Java Code Examples for com.google.android.exoplayer2.util.Util#ceilDivide()
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com.google.android.exoplayer2.util.Util#ceilDivide() .
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Example 1
Source File: DefaultTrackSelector.java From MediaSDK with Apache License 2.0 | 6 votes |
/** * Given viewport dimensions and video dimensions, computes the maximum size of the video as it * will be rendered to fit inside of the viewport. */ private static Point getMaxVideoSizeInViewport(boolean orientationMayChange, int viewportWidth, int viewportHeight, int videoWidth, int videoHeight) { if (orientationMayChange && (videoWidth > videoHeight) != (viewportWidth > viewportHeight)) { // Rotation is allowed, and the video will be larger in the rotated viewport. int tempViewportWidth = viewportWidth; viewportWidth = viewportHeight; viewportHeight = tempViewportWidth; } if (videoWidth * viewportHeight >= videoHeight * viewportWidth) { // Horizontal letter-boxing along top and bottom. return new Point(viewportWidth, Util.ceilDivide(viewportWidth * videoHeight, videoWidth)); } else { // Vertical letter-boxing along edges. return new Point(Util.ceilDivide(viewportHeight * videoWidth, videoHeight), viewportHeight); } }
Example 2
Source File: DashManifestParser.java From MediaSDK with Apache License 2.0 | 6 votes |
/** * Adds timeline elements for one S tag to the segment timeline. * * @param startTime Start time of the first timeline element. * @param elementDuration Duration of one timeline element. * @param elementRepeatCount Number of timeline elements minus one. May be negative to indicate * that the count is determined by the total duration and the element duration. * @param endTime End time of the last timeline element for this S tag, or {@link C#TIME_UNSET} if * unknown. Only needed if {@code repeatCount} is negative. * @return Calculated next start time. */ private long addSegmentTimelineElementsToList( List<SegmentTimelineElement> segmentTimeline, long startTime, long elementDuration, int elementRepeatCount, long endTime) { int count = elementRepeatCount >= 0 ? 1 + elementRepeatCount : (int) Util.ceilDivide(endTime - startTime, elementDuration); for (int i = 0; i < count; i++) { segmentTimeline.add(buildSegmentTimelineElement(startTime, elementDuration)); startTime += elementDuration; } return startTime; }
Example 3
Source File: MediaCodecInfo.java From TelePlus-Android with GNU General Public License v2.0 | 6 votes |
/** * Returns the smallest video size greater than or equal to a specified size that also satisfies * the {@link MediaCodec}'s width and height alignment requirements. * <p> * Must not be called if the device SDK version is less than 21. * * @param width Width in pixels. * @param height Height in pixels. * @return The smallest video size greater than or equal to the specified size that also satisfies * the {@link MediaCodec}'s width and height alignment requirements, or null if not a video * codec. */ @TargetApi(21) public Point alignVideoSizeV21(int width, int height) { if (capabilities == null) { logNoSupport("align.caps"); return null; } VideoCapabilities videoCapabilities = capabilities.getVideoCapabilities(); if (videoCapabilities == null) { logNoSupport("align.vCaps"); return null; } int widthAlignment = videoCapabilities.getWidthAlignment(); int heightAlignment = videoCapabilities.getHeightAlignment(); return new Point(Util.ceilDivide(width, widthAlignment) * widthAlignment, Util.ceilDivide(height, heightAlignment) * heightAlignment); }
Example 4
Source File: DefaultTrackSelector.java From TelePlus-Android with GNU General Public License v2.0 | 6 votes |
