1/*
2 * Copyright (C) 2014 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 *      http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17package com.android.camera.settings;
18
19import android.app.AlertDialog;
20import android.content.Context;
21import android.content.DialogInterface;
22import android.content.res.Resources;
23import android.media.CamcorderProfile;
24import android.util.SparseArray;
25
26import com.android.camera.debug.Log;
27import com.android.camera.util.ApiHelper;
28import com.android.camera.util.Callback;
29import com.android.camera.util.Size;
30import com.android.camera2.R;
31import com.android.ex.camera2.portability.CameraDeviceInfo;
32import com.android.ex.camera2.portability.CameraSettings;
33
34import java.util.ArrayList;
35import java.util.Collections;
36import java.util.Comparator;
37import java.util.LinkedList;
38import java.util.List;
39
40/**
41 * Utility functions around camera settings.
42 */
43public class SettingsUtil {
44    /**
45     * Returns the maximum video recording duration (in milliseconds).
46     */
47    public static int getMaxVideoDuration(Context context) {
48        int duration = 0; // in milliseconds, 0 means unlimited.
49        try {
50            duration = context.getResources().getInteger(R.integer.max_video_recording_length);
51        } catch (Resources.NotFoundException ex) {
52        }
53        return duration;
54    }
55
56    /** The selected Camera sizes. */
57    public static class SelectedPictureSizes {
58        public Size large;
59        public Size medium;
60        public Size small;
61
62        /**
63         * This takes a string preference describing the desired resolution and
64         * returns the camera size it represents. <br/>
65         * It supports historical values of SIZE_LARGE, SIZE_MEDIUM, and
66         * SIZE_SMALL as well as resolutions separated by an x i.e. "1024x576" <br/>
67         * If it fails to parse the string, it will return the old SIZE_LARGE
68         * value.
69         *
70         * @param sizeSetting the preference string to convert to a size
71         * @param supportedSizes all possible camera sizes that are supported
72         * @return the size that this setting represents
73         */
74        public Size getFromSetting(String sizeSetting, List<Size> supportedSizes) {
75            if (SIZE_LARGE.equals(sizeSetting)) {
76                return large;
77            } else if (SIZE_MEDIUM.equals(sizeSetting)) {
78                return medium;
79            } else if (SIZE_SMALL.equals(sizeSetting)) {
80                return small;
81            } else if (sizeSetting != null && sizeSetting.split("x").length == 2) {
82                Size desiredSize = sizeFromSettingString(sizeSetting);
83                if (supportedSizes.contains(desiredSize)) {
84                    return desiredSize;
85                }
86            }
87            return large;
88        }
89
90        @Override
91        public String toString() {
92            return "SelectedPictureSizes: " + large + ", " + medium + ", " + small;
93        }
94    }
95
96    /** The selected {@link CamcorderProfile} qualities. */
97    public static class SelectedVideoQualities {
98        public int large = -1;
99        public int medium = -1;
100        public int small = -1;
101
102        public int getFromSetting(String sizeSetting) {
103            // Sanitize the value to be either small, medium or large. Default
104            // to the latter.
