Contravariant functor: Difference between revisions

Definition

Definition in basic terms

Suppose ${\displaystyle \mathcal{C}},\mathcal{D}$ are categories. A contravariant functor ${\displaystyle \mathcal{F}}:\mathcal{C}\to \mathcal{D}$ is defined by the following data:

• A mapping ${\displaystyle \mathcal{F}}:\mathrm{O}\mathrm{b}\mathcal{C}\to \mathrm{O}\mathrm{b}\mathcal{D}$.
• For every ${\displaystyle A,B\in \mathrm{O}\mathrm{b}\mathcal{C}}$, a mapping ${\displaystyle \mathcal{F}}:\mathcal{C}(A,B)\to \mathcal{D}(\mathcal{F}B,\mathcal{F}A)$.

satisfying the following conditions:

• It preserves the identity map: For any ${\displaystyle A\in \mathrm{O}\mathrm{b}\mathcal{C}}$, ${\displaystyle \mathcal{F}}({\mathrm{i}}_{\mathrm{d}})={\mathrm{i}}_{\mathrm{d}}$.
• It preserves composition, albeit reversing the order of composition: For any ${\displaystyle A,B,C\in \mathrm{O}\mathrm{b}\mathcal{C}}$, and ${\displaystyle f\in \mathcal{C}(A,B),g\in \mathcal{C}(B,C)}$, we have ${\displaystyle \mathcal{F}}(g\circ f)=\mathcal{F}f\circ \mathcal{F}g$.

Definition in terms of the opposite category

Suppose ${\displaystyle \mathcal{C}},\mathcal{D}$ are categories. A contravariant functor from ${\displaystyle \mathcal{C}}$ to ${\displaystyle \mathcal{D}}$ can be defined as:

• A functor from ${\displaystyle {\mathcal{C}}^{op}}$ (the opposite category to ${\displaystyle \mathcal{C}}$) to ${\displaystyle \mathcal{D}}$.
• A functor from ${\displaystyle \mathcal{C}}$ to ${\displaystyle {\mathcal{D}}^{op}}$ (the opposite category to ${\displaystyle \mathcal{D}}$).

A functor in the usual sense of the word is sometimes termed a covariant functor to contrast it with a contravariant functor.