/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "Camera2-Parameters"
#define ATRACE_TAG ATRACE_TAG_CAMERA
//#define LOG_NDEBUG 0
#include <utils/Log.h>
#include <utils/Trace.h>
#include <utils/Vector.h>
#include <utils/SortedVector.h>
#include <math.h>
#include <stdlib.h>
#include <cutils/properties.h>
#include "Parameters.h"
#include "system/camera.h"
namespace android {
namespace camera2 {
Parameters::Parameters(int cameraId,
int cameraFacing) :
cameraId(cameraId),
cameraFacing(cameraFacing),
info(NULL) {
}
Parameters::~Parameters() {
}
status_t Parameters::initialize(const CameraMetadata *info) {
status_t res;
if (info->entryCount() == 0) {
ALOGE("%s: No static information provided!", __FUNCTION__);
return BAD_VALUE;
}
Parameters::info = info;
res = buildFastInfo();
if (res != OK) return res;
res = buildQuirks();
if (res != OK) return res;
camera_metadata_ro_entry_t availableProcessedSizes =
staticInfo(ANDROID_SCALER_AVAILABLE_PROCESSED_SIZES, 2);
if (!availableProcessedSizes.count) return NO_INIT;
// TODO: Pick more intelligently
previewWidth = availableProcessedSizes.data.i32[0];
previewHeight = availableProcessedSizes.data.i32[1];
videoWidth = previewWidth;
videoHeight = previewHeight;
params.setPreviewSize(previewWidth, previewHeight);
params.setVideoSize(videoWidth, videoHeight);
params.set(CameraParameters::KEY_PREFERRED_PREVIEW_SIZE_FOR_VIDEO,
String8::format("%dx%d",
previewWidth, previewHeight));
{
String8 supportedPreviewSizes;
for (size_t i=0; i < availableProcessedSizes.count; i += 2) {
if (i != 0) supportedPreviewSizes += ",";
supportedPreviewSizes += String8::format("%dx%d",
availableProcessedSizes.data.i32[i],
availableProcessedSizes.data.i32[i+1]);
}
params.set(CameraParameters::KEY_SUPPORTED_PREVIEW_SIZES,
supportedPreviewSizes);
params.set(CameraParameters::KEY_SUPPORTED_VIDEO_SIZES,
supportedPreviewSizes);
}
camera_metadata_ro_entry_t availableFpsRanges =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES, 2);
if (!availableFpsRanges.count) return NO_INIT;
previewFpsRange[0] = availableFpsRanges.data.i32[0];
previewFpsRange[1] = availableFpsRanges.data.i32[1];
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE,
String8::format("%d,%d",
previewFpsRange[0] * kFpsToApiScale,
previewFpsRange[1] * kFpsToApiScale));
{
String8 supportedPreviewFpsRange;
for (size_t i=0; i < availableFpsRanges.count; i += 2) {
if (i != 0) supportedPreviewFpsRange += ",";
supportedPreviewFpsRange += String8::format("(%d,%d)",
availableFpsRanges.data.i32[i] * kFpsToApiScale,
availableFpsRanges.data.i32[i+1] * kFpsToApiScale);
}
params.set(CameraParameters::KEY_SUPPORTED_PREVIEW_FPS_RANGE,
supportedPreviewFpsRange);
}
previewFormat = HAL_PIXEL_FORMAT_YCrCb_420_SP;
params.set(CameraParameters::KEY_PREVIEW_FORMAT,
formatEnumToString(previewFormat)); // NV21
previewTransform = degToTransform(0,
cameraFacing == CAMERA_FACING_FRONT);
camera_metadata_ro_entry_t availableFormats =
staticInfo(ANDROID_SCALER_AVAILABLE_FORMATS);
{
String8 supportedPreviewFormats;
bool addComma = false;
for (size_t i=0; i < availableFormats.count; i++) {
if (addComma) supportedPreviewFormats += ",";
addComma = true;
switch (availableFormats.data.i32[i]) {
case HAL_PIXEL_FORMAT_YCbCr_422_SP:
supportedPreviewFormats +=
CameraParameters::PIXEL_FORMAT_YUV422SP;
break;
case HAL_PIXEL_FORMAT_YCrCb_420_SP:
supportedPreviewFormats +=
CameraParameters::PIXEL_FORMAT_YUV420SP;
break;
case HAL_PIXEL_FORMAT_YCbCr_422_I:
supportedPreviewFormats +=
CameraParameters::PIXEL_FORMAT_YUV422I;
break;
case HAL_PIXEL_FORMAT_YV12:
supportedPreviewFormats +=
CameraParameters::PIXEL_FORMAT_YUV420P;
break;
case HAL_PIXEL_FORMAT_RGB_565:
supportedPreviewFormats +=
CameraParameters::PIXEL_FORMAT_RGB565;
break;
case HAL_PIXEL_FORMAT_RGBA_8888:
supportedPreviewFormats +=
CameraParameters::PIXEL_FORMAT_RGBA8888;
break;
// Not advertizing JPEG, RAW_SENSOR, etc, for preview formats
case HAL_PIXEL_FORMAT_RAW_SENSOR:
case HAL_PIXEL_FORMAT_BLOB:
addComma = false;
break;
default:
ALOGW("%s: Camera %d: Unknown preview format: %x",
__FUNCTION__, cameraId, availableFormats.data.i32[i]);
addComma = false;
break;
}
}
params.set(CameraParameters::KEY_SUPPORTED_PREVIEW_FORMATS,
supportedPreviewFormats);
}
// PREVIEW_FRAME_RATE / SUPPORTED_PREVIEW_FRAME_RATES are deprecated, but
// still have to do something sane for them
// NOTE: Not scaled like FPS range values are.
previewFps = fpsFromRange(previewFpsRange[0], previewFpsRange[1]);
params.set(CameraParameters::KEY_PREVIEW_FRAME_RATE,
previewFps);
{
SortedVector<int32_t> sortedPreviewFrameRates;
String8 supportedPreviewFrameRates;
for (size_t i=0; i < availableFpsRanges.count; i += 2) {
// from the [min, max] fps range use the max value
int fps = fpsFromRange(availableFpsRanges.data.i32[i],
availableFpsRanges.data.i32[i+1]);
// de-dupe frame rates
if (sortedPreviewFrameRates.indexOf(fps) == NAME_NOT_FOUND) {
sortedPreviewFrameRates.add(fps);
}
else {
continue;
}
if (sortedPreviewFrameRates.size() > 1) {
supportedPreviewFrameRates += ",";
}
supportedPreviewFrameRates += String8::format("%d",
fps);
ALOGV("%s: Supported preview frame rates: %s",
__FUNCTION__, supportedPreviewFrameRates.string());
}
params.set(CameraParameters::KEY_SUPPORTED_PREVIEW_FRAME_RATES,
supportedPreviewFrameRates);
}
camera_metadata_ro_entry_t availableJpegSizes =
staticInfo(ANDROID_SCALER_AVAILABLE_JPEG_SIZES, 2);
if (!availableJpegSizes.count) return NO_INIT;
// TODO: Pick maximum
pictureWidth = availableJpegSizes.data.i32[0];
pictureHeight = availableJpegSizes.data.i32[1];
params.setPictureSize(pictureWidth,
pictureHeight);
{
String8 supportedPictureSizes;
for (size_t i=0; i < availableJpegSizes.count; i += 2) {
if (i != 0) supportedPictureSizes += ",";
supportedPictureSizes += String8::format("%dx%d",
availableJpegSizes.data.i32[i],
availableJpegSizes.data.i32[i+1]);
}
params.set(CameraParameters::KEY_SUPPORTED_PICTURE_SIZES,
supportedPictureSizes);
}
params.setPictureFormat(CameraParameters::PIXEL_FORMAT_JPEG);
params.set(CameraParameters::KEY_SUPPORTED_PICTURE_FORMATS,
CameraParameters::PIXEL_FORMAT_JPEG);
camera_metadata_ro_entry_t availableJpegThumbnailSizes =
staticInfo(ANDROID_JPEG_AVAILABLE_THUMBNAIL_SIZES, 4);
if (!availableJpegThumbnailSizes.count) return NO_INIT;
// TODO: Pick default thumbnail size sensibly
jpegThumbSize[0] = availableJpegThumbnailSizes.data.i32[0];
jpegThumbSize[1] = availableJpegThumbnailSizes.data.i32[1];
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_WIDTH,
jpegThumbSize[0]);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_HEIGHT,
jpegThumbSize[1]);
{
String8 supportedJpegThumbSizes;
for (size_t i=0; i < availableJpegThumbnailSizes.count; i += 2) {
if (i != 0) supportedJpegThumbSizes += ",";
supportedJpegThumbSizes += String8::format("%dx%d",
availableJpegThumbnailSizes.data.i32[i],
availableJpegThumbnailSizes.data.i32[i+1]);
}
params.set(CameraParameters::KEY_SUPPORTED_JPEG_THUMBNAIL_SIZES,
supportedJpegThumbSizes);
}
jpegThumbQuality = 90;
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_QUALITY,
jpegThumbQuality);
jpegQuality = 90;
params.set(CameraParameters::KEY_JPEG_QUALITY,
jpegQuality);
jpegRotation = 0;
params.set(CameraParameters::KEY_ROTATION,
jpegRotation);
gpsEnabled = false;
gpsCoordinates[0] = 0.0;
gpsCoordinates[1] = 0.0;
gpsCoordinates[2] = 0.0;
gpsTimestamp = 0;
gpsProcessingMethod = "unknown";
// GPS fields in CameraParameters are not set by implementation
wbMode = ANDROID_CONTROL_AWB_AUTO;
params.set(CameraParameters::KEY_WHITE_BALANCE,
CameraParameters::WHITE_BALANCE_AUTO);
camera_metadata_ro_entry_t availableWhiteBalanceModes =
staticInfo(ANDROID_CONTROL_AWB_AVAILABLE_MODES);
{
String8 supportedWhiteBalance;
bool addComma = false;
for (size_t i=0; i < availableWhiteBalanceModes.count; i++) {
if (addComma) supportedWhiteBalance += ",";
addComma = true;
switch (availableWhiteBalanceModes.data.u8[i]) {
case ANDROID_CONTROL_AWB_AUTO:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_AUTO;
break;
case ANDROID_CONTROL_AWB_INCANDESCENT:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_INCANDESCENT;
break;
case ANDROID_CONTROL_AWB_FLUORESCENT:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_FLUORESCENT;
break;
case ANDROID_CONTROL_AWB_WARM_FLUORESCENT:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_WARM_FLUORESCENT;
break;
case ANDROID_CONTROL_AWB_DAYLIGHT:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_DAYLIGHT;
break;
case ANDROID_CONTROL_AWB_CLOUDY_DAYLIGHT:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_CLOUDY_DAYLIGHT;
break;
case ANDROID_CONTROL_AWB_TWILIGHT:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_TWILIGHT;
break;
case ANDROID_CONTROL_AWB_SHADE:
supportedWhiteBalance +=
CameraParameters::WHITE_BALANCE_SHADE;
break;
// Skipping values not mappable to v1 API
case ANDROID_CONTROL_AWB_OFF:
addComma = false;
break;
default:
ALOGW("%s: Camera %d: Unknown white balance value: %d",
__FUNCTION__, cameraId,
availableWhiteBalanceModes.data.u8[i]);
addComma = false;
break;
}
}
params.set(CameraParameters::KEY_SUPPORTED_WHITE_BALANCE,
supportedWhiteBalance);
}
effectMode = ANDROID_CONTROL_EFFECT_OFF;
params.set(CameraParameters::KEY_EFFECT,
CameraParameters::EFFECT_NONE);
camera_metadata_ro_entry_t availableEffects =
staticInfo(ANDROID_CONTROL_AVAILABLE_EFFECTS);
if (!availableEffects.count) return NO_INIT;
{
String8 supportedEffects;
bool addComma = false;
for (size_t i=0; i < availableEffects.count; i++) {
if (addComma) supportedEffects += ",";
addComma = true;
switch (availableEffects.data.u8[i]) {
case ANDROID_CONTROL_EFFECT_OFF:
supportedEffects +=
CameraParameters::EFFECT_NONE;
break;
case ANDROID_CONTROL_EFFECT_MONO:
supportedEffects +=
CameraParameters::EFFECT_MONO;
break;
case ANDROID_CONTROL_EFFECT_NEGATIVE:
supportedEffects +=
CameraParameters::EFFECT_NEGATIVE;
break;
case ANDROID_CONTROL_EFFECT_SOLARIZE:
supportedEffects +=
CameraParameters::EFFECT_SOLARIZE;
break;
case ANDROID_CONTROL_EFFECT_SEPIA:
supportedEffects +=
CameraParameters::EFFECT_SEPIA;
break;
case ANDROID_CONTROL_EFFECT_POSTERIZE:
supportedEffects +=
CameraParameters::EFFECT_POSTERIZE;
break;
case ANDROID_CONTROL_EFFECT_WHITEBOARD:
supportedEffects +=
CameraParameters::EFFECT_WHITEBOARD;
break;
case ANDROID_CONTROL_EFFECT_BLACKBOARD:
supportedEffects +=
CameraParameters::EFFECT_BLACKBOARD;
break;
case ANDROID_CONTROL_EFFECT_AQUA:
supportedEffects +=
CameraParameters::EFFECT_AQUA;
break;
default:
ALOGW("%s: Camera %d: Unknown effect value: %d",
__FUNCTION__, cameraId, availableEffects.data.u8[i]);
addComma = false;
break;
}
}
params.set(CameraParameters::KEY_SUPPORTED_EFFECTS, supportedEffects);
}
antibandingMode = ANDROID_CONTROL_AE_ANTIBANDING_AUTO;
params.set(CameraParameters::KEY_ANTIBANDING,
CameraParameters::ANTIBANDING_AUTO);
camera_metadata_ro_entry_t availableAntibandingModes =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_ANTIBANDING_MODES);
if (!availableAntibandingModes.count) return NO_INIT;
{
String8 supportedAntibanding;
bool addComma = false;
for (size_t i=0; i < availableAntibandingModes.count; i++) {
if (addComma) supportedAntibanding += ",";
addComma = true;
switch (availableAntibandingModes.data.u8[i]) {
case ANDROID_CONTROL_AE_ANTIBANDING_OFF:
supportedAntibanding +=
CameraParameters::ANTIBANDING_OFF;
break;
case ANDROID_CONTROL_AE_ANTIBANDING_50HZ:
supportedAntibanding +=
CameraParameters::ANTIBANDING_50HZ;
break;
case ANDROID_CONTROL_AE_ANTIBANDING_60HZ:
supportedAntibanding +=
CameraParameters::ANTIBANDING_60HZ;
break;
case ANDROID_CONTROL_AE_ANTIBANDING_AUTO:
supportedAntibanding +=
CameraParameters::ANTIBANDING_AUTO;
break;
default:
ALOGW("%s: Camera %d: Unknown antibanding value: %d",
__FUNCTION__, cameraId,
availableAntibandingModes.data.u8[i]);
addComma = false;
break;
}
}
params.set(CameraParameters::KEY_SUPPORTED_ANTIBANDING,
supportedAntibanding);
}
sceneMode = ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED;
params.set(CameraParameters::KEY_SCENE_MODE,
CameraParameters::SCENE_MODE_AUTO);
camera_metadata_ro_entry_t availableSceneModes =
staticInfo(ANDROID_CONTROL_AVAILABLE_SCENE_MODES);
if (!availableSceneModes.count) return NO_INIT;
{
String8 supportedSceneModes(CameraParameters::SCENE_MODE_AUTO);
bool addComma = true;
bool noSceneModes = false;
for (size_t i=0; i < availableSceneModes.count; i++) {
if (addComma) supportedSceneModes += ",";
addComma = true;
switch (availableSceneModes.data.u8[i]) {
case ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED:
noSceneModes = true;
break;
case ANDROID_CONTROL_SCENE_MODE_FACE_PRIORITY:
// Not in old API
addComma = false;
break;
case ANDROID_CONTROL_SCENE_MODE_ACTION:
supportedSceneModes +=
CameraParameters::SCENE_MODE_ACTION;
break;
case ANDROID_CONTROL_SCENE_MODE_PORTRAIT:
supportedSceneModes +=
CameraParameters::SCENE_MODE_PORTRAIT;
break;
case ANDROID_CONTROL_SCENE_MODE_LANDSCAPE:
supportedSceneModes +=
CameraParameters::SCENE_MODE_LANDSCAPE;
break;
case ANDROID_CONTROL_SCENE_MODE_NIGHT:
supportedSceneModes +=
CameraParameters::SCENE_MODE_NIGHT;
break;
case ANDROID_CONTROL_SCENE_MODE_NIGHT_PORTRAIT:
supportedSceneModes +=
CameraParameters::SCENE_MODE_NIGHT_PORTRAIT;
break;
case ANDROID_CONTROL_SCENE_MODE_THEATRE:
supportedSceneModes +=
CameraParameters::SCENE_MODE_THEATRE;
break;
case ANDROID_CONTROL_SCENE_MODE_BEACH:
supportedSceneModes +=
CameraParameters::SCENE_MODE_BEACH;
break;
case ANDROID_CONTROL_SCENE_MODE_SNOW:
supportedSceneModes +=
CameraParameters::SCENE_MODE_SNOW;
break;
case ANDROID_CONTROL_SCENE_MODE_SUNSET:
supportedSceneModes +=
CameraParameters::SCENE_MODE_SUNSET;
break;
case ANDROID_CONTROL_SCENE_MODE_STEADYPHOTO:
supportedSceneModes +=
CameraParameters::SCENE_MODE_STEADYPHOTO;
break;
case ANDROID_CONTROL_SCENE_MODE_FIREWORKS:
supportedSceneModes +=
CameraParameters::SCENE_MODE_FIREWORKS;
break;
case ANDROID_CONTROL_SCENE_MODE_SPORTS:
supportedSceneModes +=
CameraParameters::SCENE_MODE_SPORTS;
break;
case ANDROID_CONTROL_SCENE_MODE_PARTY:
supportedSceneModes +=
CameraParameters::SCENE_MODE_PARTY;
break;
case ANDROID_CONTROL_SCENE_MODE_CANDLELIGHT:
supportedSceneModes +=
CameraParameters::SCENE_MODE_CANDLELIGHT;
break;
case ANDROID_CONTROL_SCENE_MODE_BARCODE:
supportedSceneModes +=
CameraParameters::SCENE_MODE_BARCODE;
break;
default:
ALOGW("%s: Camera %d: Unknown scene mode value: %d",
__FUNCTION__, cameraId,
availableSceneModes.data.u8[i]);
addComma = false;
break;
}
}
if (!noSceneModes) {
params.set(CameraParameters::KEY_SUPPORTED_SCENE_MODES,
supportedSceneModes);
}
}
camera_metadata_ro_entry_t flashAvailable =
staticInfo(ANDROID_FLASH_AVAILABLE, 1, 1);
if (!flashAvailable.count) return NO_INIT;
camera_metadata_ro_entry_t availableAeModes =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_MODES);
if (!availableAeModes.count) return NO_INIT;
if (flashAvailable.data.u8[0]) {
flashMode = Parameters::FLASH_MODE_OFF;
params.set(CameraParameters::KEY_FLASH_MODE,
CameraParameters::FLASH_MODE_OFF);
String8 supportedFlashModes(CameraParameters::FLASH_MODE_OFF);
supportedFlashModes = supportedFlashModes +
"," + CameraParameters::FLASH_MODE_AUTO +
"," + CameraParameters::FLASH_MODE_ON +
"," + CameraParameters::FLASH_MODE_TORCH;
for (size_t i=0; i < availableAeModes.count; i++) {
if (availableAeModes.data.u8[i] ==
ANDROID_CONTROL_AE_ON_AUTO_FLASH_REDEYE) {
supportedFlashModes = supportedFlashModes + "," +
CameraParameters::FLASH_MODE_RED_EYE;
break;
}
}
params.set(CameraParameters::KEY_SUPPORTED_FLASH_MODES,
supportedFlashModes);
} else {
flashMode = Parameters::FLASH_MODE_OFF;
params.set(CameraParameters::KEY_FLASH_MODE,
CameraParameters::FLASH_MODE_OFF);
params.set(CameraParameters::KEY_SUPPORTED_FLASH_MODES,
CameraParameters::FLASH_MODE_OFF);
}
camera_metadata_ro_entry_t minFocusDistance =
staticInfo(ANDROID_LENS_MINIMUM_FOCUS_DISTANCE, 1, 1);
if (!minFocusDistance.count) return NO_INIT;
camera_metadata_ro_entry_t availableAfModes =
staticInfo(ANDROID_CONTROL_AF_AVAILABLE_MODES);
if (!availableAfModes.count) return NO_INIT;
if (minFocusDistance.data.f[0] == 0) {
// Fixed-focus lens
focusMode = Parameters::FOCUS_MODE_FIXED;
params.set(CameraParameters::KEY_FOCUS_MODE,
CameraParameters::FOCUS_MODE_FIXED);
params.set(CameraParameters::KEY_SUPPORTED_FOCUS_MODES,
CameraParameters::FOCUS_MODE_FIXED);
} else {
focusMode = Parameters::FOCUS_MODE_AUTO;
params.set(CameraParameters::KEY_FOCUS_MODE,
CameraParameters::FOCUS_MODE_AUTO);
String8 supportedFocusModes(CameraParameters::FOCUS_MODE_INFINITY);
bool addComma = true;
for (size_t i=0; i < availableAfModes.count; i++) {
if (addComma) supportedFocusModes += ",";
addComma = true;
switch (availableAfModes.data.u8[i]) {
case ANDROID_CONTROL_AF_AUTO:
supportedFocusModes +=
CameraParameters::FOCUS_MODE_AUTO;
break;
case ANDROID_CONTROL_AF_MACRO:
supportedFocusModes +=
CameraParameters::FOCUS_MODE_MACRO;
break;
case ANDROID_CONTROL_AF_CONTINUOUS_VIDEO:
supportedFocusModes +=
CameraParameters::FOCUS_MODE_CONTINUOUS_VIDEO;
break;
case ANDROID_CONTROL_AF_CONTINUOUS_PICTURE:
supportedFocusModes +=
CameraParameters::FOCUS_MODE_CONTINUOUS_PICTURE;
break;
case ANDROID_CONTROL_AF_EDOF:
supportedFocusModes +=
CameraParameters::FOCUS_MODE_EDOF;
break;
// Not supported in old API
case ANDROID_CONTROL_AF_OFF:
addComma = false;
break;
default:
ALOGW("%s: Camera %d: Unknown AF mode value: %d",
__FUNCTION__, cameraId, availableAfModes.data.u8[i]);
addComma = false;
break;
}
}
params.set(CameraParameters::KEY_SUPPORTED_FOCUS_MODES,
supportedFocusModes);
}
focusState = ANDROID_CONTROL_AF_STATE_INACTIVE;
shadowFocusMode = FOCUS_MODE_INVALID;
camera_metadata_ro_entry_t max3aRegions =
staticInfo(ANDROID_CONTROL_MAX_REGIONS, 1, 1);
if (!max3aRegions.count) return NO_INIT;
int32_t maxNumFocusAreas = 0;
if (focusMode != Parameters::FOCUS_MODE_FIXED) {
maxNumFocusAreas = max3aRegions.data.i32[0];
}
params.set(CameraParameters::KEY_MAX_NUM_FOCUS_AREAS, maxNumFocusAreas);
params.set(CameraParameters::KEY_FOCUS_AREAS,
"(0,0,0,0,0)");
focusingAreas.clear();
focusingAreas.add(Parameters::Area(0,0,0,0,0));
camera_metadata_ro_entry_t availableFocalLengths =
staticInfo(ANDROID_LENS_AVAILABLE_FOCAL_LENGTHS);
if (!availableFocalLengths.count) return NO_INIT;
float minFocalLength = availableFocalLengths.data.f[0];
params.setFloat(CameraParameters::KEY_FOCAL_LENGTH, minFocalLength);
camera_metadata_ro_entry_t sensorSize =
staticInfo(ANDROID_SENSOR_PHYSICAL_SIZE, 2, 2);
if (!sensorSize.count) return NO_INIT;
// The fields of view here assume infinity focus, maximum wide angle
float horizFov = 180 / M_PI *
2 * atanf(sensorSize.data.f[0] / (2 * minFocalLength));
float vertFov = 180 / M_PI *
2 * atanf(sensorSize.data.f[1] / (2 * minFocalLength));
params.setFloat(CameraParameters::KEY_HORIZONTAL_VIEW_ANGLE, horizFov);
params.setFloat(CameraParameters::KEY_VERTICAL_VIEW_ANGLE, vertFov);
exposureCompensation = 0;
params.set(CameraParameters::KEY_EXPOSURE_COMPENSATION,
exposureCompensation);
camera_metadata_ro_entry_t exposureCompensationRange =