105            if (!SIZE_SMALL.equals(sizeSetting) && !SIZE_MEDIUM.equals(sizeSetting)) {
106                sizeSetting = SIZE_LARGE;
107            }
108
109            if (SIZE_LARGE.equals(sizeSetting)) {
110                return large;
111            } else if (SIZE_MEDIUM.equals(sizeSetting)) {
112                return medium;
113            } else {
114                return small;
115            }
116        }
117    }
118
119    private static final Log.Tag TAG = new Log.Tag("SettingsUtil");
120
121    /** Enable debug output. */
122    private static final boolean DEBUG = false;
123
124    private static final String SIZE_LARGE = "large";
125    private static final String SIZE_MEDIUM = "medium";
126    private static final String SIZE_SMALL = "small";
127
128    /** The ideal "medium" picture size is 50% of "large". */
129    private static final float MEDIUM_RELATIVE_PICTURE_SIZE = 0.5f;
130
131    /** The ideal "small" picture size is 25% of "large". */
132    private static final float SMALL_RELATIVE_PICTURE_SIZE = 0.25f;
133
134    /** Video qualities sorted by size. */
135    public static int[] sVideoQualities = new int[] {
136            CamcorderProfile.QUALITY_2160P,
137            CamcorderProfile.QUALITY_1080P,
138            CamcorderProfile.QUALITY_720P,
139            CamcorderProfile.QUALITY_480P,
140            CamcorderProfile.QUALITY_CIF,
141            CamcorderProfile.QUALITY_QVGA,
142            CamcorderProfile.QUALITY_QCIF
143    };
144
145    public static SparseArray<SelectedPictureSizes> sCachedSelectedPictureSizes =
146            new SparseArray<SelectedPictureSizes>(2);
147    public static SparseArray<SelectedVideoQualities> sCachedSelectedVideoQualities =
148            new SparseArray<SelectedVideoQualities>(2);
149
150    /**
151     * Based on the selected size, this method returns the matching concrete
152     * resolution.
153     *
154     * @param sizeSetting The setting selected by the user. One of "large",
155     *            "medium, "small".
156     * @param supported The list of supported resolutions.
157     * @param cameraId This is used for caching the results for finding the
158     *            different sizes.
159     */
160    public static Size getPhotoSize(String sizeSetting, List<Size> supported, int cameraId) {
161        if (ResolutionUtil.NEXUS_5_LARGE_16_BY_9.equals(sizeSetting)) {
162            return ResolutionUtil.NEXUS_5_LARGE_16_BY_9_SIZE;
163        }
164        Size selectedSize = getCameraPictureSize(sizeSetting, supported, cameraId);
165        return selectedSize;
166    }
167
168    /**
169     * Based on the selected size (large, medium or small), and the list of
170     * supported resolutions, this method selects and returns the best matching
171     * picture size.
172     *
173     * @param sizeSetting The setting selected by the user. One of "large",
174     *            "medium, "small".
175     * @param supported The list of supported resolutions.
176     * @param cameraId This is used for caching the results for finding the
177     *            different sizes.
178     * @return The selected size.
179     */
180    private static Size getCameraPictureSize(String sizeSetting, List<Size> supported,
181            int cameraId) {
182        return getSelectedCameraPictureSizes(supported, cameraId).getFromSetting(sizeSetting,
183                supported);
184    }
185
186    /**
187     * Based on the list of supported resolutions, this method selects the ones
188     * that shall be selected for being 'large', 'medium' and 'small'.
189     *
190     * @return It's guaranteed that all three sizes are filled. If less than
191     *         three sizes are supported, the selected sizes might contain
192     *         duplicates.
193     */
194    static SelectedPictureSizes getSelectedCameraPictureSizes(List<Size> supported, int cameraId) {
195        List<Size> supportedCopy = new LinkedList<Size>(supported);
196        if (sCachedSelectedPictureSizes.get(cameraId) != null) {
197            return sCachedSelectedPictureSizes.get(cameraId);
198        }
199        if (supportedCopy == null) {
200            return null;
201        }
202
203        SelectedPictureSizes selectedSizes = new SelectedPictureSizes();
204
205        // Sort supported sizes by total pixel count, descending.
206        Collections.sort(supportedCopy, new Comparator<Size>() {
207            @Override
208            public int compare(Size lhs, Size rhs) {
209                int leftArea = lhs.width() * lhs.height();
210                int rightArea = rhs.width() * rhs.height();
211                return rightArea - leftArea;
212            }
213        });
214        if (DEBUG) {
215            Log.d(TAG, "Supported Sizes:");
216            for (Size size : supportedCopy) {
217                Log.d(TAG, " --> " + size.width() + "x" + size.height() + "  "
218                        + ((size.width() * size.height()) / 1000000f) + " - "
219                        + (size.width() / (float) size.height()));
220            }
221        }
222
223        // Large size is always the size with the most pixels reported.
