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I've made a function to perform a calculation against four fields. Then outputs the that calculation to a receiver field. The math is fairly simply in concept. The receiver field is the remainder of the lowest int from the next lowest int. For instance the app reads values 2, 5 , 6, 8 from user input. Receiver field should equal(3)

I have implemented NSSet to remove any duplicates than re-stack the set into an array for ease of reading and the values and custom control.

The math section of the function seems like over kill. Is there a more elegant way to perform this other than what I have built? It works it's just ugly and probably not the correct path.

Any help is appreciated.

// set of strings populated from a sibling View so i used a singleton to sync.
NSArray *myArray = [[NSArray alloc] initWithObjects:[StringLinker sharedManager].singcol1Row1String,
                                                    [StringLinker sharedManager].singcol1Row2String,
                                                    [StringLinker sharedManager].singcol1Row3String,
                                                    [StringLinker sharedManager].singcol1Row4String,nil];
NSSet *set = [NSSet setWithArray:myArray];
NSLog(@"mySet count: %d", [set count]);

NSMutableArray *newArray = [NSMutableArray arrayWithArray:[set allObjects]];
// define locals 
int i;
int tempV;
id *objects;
int  v1Col1=0;
int  v2Col1=0;
int  v3Col1=0;
int  v4Col1=0;
// create helpers
NSUInteger count = [newArray count];
objects = malloc(sizeof(id) * count);
[newArray getObjects:objects];
// check the correct id and location
for (i = 0; i < [newArray count]; i++) {
    tempV = [[newArray objectAtIndex:i]intValue];
    NSLog(@"current objectAtIndex = %i id = %i",i,tempV);
}
NSLog(@"count of new Array = %d",count);
// assign our controlled items. and make string into a Value
if (count >= 1) { v1Col1 = [[newArray objectAtIndex:0]intValue];}
if (count >= 2) { v2Col1 = [[newArray objectAtIndex:1]intValue];}
if (count >= 3) { v3Col1 = [[newArray objectAtIndex:2]intValue];}
if (count >= 4) { v4Col1 = [[newArray objectAtIndex:3]intValue];}

// then do raw calculations
if ( count ==2) {
    if (v1Col1 < v2Col1) { _master1PinsCol1 = v2Col1 - v1Col1;}
    if (v2Col1 < v1Col1) { _master1PinsCol1 = v1Col1 - v2Col1;}
}
if ( count ==3) {
    if ((v1Col1 < v2Col1) && (v2Col1 < v3Col1)) { _master1PinsCol1 = v2Col1 - v1Col1;}
    if ((v1Col1 < v2Col1) && (v3Col1 > v2Col1)) { _master1PinsCol1 = v2Col1 - v1Col1;}
    if ((v1Col1 < v2Col1) && (v3Col1 < v2Col1)) { _master1PinsCol1 = v3Col1 - v1Col1;}
    if ((v2Col1 < v1Col1) && (v1Col1 < v3Col1)) { _master1PinsCol1 = v1Col1 - v2Col1;}
    if ((v2Col1 < v3Col1) && (v3Col1 < v1Col1)) { _master1PinsCol1 = v3Col1 - v2Col1;}
}
if (count >=4){
    if ((v1Col1 < v2Col1) && (v1Col1 < v3Col1) && (v1Col1 < v4Col1)) { 
        if ((v2Col1 < v3Col1) && (v2Col1 < v4Col1)) {_master1PinsCol1 = v2Col1-v1Col1;}
        if ((v3Col1 < v2Col1) && (v3Col1 < v4Col1)) {_master1PinsCol1 = v3Col1-v1Col1;}
        if ((v4Col1 < v2Col1) && (v4Col1 < v3Col1)) {_master1PinsCol1 = v4Col1-v1Col1;}
    }
    if ((v2Col1 < v1Col1) && (v2Col1 < v3Col1) && (v2Col1 < v4Col1)) {
        if ((v1Col1 < v3Col1) && (v1Col1 < v4Col1)) {_master1PinsCol1 = v1Col1-v2Col1;}
        if ((v3Col1 < v1Col1) && (v3Col1 < v4Col1)) {_master1PinsCol1 = v3Col1-v2Col1;}
        if ((v4Col1 < v1Col1) && (v4Col1 < v3Col1)) {_master1PinsCol1 = v4Col1-v2Col1;}
    }
    if ((v3Col1 < v1Col1) && (v3Col1 < v2Col1) && (v3Col1 < v4Col1)) {
        if ((v1Col1 < v2Col1) && (v1Col1 < v4Col1)) {_master1PinsCol1 = v1Col1-v3Col1;}
        if ((v2Col1 < v1Col1) && (v2Col1 < v4Col1)) {_master1PinsCol1 = v2Col1-v3Col1;}
        if ((v4Col1 < v1Col1) && (v4Col1 < v2Col1)) {_master1PinsCol1 = v4Col1-v3Col1;}
    }
    if ((v4Col1 < v1Col1) && (v4Col1 < v2Col1) && (v4Col1 < v3Col1)) { 
        if ((v1Col1 < v2Col1) && (v1Col1 < v3Col1)) {_master1PinsCol1 = v1Col1-v4Col1;}
        if ((v2Col1 < v1Col1) && (v2Col1 < v3Col1)) {_master1PinsCol1 = v2Col1-v4Col1;}
        if ((v3Col1 < v1Col1) && (v3Col1 < v2Col1)) {_master1PinsCol1 = v3Col1-v4Col1;}
    }
}


