Navigation Menu

A navigation menu allows your customers to navigate your store and find the products they are looking for.

Typically, navigation is based on a hierarchy of collections. We can get the top-level collections using the collections query with the topLevelOnly filter:

Query

query GetTopLevelCollections {
  collections(options: { topLevelOnly: true }) {
    items {
      id
      slug
      name
      featuredAsset {
        id
        preview
      }
    }
  }
}

Response

{
  "data": {
    "collections": {
      "items": [
        {
          "id": "2",
          "slug": "electronics",
          "name": "Electronics",
          "featuredAsset": {
            "id": "16",
            "preview": "https://demo.vendure.io/assets/preview/5b/jakob-owens-274337-unsplash__preview.jpg"
          }
        },
        {
          "id": "5",
          "slug": "home-garden",
          "name": "Home & Garden",
          "featuredAsset": {
            "id": "47",
            "preview": "https://demo.vendure.io/assets/preview/3e/paul-weaver-1120584-unsplash__preview.jpg"
          }
        },
        {
          "id": "8",
          "slug": "sports-outdoor",
          "name": "Sports & Outdoor",
          "featuredAsset": {
            "id": "24",
            "preview": "https://demo.vendure.io/assets/preview/96/michael-guite-571169-unsplash__preview.jpg"
          }
        }
      ]
    }
  }
}

Building a navigation tree

The collections query returns a flat list of collections, but we often want to display them in a tree-like structure. This way, we can build up a navigation menu which reflects the hierarchy of collections.

First of all we need to ensure that we have the parentId property on each collection.

Shop API

query GetAllCollections {
  collections(options: { topLevelOnly: true }) {
    items {
      id
      slug
      name
      parentId
      featuredAsset {
        id
        preview
      }
    }
  }
}

Then we can use this data to build up a tree structure. The following code snippet shows how this can be done in TypeScript:

src/utils/array-to-tree.ts

export type HasParent = { id: string; parentId: string | null };
export type TreeNode<T extends HasParent> = T & {
    children: Array<TreeNode<T>>;
};
export type RootNode<T extends HasParent> = {
    id?: string;
    children: Array<TreeNode<T>>;
};

/**
 * Builds a tree from an array of nodes which have a parent.
 * Based on https://stackoverflow.com/a/31247960/772859, modified to preserve ordering.
 */
export function arrayToTree<T extends HasParent>(nodes: T[]): RootNode<T> {
    const topLevelNodes: Array<TreeNode<T>> = [];
    const mappedArr: { [id: string]: TreeNode<T> } = {};

    // First map the nodes of the array to an object -> create a hash table.
    for (const node of nodes) {
        mappedArr[node.id] = { ...(node as any), children: [] };
    }

    for (const id of nodes.map((n) => n.id)) {
        if (mappedArr.hasOwnProperty(id)) {
            const mappedElem = mappedArr[id];
            const parentId = mappedElem.parentId;
            if (!parent) {
                continue;
            }
            // If the element is not at the root level, add it to its parent array of children.
            const parentIsRoot = !mappedArr[parentId];
            if (!parentIsRoot) {
                if (mappedArr[parentId]) {
                    mappedArr[parentId].children.push(mappedElem);
                } else {
                    mappedArr[parentId] = { children: [mappedElem] } as any;
                }
            } else {
                topLevelNodes.push(mappedElem);
            }
        }
    }
    const rootId = topLevelNodes.length ? topLevelNodes[0].parentId : undefined;
    return { id: rootId, children: topLevelNodes };
}

Live example

Here's a live demo of the above code in action: