TestsTested | ✓ |
LangLanguage | Obj-CObjective C |
License | MIT |
ReleasedLast Release | Oct 2015 |
Maintained by Max Meyers.
FastttCamera
is a wrapper around AVFoundation
that allows you to build your own powerful custom camera app without all the headaches of using AVFoundation
directly.
FastttCamera
now supports awesome photo filters!
FastttCamera
powers the camera in the new Do Camera app for iOS from IFTTT.
FastttCamera
automatically handles for you:AVFoundation
HeadachesAVCaptureSession
.AVCaptureVideoPreviewLayer
in a sane way relative to your camera's view.AVCaptureDevice
and safely changing its properties as needed, such as setting the flash mode and switching between the front and back cameras.AVCaptureStillImageOutput
.AVCaptureConnection
's orientation appropriately when the device is rotated.FastttCamera
does many operations faster than UIImagePickerController
's camera, such as switching between the front and back camera, and provides you the captured photos in the format you need, returning a cropped full-resolution image as quickly as UIImagePickerController
returns the raw captured image on most devices. It allows all of the flexibility of AVFoundation
without the need to reinvent the wheel, so you can focus on making a beautiful custom UI and doing awesome things with photos.
While both UIImagePickerController
's camera and AVFoundation
give you raw images that may not even be cropped the same as the live camera preview your users see, FastttCamera
gives you a full-resolution image cropped to the same aspect ratio as your live preview's viewport as well as a preview image scaled to the pixel dimensions of that viewport, whether you want a square camera, a camera sized to the full screen, or something else.
FastttCamera
also is smart at handling image orientation, a notoriously tricky part of images from both AVFoundation
and UIImagePickerController
. The orientation of the camera is magically detected correctly even if the user is taking landscape photos with orientation lock turned on, because FastttCamera
checks the accelerometer to determine the real device orientation.
To run the example project, clone the repo, and run pod install
from the Example
directory.
Add an instance of FastttCamera
as a child of your view controller. Adjust the size and layout of FastttCamera
's view however you'd like, and FastttCamera
will automatically adjust the camera's preview window and crop captured images to match what is visible within its bounds.
#import "ExampleViewController.h"
#import <FastttCamera.h>
@interface ExampleViewController () <FastttCameraDelegate>
@property (nonatomic, strong) FastttCamera *fastCamera;
@end
@implementation ExampleViewController
- (void)viewDidLoad
{
[super viewDidLoad];
_fastCamera = [FastttCamera new];
self.fastCamera.delegate = self;
[self fastttAddChildViewController:self.fastCamera];
self.fastCamera.view.frame = self.view.frame;
}
Switch between the front and back cameras.
if ([FastttCamera isCameraDeviceAvailable:cameraDevice]) {
[self.fastCamera setCameraDevice:cameraDevice];
}
Set the camera's flash mode.
if ([FastttCamera isFlashAvailableForCameraDevice:self.fastCamera.cameraDevice]) {
[self.fastCamera setCameraFlashMode:flashMode];
}
Set the camera's torch mode.
if ([FastttCamera isTorchAvailableForCameraDevice:self.fastCamera.cameraDevice]) {
[self.fastCamera setCameraTorchMode:torchMode];
}
Tell FastttCamera
to take a photo.
[self.fastCamera takePicture];
Use FastttCamera
's delegate methods to retrieve the captured image object after taking a photo.
#pragma mark - IFTTTFastttCameraDelegate
- (void)cameraController:(FastttCamera *)cameraController
didFinishCapturingImage:(FastttCapturedImage *)capturedImage
{
/**
* Here, capturedImage.fullImage contains the full-resolution captured
* image, while capturedImage.rotatedPreviewImage contains the full-resolution
* image with its rotation adjusted to match the orientation in which the
* image was captured.
*/
}
- (void)cameraController:(FastttCamera *)cameraController
didFinishScalingCapturedImage:(FastttCapturedImage *)capturedImage
{
/**
* Here, capturedImage.scaledImage contains the scaled-down version
* of the image.
*/
}
- (void)cameraController:(FastttCamera *)cameraController
didFinishNormalizingCapturedImage:(FastttCapturedImage *)capturedImage
{
/**
* Here, capturedImage.fullImage and capturedImage.scaledImage have
* been rotated so that they have image orientations equal to
* UIImageOrientationUp. These images are ready for saving and uploading,
* as they should be rendered more consistently across different web
* services than images with non-standard orientations.
*/
}
FastttCamera
now supports awesome photo filters!
