/**
* @license
* Copyright 2016 Google Inc.
*
* 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.
*/
goog.provide('shaka.dash.MpdUtils');
goog.require('goog.Uri');
goog.require('goog.asserts');
goog.require('shaka.log');
goog.require('shaka.media.SegmentReference');
goog.require('shaka.util.Functional');
goog.require('shaka.util.XmlUtils');
/**
* @namespace shaka.dash.MpdUtils
* @summary MPD processing utility functions.
*/
/**
* Specifies how tolerant the player is to inaccurate segment start times and
* end times within a manifest. For example, gaps or overlaps between segments
* in a SegmentTimeline which are greater than or equal to this value will
* result in a warning message.
*
* @const {number}
*/
shaka.dash.MpdUtils.GAP_OVERLAP_TOLERANCE_SECONDS = 1 / 15;
/**
* @typedef {{
* start: number,
* end: number
* }}
*
* @description
* Defines a time range of a media segment. Times are in seconds.
*
* @property {number} start
* The start time of the range.
* @property {number} end
* The end time (exclusive) of the range.
*/
shaka.dash.MpdUtils.TimeRange;
/**
* @typedef {{
* timescale: number,
* segmentDuration: ?number,
* startNumber: number,
* presentationTimeOffset: number,
* timeline: Array.<shaka.dash.MpdUtils.TimeRange>
* }}
*
* @description
* Contains common information between SegmentList and SegmentTemplate items.
*
* @property {number} timescale
* The time-scale of the representation.
* @property {?number} segmentDuration
* The duration of the segments in seconds, if given.
* @property {number} startNumber
* The start number of the segments; 1 or greater.
* @property {number} presentationTimeOffset
* The presentationTimeOffset of the representation, in seconds.
* @property {Array.<shaka.dash.MpdUtils.TimeRange>} timeline
* The timeline of the representation, if given. Times in seconds.
*/
shaka.dash.MpdUtils.SegmentInfo;
/**
* Fills a SegmentTemplate URI template. This function does not validate the
* resulting URI.
*
* @param {string} uriTemplate
* @param {?string} representationId
* @param {?number} number
* @param {?number} bandwidth
* @param {?number} time
* @return {string} A URI string.
* @see ISO/IEC 23009-1:2014 section 5.3.9.4.4
*/
shaka.dash.MpdUtils.fillUriTemplate = function(
uriTemplate, representationId, number, bandwidth, time) {
if (time !== null) {
goog.asserts.assert(Math.abs(time - Math.round(time)) < 0.01,
'Calculated $Time$ values must be close to integers!');
time = Math.round(time);
}
/** @type {!Object.<string, ?number|?string>} */
var valueTable = {
'RepresentationID': representationId,
'Number': number,
'Bandwidth': bandwidth,
'Time': time
};
var re = /\$(RepresentationID|Number|Bandwidth|Time)?(?:%0([0-9]+)d)?\$/g;
var uri = uriTemplate.replace(re, function(match, name, widthString) {
if (match == '$$') {
return '$';
}
var value = valueTable[name];
goog.asserts.assert(value !== undefined, 'Unrecognized identifier');
// Note that |value| may be 0 or ''.
if (value == null) {
shaka.log.warning(
'URL template does not have an available substitution for identifier',
'"' + name + '":',
uriTemplate);
return match;
}
if (name == 'RepresentationID' && widthString) {
shaka.log.warning(
'URL template should not contain a width specifier for identifier',
'"RepresentationID":',
uriTemplate);
widthString = undefined;
}
var valueString = value.toString();
// Create padding string.
var width = window.parseInt(widthString, 10) || 1;
var paddingSize = Math.max(0, width - valueString.length);
var padding = (new Array(paddingSize + 1)).join('0');
return padding + valueString;
});
return uri;
};
/**
* Expands a SegmentTimeline into an array-based timeline. The results are in
* seconds.
*
* @param {!Element} segmentTimeline
* @param {number} timescale
* @param {number} presentationTimeOffset
* @param {number} periodDuration The Period's duration in seconds.
* POSITIVE_INFINITY indicates that the Period continues indefinitely.
