Difference between revisions of "Sum"

Latest revision as of 22:43, 27 August 2019

Sum(x, i)

Returns the sum of array «x» over Index «i».

You can also sum over multiple indexes:

Sum(A, I, J, K)

It is one of a number of Array-reducing functions, so-called because they reduce the number of dimensions (indexes) of an array.

Sum treats any Null values in «x» as zero. It can also treat NaN or text and other non-numerical values as zero, if you set optional parameters, «ignoreNaN» or «ignoreNonNumbers» to True.

Example

This example uses Array Function Example Variables.

Sum(Car_prices, Years) →

Car_type ▶
VW	Honda	BMW
90K	103K	141K

Optional Parameters

Sum(x: Array[i]; i: ... optional Index; IgnoreNonNumbers, IgnoreNaN: Optional Boolean)

IgnoreNaN

Set «ignoreNaN» to treat NaN, indeterminate numeric values, as zero. Normally NaNs propagate through a model -- Sum(x, i) returns NaN if any value in «x» is NaN. This can help tracking down numeric problems in your logic, such as 0/0 or Sqrt(-1). But if you know there are NaNs that you want to ignore, set «ignoreNaN» parameter to True (or 1).

Sum(x, i, ignoreNaN: True)

IgnoreNonNumbers

Similarly, set optional parameter «ignoreNonNumbers» to True, to treat non-numeric values such as text or references, as zero, e.g.:

Sum(x, i, j, ignoreNonNumbers: True)

You must use named parameter syntax for «IgnoreNonNumbers» and «IgnoreNaN», as shown in the above examples, because parameter «i» is optional and repeated.

Date-time numbers are not ignored (they are considered numbers).

IgnoreDates

New to Analytica 5.3

Set «ignoreDates» to True to (also) ignore date-time numbers.

Using Sum to add arrays

With Intelligent Arrays, you can of course add two arrays with the "+" operator:

a1 + a2

You can also Sum to do this:

Sum([a1, a2])

In this example, the «i» parameter is omitted, and it automatically sums over the implicit index of the list [a1, a2]. The difference between this example and simply using the "+" operator is that using Sum treats any Null values as 0, whereas a1 + a2 returns Null if any values to be added are Null.

Sum over text values

In older releases, Sum concatenates values as text, of any values contain text. This feature hides a common error, when you inadvertently try to sum text values thinking that they are numbers, so we strongly discourage using Sum this way. It still works for backward compatibility with older models, but since release 4.5, it gives a warning.

If you want to sum over the numbers only and ignore the text, use the «ignoreNonNumbers» parameter:

Sum(X, I, IgnoreNonNumbers: True) → 18

If you really want to concatenate text, use the "&" operator or JoinText function instead, to make it clear that's what you want to do.

Example:

X := Array(I, [5, 6, 'X', 7])

IgnoreWarnings(Sum(X, I)) → "11X7"

This sum evaluates (5 + 6 + 'X' + 7) as (((5 + 6) & 'X') & 7). It converts the numbers to text and concatenates them to form "11X7".

