So far in our series, we’ve walked through the intro, wrote our first component, dynamically updated the HTML head from a component, isolated our service dependencies, and worked on hosting our images over Azure Blob Storage and Cosmos DB.
Now, we’re going to query Cosmos DB, fetch our images, and display them in a responsive image gallery. We’ll learn how to reuse components and pass parameters to them.
After we work on this, we’ll enhance the gallery in future posts, with:
- Enabling the “infinite scrolling” feature with Blazor virtualization
- Filtering and querying images
- Creating a dialog to see a larger image and other details
This post contains the following content.
- A quick primer
- Customize the service layer
- Update
Images
component to list our image collection - Create a reusable
ImageCard
component - Wrap up
A quick primer
If you haven’t been with me for the whole series, we’re building a Blazor Web Assembly app hosted with Azure Static Web Apps at blastoffwithblazor.com. I’ve copied images from the NASA APOD API (all 25 years!) to Azure Blob Storage, and are storing the image metadata in a serverless Cosmos DB instance. Feel free to read those links to learn more.
With the images in place, we’re going to build the image gallery. It’s responsive and will look good on devices of any size.
All code is on GitHub.
Customize the service layer
In previous posts, to get up and running we fetched a random image. To make things more interesting, we’re going to fetch images from the last 90 days. (In future posts, we’ll work on infinite scrolling and searching and filtering.) This requires updates to our Azure Function. We’ll ask for a days
query string parameter that allows the caller to request up to 90 days of images. For example, if we call api/images?days=90
, we get images from the last 90 days.
I’ve added logic to verify and grab the days
, make sure it’s in the appropriate range, then query Cosmos for the data itself.
using System;
using System.Threading.Tasks;
using Microsoft.AspNetCore.Mvc;
using Microsoft.Azure.WebJobs;
using Microsoft.Azure.WebJobs.Extensions.Http;
using Microsoft.AspNetCore.Http;
using Microsoft.Extensions.Logging;
using Microsoft.Azure.CosmosRepository;
using Data;
using System.Transactions;
using System.Collections.Generic;
namespace Api
{
public class ImageGet
{
readonly IRepository<Image> _imageRepository;
public ImageGet(IRepository<Image> imageRepository) => _imageRepository = imageRepository;
[FunctionName("ImageGet")]
public IActionResult Run(
[HttpTrigger(AuthorizationLevel.Anonymous, "get", Route = "image")] HttpRequest req,
ILogger log)
{
bool hasDays = int.TryParse(req.Query["days"], out int days);
log.LogInformation($"Requested images from last {days} days.");
if (!hasDays || (days <= 1 && days > 90))
return new BadRequestResult();
ValueTask<IEnumerable<Image>> imageResponse;
imageResponse = _imageRepository.GetAsync
(img => img.Date > DateTime.Now.AddDays(-days));
return new OkObjectResult(imageResponse.Result);
}
}
}
In the ApiClientService
class in the Client
project, update the call to take in the days
. We’ll also order the images descending (newest to oldest):
public async Task<IEnumerable<Image>> GetImageOfDay(int days)
{
try
{
var client = _clientFactory.CreateClient("imageofday");
var images = await client.GetFromJsonAsync
<IEnumerable<Image>>($"api/image?days={days}");
return images.OrderByDescending(img => img.Date);
}
catch (Exception ex)
{
_logger.LogError(ex.Message, ex);
}
return null;
}
Now, in the code for the Images
component, at Images.razor.cs
, change the call to pass in the days:
protected override async Task OnInitializedAsync()
{
_images = await ApiClientService.GetImageOfDay(days: 90);
}
Update Images
component to list our image collection
So, how should we lay out our images? I’d like to list them left-to-right, top-to-bottom. Luckily, I can use CSS grid layouts. We can define how we want to lay out our rows and columns, and grid can handle how they render when the user’s window size is at different dimensions.
Using Tailwind CSS, I’m going to add a little bit of padding. Then, I’ll have one column on small devices, two columns on medium devices, and three columns on large and extra-large devices.
