A Programming Language (APL) was first
described in a 1962 book of the same name by Kenneth E. Iverson. APL is an
interactive and interpreted third-generation language (3GL) oriented toward the
rigorous expression of mathematical notations by a computer in an interpretive
way. APL has a concise representation of arrays and operators, which are
manipulated them while allowing for the implementation of abstract problem
solving. It does this from diverse domains and expresses algorithms independent
of computing platform specifics.
Today, APL is provided in integrated development environments (IDE) by a number of commercial and non-commercial vendors.
Before coming to be known as APL, the language was simply known as Iverson's Language.
Today, APL is provided in integrated development environments (IDE) by a number of commercial and non-commercial vendors.
Before coming to be known as APL, the language was simply known as Iverson's Language.
APL is commonly used in a diverse set of
problem domains, such as mathematics, scientific research, visualization,
engineering, robotics and actuarial science. The language is written with the
unique and non-standard APL character set. Iverson claimed that using this set
produces a notation ability that surpasses a regular character set.
Accordingly, APL’s power relies on the denotation of common array operators,
functions and their combinations by a single dedicated symbol (primitive). The
result is a language that is not easy to read. However, APL has a small yet
ardent user base in finance, insurance and mathematical applications.
APL programs are more likely to be interpreted in the APL workspace rather than compiled. Unlike other languages evaluated from top to bottom, APL expressions are evaluated from right to left. Originally, APL did not contain control structures. However, modern implementations generally include a comprehensive set of control structures that allow for data separation and program flow control.
APL has been standardized by the American National Standards Institute (ANSI) and the International Organization for Standardization (ISO).
APL programs are best written by using a special keyboard with APL-specific symbolic notation or remapping a general keyboard and using APL language decals to indicate APL functions.
APL programs are more likely to be interpreted in the APL workspace rather than compiled. Unlike other languages evaluated from top to bottom, APL expressions are evaluated from right to left. Originally, APL did not contain control structures. However, modern implementations generally include a comprehensive set of control structures that allow for data separation and program flow control.
APL has been standardized by the American National Standards Institute (ANSI) and the International Organization for Standardization (ISO).
APL programs are best written by using a special keyboard with APL-specific symbolic notation or remapping a general keyboard and using APL language decals to indicate APL functions.
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