class User: NSObject {
var id: String?
var name: String?
var email: String?
var createdDate: Date?
func checkForOrder(_ otherUser: User, _ order: ComparisonResult) -> Bool {
if let myCreatedDate = self.createdDate, let othersCreatedDate = otherUser.createdDate {
//This line will compare both date with the order that has been passed.
return myCreatedDate.compare(othersCreatedDate) == order
}
return false
}
}
Now lets have an extension of Array for User. In simple words lets add some methods only for those Array's which only have User objects in it.
extension Array where Element: User {
//This method only takes an order type. i.e ComparisonResult.orderedAscending
func sortUserByDate(_ order: ComparisonResult) -> [User] {
let sortedArray = self.sorted { (user1, user2) -> Bool in
return user1.checkForOrder(user2, order)
}
return sortedArray
}
}
Usage for Ascending Order
let sortedArray = someArray.sortUserByDate(.orderedAscending)
Usage for Descending Order
let sortedArray = someArray.sortUserByDate(.orderedAscending)
Usage for Same Order
let sortedArray = someArray.sortUserByDate(.orderedSame)
Above method in extension will only be accessible if the Array is of type
[User] || Array<User>
Use like this for nested objects,
NSSortDescriptor * sortDescriptor = [[NSSortDescriptor alloc] initWithKey:#"lastRoute.to.lastname" ascending:YES selector:#selector(caseInsensitiveCompare:)];
NSMutableArray *sortedPackages = [[NSMutableArray alloc]initWithArray:[packages sortedArrayUsingDescriptors:#[sortDescriptor]]];
lastRoute is one object and that object holds the to object, that to object hold the lastname string values.
Swift version: 5.1
If you have a custom struct or class and want to sort them arbitrarily, you should call sort() using a trailing closure that sorts on a field you specify. Here's an example using an array of custom structs that sorts on a particular property:
struct User {
var firstName: String
}
var users = [
User(firstName: "Jemima"),
User(firstName: "Peter"),
User(firstName: "David"),
User(firstName: "Kelly"),
User(firstName: "Isabella")
]
users.sort {
$0.firstName < $1.firstName
}
If you want to return a sorted array rather than sort it in place, use sorted() like this:
let sortedUsers = users.sorted {
$0.firstName < $1.firstName
}
let sortedUsers = users.sorted {
$0.firstName < $1.firstName
}
NSMutableArray *stockHoldingCompanies = [NSMutableArray arrayWithObjects:fortune1stock,fortune2stock,fortune3stock,fortune4stock,fortune5stock,fortune6stock , nil];
NSSortDescriptor *sortOrder = [NSSortDescriptor sortDescriptorWithKey:#"companyName" ascending:NO];
[stockHoldingCompanies sortUsingDescriptors:[NSArray arrayWithObject:sortOrder]];
NSEnumerator *enumerator = [stockHoldingCompanies objectEnumerator];
ForeignStockHolding *stockHoldingCompany;
NSLog(#"Fortune 6 companies sorted by Company Name");
while (stockHoldingCompany = [enumerator nextObject]) {
NSLog(#"===============================");
NSLog(#"CompanyName:%#",stockHoldingCompany.companyName);
NSLog(#"Purchase Share Price:%.2f",stockHoldingCompany.purchaseSharePrice);
NSLog(#"Current Share Price: %.2f",stockHoldingCompany.currentSharePrice);
NSLog(#"Number of Shares: %i",stockHoldingCompany.numberOfShares);
NSLog(#"Cost in Dollars: %.2f",[stockHoldingCompany costInDollars]);
NSLog(#"Value in Dollars : %.2f",[stockHoldingCompany valueInDollars]);
}
NSLog(#"===============================");