Merge "Camera2: FoV quirk crop regions" into jb-mr2-dev
diff --git a/services/camera/libcameraservice/camera2/Parameters.cpp b/services/camera/libcameraservice/camera2/Parameters.cpp
index 910aa19..49fc3d8 100644
--- a/services/camera/libcameraservice/camera2/Parameters.cpp
+++ b/services/camera/libcameraservice/camera2/Parameters.cpp
@@ -2559,27 +2559,24 @@
* stream cropping.
*/
if (quirks.meteringCropRegion) {
- /**
- * All streams are the same in height, so narrower aspect ratios will
- * get cropped on the sides. First find the largest (widest) aspect
- * ratio, then calculate the crop of the still FOV based on that.
- */
- float cropAspect = arrayAspect;
- float aspects[] = {
- stillAspect,
- static_cast<float>(previewWidth) / previewHeight,
- static_cast<float>(videoWidth) / videoHeight
- };
- for (size_t i = 0; i < sizeof(aspects)/sizeof(aspects[0]); i++) {
- if (cropAspect < aspects[i]) cropAspect = aspects[i];
+ // Use max of preview and video as first crop
+ float previewAspect = static_cast<float>(previewWidth) / previewHeight;
+ float videoAspect = static_cast<float>(videoWidth) / videoHeight;
+ if (videoAspect > previewAspect) {
+ previewAspect = videoAspect;
}
- ALOGV("Widest crop aspect: %f", cropAspect);
- // Horizontal crop of still is done based on fitting in the widest
- // aspect ratio
- horizCropFactor = stillAspect / cropAspect;
- // Vertical crop is a function of the array aspect ratio and the
- // widest aspect ratio.
- vertCropFactor = arrayAspect / cropAspect;
+ // First crop sensor to preview aspect ratio
+ if (arrayAspect < previewAspect) {
+ vertCropFactor = arrayAspect / previewAspect;
+ } else {
+ horizCropFactor = previewAspect / arrayAspect;
+ }
+ // Second crop to still aspect ratio
+ if (stillAspect < previewAspect) {
+ horizCropFactor *= stillAspect / previewAspect;
+ } else {
+ vertCropFactor *= previewAspect / stillAspect;
+ }
} else {
/**
* Crop are just a function of just the still/array relative aspect