/** * Given viewport dimensions and video dimensions, computes the maximum size of the video as it * will be rendered to fit inside of the viewport. */ private static Point getMaxVideoSizeInViewport(boolean orientationMayChange, int viewportWidth, int viewportHeight, int videoWidth, int videoHeight) { if (orientationMayChange && (videoWidth > videoHeight) != (viewportWidth > viewportHeight)) { // Rotation is allowed, and the video will be larger in the rotated viewport. int tempViewportWidth = viewportWidth; viewportWidth = viewportHeight; viewportHeight = tempViewportWidth; } if (videoWidth * viewportHeight >= videoHeight * viewportWidth) { // Horizontal letter-boxing along top and bottom. return new Point(viewportWidth, Util.ceilDivide(viewportWidth * videoHeight, videoWidth)); } else { // Vertical letter-boxing along edges. return new Point(Util.ceilDivide(viewportHeight * videoWidth, videoHeight), viewportHeight); } }
Example 5
Source File: DefaultTrackSelector.java From K-Sonic with MIT License | 6 votes |
/** * Given viewport dimensions and video dimensions, computes the maximum size of the video as it * will be rendered to fit inside of the viewport. */ private static Point getMaxVideoSizeInViewport(boolean orientationMayChange, int viewportWidth, int viewportHeight, int videoWidth, int videoHeight) { if (orientationMayChange && (videoWidth > videoHeight) != (viewportWidth > viewportHeight)) { // Rotation is allowed, and the video will be larger in the rotated viewport. int tempViewportWidth = viewportWidth; viewportWidth = viewportHeight; viewportHeight = tempViewportWidth; } if (videoWidth * viewportHeight >= videoHeight * viewportWidth) { // Horizontal letter-boxing along top and bottom. return new Point(viewportWidth, Util.ceilDivide(viewportWidth * videoHeight, videoWidth)); } else { // Vertical letter-boxing along edges. return new Point(Util.ceilDivide(viewportHeight * videoWidth, videoHeight), viewportHeight); } }
Example 6
Source File: SegmentBase.java From TelePlus-Android with GNU General Public License v2.0 | 5 votes |
@Override public int getSegmentCount(long periodDurationUs) { if (segmentTimeline != null) { return segmentTimeline.size(); } else if (periodDurationUs != C.TIME_UNSET) { long durationUs = (duration * C.MICROS_PER_SECOND) / timescale; return (int) Util.ceilDivide(periodDurationUs, durationUs); } else { return DashSegmentIndex.INDEX_UNBOUNDED; } }
Example 7
Source File: SegmentBase.java From K-Sonic with MIT License | 5 votes |
@Override public int getSegmentCount(long periodDurationUs) { if (segmentTimeline != null) { return segmentTimeline.size(); } else if (periodDurationUs != C.TIME_UNSET) { long durationUs = (duration * C.MICROS_PER_SECOND) / timescale; return (int) Util.ceilDivide(periodDurationUs, durationUs); } else { return DashSegmentIndex.INDEX_UNBOUNDED; } }
Example 8
Source File: SegmentBase.java From Telegram-FOSS with GNU General Public License v2.0 | 5 votes |
@Override public int getSegmentCount(long periodDurationUs) { if (segmentTimeline != null) { return segmentTimeline.size(); } else if (endNumber != C.INDEX_UNSET) { return (int) (endNumber - startNumber + 1); } else if (periodDurationUs != C.TIME_UNSET) { long durationUs = (duration * C.MICROS_PER_SECOND) / timescale; return (int) Util.ceilDivide(periodDurationUs, durationUs); } else { return DashSegmentIndex.INDEX_UNBOUNDED; } }
Example 9
Source File: MediaCodecVideoRenderer.java From Telegram with GNU General Public License v2.0 | 5 votes |
