4,587
edits
No edit summary |
m (→Overview: missing |) |
||
Line 23: | Line 23: | ||
== Overview == | == Overview == | ||
Uiua uses concatenative evaluation (a [[wikipedia:context-free grammar|context-free grammar]]) with a right-to-left ordering as in [[Wikipedia: Polish notation Polish notation]]. The language supports [[tacit programming]] using stack manipulation [[primitive]]s, and all complex functions must be defined this way as there is no explicit function form that allows local variables. [[Function]]s have a fixed number of input and output values, meaning the overloading of [[ambivalent function]]s is removed. Because of this, Uiua often splits APL primitives into two functions. Its primitives use [[Unicode]] glyphs including many not found in other languages. To avoid [[Typing glyphs the need]] for a keyboard layout containing these, each primitive can also be spelled using a name that consists of lowercase letters (user-defined names must have at least one uppercase letter). By default, the language formats source files when run to convert these names into the corresponding glyphs. | Uiua uses concatenative evaluation (a [[wikipedia:context-free grammar|context-free grammar]]) with a right-to-left ordering as in [[Wikipedia: Polish notation|Polish notation]]. The language supports [[tacit programming]] using stack manipulation [[primitive]]s, and all complex functions must be defined this way as there is no explicit function form that allows local variables. [[Function]]s have a fixed number of input and output values, meaning the overloading of [[ambivalent function]]s is removed. Because of this, Uiua often splits APL primitives into two functions. Its primitives use [[Unicode]] glyphs including many not found in other languages. To avoid [[Typing glyphs the need]] for a keyboard layout containing these, each primitive can also be spelled using a name that consists of lowercase letters (user-defined names must have at least one uppercase letter). By default, the language formats source files when run to convert these names into the corresponding glyphs. | ||
Like the [[SHARP APL]] family, Uiua supports only [[Array_model#Flat_array_theory|flat arrays]] with a homogeneous [[type]], and has a dedicated [[box]] type for [[Nested array|array nesting]]. However, arithmetic is [[pervasion|pervasive]] as in the nested array model. Arithmetic also follows [[leading axis agreement]], extended so that a length-1 axis is matched with an axis of any length by replicating along it (like the broadcasting system of [[wikipedia:Julia (programming language)|Julia]] and [[wikipedia:NumPy|NumPy]]). It supports character arithmetic as in [[BQN]], as well as other primitives characteristic of BQN such as [[structural Under]], [[Classify]], and a [[Transpose]] that rotates the axes of its argument by one. | Like the [[SHARP APL]] family, Uiua supports only [[Array_model#Flat_array_theory|flat arrays]] with a homogeneous [[type]], and has a dedicated [[box]] type for [[Nested array|array nesting]]. However, arithmetic is [[pervasion|pervasive]] as in the nested array model. Arithmetic also follows [[leading axis agreement]], extended so that a length-1 axis is matched with an axis of any length by replicating along it (like the broadcasting system of [[wikipedia:Julia (programming language)|Julia]] and [[wikipedia:NumPy|NumPy]]). It supports character arithmetic as in [[BQN]], as well as other primitives characteristic of BQN such as [[structural Under]], [[Classify]], and a [[Transpose]] that rotates the axes of its argument by one. |