NSLog(@"***********************************Col1 Master1 = %.0f",_master1PinsCol1);
share|improve this question
    
I don't really understand the math you're trying to do. With your input of 2, 5, 6, 8, why is the result 5 - 2 ? Is it always the first two elements ? Please try to explain the rules in more detail. –  DarkDust Aug 4 '11 at 6:21
    
Sorry the receiver field would equal 3 from detecting the two lowest values then subtract. (5-2= 3) 2,5 would be the two lowest in the batch of four. And no it's not always the first two it can be any of the four, just as long as it's the two lowest of the batch. This is why I had to use NSSet to remove any dupes. This is very common in this app. –  Steve Aug 4 '11 at 23:17

1 Answer 1

up vote 0 down vote accepted

Your code has a lot of potential in saving method calls and objects. Also, it seems you were leaking memory: you malloc'd but never free'd, and your myArray wasn't released. Here's how I would do it:

// Get instance once, save three method calls.
StringLinker *linker = [StringLinker sharedManager];
// Initialize set with the objects. Convert them to NSNumbers, we need
// to have the numbers parsed later on anyway. Doing it now makes
// sorting easier.
NSSet *set = [NSSet setWithObjects:
    [NSNumber numberWithInt:[linker.singcol1Row1String intValue]],
    [NSNumber numberWithInt:[linker.singcol1Row2String intValue]],
    [NSNumber numberWithInt:[linker.singcol1Row3String intValue]],
    [NSNumber numberWithInt:[linker.singcol1Row4String intValue]],
    nil
];

// Sanity check.
if ([set count] < 2) {
    // Error handling goes here. For example, if there's only one
    // element, can that be used as value for _master1PinsCol1 ?
    return;
}

// Get mutable array of distinct objects...
NSMutableArray *array = [[set allObjects] mutableCopy];
// ... and sort it.
[array sortUsingSelector:@selector(compare:)];

// Calculate the value by subtracting the smaller number from the
// bigger number.
_master1PinsCol1 = [[array objectAtIndex:1] intValue]
                   - [[array objectAtIndex:0] intVale];

// Release the mutable copy.
[array release];
share|improve this answer
    
Apologies for my ignorance, however does [array sortUsingSelector:@selector(compare:)]; Compare the objects values in a ascending order? Thank you i'll give it a try either way. Looks like it will work. And save about 75 lines of code, and several memory leaks. –  Steve Aug 5 '11 at 13:31
    
Yes, -[NSNumber compare:] should compare in ascending order. If it doesn't work, you can still use one of the other sorting methods of NSMutableArray. –  DarkDust Aug 5 '11 at 13:39
    
Props DarkDust.. Thank you in saving me a bunch of error checking. Basically i'm need to repeat this process 18 times. for 18 individual fields. –  Steve Aug 5 '11 at 13:49
    
Not particular to your problem, but important to your follow-up question: You can NSArray sortBy... and then whatever method (Obj-C) or function (straight-C) you want. This can be used to sort, say, dictionaries by, say, zip-code (descending) + last name (ascending) + high score (descending) -- or whatever you want! –  Olie Jun 14 '12 at 21:08

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