/** * Returns a maximum video size to use when configuring a codec for {@code format} in a way that * will allow possible adaptation to other compatible formats that are expected to have the same * aspect ratio, but whose sizes are unknown. * * @param codecInfo Information about the {@link MediaCodec} being configured. * @param format The format for which the codec is being configured. * @return The maximum video size to use, or null if the size of {@code format} should be used. */ private static Point getCodecMaxSize(MediaCodecInfo codecInfo, Format format) { boolean isVerticalVideo = format.height > format.width; int formatLongEdgePx = isVerticalVideo ? format.height : format.width; int formatShortEdgePx = isVerticalVideo ? format.width : format.height; float aspectRatio = (float) formatShortEdgePx / formatLongEdgePx; for (int longEdgePx : STANDARD_LONG_EDGE_VIDEO_PX) { int shortEdgePx = (int) (longEdgePx * aspectRatio); if (longEdgePx <= formatLongEdgePx || shortEdgePx <= formatShortEdgePx) { // Don't return a size not larger than the format for which the codec is being configured. return null; } else if (Util.SDK_INT >= 21) { Point alignedSize = codecInfo.alignVideoSizeV21(isVerticalVideo ? shortEdgePx : longEdgePx, isVerticalVideo ? longEdgePx : shortEdgePx); float frameRate = format.frameRate; if (codecInfo.isVideoSizeAndRateSupportedV21(alignedSize.x, alignedSize.y, frameRate)) { return alignedSize; } } else { try { // Conservatively assume the codec requires 16px width and height alignment. longEdgePx = Util.ceilDivide(longEdgePx, 16) * 16; shortEdgePx = Util.ceilDivide(shortEdgePx, 16) * 16; if (longEdgePx * shortEdgePx <= MediaCodecUtil.maxH264DecodableFrameSize()) { return new Point( isVerticalVideo ? shortEdgePx : longEdgePx, isVerticalVideo ? longEdgePx : shortEdgePx); } } catch (DecoderQueryException e) { // We tried our best. Give up! return null; } } } return null; }
Example 10
Source File: MediaCodecVideoRenderer.java From K-Sonic with MIT License | 5 votes |
/** * Returns a maximum video size to use when configuring a codec for {@code format} in a way * that will allow possible adaptation to other compatible formats that are expected to have the * same aspect ratio, but whose sizes are unknown. * * @param codecInfo Information about the {@link MediaCodec} being configured. * @param format The format for which the codec is being configured. * @return The maximum video size to use, or null if the size of {@code format} should be used. * @throws DecoderQueryException If an error occurs querying {@code codecInfo}. */ private static Point getCodecMaxSize(MediaCodecInfo codecInfo, Format format) throws DecoderQueryException { boolean isVerticalVideo = format.height > format.width; int formatLongEdgePx = isVerticalVideo ? format.height : format.width; int formatShortEdgePx = isVerticalVideo ? format.width : format.height; float aspectRatio = (float) formatShortEdgePx / formatLongEdgePx; for (int longEdgePx : STANDARD_LONG_EDGE_VIDEO_PX) { int shortEdgePx = (int) (longEdgePx * aspectRatio); if (longEdgePx <= formatLongEdgePx || shortEdgePx <= formatShortEdgePx) { // Don't return a size not larger than the format for which the codec is being configured. return null; } else if (Util.SDK_INT >= 21) { Point alignedSize = codecInfo.alignVideoSizeV21(isVerticalVideo ? shortEdgePx : longEdgePx, isVerticalVideo ? longEdgePx : shortEdgePx); float frameRate = format.frameRate; if (codecInfo.isVideoSizeAndRateSupportedV21(alignedSize.x, alignedSize.y, frameRate)) { return alignedSize; } } else { // Conservatively assume the codec requires 16px width and height alignment. longEdgePx = Util.ceilDivide(longEdgePx, 16) * 16; shortEdgePx = Util.ceilDivide(shortEdgePx, 16) * 16; if (longEdgePx * shortEdgePx <= MediaCodecUtil.maxH264DecodableFrameSize()) { return new Point(isVerticalVideo ? shortEdgePx : longEdgePx, isVerticalVideo ? longEdgePx : shortEdgePx); } } } return null; }
Example 11
Source File: MediaCodecVideoRenderer.java From TelePlus-Android with GNU General Public License v2.0 | 5 votes |