224        selectedSizes.large = supportedCopy.remove(0);
225
226        // If possible we want to find medium and small sizes with the same
227        // aspect ratio as 'large'.
228        final float targetAspectRatio = selectedSizes.large.width()
229                / (float) selectedSizes.large.height();
230
231        // Create a list of sizes with the same aspect ratio as "large" which we
232        // will search in primarily.
233        ArrayList<Size> aspectRatioMatches = new ArrayList<Size>();
234        for (Size size : supportedCopy) {
235            float aspectRatio = size.width() / (float) size.height();
236            // Allow for small rounding errors in aspect ratio.
237            if (Math.abs(aspectRatio - targetAspectRatio) < 0.01) {
238                aspectRatioMatches.add(size);
239            }
240        }
241
242        // If we have at least two more resolutions that match the 'large'
243        // aspect ratio, use that list to find small and medium sizes. If not,
244        // use the full list with any aspect ratio.
245        final List<Size> searchList = (aspectRatioMatches.size() >= 2) ? aspectRatioMatches
246                : supportedCopy;
247
248        // Edge cases: If there are no further supported resolutions, use the
249        // only one we have.
250        // If there is only one remaining, use it for small and medium. If there
251        // are two, use the two for small and medium.
252        // These edge cases should never happen on a real device, but might
253        // happen on test devices and emulators.
254        if (searchList.isEmpty()) {
255            Log.w(TAG, "Only one supported resolution.");
256            selectedSizes.medium = selectedSizes.large;
257            selectedSizes.small = selectedSizes.large;
258        } else if (searchList.size() == 1) {
259            Log.w(TAG, "Only two supported resolutions.");
260            selectedSizes.medium = searchList.get(0);
261            selectedSizes.small = searchList.get(0);
262        } else if (searchList.size() == 2) {
263            Log.w(TAG, "Exactly three supported resolutions.");
264            selectedSizes.medium = searchList.get(0);
265            selectedSizes.small = searchList.get(1);
266        } else {
267
268            // Based on the large pixel count, determine the target pixel count
269            // for medium and small.
270            final int largePixelCount = selectedSizes.large.width() * selectedSizes.large.height();
271            final int mediumTargetPixelCount = (int) (largePixelCount * MEDIUM_RELATIVE_PICTURE_SIZE);
272            final int smallTargetPixelCount = (int) (largePixelCount * SMALL_RELATIVE_PICTURE_SIZE);
273
274            int mediumSizeIndex = findClosestSize(searchList, mediumTargetPixelCount);
275            int smallSizeIndex = findClosestSize(searchList, smallTargetPixelCount);
276
277            // If the selected sizes are the same, move the small size one down
278            // or
279            // the medium size one up.
280            if (searchList.get(mediumSizeIndex).equals(searchList.get(smallSizeIndex))) {
281                if (smallSizeIndex < (searchList.size() - 1)) {
282                    smallSizeIndex += 1;
283                } else {
284                    mediumSizeIndex -= 1;
285                }
286            }
287            selectedSizes.medium = searchList.get(mediumSizeIndex);
288            selectedSizes.small = searchList.get(smallSizeIndex);
289        }
290        sCachedSelectedPictureSizes.put(cameraId, selectedSizes);
291        return selectedSizes;
292    }
293
294    /**
295     * Determines the video quality for large/medium/small for the given camera.
296     * Returns the one matching the given setting. Defaults to 'large' of the
297     * qualitySetting does not match either large. medium or small.
298     *
299     * @param qualitySetting One of 'large', 'medium', 'small'.
300     * @param cameraId The ID of the camera for which to get the quality
301     *            setting.
302     * @return The CamcorderProfile quality setting.