staticInfo(ANDROID_CONTROL_AE_EXP_COMPENSATION_RANGE, 2, 2);
if (!exposureCompensationRange.count) return NO_INIT;
params.set(CameraParameters::KEY_MAX_EXPOSURE_COMPENSATION,
exposureCompensationRange.data.i32[1]);
params.set(CameraParameters::KEY_MIN_EXPOSURE_COMPENSATION,
exposureCompensationRange.data.i32[0]);
camera_metadata_ro_entry_t exposureCompensationStep =
staticInfo(ANDROID_CONTROL_AE_EXP_COMPENSATION_STEP, 1, 1);
if (!exposureCompensationStep.count) return NO_INIT;
params.setFloat(CameraParameters::KEY_EXPOSURE_COMPENSATION_STEP,
(float)exposureCompensationStep.data.r[0].numerator /
exposureCompensationStep.data.r[0].denominator);
autoExposureLock = false;
params.set(CameraParameters::KEY_AUTO_EXPOSURE_LOCK,
CameraParameters::FALSE);
params.set(CameraParameters::KEY_AUTO_EXPOSURE_LOCK_SUPPORTED,
CameraParameters::TRUE);
autoWhiteBalanceLock = false;
params.set(CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK,
CameraParameters::FALSE);
params.set(CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK_SUPPORTED,
CameraParameters::TRUE);
meteringAreas.add(Parameters::Area(0, 0, 0, 0, 0));
params.set(CameraParameters::KEY_MAX_NUM_METERING_AREAS,
max3aRegions.data.i32[0]);
params.set(CameraParameters::KEY_METERING_AREAS,
"(0,0,0,0,0)");
zoom = 0;
params.set(CameraParameters::KEY_ZOOM, zoom);
params.set(CameraParameters::KEY_MAX_ZOOM, NUM_ZOOM_STEPS - 1);
camera_metadata_ro_entry_t maxDigitalZoom =
staticInfo(ANDROID_SCALER_AVAILABLE_MAX_ZOOM, /*minCount*/1, /*maxCount*/1);
if (!maxDigitalZoom.count) return NO_INIT;
{
String8 zoomRatios;
float zoom = 1.f;
float zoomIncrement = (maxDigitalZoom.data.f[0] - zoom) /
(NUM_ZOOM_STEPS-1);
bool addComma = false;
for (size_t i=0; i < NUM_ZOOM_STEPS; i++) {
if (addComma) zoomRatios += ",";
addComma = true;
zoomRatios += String8::format("%d", static_cast<int>(zoom * 100));
zoom += zoomIncrement;
}
params.set(CameraParameters::KEY_ZOOM_RATIOS, zoomRatios);
}
params.set(CameraParameters::KEY_ZOOM_SUPPORTED,
CameraParameters::TRUE);
params.set(CameraParameters::KEY_SMOOTH_ZOOM_SUPPORTED,
CameraParameters::FALSE);
params.set(CameraParameters::KEY_FOCUS_DISTANCES,
"Infinity,Infinity,Infinity");
params.set(CameraParameters::KEY_MAX_NUM_DETECTED_FACES_HW,
fastInfo.maxFaces);
params.set(CameraParameters::KEY_MAX_NUM_DETECTED_FACES_SW,
0);
params.set(CameraParameters::KEY_VIDEO_FRAME_FORMAT,
CameraParameters::PIXEL_FORMAT_ANDROID_OPAQUE);
recordingHint = false;
params.set(CameraParameters::KEY_RECORDING_HINT,
CameraParameters::FALSE);
params.set(CameraParameters::KEY_VIDEO_SNAPSHOT_SUPPORTED,
CameraParameters::TRUE);
videoStabilization = false;
params.set(CameraParameters::KEY_VIDEO_STABILIZATION,
CameraParameters::FALSE);
camera_metadata_ro_entry_t availableVideoStabilizationModes =
staticInfo(ANDROID_CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES);
if (!availableVideoStabilizationModes.count) return NO_INIT;
if (availableVideoStabilizationModes.count > 1) {
params.set(CameraParameters::KEY_VIDEO_STABILIZATION_SUPPORTED,
CameraParameters::TRUE);
} else {
params.set(CameraParameters::KEY_VIDEO_STABILIZATION_SUPPORTED,
CameraParameters::FALSE);
}
// Set up initial state for non-Camera.Parameters state variables
storeMetadataInBuffers = true;
playShutterSound = true;
enableFaceDetect = false;
enableFocusMoveMessages = false;
afTriggerCounter = 1;
currentAfTriggerId = -1;
afInMotion = false;
precaptureTriggerCounter = 1;
previewCallbackFlags = 0;
previewCallbackOneShot = false;
char value[PROPERTY_VALUE_MAX];
property_get("camera.disable_zsl_mode", value, "0");
if (!strcmp(value,"1")) {
ALOGI("Camera %d: Disabling ZSL mode", cameraId);
zslMode = false;
} else {
zslMode = true;
}
lightFx = LIGHTFX_NONE;
state = STOPPED;
paramsFlattened = params.flatten();
return OK;
}
String8 Parameters::get() const {
return paramsFlattened;
}
status_t Parameters::buildFastInfo() {
camera_metadata_ro_entry_t activeArraySize =
staticInfo(ANDROID_SENSOR_ACTIVE_ARRAY_SIZE, 2, 2);
if (!activeArraySize.count) return NO_INIT;
int32_t arrayWidth = activeArraySize.data.i32[0];
int32_t arrayHeight = activeArraySize.data.i32[1];
camera_metadata_ro_entry_t availableFaceDetectModes =
staticInfo(ANDROID_STATS_AVAILABLE_FACE_DETECT_MODES);
if (!availableFaceDetectModes.count) return NO_INIT;
uint8_t bestFaceDetectMode =
ANDROID_STATS_FACE_DETECTION_OFF;
for (size_t i = 0 ; i < availableFaceDetectModes.count; i++) {
switch (availableFaceDetectModes.data.u8[i]) {
case ANDROID_STATS_FACE_DETECTION_OFF:
break;
case ANDROID_STATS_FACE_DETECTION_SIMPLE:
if (bestFaceDetectMode !=
ANDROID_STATS_FACE_DETECTION_FULL) {
bestFaceDetectMode =
ANDROID_STATS_FACE_DETECTION_SIMPLE;
}
break;
case ANDROID_STATS_FACE_DETECTION_FULL:
bestFaceDetectMode =
ANDROID_STATS_FACE_DETECTION_FULL;
break;
default:
ALOGE("%s: Camera %d: Unknown face detect mode %d:",
__FUNCTION__, cameraId,
availableFaceDetectModes.data.u8[i]);
return NO_INIT;
}
}
camera_metadata_ro_entry_t maxFacesDetected =
staticInfo(ANDROID_STATS_MAX_FACE_COUNT, 1, 1);
if (!maxFacesDetected.count) return NO_INIT;
int32_t maxFaces = maxFacesDetected.data.i32[0];
camera_metadata_ro_entry_t availableSceneModes =
staticInfo(ANDROID_CONTROL_AVAILABLE_SCENE_MODES);
camera_metadata_ro_entry_t sceneModeOverrides =
staticInfo(ANDROID_CONTROL_SCENE_MODE_OVERRIDES);
camera_metadata_ro_entry_t minFocusDistance =
staticInfo(ANDROID_LENS_MINIMUM_FOCUS_DISTANCE);
bool fixedLens = (minFocusDistance.data.f[0] == 0);
if (sceneModeOverrides.count > 0) {
// sceneModeOverrides is defined to have 3 entries for each scene mode,
// which are AE, AWB, and AF override modes the HAL wants for that scene
// mode.
const size_t kModesPerSceneMode = 3;
if (sceneModeOverrides.count !=
availableSceneModes.count * kModesPerSceneMode) {
ALOGE("%s: Camera %d: Scene mode override list is an "
"unexpected size: %d (expected %d)", __FUNCTION__,
cameraId, sceneModeOverrides.count,
availableSceneModes.count);
return NO_INIT;
}
for (size_t i = 0; i < availableSceneModes.count; i++) {
DeviceInfo::OverrideModes modes;
uint8_t aeMode =
sceneModeOverrides.data.u8[i * kModesPerSceneMode + 0];
switch(aeMode) {
case ANDROID_CONTROL_AE_ON:
modes.flashMode = FLASH_MODE_OFF;
break;
case ANDROID_CONTROL_AE_ON_AUTO_FLASH:
modes.flashMode = FLASH_MODE_AUTO;
break;
case ANDROID_CONTROL_AE_ON_ALWAYS_FLASH:
modes.flashMode = FLASH_MODE_ON;
break;
case ANDROID_CONTROL_AE_ON_AUTO_FLASH_REDEYE:
modes.flashMode = FLASH_MODE_RED_EYE;
break;
default:
ALOGE("%s: Unknown override AE mode: %d", __FUNCTION__,
aeMode);
modes.flashMode = FLASH_MODE_INVALID;
break;
}
modes.wbMode =
sceneModeOverrides.data.u8[i * kModesPerSceneMode + 1];
uint8_t afMode =
sceneModeOverrides.data.u8[i * kModesPerSceneMode + 2];
switch(afMode) {
case ANDROID_CONTROL_AF_OFF:
modes.focusMode = fixedLens ?
FOCUS_MODE_FIXED : FOCUS_MODE_INFINITY;
break;
case ANDROID_CONTROL_AF_AUTO:
case ANDROID_CONTROL_AF_MACRO:
case ANDROID_CONTROL_AF_CONTINUOUS_VIDEO:
case ANDROID_CONTROL_AF_CONTINUOUS_PICTURE:
case ANDROID_CONTROL_AF_EDOF:
modes.focusMode = static_cast<focusMode_t>(afMode);
break;
default:
ALOGE("%s: Unknown override AF mode: %d", __FUNCTION__,
afMode);
modes.focusMode = FOCUS_MODE_INVALID;
break;
}
fastInfo.sceneModeOverrides.add(availableSceneModes.data.u8[i],
modes);
}
}
fastInfo.arrayWidth = arrayWidth;
fastInfo.arrayHeight = arrayHeight;
fastInfo.bestFaceDetectMode = bestFaceDetectMode;
fastInfo.maxFaces = maxFaces;
return OK;
}
status_t Parameters::buildQuirks() {
camera_metadata_ro_entry_t entry;
entry = info->find(ANDROID_QUIRKS_TRIGGER_AF_WITH_AUTO);
quirks.triggerAfWithAuto = (entry.count != 0 && entry.data.u8[0] == 1);
ALOGV_IF(quirks.triggerAfWithAuto, "Camera %d: Quirk triggerAfWithAuto enabled",
cameraId);
entry = info->find(ANDROID_QUIRKS_USE_ZSL_FORMAT);
quirks.useZslFormat = (entry.count != 0 && entry.data.u8[0] == 1);
ALOGV_IF(quirks.useZslFormat, "Camera %d: Quirk useZslFormat enabled",
cameraId);
entry = info->find(ANDROID_QUIRKS_METERING_CROP_REGION);
quirks.meteringCropRegion = (entry.count != 0 && entry.data.u8[0] == 1);
ALOGV_IF(quirks.meteringCropRegion, "Camera %d: Quirk meteringCropRegion"
" enabled", cameraId);
return OK;
}
camera_metadata_ro_entry_t Parameters::staticInfo(uint32_t tag,
size_t minCount, size_t maxCount) const {
status_t res;
camera_metadata_ro_entry_t entry = info->find(tag);
if (CC_UNLIKELY( entry.count == 0 )) {
const char* tagSection = get_camera_metadata_section_name(tag);
if (tagSection == NULL) tagSection = "<unknown>";
const char* tagName = get_camera_metadata_tag_name(tag);
if (tagName == NULL) tagName = "<unknown>";
ALOGE("Error finding static metadata entry '%s.%s' (%x)",
tagSection, tagName, tag);
} else if (CC_UNLIKELY(
(minCount != 0 && entry.count < minCount) ||
(maxCount != 0 && entry.count > maxCount) ) ) {
const char* tagSection = get_camera_metadata_section_name(tag);
if (tagSection == NULL) tagSection = "<unknown>";
const char* tagName = get_camera_metadata_tag_name(tag);
if (tagName == NULL) tagName = "<unknown>";
ALOGE("Malformed static metadata entry '%s.%s' (%x):"
"Expected between %d and %d values, but got %d values",
tagSection, tagName, tag, minCount, maxCount, entry.count);
}
return entry;
}
status_t Parameters::set(const String8& paramString) {
status_t res;
CameraParameters newParams(paramString);
// TODO: Currently ignoring any changes to supposedly read-only parameters
// such as supported preview sizes, etc. Should probably produce an error if
// they're changed.