FastttFilterCamera
is a wrapper around the super-speedy GPUImage
project that supports fast and easy creation of a camera app using filters based on GPUImage
's Lookup Filters.
GPUImage
is a powerful framework that processes images by using the GPU so quickly that it's possible to filter the live video preview straight from the camera. With all of its powerful features, it can be a bit tricky to get it configured correctly to make this work, and then you still need to solve the same image orientation and cropping challenges that you would using AVFoundation
. FastttFilterCamera
uses the same interface as FastttCamera
, but allows you to apply a simple filter to the camera's preview or to your images.
Lookup Filters are a clever feature of GPUImage
that makes creating beautiful filters as easy as editing a photo. Using your favorite photo editing application, you create whatever effect you want using actions or layers, and test it out on photos until you like the look. If you use Photoshop, check out this example lookup filter image creation file.
When you're ready, you take a special png image that has one pixel for each possible color value, and apply your desired effects to it. The Lookup Filter then filters each pixel of a photo by looking at the pixel location in your lookup image that corresponds to the color in the photo, and replacing it with the color it finds in the lookup image.
It's super fast because it doesn't need to do any on-the-fly calculations such as adjusting contrast or brightness, it just looks up the pre-calculated replacement color, so you can do more complex effects without slowing down your app. Pretty cool stuff!
The only limitation of Lookup Filters is that the effects you apply must not be affected by the location of the pixel. Blur, vignette, noise/grain, texture, edge detection, and other similar effects that are either dependent on neighboring pixels or aren't uniform over the entire image won't work, but Contrast, Levels, Color Overlay, Hue, Brightness, and Saturation would all be perfect effects to use here. Remember to save it as an uncompressed 512 x 512 png image when you're done.
FastttCamera
uses a CocoaPods subspec if you need support for photo filtering. To install FastttCamera
including filters support, simply add the following line to your Podfile
:
pod "FastttCamera/Filters"
This will also include all of the standard FastttCamera
classes, so the FastttCamera/Filters
subspec is the only FastttCamera
CocoaPod you need to include in your Podfile
.
The filters camera uses the same interface as the regular FastttCamera
. To create a camera that live-filters the camera's preview, just include the Filters
CocoaPods subspec, and create a FastttFilterCamera
instead of a FastttCamera
.
#import "ExampleViewController.h"
#import <FastttFilterCamera.h>
@interface ExampleViewController () <FastttCameraDelegate>
@property (nonatomic, strong) FastttFilterCamera *fastCamera;
@end
@implementation ExampleViewController
- (void)viewDidLoad
{
[super viewDidLoad];
UIImage *lookupFilterImage = [UIImage imageNamed:@"YourLookupImage"];
_fastCamera = [FastttFilterCamera cameraWithFilterImage:lookupFilterImage];
self.fastCamera.delegate = self;
[self fastttAddChildViewController:self.fastCamera];
self.fastCamera.view.frame = self.view.frame;
}
To change to a different filter, just change the filterImage
property of the FastttFilterCamera
to the lookup image of the new filter.
- (void)switchFilter
{
UIImage *newLookupFilterImage = [UIImage imageNamed:@"NewLookupImage"];
self.fastCamera.filterImage = newLookupFilterImage;
}
If you don't want the live camera preview to have a set filter, you can use a regular FastttCamera
for photo taking, then apply your filters to the captured photos afterwards.
Include the FastttCamera/Filters
CocoaPods subspec, then create a regular FastttCamera
for photo capturing. After your user takes the photo, you can present filter options they can apply to the static image on your photo edit/confirm screen using the UIImage
fastttFilteredWithImage:
filter method found in UIImage+FastttFilters.h
.
#import <UIImage+FastttFilters.h>
- (void)applyFilter
{
UIImage *preview = [UIImage imageWithContentsOfFile:self.imageFileName];
UIImage *lookupFilterImage = [UIImage imageNamed:@"LookupImage"];
preview = [preview fastttFilteredImageWithFilter:lookupFilterImage];
[self.imageView setImage:preview];
}
Remember to apply each filter to the original UIImage
if you let users switch between many filters, instead of applying new filters on top of the same image you already filtered, unless you intend for the filters' effects to be combined.
To run the filters example project, clone the repo, and run pod install
from the FiltersExample
directory.
You can see a few examples of different lookup images used for filtering in the Images.xcassets
directory. Remember, to make your own custom lookup filters, start with this unfiltered lookup image, and remember to save it as an uncompressed 512 x 512 png image in your project when you're done applying any desired effects.
FastttCamera is available under the MIT license. See the LICENSE file for more info.
Copyright 2015 IFTTT Inc.