* @return {!Array.<shaka.dash.MpdUtils.TimeRange>}
*/
shaka.dash.MpdUtils.createTimeline = function(
segmentTimeline, timescale, presentationTimeOffset, periodDuration) {
goog.asserts.assert(
timescale > 0 && timescale < Number.POSITIVE_INFINITY,
'timescale must be a positive, finite integer');
goog.asserts.assert(periodDuration > 0,
'period duration must be a positive integer');
// Alias.
var XmlUtils = shaka.util.XmlUtils;
var timePoints = XmlUtils.findChildren(segmentTimeline, 'S');
/** @type {!Array.<shaka.dash.MpdUtils.TimeRange>} */
var timeline = [];
var lastEndTime = 0;
for (var i = 0; i < timePoints.length; ++i) {
var timePoint = timePoints[i];
var t = XmlUtils.parseAttr(timePoint, 't', XmlUtils.parseNonNegativeInt);
var d = XmlUtils.parseAttr(timePoint, 'd', XmlUtils.parseNonNegativeInt);
var r = XmlUtils.parseAttr(timePoint, 'r', XmlUtils.parseInt);
// Adjust start considering the presentation time offset
if (t != null)
t -= presentationTimeOffset;
if (!d) {
shaka.log.warning(
'"S" element must have a duration:',
'ignoring the remaining "S" elements.',
timePoint);
return timeline;
}
var startTime = t != null ? t : lastEndTime;
var repeat = r || 0;
if (repeat < 0) {
if (i + 1 < timePoints.length) {
var nextTimePoint = timePoints[i + 1];
var nextStartTime = XmlUtils.parseAttr(
nextTimePoint, 't', XmlUtils.parseNonNegativeInt);
if (nextStartTime == null) {
shaka.log.warning(
'"S" element cannot have a negative repeat',
'if the next "S" element does not have a valid start time:',
'ignoring the remaining "S" elements.',
timePoint);
return timeline;
} else if (startTime >= nextStartTime) {
shaka.log.warning(
'"S" element cannot have a negative repeat',
'if its start time exceeds the next "S" element\'s start time:',
'ignoring the remaining "S" elements.',
timePoint);
return timeline;
}
repeat = Math.ceil((nextStartTime - startTime) / d) - 1;
} else {
if (periodDuration == Number.POSITIVE_INFINITY) {
// The DASH spec. actually allows the last "S" element to have a
// negative repeat value even when the Period has an infinite
// duration. No one uses this feature and no one ever should, ever.
shaka.log.warning(
'The last "S" element cannot have a negative repeat',
'if the Period has an infinite duration:',
'ignoring the last "S" element.',
timePoint);
return timeline;
} else if (startTime / timescale >= periodDuration) {
shaka.log.warning(
'The last "S" element cannot have a negative repeat',
'if its start time exceeds the Period\'s duration:',
'igoring the last "S" element.',
timePoint);
return timeline;
}
repeat = Math.ceil((periodDuration * timescale - startTime) / d) - 1;
}
}
// The end of the last segment may end before the start of the current
// segment (a gap) or may end after the start of the current segment (an
// overlap). If there is a gap/overlap then stretch/compress the end of
// the last segment to the start of the current segment.
//
// Note: it is possible to move the start of the current segment to the
// end of the last segment, but this would complicate the computation of
// the $Time$ placeholder later on.
if ((timeline.length > 0) && (startTime != lastEndTime)) {
var delta = startTime - lastEndTime;
if (Math.abs(delta / timescale) >=
shaka.dash.MpdUtils.GAP_OVERLAP_TOLERANCE_SECONDS) {
shaka.log.warning(
'SegmentTimeline contains a large gap/overlap:',
'the content may have errors in it.',
timePoint);
}
timeline[timeline.length - 1].end = startTime / timescale;
}
for (var j = 0; j <= repeat; ++j) {
var endTime = startTime + d;
timeline.push(
{start: (startTime / timescale), end: (endTime / timescale)});
startTime = endTime;
lastEndTime = endTime;
}
}
return timeline;
};
/**
* Expands the first SegmentReference so it begins at the start of its Period
* if it already begins close to the start of its Period, and expands or
* contracts the last SegmentReference so it ends at the end of its Period for
* VOD presentations.
*
* @param {?number} periodDuration
* @param {!Array.<!shaka.media.SegmentReference>} references
*/
shaka.dash.MpdUtils.fitSegmentReferences = function(
periodDuration, references) {
if (references.length == 0)
return;
/** @const {number} */
var tolerance = shaka.dash.MpdUtils.GAP_OVERLAP_TOLERANCE_SECONDS;
var firstReference = references[0];
if (firstReference.startTime <= tolerance) {
references[0] =
new shaka.media.SegmentReference(
firstReference.position,
0, firstReference.endTime,
firstReference.uris,
firstReference.startByte, firstReference.endByte);
}
if (periodDuration == null || periodDuration == Number.POSITIVE_INFINITY)
return;
var lastReference = references[references.length - 1];
// Sanity check.
goog.asserts.assert(
lastReference.startTime < periodDuration,
'lastReference cannot begin after the end of the Period');
if (lastReference.startTime > periodDuration) return;
// Log warning if necessary.
if (lastReference.endTime <= periodDuration - tolerance) {
shaka.log.warning(
'The last segment should not end before the end of the Period.',
lastReference);
} else if (lastReference.endTime >= periodDuration + tolerance) {
shaka.log.warning(
'The last segment should not end after the end of the Period.',
lastReference);
}
// Adjust the last SegmentReference.
references[references.length - 1] =
new shaka.media.SegmentReference(
lastReference.position,
lastReference.startTime, periodDuration,
lastReference.uris,
lastReference.startByte, lastReference.endByte);
};
/**
* Resolves an array of relative URIs to the given base URIs. This will result
* in M*N number of URIs.