/** Extract and verify new parameters */
size_t i;
Parameters validatedParams(*this);
// PREVIEW_SIZE
newParams.getPreviewSize(&validatedParams.previewWidth,
&validatedParams.previewHeight);
if (validatedParams.previewWidth != previewWidth ||
validatedParams.previewHeight != previewHeight) {
if (state >= PREVIEW) {
ALOGE("%s: Preview size cannot be updated when preview "
"is active! (Currently %d x %d, requested %d x %d",
__FUNCTION__,
previewWidth, previewHeight,
validatedParams.previewWidth, validatedParams.previewHeight);
return BAD_VALUE;
}
camera_metadata_ro_entry_t availablePreviewSizes =
staticInfo(ANDROID_SCALER_AVAILABLE_PROCESSED_SIZES);
for (i = 0; i < availablePreviewSizes.count; i += 2 ) {
if ((availablePreviewSizes.data.i32[i] ==
validatedParams.previewWidth) &&
(availablePreviewSizes.data.i32[i+1] ==
validatedParams.previewHeight)) break;
}
if (i == availablePreviewSizes.count) {
ALOGE("%s: Requested preview size %d x %d is not supported",
__FUNCTION__, validatedParams.previewWidth,
validatedParams.previewHeight);
return BAD_VALUE;
}
}
// RECORDING_HINT (always supported)
validatedParams.recordingHint = boolFromString(
newParams.get(CameraParameters::KEY_RECORDING_HINT) );
bool recordingHintChanged = validatedParams.recordingHint != recordingHint;
ALOGV_IF(recordingHintChanged, "%s: Recording hint changed to %d",
__FUNCTION__, recordingHintChanged);
// PREVIEW_FPS_RANGE
bool fpsRangeChanged = false;
newParams.getPreviewFpsRange(&validatedParams.previewFpsRange[0],
&validatedParams.previewFpsRange[1]);
validatedParams.previewFpsRange[0] /= kFpsToApiScale;
validatedParams.previewFpsRange[1] /= kFpsToApiScale;
if (validatedParams.previewFpsRange[0] != previewFpsRange[0] ||
validatedParams.previewFpsRange[1] != previewFpsRange[1]) {
fpsRangeChanged = true;
camera_metadata_ro_entry_t availablePreviewFpsRanges =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES, 2);
for (i = 0; i < availablePreviewFpsRanges.count; i += 2) {
if ((availablePreviewFpsRanges.data.i32[i] ==
validatedParams.previewFpsRange[0]) &&
(availablePreviewFpsRanges.data.i32[i+1] ==
validatedParams.previewFpsRange[1]) ) {
break;
}
}
if (i == availablePreviewFpsRanges.count) {
ALOGE("%s: Requested preview FPS range %d - %d is not supported",
__FUNCTION__, validatedParams.previewFpsRange[0],
validatedParams.previewFpsRange[1]);
return BAD_VALUE;
}
validatedParams.previewFps =
fpsFromRange(validatedParams.previewFpsRange[0],
validatedParams.previewFpsRange[1]);
newParams.setPreviewFrameRate(validatedParams.previewFps);
}
// PREVIEW_FORMAT
validatedParams.previewFormat =
formatStringToEnum(newParams.getPreviewFormat());
if (validatedParams.previewFormat != previewFormat) {
if (state >= PREVIEW) {
ALOGE("%s: Preview format cannot be updated when preview "
"is active!", __FUNCTION__);
return BAD_VALUE;
}
camera_metadata_ro_entry_t availableFormats =
staticInfo(ANDROID_SCALER_AVAILABLE_FORMATS);
for (i = 0; i < availableFormats.count; i++) {
if (availableFormats.data.i32[i] == validatedParams.previewFormat)
break;
}
if (i == availableFormats.count) {
ALOGE("%s: Requested preview format %s (0x%x) is not supported",
__FUNCTION__, newParams.getPreviewFormat(),
validatedParams.previewFormat);
return BAD_VALUE;
}
}
// PREVIEW_FRAME_RATE
// Deprecated, only use if the preview fps range is unchanged this time.
// The single-value FPS is the same as the minimum of the range.
if (!fpsRangeChanged) {
validatedParams.previewFps = newParams.getPreviewFrameRate();
if (validatedParams.previewFps != previewFps || recordingHintChanged) {
camera_metadata_ro_entry_t availableFrameRates =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES);
/**
* If recording hint is set, find the range that encompasses
* previewFps with the largest min index.
*
* If recording hint is not set, find the range with previewFps
* with the smallest min index.
*
* Either way, in case of multiple ranges, break the tie by
* selecting the smaller range.
*/
int targetFps = validatedParams.previewFps;
// all ranges which have targetFps
Vector<Range> candidateRanges;
for (i = 0; i < availableFrameRates.count; i+=2) {
Range r = {
availableFrameRates.data.i32[i],
availableFrameRates.data.i32[i+1]
};
if (r.min <= targetFps && targetFps <= r.max) {
candidateRanges.push(r);
}
}
if (candidateRanges.isEmpty()) {
ALOGE("%s: Requested preview frame rate %d is not supported",
__FUNCTION__, validatedParams.previewFps);
return BAD_VALUE;
}
// most applicable range with targetFps
Range bestRange = candidateRanges[0];
for (i = 1; i < candidateRanges.size(); ++i) {
Range r = candidateRanges[i];
// Find by largest minIndex in recording mode
if (validatedParams.recordingHint) {
if (r.min > bestRange.min) {
bestRange = r;
}
else if (r.min == bestRange.min && r.max < bestRange.max) {
bestRange = r;
}
}
// Find by smallest minIndex in preview mode
else {
if (r.min < bestRange.min) {
bestRange = r;
}
else if (r.min == bestRange.min && r.max < bestRange.max) {
bestRange = r;
}
}
}
validatedParams.previewFpsRange[0] =
bestRange.min;
validatedParams.previewFpsRange[1] =
bestRange.max;
ALOGV("%s: New preview FPS range: %d, %d, recordingHint = %d",
__FUNCTION__,
validatedParams.previewFpsRange[0],
validatedParams.previewFpsRange[1],
validatedParams.recordingHint);
}
newParams.set(CameraParameters::KEY_PREVIEW_FPS_RANGE,
String8::format("%d,%d",
validatedParams.previewFpsRange[0] * kFpsToApiScale,
validatedParams.previewFpsRange[1] * kFpsToApiScale));
}
// PICTURE_SIZE
newParams.getPictureSize(&validatedParams.pictureWidth,
&validatedParams.pictureHeight);
if (validatedParams.pictureWidth == pictureWidth ||
validatedParams.pictureHeight == pictureHeight) {
camera_metadata_ro_entry_t availablePictureSizes =
staticInfo(ANDROID_SCALER_AVAILABLE_JPEG_SIZES);
for (i = 0; i < availablePictureSizes.count; i+=2) {
if ((availablePictureSizes.data.i32[i] ==
validatedParams.pictureWidth) &&
(availablePictureSizes.data.i32[i+1] ==
validatedParams.pictureHeight)) break;
}
if (i == availablePictureSizes.count) {
ALOGE("%s: Requested picture size %d x %d is not supported",
__FUNCTION__, validatedParams.pictureWidth,
validatedParams.pictureHeight);
return BAD_VALUE;
}
}
// JPEG_THUMBNAIL_WIDTH/HEIGHT
validatedParams.jpegThumbSize[0] =
newParams.getInt(CameraParameters::KEY_JPEG_THUMBNAIL_WIDTH);
validatedParams.jpegThumbSize[1] =
newParams.getInt(CameraParameters::KEY_JPEG_THUMBNAIL_HEIGHT);
if (validatedParams.jpegThumbSize[0] != jpegThumbSize[0] ||
validatedParams.jpegThumbSize[1] != jpegThumbSize[1]) {
camera_metadata_ro_entry_t availableJpegThumbSizes =
staticInfo(ANDROID_JPEG_AVAILABLE_THUMBNAIL_SIZES);
for (i = 0; i < availableJpegThumbSizes.count; i+=2) {
if ((availableJpegThumbSizes.data.i32[i] ==
validatedParams.jpegThumbSize[0]) &&
(availableJpegThumbSizes.data.i32[i+1] ==
validatedParams.jpegThumbSize[1])) break;
}
if (i == availableJpegThumbSizes.count) {
ALOGE("%s: Requested JPEG thumbnail size %d x %d is not supported",
__FUNCTION__, validatedParams.jpegThumbSize[0],
validatedParams.jpegThumbSize[1]);
return BAD_VALUE;
}
}
// JPEG_THUMBNAIL_QUALITY
validatedParams.jpegThumbQuality =
newParams.getInt(CameraParameters::KEY_JPEG_THUMBNAIL_QUALITY);
if (validatedParams.jpegThumbQuality < 0 ||
validatedParams.jpegThumbQuality > 100) {
ALOGE("%s: Requested JPEG thumbnail quality %d is not supported",
__FUNCTION__, validatedParams.jpegThumbQuality);
return BAD_VALUE;
}
// JPEG_QUALITY
validatedParams.jpegQuality =
newParams.getInt(CameraParameters::KEY_JPEG_QUALITY);
if (validatedParams.jpegQuality < 0 || validatedParams.jpegQuality > 100) {
ALOGE("%s: Requested JPEG quality %d is not supported",
__FUNCTION__, validatedParams.jpegQuality);
return BAD_VALUE;
}
// ROTATION
validatedParams.jpegRotation =
newParams.getInt(CameraParameters::KEY_ROTATION);
if (validatedParams.jpegRotation != 0 &&
validatedParams.jpegRotation != 90 &&
validatedParams.jpegRotation != 180 &&
validatedParams.jpegRotation != 270) {
ALOGE("%s: Requested picture rotation angle %d is not supported",
__FUNCTION__, validatedParams.jpegRotation);
return BAD_VALUE;
}
// GPS
const char *gpsLatStr =
newParams.get(CameraParameters::KEY_GPS_LATITUDE);
if (gpsLatStr != NULL) {
const char *gpsLongStr =
newParams.get(CameraParameters::KEY_GPS_LONGITUDE);
const char *gpsAltitudeStr =
newParams.get(CameraParameters::KEY_GPS_ALTITUDE);
const char *gpsTimeStr =
newParams.get(CameraParameters::KEY_GPS_TIMESTAMP);
const char *gpsProcMethodStr =
newParams.get(CameraParameters::KEY_GPS_PROCESSING_METHOD);
if (gpsLongStr == NULL ||
gpsAltitudeStr == NULL ||
gpsTimeStr == NULL ||
gpsProcMethodStr == NULL) {
ALOGE("%s: Incomplete set of GPS parameters provided",
__FUNCTION__);
return BAD_VALUE;
}
char *endPtr;
errno = 0;
validatedParams.gpsCoordinates[0] = strtod(gpsLatStr, &endPtr);
if (errno || endPtr == gpsLatStr) {
ALOGE("%s: Malformed GPS latitude: %s", __FUNCTION__, gpsLatStr);
return BAD_VALUE;
}
errno = 0;
validatedParams.gpsCoordinates[1] = strtod(gpsLongStr, &endPtr);
if (errno || endPtr == gpsLongStr) {
ALOGE("%s: Malformed GPS longitude: %s", __FUNCTION__, gpsLongStr);
return BAD_VALUE;
}
errno = 0;
validatedParams.gpsCoordinates[2] = strtod(gpsAltitudeStr, &endPtr);
if (errno || endPtr == gpsAltitudeStr) {
ALOGE("%s: Malformed GPS altitude: %s", __FUNCTION__,
gpsAltitudeStr);
return BAD_VALUE;
}
errno = 0;
validatedParams.gpsTimestamp = strtoll(gpsTimeStr, &endPtr, 10);
if (errno || endPtr == gpsTimeStr) {
ALOGE("%s: Malformed GPS timestamp: %s", __FUNCTION__, gpsTimeStr);
return BAD_VALUE;
}
validatedParams.gpsProcessingMethod = gpsProcMethodStr;
validatedParams.gpsEnabled = true;
} else {
validatedParams.gpsEnabled = false;
}
// EFFECT
validatedParams.effectMode = effectModeStringToEnum(
