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In various articles I have read, there are sometimes references to primitive data types and sometimes there are references to scalars.

My understanding of each is that they are data types of something simple like an int, boolean, char, etc.

Is there something I am missing that means you should use particular terminology or are the terms simply interchangeable? The Wikipedia pages for each one doesn't show anything obvious.

If the terms are simply interchangeable, which is the preferred one?

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3 Answers 3

up vote 71 down vote accepted

I don't think they're interchangeable. They are frequently similar, but the difference does exist, and seems to mainly be in what they are contrasted with and what is relevant in context.

Scalars are typically contrasted with compounds, such as arrays, maps, sets, structs, etc. A scalar is a "single" value - integer, boolean, perhaps a string - while a compound is made up of multiple scalars (and possibly references to other compounds). "Scalar" is used in contexts where the relevant distinction is between single/simple/atomic values and compound values.

Primitive types, however, are contrasted with e.g. reference types, and are used when the relevant distinction is "Is this directly a value, or is it a reference to something that contains the real value?", as in Java's primitive types vs. references. I see this as a somewhat lower-level distinction than scalar/compound, but not quite.

It really depends on context (and frequently what language family is being discussed). To take one, possibly pathological, example: strings. In C, a string is a compound (an array of characters), while in Perl, a string is a scalar. In Java, a string is an object (or reference type). In Python, everything is (conceptually) an object/reference type, including strings (and numbers).

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Put simply, it would appear that a 'scalar' type refers to a single item, as opposed to a composite or collection. So scalars include both primitive values as well as things like an enum value.

Perhaps the 'scalar' term may be a throwback to C:

where scalars are primitive objects which contain a single value and are not composed of other C++ objects

I'm curious about whether this refers to whether these items would have a value of 'scale'? - Such as counting numbers.

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I like Scott Langeberg's answer because it is concise and backed by authoritative links. I would up-vote Scott's answer if I could.

I suppose that "primitive" data type could be considered primary data type so that secondary data types are derived from primary data types. The derivation is through combining, such as a C++ struct. A struct can be used to combine data types (such as and int and a char) to get a secondary data type. The struct-defined data type is always a secondary data type. Primary data types are not derived from anything, rather they are a given in the programming language.

I have a parallel to primitive being the nomenclature meaning primary. That parallel is "regular expression". I think the nomenclature "regular" can be understood as "regulating". Thus you have an expression that regulates the search.

Scalar etymology ( means ladder-like. I think the way this relates to programming is that a ladder has only one dimension: How many rungs from the end of the ladder. A scalar data type has only one dimension, thus represented by a single value.

I think in usage, primitive and scalar are interchangeable. Is there any example of a primitive that is not scalar, or of a scalar that is not primitive?

Although interchangeable, primitive refers to the data-type being a basic building block of other data types, and a primitive is not composed of other data types.

Scalar refers to its having a single value. Scalar contrasts with the mathematical vector. A vector is not represented by a single value because (using one kind of vector as an example) one value is needed to represent the vector's direction and another value needed to represent the vector's magnitude.

Reference links:

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