303     */
304    public static int getVideoQuality(String qualitySetting, int cameraId) {
305        return getSelectedVideoQualities(cameraId).getFromSetting(qualitySetting);
306    }
307
308    static SelectedVideoQualities getSelectedVideoQualities(int cameraId) {
309        if (sCachedSelectedVideoQualities.get(cameraId) != null) {
310            return sCachedSelectedVideoQualities.get(cameraId);
311        }
312
313        // Go through the sizes in descending order, see if they are supported,
314        // and set large/medium/small accordingly.
315        // If no quality is supported at all, the first call to
316        // getNextSupportedQuality will throw an exception.
317        // If only one quality is supported, then all three selected qualities
318        // will be the same.
319        int largeIndex = getNextSupportedVideoQualityIndex(cameraId, -1);
320        int mediumIndex = getNextSupportedVideoQualityIndex(cameraId, largeIndex);
321        int smallIndex = getNextSupportedVideoQualityIndex(cameraId, mediumIndex);
322
323        SelectedVideoQualities selectedQualities = new SelectedVideoQualities();
324        selectedQualities.large = sVideoQualities[largeIndex];
325        selectedQualities.medium = sVideoQualities[mediumIndex];
326        selectedQualities.small = sVideoQualities[smallIndex];
327        sCachedSelectedVideoQualities.put(cameraId, selectedQualities);
328        return selectedQualities;
329    }
330
331    /**
332     * Starting from 'start' this method returns the next supported video
333     * quality.
334     */
335    private static int getNextSupportedVideoQualityIndex(int cameraId, int start) {
336        for (int i = start + 1; i < sVideoQualities.length; ++i) {
337            if (isVideoQualitySupported(sVideoQualities[i])
338                    && CamcorderProfile.hasProfile(cameraId, sVideoQualities[i])) {
339                // We found a new supported quality.
340                return i;
341            }
342        }
343
344        // Failed to find another supported quality.
345        if (start < 0 || start >= sVideoQualities.length) {
346            // This means we couldn't find any supported quality.
347            throw new IllegalArgumentException("Could not find supported video qualities.");
348        }
349
350        // We previously found a larger supported size. In this edge case, just
351        // return the same index as the previous size.
352        return start;
353    }
354
355    /**
356     * @return Whether the given {@link CamcorderProfile} is supported on the
357     *         current device/OS version.
358     */
359    private static boolean isVideoQualitySupported(int videoQuality) {
360        // 4k is only supported on L or higher but some devices falsely report
361        // to have support for it on K, see b/18172081.
362        if (!ApiHelper.isLOrHigher() && videoQuality == CamcorderProfile.QUALITY_2160P) {
363            return false;
364        }
365        return true;
366    }
367
368    /**
369     * Returns the index of the size within the given list that is closest to
370     * the given target pixel count.
371     */
372    private static int findClosestSize(List<Size> sortedSizes, int targetPixelCount) {
373        int closestMatchIndex = 0;
374        int closestMatchPixelCountDiff = Integer.MAX_VALUE;
375
376        for (int i = 0; i < sortedSizes.size(); ++i) {
377            Size size = sortedSizes.get(i);
378            int pixelCountDiff = Math.abs((size.width() * size.height()) - targetPixelCount);
379            if (pixelCountDiff < closestMatchPixelCountDiff) {
380                closestMatchIndex = i;
381                closestMatchPixelCountDiff = pixelCountDiff;
382            }
383        }
384        return closestMatchIndex;
385    }
386
387    private static final String SIZE_SETTING_STRING_DIMENSION_DELIMITER = "x";
388
389    /**
390     * This is used to serialize a size to a string for storage in settings
391     *
392     * @param size The size to serialize.
393     * @return the string to be saved in preferences
394     */
395    public static String sizeToSettingString(Size size) {
396        return size.width() + SIZE_SETTING_STRING_DIMENSION_DELIMITER + size.height();
397    }
398
399    /**
400     * This parses a setting string and returns the representative size.