newParams.get(CameraParameters::KEY_EFFECT) );
if (validatedParams.effectMode != effectMode) {
camera_metadata_ro_entry_t availableEffectModes =
staticInfo(ANDROID_CONTROL_AVAILABLE_EFFECTS);
for (i = 0; i < availableEffectModes.count; i++) {
if (validatedParams.effectMode == availableEffectModes.data.u8[i]) break;
}
if (i == availableEffectModes.count) {
ALOGE("%s: Requested effect mode \"%s\" is not supported",
__FUNCTION__,
newParams.get(CameraParameters::KEY_EFFECT) );
return BAD_VALUE;
}
}
// ANTIBANDING
validatedParams.antibandingMode = abModeStringToEnum(
newParams.get(CameraParameters::KEY_ANTIBANDING) );
if (validatedParams.antibandingMode != antibandingMode) {
camera_metadata_ro_entry_t availableAbModes =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_ANTIBANDING_MODES);
for (i = 0; i < availableAbModes.count; i++) {
if (validatedParams.antibandingMode == availableAbModes.data.u8[i])
break;
}
if (i == availableAbModes.count) {
ALOGE("%s: Requested antibanding mode \"%s\" is not supported",
__FUNCTION__,
newParams.get(CameraParameters::KEY_ANTIBANDING));
return BAD_VALUE;
}
}
// SCENE_MODE
validatedParams.sceneMode = sceneModeStringToEnum(
newParams.get(CameraParameters::KEY_SCENE_MODE) );
if (validatedParams.sceneMode != sceneMode &&
validatedParams.sceneMode !=
ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED) {
camera_metadata_ro_entry_t availableSceneModes =
staticInfo(ANDROID_CONTROL_AVAILABLE_SCENE_MODES);
for (i = 0; i < availableSceneModes.count; i++) {
if (validatedParams.sceneMode == availableSceneModes.data.u8[i])
break;
}
if (i == availableSceneModes.count) {
ALOGE("%s: Requested scene mode \"%s\" is not supported",
__FUNCTION__,
newParams.get(CameraParameters::KEY_SCENE_MODE));
return BAD_VALUE;
}
}
bool sceneModeSet =
validatedParams.sceneMode != ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED;
// FLASH_MODE
if (sceneModeSet) {
validatedParams.flashMode =
fastInfo.sceneModeOverrides.
valueFor(validatedParams.sceneMode).flashMode;
} else {
validatedParams.flashMode = FLASH_MODE_INVALID;
}
if (validatedParams.flashMode == FLASH_MODE_INVALID) {
validatedParams.flashMode = flashModeStringToEnum(
newParams.get(CameraParameters::KEY_FLASH_MODE) );
}
if (validatedParams.flashMode != flashMode) {
camera_metadata_ro_entry_t flashAvailable =
staticInfo(ANDROID_FLASH_AVAILABLE, 1, 1);
if (!flashAvailable.data.u8[0] &&
validatedParams.flashMode != Parameters::FLASH_MODE_OFF) {
ALOGE("%s: Requested flash mode \"%s\" is not supported: "
"No flash on device", __FUNCTION__,
newParams.get(CameraParameters::KEY_FLASH_MODE));
return BAD_VALUE;
} else if (validatedParams.flashMode == Parameters::FLASH_MODE_RED_EYE) {
camera_metadata_ro_entry_t availableAeModes =
staticInfo(ANDROID_CONTROL_AE_AVAILABLE_MODES);
for (i = 0; i < availableAeModes.count; i++) {
if (validatedParams.flashMode == availableAeModes.data.u8[i])
break;
}
if (i == availableAeModes.count) {
ALOGE("%s: Requested flash mode \"%s\" is not supported",
__FUNCTION__,
newParams.get(CameraParameters::KEY_FLASH_MODE));
return BAD_VALUE;
}
} else if (validatedParams.flashMode == -1) {
ALOGE("%s: Requested flash mode \"%s\" is unknown",
__FUNCTION__,
newParams.get(CameraParameters::KEY_FLASH_MODE));
return BAD_VALUE;
}
// Update in case of override
newParams.set(CameraParameters::KEY_FLASH_MODE,
flashModeEnumToString(validatedParams.flashMode));
}
// WHITE_BALANCE
if (sceneModeSet) {
validatedParams.wbMode =
fastInfo.sceneModeOverrides.
valueFor(validatedParams.sceneMode).wbMode;
} else {
validatedParams.wbMode = ANDROID_CONTROL_AWB_OFF;
}
if (validatedParams.wbMode == ANDROID_CONTROL_AWB_OFF) {
validatedParams.wbMode = wbModeStringToEnum(
newParams.get(CameraParameters::KEY_WHITE_BALANCE) );
}
if (validatedParams.wbMode != wbMode) {
camera_metadata_ro_entry_t availableWbModes =
staticInfo(ANDROID_CONTROL_AWB_AVAILABLE_MODES);
for (i = 0; i < availableWbModes.count; i++) {
if (validatedParams.wbMode == availableWbModes.data.u8[i]) break;
}
if (i == availableWbModes.count) {
ALOGE("%s: Requested white balance mode %s is not supported",
__FUNCTION__,
newParams.get(CameraParameters::KEY_WHITE_BALANCE));
return BAD_VALUE;
}
// Update in case of override
newParams.set(CameraParameters::KEY_WHITE_BALANCE,
wbModeEnumToString(validatedParams.wbMode));
}
// FOCUS_MODE
if (sceneModeSet) {
validatedParams.focusMode =
fastInfo.sceneModeOverrides.
valueFor(validatedParams.sceneMode).focusMode;
} else {
validatedParams.focusMode = FOCUS_MODE_INVALID;
}
if (validatedParams.focusMode == FOCUS_MODE_INVALID) {
validatedParams.focusMode = focusModeStringToEnum(
newParams.get(CameraParameters::KEY_FOCUS_MODE) );
}
if (validatedParams.focusMode != focusMode) {
validatedParams.currentAfTriggerId = -1;
if (validatedParams.focusMode != Parameters::FOCUS_MODE_FIXED) {
camera_metadata_ro_entry_t minFocusDistance =
staticInfo(ANDROID_LENS_MINIMUM_FOCUS_DISTANCE);
if (minFocusDistance.data.f[0] == 0) {
ALOGE("%s: Requested focus mode \"%s\" is not available: "
"fixed focus lens",
__FUNCTION__,
newParams.get(CameraParameters::KEY_FOCUS_MODE));
return BAD_VALUE;
} else if (validatedParams.focusMode !=
Parameters::FOCUS_MODE_INFINITY) {
camera_metadata_ro_entry_t availableFocusModes =
staticInfo(ANDROID_CONTROL_AF_AVAILABLE_MODES);
for (i = 0; i < availableFocusModes.count; i++) {
if (validatedParams.focusMode ==
availableFocusModes.data.u8[i]) break;
}
if (i == availableFocusModes.count) {
ALOGE("%s: Requested focus mode \"%s\" is not supported",
__FUNCTION__,
newParams.get(CameraParameters::KEY_FOCUS_MODE));
return BAD_VALUE;
}
}
}
validatedParams.focusState = ANDROID_CONTROL_AF_STATE_INACTIVE;
// Always reset shadow focus mode to avoid reverting settings
validatedParams.shadowFocusMode = FOCUS_MODE_INVALID;
// Update in case of override
newParams.set(CameraParameters::KEY_FOCUS_MODE,
focusModeEnumToString(validatedParams.focusMode));
} else {
validatedParams.currentAfTriggerId = currentAfTriggerId;
}
// FOCUS_AREAS
res = parseAreas(newParams.get(CameraParameters::KEY_FOCUS_AREAS),
&validatedParams.focusingAreas);
size_t max3aRegions =
(size_t)staticInfo(ANDROID_CONTROL_MAX_REGIONS, 1, 1).data.i32[0];
if (res == OK) res = validateAreas(validatedParams.focusingAreas,
max3aRegions, AREA_KIND_FOCUS);
if (res != OK) {
ALOGE("%s: Requested focus areas are malformed: %s",
__FUNCTION__, newParams.get(CameraParameters::KEY_FOCUS_AREAS));
return BAD_VALUE;
}
// EXPOSURE_COMPENSATION
validatedParams.exposureCompensation =
newParams.getInt(CameraParameters::KEY_EXPOSURE_COMPENSATION);
camera_metadata_ro_entry_t exposureCompensationRange =
staticInfo(ANDROID_CONTROL_AE_EXP_COMPENSATION_RANGE);
if ((validatedParams.exposureCompensation <
exposureCompensationRange.data.i32[0]) ||
(validatedParams.exposureCompensation >
exposureCompensationRange.data.i32[1])) {
ALOGE("%s: Requested exposure compensation index is out of bounds: %d",
__FUNCTION__, validatedParams.exposureCompensation);
return BAD_VALUE;
}
// AUTO_EXPOSURE_LOCK (always supported)
validatedParams.autoExposureLock = boolFromString(
newParams.get(CameraParameters::KEY_AUTO_EXPOSURE_LOCK));
// AUTO_WHITEBALANCE_LOCK (always supported)
validatedParams.autoWhiteBalanceLock = boolFromString(
newParams.get(CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK));
// METERING_AREAS
res = parseAreas(newParams.get(CameraParameters::KEY_METERING_AREAS),
&validatedParams.meteringAreas);
if (res == OK) {
res = validateAreas(validatedParams.meteringAreas, max3aRegions,
AREA_KIND_METERING);
}
if (res != OK) {
ALOGE("%s: Requested metering areas are malformed: %s",
__FUNCTION__,
newParams.get(CameraParameters::KEY_METERING_AREAS));
return BAD_VALUE;
}
// ZOOM
validatedParams.zoom = newParams.getInt(CameraParameters::KEY_ZOOM);
if (validatedParams.zoom < 0
|| validatedParams.zoom >= (int)NUM_ZOOM_STEPS) {
ALOGE("%s: Requested zoom level %d is not supported",
__FUNCTION__, validatedParams.zoom);
return BAD_VALUE;
}
// VIDEO_SIZE
newParams.getVideoSize(&validatedParams.videoWidth,
&validatedParams.videoHeight);
if (validatedParams.videoWidth != videoWidth ||
validatedParams.videoHeight != videoHeight) {
if (state == RECORD) {
ALOGE("%s: Video size cannot be updated when recording is active!",
__FUNCTION__);
return BAD_VALUE;
}
camera_metadata_ro_entry_t availableVideoSizes =
staticInfo(ANDROID_SCALER_AVAILABLE_PROCESSED_SIZES);
for (i = 0; i < availableVideoSizes.count; i += 2 ) {
if ((availableVideoSizes.data.i32[i] ==
validatedParams.videoWidth) &&
(availableVideoSizes.data.i32[i+1] ==
validatedParams.videoHeight)) break;
}
if (i == availableVideoSizes.count) {
ALOGE("%s: Requested video size %d x %d is not supported",
__FUNCTION__, validatedParams.videoWidth,
validatedParams.videoHeight);
return BAD_VALUE;
}
}
// VIDEO_STABILIZATION
validatedParams.videoStabilization = boolFromString(
newParams.get(CameraParameters::KEY_VIDEO_STABILIZATION) );
camera_metadata_ro_entry_t availableVideoStabilizationModes =
staticInfo(ANDROID_CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES);
if (validatedParams.videoStabilization &&
availableVideoStabilizationModes.count == 1) {
ALOGE("%s: Video stabilization not supported", __FUNCTION__);
}
/** Update internal parameters */
*this = validatedParams;
// Need to flatten again in case of overrides
paramsFlattened = newParams.flatten();
params = newParams;
return OK;
}
status_t Parameters::updateRequest(CameraMetadata *request) const {
ATRACE_CALL();
status_t res;
uint8_t metadataMode = ANDROID_REQUEST_METADATA_FULL;
res = request->update(ANDROID_REQUEST_METADATA_MODE,
&metadataMode, 1);
if (res != OK) return res;
res = request->update(ANDROID_CONTROL_AE_TARGET_FPS_RANGE,
previewFpsRange, 2);
if (res != OK) return res;
uint8_t reqWbLock = autoWhiteBalanceLock ?
