# Category:Definitions/Functors

This category contains definitions related to Functors.
Related results can be found in Category:Functors.

Informally, a functor is a morphism of categories.

It may be described as what one must define in order to define a natural transformation.

This is formalized by defining the category of categories.

### Covariant Functor

Let $\mathbf C$ and $\mathbf D$ be metacategories.

A covariant functor $F: \mathbf C \to \mathbf D$ consists of:

• An object functor $F_0$ that assigns to each object $X$ of $\mathbf C$ an object $FX$ of $\mathbf D$.
• An arrow functor $F_1$ that assigns to each arrow $f: X \to Y$ of $\mathbf C$ an arrow $Ff : FX \to FY$ of $\mathbf D$.

These functors must satisfy, for any morphisms $X \stackrel f \longrightarrow Y \stackrel g \longrightarrow Z$ in $\mathbf C$:

$\map F {g \circ f} = F g \circ F f$

and:

$\map F {\operatorname {id}_X} = \operatorname{id}_{F X}$

where $\operatorname {id}_W$ denotes the identity arrow on an object $W$, and $\circ$ is the composition of morphisms.

The behaviour of a covariant functor can be pictured as follows:

$\begin{xy} <4em,4em>*{\mathbf C} = "C", <0em,0em>*+{X} = "a", <4em,0em>*+{Y} = "b", <4em,-4em>*+{Z}= "c", "a";"b" **@{-} ?>*@{>} ?<>(.5)*!/_1em/{f}, "b";"c" **@{-} ?>*@{>} ?<>(.5)*!/_1em/{g}, "a";"c" **@{-} ?>*@{>} ?<>(.5)*!/^1em/{g \circ f}, "C"+/r9em/*{\mathbf D}, "C"+/r2em/;"C"+/r6em/ **@{-} ?>*@{>} ?*!/_1em/{F}, "b"+/r2em/+/_2em/;"b"+/r6em/+/_2em/ **@{~} ?>*@2{>} ?<>(.5)*!/_.6em/{F}, "a"+/r13em/*+{FX}="Fa", "b"+/r13em/*+{FY}="Fb", "c"+/r13em/*+{FZ}="Fc", "Fa";"Fb" **@{-} ?>*@{>} ?<>(.5)*!/_1em/{Ff}, "Fb";"Fc" **@{-} ?>*@{>} ?<>(.5)*!/_1em/{Fg}, "Fa";"Fc" **@{-} ?>*@{>} ?<>(.7)*!/r3em/{F \left({g \circ f}\right) = \\ Fg \circ Ff}, \end{xy}$

### Contravariant Functor

Let $\mathbf C$ and $\mathbf D$ be metacategories.

A contravariant functor $F : \mathbf C \to \mathbf D$ consists of:

• An object functor $F_0$ that assigns to each object $X$ of $\mathbf C$ an object $FX$ of $\mathbf D$.
• An arrow functor $F_1$ that assigns to each arrow $f : X \to Y$ of $\mathbf C$ an arrow $Ff : FY \to FX$ of $\mathbf D$.

These functors must satisfy, for any morphisms $X \stackrel f \longrightarrow Y \stackrel g \longrightarrow Z$ in $\mathbf C$:

$\map F {g \circ f} = F f \circ F g$

and:

$\map F {\operatorname {id}_X} = \operatorname {id}_{F X}$

where:

$\operatorname {id}_W$ denotes the identity arrow on an object $W$

and:

$\circ$ is the composition of morphisms.

## Subcategories

This category has the following 2 subcategories, out of 2 total.

## Pages in category "Definitions/Functors"

The following 11 pages are in this category, out of 11 total.