/** * Returns a maximum video size to use when configuring a codec for {@code format} in a way * that will allow possible adaptation to other compatible formats that are expected to have the * same aspect ratio, but whose sizes are unknown. * * @param codecInfo Information about the {@link MediaCodec} being configured. * @param format The format for which the codec is being configured. * @return The maximum video size to use, or null if the size of {@code format} should be used. * @throws DecoderQueryException If an error occurs querying {@code codecInfo}. */ private static Point getCodecMaxSize(MediaCodecInfo codecInfo, Format format) throws DecoderQueryException { boolean isVerticalVideo = format.height > format.width; int formatLongEdgePx = isVerticalVideo ? format.height : format.width; int formatShortEdgePx = isVerticalVideo ? format.width : format.height; float aspectRatio = (float) formatShortEdgePx / formatLongEdgePx; for (int longEdgePx : STANDARD_LONG_EDGE_VIDEO_PX) { int shortEdgePx = (int) (longEdgePx * aspectRatio); if (longEdgePx <= formatLongEdgePx || shortEdgePx <= formatShortEdgePx) { // Don't return a size not larger than the format for which the codec is being configured. return null; } else if (Util.SDK_INT >= 21) { Point alignedSize = codecInfo.alignVideoSizeV21(isVerticalVideo ? shortEdgePx : longEdgePx, isVerticalVideo ? longEdgePx : shortEdgePx); float frameRate = format.frameRate; if (codecInfo.isVideoSizeAndRateSupportedV21(alignedSize.x, alignedSize.y, frameRate)) { return alignedSize; } } else { // Conservatively assume the codec requires 16px width and height alignment. longEdgePx = Util.ceilDivide(longEdgePx, 16) * 16; shortEdgePx = Util.ceilDivide(shortEdgePx, 16) * 16; if (longEdgePx * shortEdgePx <= MediaCodecUtil.maxH264DecodableFrameSize()) { return new Point(isVerticalVideo ? shortEdgePx : longEdgePx, isVerticalVideo ? longEdgePx : shortEdgePx); } } } return null; }
Example 12
Source File: MediaCodecInfo.java From Telegram with GNU General Public License v2.0 | 5 votes |
@TargetApi(21) private static Point alignVideoSizeV21(VideoCapabilities capabilities, int width, int height) { int widthAlignment = capabilities.getWidthAlignment(); int heightAlignment = capabilities.getHeightAlignment(); return new Point( Util.ceilDivide(width, widthAlignment) * widthAlignment, Util.ceilDivide(height, heightAlignment) * heightAlignment); }
Example 13
Source File: SegmentBase.java From MediaSDK with Apache License 2.0 | 5 votes |
@Override public int getSegmentCount(long periodDurationUs) { if (segmentTimeline != null) { return segmentTimeline.size(); } else if (endNumber != C.INDEX_UNSET) { return (int) (endNumber - startNumber + 1); } else if (periodDurationUs != C.TIME_UNSET) { long durationUs = (duration * C.MICROS_PER_SECOND) / timescale; return (int) Util.ceilDivide(periodDurationUs, durationUs); } else { return DashSegmentIndex.INDEX_UNBOUNDED; } }
Example 14
Source File: DefaultAllocator.java From MediaSDK with Apache License 2.0 | 4 votes |
@Override public synchronized void trim() { int targetAllocationCount = Util.ceilDivide(targetBufferSize, individualAllocationSize); int targetAvailableCount = Math.max(0, targetAllocationCount - allocatedCount); if (targetAvailableCount >= availableCount) { // We're already at or below the target. return; } if (initialAllocationBlock != null) { // Some allocations are backed by an initial block. We need to make sure that we hold onto all // such allocations. Re-order the available allocations so that the ones backed by the initial // block come first. int lowIndex = 0; int highIndex = availableCount - 1; while (lowIndex <= highIndex) { Allocation lowAllocation = availableAllocations[lowIndex]; if (lowAllocation.data == initialAllocationBlock) { lowIndex++; } else { Allocation highAllocation = availableAllocations[highIndex]; if (highAllocation.data != initialAllocationBlock) { highIndex--; } else { availableAllocations[lowIndex++] = highAllocation; availableAllocations[highIndex--] = lowAllocation; } } } // lowIndex is the index of the first allocation not backed by an initial block. targetAvailableCount = Math.max(targetAvailableCount, lowIndex); if (targetAvailableCount >= availableCount) { // We're already at or below the target. return; } } // Discard allocations beyond the target. Arrays.fill(availableAllocations, targetAvailableCount, availableCount, null); availableCount = targetAvailableCount; }