ANDROID_CONTROL_AWB_LOCK_ON : ANDROID_CONTROL_AWB_LOCK_OFF;
res = request->update(ANDROID_CONTROL_AWB_LOCK,
&reqWbLock, 1);
res = request->update(ANDROID_CONTROL_EFFECT_MODE,
&effectMode, 1);
if (res != OK) return res;
res = request->update(ANDROID_CONTROL_AE_ANTIBANDING_MODE,
&antibandingMode, 1);
if (res != OK) return res;
// android.hardware.Camera requires that when face detect is enabled, the
// camera is in a face-priority mode. HAL2 splits this into separate parts
// (face detection statistics and face priority scene mode). Map from other
// to the other.
bool sceneModeActive =
sceneMode != (uint8_t)ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED;
uint8_t reqControlMode = ANDROID_CONTROL_AUTO;
if (enableFaceDetect || sceneModeActive) {
reqControlMode = ANDROID_CONTROL_USE_SCENE_MODE;
}
res = request->update(ANDROID_CONTROL_MODE,
&reqControlMode, 1);
if (res != OK) return res;
uint8_t reqSceneMode =
sceneModeActive ? sceneMode :
enableFaceDetect ? (uint8_t)ANDROID_CONTROL_SCENE_MODE_FACE_PRIORITY :
(uint8_t)ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED;
res = request->update(ANDROID_CONTROL_SCENE_MODE,
&reqSceneMode, 1);
if (res != OK) return res;
uint8_t reqFlashMode = ANDROID_FLASH_OFF;
uint8_t reqAeMode = ANDROID_CONTROL_AE_OFF;
switch (flashMode) {
case Parameters::FLASH_MODE_OFF:
reqAeMode = ANDROID_CONTROL_AE_ON; break;
case Parameters::FLASH_MODE_AUTO:
reqAeMode = ANDROID_CONTROL_AE_ON_AUTO_FLASH; break;
case Parameters::FLASH_MODE_ON:
reqAeMode = ANDROID_CONTROL_AE_ON_ALWAYS_FLASH; break;
case Parameters::FLASH_MODE_TORCH:
reqAeMode = ANDROID_CONTROL_AE_ON;
reqFlashMode = ANDROID_FLASH_TORCH;
break;
case Parameters::FLASH_MODE_RED_EYE:
reqAeMode = ANDROID_CONTROL_AE_ON_AUTO_FLASH_REDEYE; break;
default:
ALOGE("%s: Camera %d: Unknown flash mode %d", __FUNCTION__,
cameraId, flashMode);
return BAD_VALUE;
}
res = request->update(ANDROID_FLASH_MODE,
&reqFlashMode, 1);
if (res != OK) return res;
res = request->update(ANDROID_CONTROL_AE_MODE,
&reqAeMode, 1);
if (res != OK) return res;
uint8_t reqAeLock = autoExposureLock ?
ANDROID_CONTROL_AE_LOCK_ON : ANDROID_CONTROL_AE_LOCK_OFF;
res = request->update(ANDROID_CONTROL_AE_LOCK,
&reqAeLock, 1);
if (res != OK) return res;
res = request->update(ANDROID_CONTROL_AWB_MODE,
&wbMode, 1);
if (res != OK) return res;
float reqFocusDistance = 0; // infinity focus in diopters
uint8_t reqFocusMode = ANDROID_CONTROL_AF_OFF;
switch (focusMode) {
case Parameters::FOCUS_MODE_AUTO:
case Parameters::FOCUS_MODE_MACRO:
case Parameters::FOCUS_MODE_CONTINUOUS_VIDEO:
case Parameters::FOCUS_MODE_CONTINUOUS_PICTURE:
case Parameters::FOCUS_MODE_EDOF:
reqFocusMode = focusMode;
break;
case Parameters::FOCUS_MODE_INFINITY:
case Parameters::FOCUS_MODE_FIXED:
reqFocusMode = ANDROID_CONTROL_AF_OFF;
break;
default:
ALOGE("%s: Camera %d: Unknown focus mode %d", __FUNCTION__,
cameraId, focusMode);
return BAD_VALUE;
}
res = request->update(ANDROID_LENS_FOCUS_DISTANCE,
&reqFocusDistance, 1);
if (res != OK) return res;
res = request->update(ANDROID_CONTROL_AF_MODE,
&reqFocusMode, 1);
if (res != OK) return res;
size_t reqFocusingAreasSize = focusingAreas.size() * 5;
int32_t *reqFocusingAreas = new int32_t[reqFocusingAreasSize];
for (size_t i = 0; i < reqFocusingAreasSize; i += 5) {
if (focusingAreas[i].weight != 0) {
reqFocusingAreas[i + 0] =
normalizedXToArray(focusingAreas[i].left);
reqFocusingAreas[i + 1] =
normalizedYToArray(focusingAreas[i].top);
reqFocusingAreas[i + 2] =
normalizedXToArray(focusingAreas[i].right);
reqFocusingAreas[i + 3] =
normalizedYToArray(focusingAreas[i].bottom);
} else {
reqFocusingAreas[i + 0] = 0;
reqFocusingAreas[i + 1] = 0;
reqFocusingAreas[i + 2] = 0;
reqFocusingAreas[i + 3] = 0;
}
reqFocusingAreas[i + 4] = focusingAreas[i].weight;
}
res = request->update(ANDROID_CONTROL_AF_REGIONS,
reqFocusingAreas, reqFocusingAreasSize);
if (res != OK) return res;
delete[] reqFocusingAreas;
res = request->update(ANDROID_CONTROL_AE_EXP_COMPENSATION,
&exposureCompensation, 1);
if (res != OK) return res;
size_t reqMeteringAreasSize = meteringAreas.size() * 5;
int32_t *reqMeteringAreas = new int32_t[reqMeteringAreasSize];
for (size_t i = 0; i < reqMeteringAreasSize; i += 5) {
if (meteringAreas[i].weight != 0) {
reqMeteringAreas[i + 0] =
normalizedXToArray(meteringAreas[i].left);
reqMeteringAreas[i + 1] =
normalizedYToArray(meteringAreas[i].top);
reqMeteringAreas[i + 2] =
normalizedXToArray(meteringAreas[i].right);
reqMeteringAreas[i + 3] =
normalizedYToArray(meteringAreas[i].bottom);
} else {
reqMeteringAreas[i + 0] = 0;
reqMeteringAreas[i + 1] = 0;
reqMeteringAreas[i + 2] = 0;
reqMeteringAreas[i + 3] = 0;
}
reqMeteringAreas[i + 4] = meteringAreas[i].weight;
}
res = request->update(ANDROID_CONTROL_AE_REGIONS,
reqMeteringAreas, reqMeteringAreasSize);
if (res != OK) return res;
delete[] reqMeteringAreas;
/* don't include jpeg thumbnail size - it's valid for
it to be set to (0,0), meaning 'no thumbnail' */
CropRegion crop = calculateCropRegion( (CropRegion::Outputs)(
CropRegion::OUTPUT_PREVIEW |
CropRegion::OUTPUT_VIDEO |
CropRegion::OUTPUT_PICTURE ));
int32_t reqCropRegion[3] = { crop.left, crop.top, crop.width };
res = request->update(ANDROID_SCALER_CROP_REGION,
reqCropRegion, 3);
if (res != OK) return res;
uint8_t reqVstabMode = videoStabilization ?
ANDROID_CONTROL_VIDEO_STABILIZATION_ON :
ANDROID_CONTROL_VIDEO_STABILIZATION_OFF;
res = request->update(ANDROID_CONTROL_VIDEO_STABILIZATION_MODE,
&reqVstabMode, 1);
if (res != OK) return res;
uint8_t reqFaceDetectMode = enableFaceDetect ?
fastInfo.bestFaceDetectMode :
(uint8_t)ANDROID_STATS_FACE_DETECTION_OFF;
res = request->update(ANDROID_STATS_FACE_DETECT_MODE,
&reqFaceDetectMode, 1);
if (res != OK) return res;
return OK;
}
status_t Parameters::updateRequestJpeg(CameraMetadata *request) const {
status_t res;
res = request->update(ANDROID_JPEG_THUMBNAIL_SIZE,
jpegThumbSize, 2);
if (res != OK) return res;
res = request->update(ANDROID_JPEG_THUMBNAIL_QUALITY,
&jpegThumbQuality, 1);
if (res != OK) return res;
res = request->update(ANDROID_JPEG_QUALITY,
&jpegQuality, 1);
if (res != OK) return res;
res = request->update(
ANDROID_JPEG_ORIENTATION,
&jpegRotation, 1);
if (res != OK) return res;
if (gpsEnabled) {
res = request->update(
ANDROID_JPEG_GPS_COORDINATES,
gpsCoordinates, 3);
if (res != OK) return res;
res = request->update(
ANDROID_JPEG_GPS_TIMESTAMP,
&gpsTimestamp, 1);
if (res != OK) return res;
res = request->update(
ANDROID_JPEG_GPS_PROCESSING_METHOD,
gpsProcessingMethod);
if (res != OK) return res;
} else {
res = request->erase(ANDROID_JPEG_GPS_COORDINATES);
if (res != OK) return res;
res = request->erase(ANDROID_JPEG_GPS_TIMESTAMP);
if (res != OK) return res;
res = request->erase(ANDROID_JPEG_GPS_PROCESSING_METHOD);
if (res != OK) return res;
}
return OK;
}
const char* Parameters::getStateName(State state) {
#define CASE_ENUM_TO_CHAR(x) case x: return(#x); break;
switch(state) {
CASE_ENUM_TO_CHAR(DISCONNECTED)
CASE_ENUM_TO_CHAR(STOPPED)
CASE_ENUM_TO_CHAR(WAITING_FOR_PREVIEW_WINDOW)
CASE_ENUM_TO_CHAR(PREVIEW)
CASE_ENUM_TO_CHAR(RECORD)
CASE_ENUM_TO_CHAR(STILL_CAPTURE)
CASE_ENUM_TO_CHAR(VIDEO_SNAPSHOT)
default:
return "Unknown state!";
break;
}
#undef CASE_ENUM_TO_CHAR
}
int Parameters::formatStringToEnum(const char *format) {
return
!format ?
HAL_PIXEL_FORMAT_YCrCb_420_SP :
!strcmp(format, CameraParameters::PIXEL_FORMAT_YUV422SP) ?
HAL_PIXEL_FORMAT_YCbCr_422_SP : // NV16
!strcmp(format, CameraParameters::PIXEL_FORMAT_YUV420SP) ?