401     *
402     * @param sizeSettingString The string that stored in settings to represent a size.
403     * @return the represented Size.
404     */
405    public static Size sizeFromSettingString(String sizeSettingString) {
406        if (sizeSettingString == null) {
407            return null;
408        }
409        String[] parts = sizeSettingString.split(SIZE_SETTING_STRING_DIMENSION_DELIMITER);
410        if (parts.length != 2) {
411            return null;
412        }
413
414        try {
415            int width = Integer.parseInt(parts[0]);
416            int height = Integer.parseInt(parts[1]);
417            return new Size(width, height);
418        } catch (NumberFormatException ex) {
419            return null;
420        }
421    }
422
423    /**
424     * Updates an AlertDialog.Builder to explain what it means to enable
425     * location on captures.
426     */
427    public static AlertDialog.Builder getFirstTimeLocationAlertBuilder(
428            AlertDialog.Builder builder, Callback<Boolean> callback) {
429        if (callback == null) {
430            return null;
431        }
432
433        getLocationAlertBuilder(builder, callback)
434                .setMessage(R.string.remember_location_prompt);
435
436        return builder;
437    }
438
439    /**
440     * Updates an AlertDialog.Builder for choosing whether to include location
441     * on captures.
442     */
443    public static AlertDialog.Builder getLocationAlertBuilder(AlertDialog.Builder builder,
444            final Callback<Boolean> callback) {
445        if (callback == null) {
446            return null;
447        }
448
449        builder.setTitle(R.string.remember_location_title)
450                .setPositiveButton(R.string.remember_location_yes,
451                        new DialogInterface.OnClickListener() {
452                            @Override
453                            public void onClick(DialogInterface dialog, int arg1) {
454                                callback.onCallback(true);
455                            }
456                        })
457                .setNegativeButton(R.string.remember_location_no,
458                        new DialogInterface.OnClickListener() {
459                            @Override
460                            public void onClick(DialogInterface dialog, int arg1) {
461                                callback.onCallback(false);
462                            }
463                        });
464
465        return builder;
466    }
467
468    /**
469     * Gets the first (lowest-indexed) camera matching the given criterion.
470     *
471     * @param facing Either {@link CAMERA_FACING_BACK}, {@link CAMERA_FACING_FRONT}, or some other
472     *               implementation of {@link CameraDeviceSelector}.
473     * @return The ID of the first camera matching the supplied criterion, or
474     *         -1, if no camera meeting the specification was found.
475     */
476    public static int getCameraId(CameraDeviceInfo info, CameraDeviceSelector chooser) {
477        if (info == null) {
478            return -1;
479        }
480        int numCameras = info.getNumberOfCameras();
481        for (int i = 0; i < numCameras; ++i) {
482            CameraDeviceInfo.Characteristics props = info.getCharacteristics(i);
483            if (props == null) {
484                // Skip this device entry
485                continue;
486            }
487            if (chooser.useCamera(props)) {
488                return i;
489            }
490        }
491        return -1;
492    }
493
494    public static interface CameraDeviceSelector {
495        /**
496         * Given the static characteristics of a specific camera device, decide whether it is the
497         * one we will use.
498         *
499         * @param info The static characteristics of a device.
500         * @return Whether we're electing to use this particular device.
501         */
502        public boolean useCamera(CameraDeviceInfo.Characteristics info);
503    }
504
505    public static final CameraDeviceSelector CAMERA_FACING_BACK = new CameraDeviceSelector() {
506        @Override
507        public boolean useCamera(CameraDeviceInfo.Characteristics info) {
508            return info.isFacingBack();
509        }};
510
511    public static final CameraDeviceSelector CAMERA_FACING_FRONT = new CameraDeviceSelector() {
512        @Override
513        public boolean useCamera(CameraDeviceInfo.Characteristics info) {
514            return info.isFacingFront();
515        }};
516}
517