Example 15
Source File: MediaCodecVideoRenderer.java From Telegram with GNU General Public License v2.0 | 4 votes |
/** * Returns a maximum input size for a given codec, MIME type, width and height. * * @param codecInfo Information about the {@link MediaCodec} being configured. * @param sampleMimeType The format mime type. * @param width The width in pixels. * @param height The height in pixels. * @return A maximum input size in bytes, or {@link Format#NO_VALUE} if a maximum could not be * determined. */ private static int getCodecMaxInputSize( MediaCodecInfo codecInfo, String sampleMimeType, int width, int height) { if (width == Format.NO_VALUE || height == Format.NO_VALUE) { // We can't infer a maximum input size without video dimensions. return Format.NO_VALUE; } // Attempt to infer a maximum input size from the format. int maxPixels; int minCompressionRatio; switch (sampleMimeType) { case MimeTypes.VIDEO_H263: case MimeTypes.VIDEO_MP4V: maxPixels = width * height; minCompressionRatio = 2; break; case MimeTypes.VIDEO_H264: if ("BRAVIA 4K 2015".equals(Util.MODEL) // Sony Bravia 4K || ("Amazon".equals(Util.MANUFACTURER) && ("KFSOWI".equals(Util.MODEL) // Kindle Soho || ("AFTS".equals(Util.MODEL) && codecInfo.secure)))) { // Fire TV Gen 2 // Use the default value for cases where platform limitations may prevent buffers of the // calculated maximum input size from being allocated. return Format.NO_VALUE; } // Round up width/height to an integer number of macroblocks. maxPixels = Util.ceilDivide(width, 16) * Util.ceilDivide(height, 16) * 16 * 16; minCompressionRatio = 2; break; case MimeTypes.VIDEO_VP8: // VPX does not specify a ratio so use the values from the platform's SoftVPX.cpp. maxPixels = width * height; minCompressionRatio = 2; break; case MimeTypes.VIDEO_H265: case MimeTypes.VIDEO_VP9: maxPixels = width * height; minCompressionRatio = 4; break; default: // Leave the default max input size. return Format.NO_VALUE; } // Estimate the maximum input size assuming three channel 4:2:0 subsampled input frames. return (maxPixels * 3) / (2 * minCompressionRatio); }
Example 16
Source File: FixedSampleSizeRechunker.java From K-Sonic with MIT License | 4 votes |
/** * Rechunk the given fixed sample size input to produce a new sequence of samples. * * @param fixedSampleSize Size in bytes of each sample. * @param chunkOffsets Chunk offsets in the MP4 stream to rechunk. * @param chunkSampleCounts Sample counts for each of the MP4 stream's chunks. * @param timestampDeltaInTimeUnits Timestamp delta between each sample in time units. */ public static Results rechunk(int fixedSampleSize, long[] chunkOffsets, int[] chunkSampleCounts, long timestampDeltaInTimeUnits) { int maxSampleCount = MAX_SAMPLE_SIZE / fixedSampleSize; // Count the number of new, rechunked buffers. int rechunkedSampleCount = 0; for (int chunkSampleCount : chunkSampleCounts) { rechunkedSampleCount += Util.ceilDivide(chunkSampleCount, maxSampleCount); } long[] offsets = new long[rechunkedSampleCount]; int[] sizes = new int[rechunkedSampleCount]; int maximumSize = 0; long[] timestamps = new long[rechunkedSampleCount]; int[] flags = new int[rechunkedSampleCount]; int originalSampleIndex = 0; int newSampleIndex = 0; for (int chunkIndex = 0; chunkIndex < chunkSampleCounts.length; chunkIndex++) { int