HAL_PIXEL_FORMAT_YCrCb_420_SP : // NV21
!strcmp(format, CameraParameters::PIXEL_FORMAT_YUV422I) ?
HAL_PIXEL_FORMAT_YCbCr_422_I : // YUY2
!strcmp(format, CameraParameters::PIXEL_FORMAT_YUV420P) ?
HAL_PIXEL_FORMAT_YV12 : // YV12
!strcmp(format, CameraParameters::PIXEL_FORMAT_RGB565) ?
HAL_PIXEL_FORMAT_RGB_565 : // RGB565
!strcmp(format, CameraParameters::PIXEL_FORMAT_RGBA8888) ?
HAL_PIXEL_FORMAT_RGBA_8888 : // RGB8888
!strcmp(format, CameraParameters::PIXEL_FORMAT_BAYER_RGGB) ?
HAL_PIXEL_FORMAT_RAW_SENSOR : // Raw sensor data
-1;
}
const char* Parameters::formatEnumToString(int format) {
const char *fmt;
switch(format) {
case HAL_PIXEL_FORMAT_YCbCr_422_SP: // NV16
fmt = CameraParameters::PIXEL_FORMAT_YUV422SP;
break;
case HAL_PIXEL_FORMAT_YCrCb_420_SP: // NV21
fmt = CameraParameters::PIXEL_FORMAT_YUV420SP;
break;
case HAL_PIXEL_FORMAT_YCbCr_422_I: // YUY2
fmt = CameraParameters::PIXEL_FORMAT_YUV422I;
break;
case HAL_PIXEL_FORMAT_YV12: // YV12
fmt = CameraParameters::PIXEL_FORMAT_YUV420P;
break;
case HAL_PIXEL_FORMAT_RGB_565: // RGB565
fmt = CameraParameters::PIXEL_FORMAT_RGB565;
break;
case HAL_PIXEL_FORMAT_RGBA_8888: // RGBA8888
fmt = CameraParameters::PIXEL_FORMAT_RGBA8888;
break;
case HAL_PIXEL_FORMAT_RAW_SENSOR:
ALOGW("Raw sensor preview format requested.");
fmt = CameraParameters::PIXEL_FORMAT_BAYER_RGGB;
break;
default:
ALOGE("%s: Unknown preview format: %x",
__FUNCTION__, format);
fmt = NULL;
break;
}
return fmt;
}
int Parameters::wbModeStringToEnum(const char *wbMode) {
return
!wbMode ?
ANDROID_CONTROL_AWB_AUTO :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_AUTO) ?
ANDROID_CONTROL_AWB_AUTO :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_INCANDESCENT) ?
ANDROID_CONTROL_AWB_INCANDESCENT :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_FLUORESCENT) ?
ANDROID_CONTROL_AWB_FLUORESCENT :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_WARM_FLUORESCENT) ?
ANDROID_CONTROL_AWB_WARM_FLUORESCENT :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_DAYLIGHT) ?
ANDROID_CONTROL_AWB_DAYLIGHT :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_CLOUDY_DAYLIGHT) ?
ANDROID_CONTROL_AWB_CLOUDY_DAYLIGHT :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_TWILIGHT) ?
ANDROID_CONTROL_AWB_TWILIGHT :
!strcmp(wbMode, CameraParameters::WHITE_BALANCE_SHADE) ?
ANDROID_CONTROL_AWB_SHADE :
-1;
}
const char* Parameters::wbModeEnumToString(uint8_t wbMode) {
switch (wbMode) {
case ANDROID_CONTROL_AWB_AUTO:
return CameraParameters::WHITE_BALANCE_AUTO;
case ANDROID_CONTROL_AWB_INCANDESCENT:
return CameraParameters::WHITE_BALANCE_INCANDESCENT;
case ANDROID_CONTROL_AWB_FLUORESCENT:
return CameraParameters::WHITE_BALANCE_FLUORESCENT;
case ANDROID_CONTROL_AWB_WARM_FLUORESCENT:
return CameraParameters::WHITE_BALANCE_WARM_FLUORESCENT;
case ANDROID_CONTROL_AWB_DAYLIGHT:
return CameraParameters::WHITE_BALANCE_DAYLIGHT;
case ANDROID_CONTROL_AWB_CLOUDY_DAYLIGHT:
return CameraParameters::WHITE_BALANCE_CLOUDY_DAYLIGHT;
case ANDROID_CONTROL_AWB_TWILIGHT:
return CameraParameters::WHITE_BALANCE_TWILIGHT;
case ANDROID_CONTROL_AWB_SHADE:
return CameraParameters::WHITE_BALANCE_SHADE;
default:
ALOGE("%s: Unknown AWB mode enum: %d",
__FUNCTION__, wbMode);
return "unknown";
}
}
int Parameters::effectModeStringToEnum(const char *effectMode) {
return
!effectMode ?
ANDROID_CONTROL_EFFECT_OFF :
!strcmp(effectMode, CameraParameters::EFFECT_NONE) ?
ANDROID_CONTROL_EFFECT_OFF :
!strcmp(effectMode, CameraParameters::EFFECT_MONO) ?
ANDROID_CONTROL_EFFECT_MONO :
!strcmp(effectMode, CameraParameters::EFFECT_NEGATIVE) ?
ANDROID_CONTROL_EFFECT_NEGATIVE :
!strcmp(effectMode, CameraParameters::EFFECT_SOLARIZE) ?
ANDROID_CONTROL_EFFECT_SOLARIZE :
!strcmp(effectMode, CameraParameters::EFFECT_SEPIA) ?
ANDROID_CONTROL_EFFECT_SEPIA :
!strcmp(effectMode, CameraParameters::EFFECT_POSTERIZE) ?
ANDROID_CONTROL_EFFECT_POSTERIZE :
!strcmp(effectMode, CameraParameters::EFFECT_WHITEBOARD) ?
ANDROID_CONTROL_EFFECT_WHITEBOARD :
!strcmp(effectMode, CameraParameters::EFFECT_BLACKBOARD) ?
ANDROID_CONTROL_EFFECT_BLACKBOARD :
!strcmp(effectMode, CameraParameters::EFFECT_AQUA) ?
ANDROID_CONTROL_EFFECT_AQUA :
-1;
}
int Parameters::abModeStringToEnum(const char *abMode) {
return
!abMode ?
ANDROID_CONTROL_AE_ANTIBANDING_AUTO :
!strcmp(abMode, CameraParameters::ANTIBANDING_AUTO) ?
ANDROID_CONTROL_AE_ANTIBANDING_AUTO :
!strcmp(abMode, CameraParameters::ANTIBANDING_OFF) ?
ANDROID_CONTROL_AE_ANTIBANDING_OFF :
!strcmp(abMode, CameraParameters::ANTIBANDING_50HZ) ?
ANDROID_CONTROL_AE_ANTIBANDING_50HZ :
!strcmp(abMode, CameraParameters::ANTIBANDING_60HZ) ?
ANDROID_CONTROL_AE_ANTIBANDING_60HZ :
-1;
}
int Parameters::sceneModeStringToEnum(const char *sceneMode) {
return
!sceneMode ?
ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_AUTO) ?
ANDROID_CONTROL_SCENE_MODE_UNSUPPORTED :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_ACTION) ?
ANDROID_CONTROL_SCENE_MODE_ACTION :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_PORTRAIT) ?
ANDROID_CONTROL_SCENE_MODE_PORTRAIT :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_LANDSCAPE) ?
ANDROID_CONTROL_SCENE_MODE_LANDSCAPE :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_NIGHT) ?
ANDROID_CONTROL_SCENE_MODE_NIGHT :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_NIGHT_PORTRAIT) ?
ANDROID_CONTROL_SCENE_MODE_NIGHT_PORTRAIT :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_THEATRE) ?
ANDROID_CONTROL_SCENE_MODE_THEATRE :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_BEACH) ?
ANDROID_CONTROL_SCENE_MODE_BEACH :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_SNOW) ?
ANDROID_CONTROL_SCENE_MODE_SNOW :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_SUNSET) ?
ANDROID_CONTROL_SCENE_MODE_SUNSET :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_STEADYPHOTO) ?
ANDROID_CONTROL_SCENE_MODE_STEADYPHOTO :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_FIREWORKS) ?
ANDROID_CONTROL_SCENE_MODE_FIREWORKS :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_SPORTS) ?
ANDROID_CONTROL_SCENE_MODE_SPORTS :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_PARTY) ?
ANDROID_CONTROL_SCENE_MODE_PARTY :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_CANDLELIGHT) ?
ANDROID_CONTROL_SCENE_MODE_CANDLELIGHT :
!strcmp(sceneMode, CameraParameters::SCENE_MODE_BARCODE) ?
ANDROID_CONTROL_SCENE_MODE_BARCODE:
-1;
}
Parameters::Parameters::flashMode_t Parameters::flashModeStringToEnum(
const char *flashMode) {
return
!flashMode ?
Parameters::FLASH_MODE_INVALID :
!strcmp(flashMode, CameraParameters::FLASH_MODE_OFF) ?
Parameters::FLASH_MODE_OFF :
!strcmp(flashMode, CameraParameters::FLASH_MODE_AUTO) ?
Parameters::FLASH_MODE_AUTO :
!strcmp(flashMode, CameraParameters::FLASH_MODE_ON) ?
Parameters::FLASH_MODE_ON :
!strcmp(flashMode, CameraParameters::FLASH_MODE_RED_EYE) ?
Parameters::FLASH_MODE_RED_EYE :
!strcmp(flashMode, CameraParameters::FLASH_MODE_TORCH) ?
Parameters::FLASH_MODE_TORCH :
Parameters::FLASH_MODE_INVALID;
}
const char *Parameters::flashModeEnumToString(flashMode_t flashMode) {
switch (flashMode) {
case FLASH_MODE_OFF:
return CameraParameters::FLASH_MODE_OFF;
case FLASH_MODE_AUTO:
return CameraParameters::FLASH_MODE_AUTO;
case FLASH_MODE_ON:
return CameraParameters::FLASH_MODE_ON;
case FLASH_MODE_RED_EYE:
return CameraParameters::FLASH_MODE_RED_EYE;
case FLASH_MODE_TORCH:
return CameraParameters::FLASH_MODE_TORCH;
default:
ALOGE("%s: Unknown flash mode enum %d",
__FUNCTION__, flashMode);
return "unknown";
}
}
Parameters::Parameters::focusMode_t Parameters::focusModeStringToEnum(
const char *focusMode) {
return
!focusMode ?
Parameters::FOCUS_MODE_INVALID :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_AUTO) ?
Parameters::FOCUS_MODE_AUTO :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_INFINITY) ?
Parameters::FOCUS_MODE_INFINITY :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_MACRO) ?
Parameters::FOCUS_MODE_MACRO :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_FIXED) ?
Parameters::FOCUS_MODE_FIXED :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_EDOF) ?
Parameters::FOCUS_MODE_EDOF :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_CONTINUOUS_VIDEO) ?
Parameters::FOCUS_MODE_CONTINUOUS_VIDEO :
!strcmp(focusMode, CameraParameters::FOCUS_MODE_CONTINUOUS_PICTURE) ?