<div class="p-2 grid grid-cols-1 sm:grid-cols-1 md:grid-cols-2 lg:grid-cols-3 xl:grid-cols-3">
</div>
In between the <div>
’s, we’ll iterate through our images and display them. We could handle the rendering here, but that’s asking for maintenance headaches and won’t give you any reusability options. The advantage of Blazor is in its component model. Let’s build a reusable component.
We can pass parameters to our components, and here we’ll want to pass down our Image
model. Here’s how we’ll use the new component from the Images
page, then:
<div class="p-2 grid grid-cols-1 sm:grid-cols-1 md:grid-cols-2 lg:grid-cols-3 xl:grid-cols-3">
@foreach (var image in _images)
{
<ImageCard ImageDetails="image" />
}
</div>
Create a reusable ImageCard
component
Now, in Pages
, create two files: ImageCard.razor
, and ImageCard.razor.cs
. In the .cs
file, use the [Parameter]
attribute to pass down the Image
. (We’ll likely add much more to this component, so are writing a partial class.)
using Microsoft.AspNetCore.Components;
namespace Client.Pages
{
partial class ImageCard : ComponentBase
{
[Parameter]
public Data.Image ImageDetails { get; set; }
}
}
How will our new component look? As you can imagine, a lot of the work is in designing the layout. There’s a lot of different sized images, and I spent a lot of time getting it to work. Even though we aren’t going deep on Tailwind CSS in these posts, it’s worth mentioning here. (Also, much thanks to Khalid Abuhakmeh for lending a hand.)
In the outer <div>
, we’re giving the card a large shadow and some margin:
<div class="m-6 rounded overflow-hidden shadow-lg">
</div>
Then we’ll render our image, and assign the alternate tag to the title. It’s all in our model. We’re saying here it’ll fill the entire width of the card, only reach a specified height, and use object-cover
, which uses the cover
value from the object-fit
CSS property. It maintains an image’s aspect ratio as an image is resized.
<div class="m-6 rounded overflow-hidden shadow-lg">
<img class="w-full h-48 object-cover" src="@ImageDetails.Url" alt="@ImageDetails.Title" />
</div>
In the rest of the markup, we do the following:
- We have an
IsNew
property on our model that we use to apply aNew
badge if an image is newer than three days old. - If so, we give it a teal background and darker teal text, and apply some effects to it. We use flexbox to align it appropriately. If it isn’t new, we make sure things are aligned appropriately without the badge.
- Finally, we display the
Title
. We use thetruncate
property, which gives long titles...
at the end. This way, the cards don’t align differently depending on how many lines of text the title consumes.
<div class="m-6 rounded overflow-hidden shadow-lg">
<img class="w-full h-48 object-cover" src="@ImageDetails.Url" alt="@ImageDetails.Title" />
<div class="p-6">
<div class="flex items-baseline">
@if (ImageDetails.IsNew)
{
<div class="flex items-baseline">
<span class="inline-block bg-teal-200 text-teal-800 text-xs px-2 rounded-full
uppercase font-semibold tracking-wide">New</span>
<div class="ml-2 text-gray-600 text-md-left uppercase font-semibold tracking-wide">
@ImageDetails.Date.ToLongDateString()
</div>
</div>
}
else
{
<div class="text-gray-600 text-md-left uppercase font-semibold tracking-wide">
@ImageDetails.Date.ToLongDateString()
</div>
}
</div>
<h3 class="mt-1 font-semibold text-2xl leading-tight truncate">@ImageDetails.Title</h3>
</div>
</div>
Here’s how a card looks with the New
badge:
And again, here’s how the page looks. Check it out live at blastoffwithblazor.com as well!
For comparison, here’s how it looks on an iPhone X.
Wrap up
In this post, we showed off how to query images from our Cosmos DB and display our images using a responsive layout. Along the way, we learned how to pass parameters to reusable components.
In future posts, we’ll work on infinite scrolling, clicking an image for more details, and querying and searching the data.
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