chunkSamplesRemaining = chunkSampleCounts[chunkIndex]; long sampleOffset = chunkOffsets[chunkIndex]; while (chunkSamplesRemaining > 0) { int bufferSampleCount = Math.min(maxSampleCount, chunkSamplesRemaining); offsets[newSampleIndex] = sampleOffset; sizes[newSampleIndex] = fixedSampleSize * bufferSampleCount; maximumSize = Math.max(maximumSize, sizes[newSampleIndex]); timestamps[newSampleIndex] = (timestampDeltaInTimeUnits * originalSampleIndex); flags[newSampleIndex] = C.BUFFER_FLAG_KEY_FRAME; sampleOffset += sizes[newSampleIndex]; originalSampleIndex += bufferSampleCount; chunkSamplesRemaining -= bufferSampleCount; newSampleIndex++; } } return new Results(offsets, sizes, maximumSize, timestamps, flags); }
Example 17
Source File: DefaultAllocator.java From Telegram with GNU General Public License v2.0 | 4 votes |
@Override public synchronized void trim() { int targetAllocationCount = Util.ceilDivide(targetBufferSize, individualAllocationSize); int targetAvailableCount = Math.max(0, targetAllocationCount - allocatedCount); if (targetAvailableCount >= availableCount) { // We're already at or below the target. return; } if (initialAllocationBlock != null) { // Some allocations are backed by an initial block. We need to make sure that we hold onto all // such allocations. Re-order the available allocations so that the ones backed by the initial // block come first. int lowIndex = 0; int highIndex = availableCount - 1; while (lowIndex <= highIndex) { Allocation lowAllocation = availableAllocations[lowIndex]; if (lowAllocation.data == initialAllocationBlock) { lowIndex++; } else { Allocation highAllocation = availableAllocations[highIndex]; if (highAllocation.data != initialAllocationBlock) { highIndex--; } else { availableAllocations[lowIndex++] = highAllocation; availableAllocations[highIndex--] = lowAllocation; } } } // lowIndex is the index of the first allocation not backed by an initial block. targetAvailableCount = Math.max(targetAvailableCount, lowIndex); if (targetAvailableCount >= availableCount) { // We're already at or below the target. return; } } // Discard allocations beyond the target. Arrays.fill(availableAllocations, targetAvailableCount, availableCount, null); availableCount = targetAvailableCount; }
Example 18
Source File: FixedSampleSizeRechunker.java From TelePlus-Android with GNU General Public License v2.0 | 4 votes |
/** * Rechunk the given fixed sample size input to produce a new sequence of samples. * * @param fixedSampleSize Size in bytes of each sample. * @param chunkOffsets Chunk offsets in the MP4 stream to rechunk. * @param chunkSampleCounts Sample counts for each of the MP4 stream's chunks. * @param timestampDeltaInTimeUnits Timestamp delta between each sample in time units. */ public static Results rechunk(int fixedSampleSize, long[] chunkOffsets, int[] chunkSampleCounts, long timestampDeltaInTimeUnits) { int maxSampleCount = MAX_SAMPLE_SIZE / fixedSampleSize; // Count the number of new, rechunked buffers. int rechunkedSampleCount = 0; for (int chunkSampleCount : chunkSampleCounts) { rechunkedSampleCount += Util.ceilDivide(chunkSampleCount, maxSampleCount); } long[] offsets = new long[rechunkedSampleCount]; int[] sizes = new int[rechunkedSampleCount]; int maximumSize = 0; long[] timestamps = new long[rechunkedSampleCount]; int[] flags = new int[rechunkedSampleCount]; int originalSampleIndex = 0; int newSampleIndex = 0; for (int chunkIndex = 0; chunkIndex < chunkSampleCounts.length; chunkIndex++) { int chunkSamplesRemaining = chunkSampleCounts[chunkIndex]; long sampleOffset = chunkOffsets[chunkIndex]; while (chunkSamplesRemaining > 0) { int bufferSampleCount = Math.min(maxSampleCount, chunkSamplesRemaining); offsets[newSampleIndex] = sampleOffset; sizes[newSampleIndex] = fixedSampleSize * bufferSampleCount; maximumSize = Math.max(maximumSize, sizes[newSampleIndex]); timestamps[newSampleIndex] = (timestampDeltaInTimeUnits * originalSampleIndex); flags[newSampleIndex] = C.BUFFER_FLAG_KEY_FRAME; sampleOffset += sizes[newSampleIndex]; originalSampleIndex += bufferSampleCount; chunkSamplesRemaining -= bufferSampleCount; newSampleIndex++; } } long duration = timestampDeltaInTimeUnits * originalSampleIndex; return new Results(offsets, sizes, maximumSize, timestamps, flags, duration); }