Parameters::FOCUS_MODE_CONTINUOUS_PICTURE :
Parameters::FOCUS_MODE_INVALID;
}
const char *Parameters::focusModeEnumToString(focusMode_t focusMode) {
switch (focusMode) {
case FOCUS_MODE_AUTO:
return CameraParameters::FOCUS_MODE_AUTO;
case FOCUS_MODE_MACRO:
return CameraParameters::FOCUS_MODE_MACRO;
case FOCUS_MODE_CONTINUOUS_VIDEO:
return CameraParameters::FOCUS_MODE_CONTINUOUS_VIDEO;
case FOCUS_MODE_CONTINUOUS_PICTURE:
return CameraParameters::FOCUS_MODE_CONTINUOUS_PICTURE;
case FOCUS_MODE_EDOF:
return CameraParameters::FOCUS_MODE_EDOF;
case FOCUS_MODE_INFINITY:
return CameraParameters::FOCUS_MODE_INFINITY;
case FOCUS_MODE_FIXED:
return CameraParameters::FOCUS_MODE_FIXED;
default:
ALOGE("%s: Unknown focus mode enum: %d",
__FUNCTION__, focusMode);
return "unknown";
}
}
status_t Parameters::parseAreas(const char *areasCStr,
Vector<Parameters::Area> *areas) {
static const size_t NUM_FIELDS = 5;
areas->clear();
if (areasCStr == NULL) {
// If no key exists, use default (0,0,0,0,0)
areas->push();
return OK;
}
String8 areasStr(areasCStr);
ssize_t areaStart = areasStr.find("(", 0) + 1;
while (areaStart != 0) {
const char* area = areasStr.string() + areaStart;
char *numEnd;
int vals[NUM_FIELDS];
for (size_t i = 0; i < NUM_FIELDS; i++) {
errno = 0;
vals[i] = strtol(area, &numEnd, 10);
if (errno || numEnd == area) return BAD_VALUE;
area = numEnd + 1;
}
areas->push(Parameters::Area(
vals[0], vals[1], vals[2], vals[3], vals[4]) );
areaStart = areasStr.find("(", areaStart) + 1;
}
return OK;
}
status_t Parameters::validateAreas(const Vector<Parameters::Area> &areas,
size_t maxRegions,
AreaKind areaKind) const {
// Definition of valid area can be found in
// include/camera/CameraParameters.h
if (areas.size() == 0) return BAD_VALUE;
if (areas.size() == 1) {
if (areas[0].left == 0 &&
areas[0].top == 0 &&
areas[0].right == 0 &&
areas[0].bottom == 0 &&
areas[0].weight == 0) {
// Single (0,0,0,0,0) entry is always valid (== driver decides)
return OK;
}
}
// fixed focus can only set (0,0,0,0,0) focus area
if (areaKind == AREA_KIND_FOCUS && focusMode == FOCUS_MODE_FIXED) {
return BAD_VALUE;
}
if (areas.size() > maxRegions) {
ALOGE("%s: Too many areas requested: %d",
__FUNCTION__, areas.size());
return BAD_VALUE;
}
for (Vector<Parameters::Area>::const_iterator a = areas.begin();
a != areas.end(); a++) {
if (a->weight < 1 || a->weight > 1000) return BAD_VALUE;
if (a->left < -1000 || a->left > 1000) return BAD_VALUE;
if (a->top < -1000 || a->top > 1000) return BAD_VALUE;
if (a->right < -1000 || a->right > 1000) return BAD_VALUE;
if (a->bottom < -1000 || a->bottom > 1000) return BAD_VALUE;
if (a->left >= a->right) return BAD_VALUE;
if (a->top >= a->bottom) return BAD_VALUE;
}
return OK;
}
bool Parameters::boolFromString(const char *boolStr) {
return !boolStr ? false :
!strcmp(boolStr, CameraParameters::TRUE) ? true :
false;
}
int Parameters::degToTransform(int degrees, bool mirror) {
if (!mirror) {
if (degrees == 0) return 0;
else if (degrees == 90) return HAL_TRANSFORM_ROT_90;
else if (degrees == 180) return HAL_TRANSFORM_ROT_180;
else if (degrees == 270) return HAL_TRANSFORM_ROT_270;
} else { // Do mirror (horizontal flip)
if (degrees == 0) { // FLIP_H and ROT_0
return HAL_TRANSFORM_FLIP_H;
} else if (degrees == 90) { // FLIP_H and ROT_90
return HAL_TRANSFORM_FLIP_H | HAL_TRANSFORM_ROT_90;
} else if (degrees == 180) { // FLIP_H and ROT_180
return HAL_TRANSFORM_FLIP_V;
} else if (degrees == 270) { // FLIP_H and ROT_270
return HAL_TRANSFORM_FLIP_V | HAL_TRANSFORM_ROT_90;
}
}
ALOGE("%s: Bad input: %d", __FUNCTION__, degrees);
return -1;
}
int Parameters::cropXToArray(int x) const {
ALOG_ASSERT(x >= 0, "Crop-relative X coordinate = '%d' is out of bounds"
"(lower = 0)", x);
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
ALOG_ASSERT(x < previewCrop.width, "Crop-relative X coordinate = '%d' "
"is out of bounds (upper = %d)", x, previewCrop.width);
int ret = x + previewCrop.left;
ALOG_ASSERT( (ret >= 0 && ret < fastInfo.arrayWidth),
"Calculated pixel array value X = '%d' is out of bounds (upper = %d)",
ret, fastInfo.arrayWidth);
return ret;
}
int Parameters::cropYToArray(int y) const {
ALOG_ASSERT(y >= 0, "Crop-relative Y coordinate = '%d' is out of bounds "
"(lower = 0)", y);
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
ALOG_ASSERT(y < previewCrop.height, "Crop-relative Y coordinate = '%d' is "
"out of bounds (upper = %d)", y, previewCrop.height);
int ret = y + previewCrop.top;
ALOG_ASSERT( (ret >= 0 && ret < fastInfo.arrayHeight),
"Calculated pixel array value Y = '%d' is out of bounds (upper = %d)",
ret, fastInfo.arrayHeight);
return ret;
}
int Parameters::normalizedXToCrop(int x) const {
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
return (x + 1000) * (previewCrop.width - 1) / 2000;
}
int Parameters::normalizedYToCrop(int y) const {
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
return (y + 1000) * (previewCrop.height - 1) / 2000;
}
int Parameters::arrayXToCrop(int x) const {
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
return x - previewCrop.left;
}
int Parameters::arrayYToCrop(int y) const {
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
return y - previewCrop.top;
}
int Parameters::cropXToNormalized(int x) const {
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
return x * 2000 / (previewCrop.width - 1) - 1000;
}
int Parameters::cropYToNormalized(int y) const {
CropRegion previewCrop = calculateCropRegion(CropRegion::OUTPUT_PREVIEW);
return y * 2000 / (previewCrop.height - 1) - 1000;
}
int Parameters::arrayXToNormalized(int width) const {
int ret = cropXToNormalized(arrayXToCrop(width));
ALOG_ASSERT(ret >= -1000, "Calculated normalized value out of "
"lower bounds %d", ret);
ALOG_ASSERT(ret <= 1000, "Calculated normalized value out of "
"upper bounds %d", ret);
// Work-around for HAL pre-scaling the coordinates themselves
if (quirks.meteringCropRegion) {
return width * 2000 / (fastInfo.arrayWidth - 1) - 1000;
}
return ret;
}
int Parameters::arrayYToNormalized(int height) const {
int ret = cropYToNormalized(arrayYToCrop(height));
ALOG_ASSERT(ret >= -1000, "Calculated normalized value out of lower bounds"
" %d", ret);
ALOG_ASSERT(ret <= 1000, "Calculated normalized value out of upper bounds"
" %d", ret);
// Work-around for HAL pre-scaling the coordinates themselves
if (quirks.meteringCropRegion) {
return height * 2000 / (fastInfo.arrayHeight - 1) - 1000;
}
return ret;
}
int Parameters::normalizedXToArray(int x) const {
// Work-around for HAL pre-scaling the coordinates themselves
if (quirks.meteringCropRegion) {
return (x + 1000) * (fastInfo.arrayWidth - 1) / 2000;
}
return cropXToArray(normalizedXToCrop(x));
}
int Parameters::normalizedYToArray(int y) const {
// Work-around for HAL pre-scaling the coordinates themselves
if (quirks.meteringCropRegion) {
return (y + 1000) * (fastInfo.arrayHeight - 1) / 2000;
}
return cropYToArray(normalizedYToCrop(y));
}
Parameters::CropRegion Parameters::calculateCropRegion(
Parameters::CropRegion::Outputs outputs) const {
float zoomLeft, zoomTop, zoomWidth, zoomHeight;
// Need to convert zoom index into a crop rectangle. The rectangle is
// chosen to maximize its area on the sensor
camera_metadata_ro_entry_t maxDigitalZoom =
staticInfo(ANDROID_SCALER_AVAILABLE_MAX_ZOOM);
// For each zoom step by how many pixels more do we change the zoom
float zoomIncrement = (maxDigitalZoom.data.f[0] - 1) /
(NUM_ZOOM_STEPS-1);
// The desired activeAreaWidth/cropAreaWidth ratio (or height if h>w)
// via interpolating zoom step into a zoom ratio
float zoomRatio = 1 + zoomIncrement * zoom;
ALOG_ASSERT( (zoomRatio >= 1.f && zoomRatio <= maxDigitalZoom.data.f[0]),
"Zoom ratio calculated out of bounds. Expected 1 - %f, actual: %f",
maxDigitalZoom.data.f[0], zoomRatio);
ALOGV("Zoom maxDigital=%f, increment=%f, ratio=%f, previewWidth=%d, "
"previewHeight=%d, activeWidth=%d, activeHeight=%d",
maxDigitalZoom.data.f[0], zoomIncrement, zoomRatio, previewWidth,
previewHeight, fastInfo.arrayWidth, fastInfo.arrayHeight);
/*
* Assumption: On the HAL side each stream buffer calculates its crop
* rectangle as follows:
* cropRect = (zoomLeft, zoomRight,
* zoomWidth, zoomHeight * zoomWidth / outputWidth);
*
* Note that if zoomWidth > bufferWidth, the new cropHeight > zoomHeight
* (we can then get into trouble if the cropHeight > arrayHeight).
* By selecting the zoomRatio based on the smallest outputRatio, we
* guarantee this will never happen.
*/
// Enumerate all possible output sizes, select the one with the smallest
// aspect ratio
float minOutputWidth, minOutputHeight, minOutputRatio;
{
float outputSizes[][2] = {
{ previewWidth, previewHeight },
{ videoWidth, videoHeight },
{ jpegThumbSize[0], jpegThumbSize[1] },
{ pictureWidth, pictureHeight },
};
minOutputWidth = outputSizes[0][0];
minOutputHeight = outputSizes[0][1];
minOutputRatio = minOutputWidth / minOutputHeight;
for (unsigned int i = 0;
i < sizeof(outputSizes) / sizeof(outputSizes[0]);
++i) {
// skip over outputs we don't want to consider for the crop region
if ( !((1 << i) & outputs) ) {
continue;
}
float outputWidth = outputSizes[i][0];
float outputHeight = outputSizes[i][1];
float outputRatio = outputWidth / outputHeight;
if (minOutputRatio > outputRatio) {
minOutputRatio = outputRatio;
minOutputWidth = outputWidth;
minOutputHeight = outputHeight;
}
// and then use this output ratio instead of preview output ratio
ALOGV("Enumerating output ratio %f = %f / %f, min is %f",
outputRatio, outputWidth, outputHeight, minOutputRatio);
}
}
/* Ensure that the width/height never go out of bounds
* by scaling across a diffent dimension if an out-of-bounds
* possibility exists.
*
* e.g. if the previewratio < arrayratio and e.g. zoomratio = 1.0, then by
* calculating the zoomWidth from zoomHeight we'll actually get a
* zoomheight > arrayheight
*/
float arrayRatio = 1.f * fastInfo.arrayWidth / fastInfo.arrayHeight;
if (minOutputRatio >= arrayRatio) {
// Adjust the height based on the width
zoomWidth = fastInfo.arrayWidth / zoomRatio;
zoomHeight = zoomWidth *
minOutputHeight / minOutputWidth;
} else {
// Adjust the width based on the height
zoomHeight = fastInfo.arrayHeight / zoomRatio;
zoomWidth = zoomHeight *
minOutputWidth / minOutputHeight;
}
// centering the zoom area within the active area
zoomLeft = (fastInfo.arrayWidth - zoomWidth) / 2;
zoomTop = (fastInfo.arrayHeight - zoomHeight) / 2;
ALOGV("Crop region calculated (x=%d,y=%d,w=%f,h=%f) for zoom=%d",
(int32_t)zoomLeft, (int32_t)zoomTop, zoomWidth, zoomHeight, this->zoom);
CropRegion crop = { zoomLeft, zoomTop, zoomWidth, zoomHeight };
return crop;
}
int32_t Parameters::fpsFromRange(int32_t min, int32_t max) const {
return max;
}
}; // namespace camera2
}; // namespace android