@@ Line 4: / Line 4: @@
 <!-- For Lumina use, do not change -->
 ==Sum(x, i)==
-Returns the sum of array «x» over the dimension indexed by variable «i». You can also sum over multiple indexes:
+Returns the sum of array «x» over Index «i».
+You can also sum over multiple indexes:
 :<code>Sum(A, I, J, K)</code>
-Sum treats any [[Null]] values in «x» as zero.
+It is one of a number of [[Array-reducing functions]], so-called because they reduce the number of dimensions (indexes) of an array.
-==Examples==
-Compare:
-:<code>X := Array(I, [5, 6, 'X', 7])</code>
-:<code>IgnoreWarnings(Sum(X, I)) &rarr; "11X7"</code>
-:<code>Sum(X, I, IgnoreNonNumbers: True) &rarr; 18</code>
-In older releases, you could use [[Sum]] to concatenate text, if all or some of the values are text. We strongly discourage this usage. It still works for backward compatibility, but gives a warning.  Use the [[JoinText]] function instead to make it clear you want to join (concatenating) text -- not just summing over values, some of which turn out to be text inadvertently.
-A straight sum over '''X''' results in a warning to this effect, but the functionality is still supported for legacy reasons.  In that case, <code>(5 + 6 + 'X' + 7)</code> evaluates as <code>(((5 + 6) & 'X') & 7)</code>. In the second example, numbers are ignored so only the numbers, 5+6+7, are added.
+Sum treats any [[Null]] values in «x» as zero.  It can also treat [[NaN]] or [[text]] and other non-numerical values as zero, if you set optional parameters, «ignoreNaN» or «ignoreNonNumbers»  to True.
-The following example is based off of the parameters in [[Array Function Example Variables]].
+==Example==
+This example uses [[Array Function Example Variables]].
 :<code>Sum(Car_prices, Years) &rarr;</code>
@@ Line 37: / Line 32: @@
 :<code>Sum(x: Array[i]; i: ... optional Index; IgnoreNonNumbers, IgnoreNaN: Optional Boolean)</code>
-===IgnoreNaN===
+=====IgnoreNaN=====
 Set «ignoreNaN» to treat NaN, indeterminate numeric values, as zero.  Normally NaNs propagate through a model -- [[Sum]](x, i) returns NaN if any value in «x» is NaN. This can help tracking down numeric problems in your logic, such as 0/0 or Sqrt(-1).  But if you know there are NaNs that you want to ignore, set «ignoreNaN» parameter to True (or 1).
 :<code>Sum(x, i, ignoreNaN: True)</code>
-===IgnoreNonNumbers===
+=====IgnoreNonNumbers=====
 Similarly, set optional parameter «ignoreNonNumbers» to True, to treat non-numeric values such as text or references, as zero, e.g.:
 :<code>Sum(x, i, j, ignoreNonNumbers: True)</code>
-You must use named parameter syntax to use «IgnoreNonNumbers» and «IgnoreNaN», as shown in the above examples.
+You must use named parameter syntax for «IgnoreNonNumbers» and «IgnoreNaN», as shown in the above examples, because parameter «i» is optional and repeated.
+Date-time numbers are not ignored (they are considered numbers).
+=====IgnoreDates=====
+''New to [[Analytica 5.3]]''
+Set «ignoreDates» to True to (also) ignore date-time numbers.
-== Using Sum to add arrays ==
+==== Using Sum to add arrays ====
 With [[Intelligent Arrays]], you can of course add two arrays with the "+" operator:
 :<code>a1 + a2</code>
@@ Line 54: / Line 56: @@
 :<code>Sum([a1, a2])</code>
 In this example, the «i» parameter is omitted, and it automatically sums over the implicit index of the list [a1, a2]. The difference between this example and simply using the "+" operator is that using [[Sum]] treats any [[Null]] values as 0, whereas <code>a1 + a2</code> returns [[Null]] if any values to be added are [[Null]].
+=== Sum over text values ===
+In older releases, [[Sum]] concatenates values as text, of any values contain text. This feature hides a common error, when you inadvertently try to sum text values thinking that they are numbers, so we strongly discourage using [[Sum]] this way.  It still works for backward compatibility with older models, but since release 4.5, it gives a warning.
+If you want to  sum over the numbers only and ignore the text, use the  «ignoreNonNumbers» parameter:<blockquote><code>Sum(X, I, IgnoreNonNumbers: True) &rarr; 18</code></blockquote>
+If you really want to concatenate text, use the [[Text Concatenation Operator: &|"&" operator]] or [[JoinText]] function instead,  to make it clear that's what you want to do.
+Example:
+:<code>X := Array(I, [5, 6, 'X', 7])</code>
+:<code>IgnoreWarnings(Sum(X, I)) &rarr; "11X7"</code>
+This sum evaluates <code>(5 + 6 + 'X' + 7)</code>  as <code>(((5 + 6) & 'X') & 7)</code>. It converts the numbers to text and concatenates them to form <code>"11X7".</code>
 == See Also ==
@@ Line 59: / Line 75: @@
 * [[Product]]
 * [[Array-reducing functions]]
+* [[Operators]]