*
* @param {!Array.<string>} baseUris
* @param {!Array.<string>} relativeUris
* @return {!Array.<string>}
*/
shaka.dash.MpdUtils.resolveUris = function(baseUris, relativeUris) {
var Functional = shaka.util.Functional;
if (relativeUris.length == 0)
return baseUris;
var relativeAsGoog =
relativeUris.map(function(uri) { return new goog.Uri(uri); });
// Resolve each URI relative to each base URI, creating an Array of Arrays.
// Then flatten the Arrays into a single Array.
return baseUris.map(function(uri) { return new goog.Uri(uri); })
.map(function(base) { return relativeAsGoog.map(base.resolve.bind(base)); })
.reduce(Functional.collapseArrays, [])
.map(function(uri) { return uri.toString(); });
};
/**
* Parses common segment info for SegmentList and SegmentTemplate.
*
* @param {shaka.dash.DashParser.Context} context
* @param {function(?shaka.dash.DashParser.InheritanceFrame):Element} callback
* Gets the element that contains the segment info.
* @return {shaka.dash.MpdUtils.SegmentInfo}
*/
shaka.dash.MpdUtils.parseSegmentInfo = function(context, callback) {
goog.asserts.assert(
callback(context.representation),
'There must be at least one element of the given type.');
var MpdUtils = shaka.dash.MpdUtils;
var XmlUtils = shaka.util.XmlUtils;
var timescaleStr = MpdUtils.inheritAttribute(context, callback, 'timescale');
var timescale = 1;
if (timescaleStr) {
timescale = XmlUtils.parsePositiveInt(timescaleStr) || 1;
}
var durationStr = MpdUtils.inheritAttribute(context, callback, 'duration');
var segmentDuration = XmlUtils.parsePositiveInt(durationStr || '');
if (segmentDuration) {
segmentDuration /= timescale;
}
var startNumberStr =
MpdUtils.inheritAttribute(context, callback, 'startNumber');
var presentationTimeOffset =
MpdUtils.inheritAttribute(context, callback, 'presentationTimeOffset');
var startNumber = XmlUtils.parseNonNegativeInt(startNumberStr || '');
if (startNumberStr == null || startNumber == null)
startNumber = 1;
var timelineNode =
MpdUtils.inheritChild(context, callback, 'SegmentTimeline');
/** @type {Array.<shaka.dash.MpdUtils.TimeRange>} */
var timeline = null;
if (timelineNode) {
timeline = MpdUtils.createTimeline(
timelineNode, timescale, Number(presentationTimeOffset),
context.periodInfo.duration || Number.POSITIVE_INFINITY);
}
var pto = (Number(presentationTimeOffset) / timescale) || 0;
return {
timescale: timescale,
segmentDuration: segmentDuration,
startNumber: startNumber,
presentationTimeOffset: pto,
timeline: timeline
};
};
/**
* Searches the inheritance for a Segment* with the given attribute.
*
* @param {shaka.dash.DashParser.Context} context
* @param {function(?shaka.dash.DashParser.InheritanceFrame):Element} callback
* Gets the Element that contains the attribute to inherit.
* @param {string} attribute
* @return {?string}
*/
shaka.dash.MpdUtils.inheritAttribute = function(context, callback, attribute) {
var Functional = shaka.util.Functional;
goog.asserts.assert(
callback(context.representation),
'There must be at least one element of the given type');
/** @type {!Array.<!Element>} */
var nodes = [
callback(context.representation),
callback(context.adaptationSet),
callback(context.period)
].filter(Functional.isNotNull);
return nodes
.map(function(s) { return s.getAttribute(attribute); })
.reduce(function(all, part) { return all || part; });
};
/**
* Searches the inheritance for a Segment* with the given child.
*
* @param {shaka.dash.DashParser.Context} context
* @param {function(?shaka.dash.DashParser.InheritanceFrame):Element} callback
* Gets the Element that contains the child to inherit.
* @param {string} child
* @return {Element}
*/
shaka.dash.MpdUtils.inheritChild = function(context, callback, child) {
var Functional = shaka.util.Functional;
goog.asserts.assert(
callback(context.representation),
'There must be at least one element of the given type');
/** @type {!Array.<!Element>} */
var nodes = [
callback(context.representation),
callback(context.adaptationSet),
callback(context.period)
].filter(Functional.isNotNull);
var XmlUtils = shaka.util.XmlUtils;
return nodes
.map(function(s) { return XmlUtils.findChild(s, child); })
.reduce(function(all, part) { return all || part; });
};