Example 19
Source File: MediaCodecVideoRenderer.java From K-Sonic with MIT License | 4 votes |
/** * Returns a maximum input size for a given mime type, width and height. * * @param sampleMimeType The format mime type. * @param width The width in pixels. * @param height The height in pixels. * @return A maximum input size in bytes, or {@link Format#NO_VALUE} if a maximum could not be * determined. */ private static int getMaxInputSize(String sampleMimeType, int width, int height) { if (width == Format.NO_VALUE || height == Format.NO_VALUE) { // We can't infer a maximum input size without video dimensions. return Format.NO_VALUE; } // Attempt to infer a maximum input size from the format. int maxPixels; int minCompressionRatio; switch (sampleMimeType) { case MimeTypes.VIDEO_H263: case MimeTypes.VIDEO_MP4V: maxPixels = width * height; minCompressionRatio = 2; break; case MimeTypes.VIDEO_H264: if ("BRAVIA 4K 2015".equals(Util.MODEL)) { // The Sony BRAVIA 4k TV has input buffers that are too small for the calculated 4k video // maximum input size, so use the default value. return Format.NO_VALUE; } // Round up width/height to an integer number of macroblocks. maxPixels = Util.ceilDivide(width, 16) * Util.ceilDivide(height, 16) * 16 * 16; minCompressionRatio = 2; break; case MimeTypes.VIDEO_VP8: // VPX does not specify a ratio so use the values from the platform's SoftVPX.cpp. maxPixels = width * height; minCompressionRatio = 2; break; case MimeTypes.VIDEO_H265: case MimeTypes.VIDEO_VP9: maxPixels = width * height; minCompressionRatio = 4; break; default: // Leave the default max input size. return Format.NO_VALUE; } // Estimate the maximum input size assuming three channel 4:2:0 subsampled input frames. return (maxPixels * 3) / (2 * minCompressionRatio); }
Example 20
Source File: DefaultAllocator.java From TelePlus-Android with GNU General Public License v2.0 | 4 votes |
@Override public synchronized void trim() { int targetAllocationCount = Util.ceilDivide(targetBufferSize, individualAllocationSize); int targetAvailableCount = Math.max(0, targetAllocationCount - allocatedCount); if (targetAvailableCount >= availableCount) { // We're already at or below the target. return; } if (initialAllocationBlock != null) { // Some allocations are backed by an initial block. We need to make sure that we hold onto all // such allocations. Re-order the available allocations so that the ones backed by the initial // block come first. int lowIndex = 0; int highIndex = availableCount - 1; while (lowIndex <= highIndex) { Allocation lowAllocation = availableAllocations[lowIndex]; if (lowAllocation.data == initialAllocationBlock) { lowIndex++; } else { Allocation highAllocation = availableAllocations[highIndex]; if (highAllocation.data != initialAllocationBlock) { highIndex--; } else { availableAllocations[lowIndex++] = highAllocation; availableAllocations[highIndex--] = lowAllocation; } } } // lowIndex is the index of the first allocation not backed by an initial block. targetAvailableCount = Math.max(targetAvailableCount, lowIndex); if (targetAvailableCount >= availableCount) { // We're already at or below the target. return; } } // Discard allocations beyond the target. Arrays.fill(availableAllocations, targetAvailableCount, availableCount, null); availableCount = targetAvailableCount; }