trace-viewer/src/tracks/timeline_slice_group_track.js - platform/external/chromium-trace - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 'use strict';

 base.require('tracks.timeline_container_track');
 base.require('sorted_array_utils');
 base.require('ui');

 base.exportTo('tracks', function() {

   /**
    * A track that displays a TimelineSliceGroup.
    * @constructor
    * @extends {TimelineContainerTrack}
    */

   var TimelineSliceGroupTrack = base.ui.define(tracks.TimelineContainerTrack);

   TimelineSliceGroupTrack.prototype = {

     __proto__: tracks.TimelineContainerTrack.prototype,

     decorate: function() {
       this.classList.add('timeline-slice-group-track');
     },

     get group() {
       return this.group_;
     },

     set group(g) {
       this.group_ = g;
       this.updateChildTracks_();
     },

     set heading(h) {
       if (this.tracks_.length)
         this.tracks_[0].heading = h;
     },

     set tooltip(t) {
       if (this.tracks_.length)
         this.tracks_[0].tooltip = t;
     },

     set decorateHit(f) {
       this.decorateHit_ = f;
       this.updateChildTracks_();
     },

     applyCategoryFilter_: function() {
       this.updateChildTracks_();
     },

     addSliceTrack_: function(slices) {
       var track = new tracks.TimelineSliceTrack();
       track.slices = slices;
       track.decorateHit = this.decorateHit_;
       this.addTrack_(track);
       return track;
     },

     updateChildTracks_: function() {
       if (!this.group_) {
         this.visible = false;
         return;
       }

       var slices = tracing.filterSliceArray(this.categoryFilter,
                                             this.group_.slices);
       if (!slices.length) {
         this.visible = false;
         return;
       }
       this.visible = true;

       if (this.areArrayContentsSame_(this.filteredSlices_, slices))
         return;

       this.filteredSlices_ = slices;
       this.detach();
       this.subRows_ = this.buildSubRows_(slices);
       for (var srI = 0; srI < this.subRows_.length; srI++) {
         if (this.subRows_[srI].length) {
           this.addSliceTrack_(this.subRows_[srI]);
         }
       }
     },

     /**
      * Breaks up the list of slices into N rows, each of which is a list of
      * slices that are non overlapping.
      */
     buildSubRows_: function(slices) {
       // This function works by walking through slices by start time.
       //
       // The basic idea here is to insert each slice as deep into the subrow
       // list as it can go such that every subSlice is fully contained by its
       // parent slice.
       //
       // Visually, if we start with this:
       //  0:  [    a       ]
       //  1:    [  b  ]
       //  2:    [c][d]
       //
       // To place this slice:
       //               [e]
       // We first check row 2's last item, [d]. [e] wont fit into [d] (they dont
       // even intersect). So we go to row 1. That gives us [b], and [d] wont fit
       // into that either. So, we go to row 0 and its last slice, [a]. That can
       // completely contain [e], so that means we should add [e] as a subchild
       // of [a]. That puts it on row 1, yielding:
       //  0:  [    a       ]
       //  1:    [  b  ][e]
       //  2:    [c][d]
       //
       // If we then get this slice:
       //                      [f]
       // We do the same deepest-to-shallowest walk of the subrows trying to fit
       // it. This time, it doesn't fit in any open slice. So, we simply append
       // it to row 0:
       //  0:  [    a       ]  [f]
       //  1:    [  b  ][e]
       //  2:    [c][d]
       if (!slices.length)
         return [];

       var ops = [];
       for (var i = 0; i < slices.length; i++) {
         if (slices[i].subSlices)
           slices[i].subSlices.splice(0,
                                      slices[i].subSlices.length);
         ops.push(i);
       }

       ops.sort(function(ix, iy) {
         var x = slices[ix];
         var y = slices[iy];
         if (x.start != y.start)
           return x.start - y.start;

         // Elements get inserted into the slices array in order of when the
         // slices end.  Because slices must be properly nested, we break
         // start-time ties by assuming that the elements appearing earlier in
         // the slices array (and thus ending earlier) start later.
         return iy - ix;
       });

       var subRows = [[]];
       this.badSlices_ = [];  // TODO(simonjam): Connect this again.

       for (var i = 0; i < ops.length; i++) {
         var op = ops[i];
         var slice = slices[op];

         // Try to fit the slice into the existing subrows.
         var inserted = false;
         for (var j = subRows.length - 1; j >= 0; j--) {
           if (subRows[j].length == 0)
             continue;

           var insertedSlice = subRows[j][subRows[j].length - 1];
           if (slice.start < insertedSlice.start) {
             this.badSlices_.push(slice);
             inserted = true;
           }
           if (slice.start >= insertedSlice.start &&
               slice.end <= insertedSlice.end) {
             // Insert it into subRow j + 1.
             while (subRows.length <= j + 1)
               subRows.push([]);
             subRows[j + 1].push(slice);
             if (insertedSlice.subSlices)
               insertedSlice.subSlices.push(slice);
             inserted = true;
             break;
           }
         }
         if (inserted)
           continue;

         // Append it to subRow[0] as a root.
         subRows[0].push(slice);
       }

       return subRows;
     },

     areArrayContentsSame_: function(a, b) {
       if (!a || !b)
         return false;
       if (!a.length || !b.length)
         return false;
       if (a.length != b.length)
         return false;
       for (var i = 0; i < a.length; ++i) {
         if (a[i] != b[i])
           return false;
       }
       return true;
     }
   };

   return {
     TimelineSliceGroupTrack: TimelineSliceGroupTrack
   };
 });
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	'use strict';

	base.require('tracks.timeline_container_track');
	base.require('sorted_array_utils');
	base.require('ui');

	base.exportTo('tracks', function() {

	/**
	* A track that displays a TimelineSliceGroup.
	* @constructor
	* @extends {TimelineContainerTrack}
	*/

	var TimelineSliceGroupTrack = base.ui.define(tracks.TimelineContainerTrack);

	TimelineSliceGroupTrack.prototype = {

	__proto__: tracks.TimelineContainerTrack.prototype,

	decorate: function() {
	this.classList.add('timeline-slice-group-track');
	},

	get group() {
	return this.group_;
	},

	set group(g) {
	this.group_ = g;
	this.updateChildTracks_();
	},

	set heading(h) {
	if (this.tracks_.length)
	this.tracks_[0].heading = h;
	},

	set tooltip(t) {
	if (this.tracks_.length)
	this.tracks_[0].tooltip = t;
	},

	set decorateHit(f) {
	this.decorateHit_ = f;
	this.updateChildTracks_();
	},

	applyCategoryFilter_: function() {
	this.updateChildTracks_();
	},

	addSliceTrack_: function(slices) {
	var track = new tracks.TimelineSliceTrack();
	track.slices = slices;
	track.decorateHit = this.decorateHit_;
	this.addTrack_(track);
	return track;
	},

	updateChildTracks_: function() {
	if (!this.group_) {
	this.visible = false;
	return;
	}

	var slices = tracing.filterSliceArray(this.categoryFilter,
	this.group_.slices);
	if (!slices.length) {
	this.visible = false;
	return;
	}
	this.visible = true;

	if (this.areArrayContentsSame_(this.filteredSlices_, slices))
	return;

	this.filteredSlices_ = slices;
	this.detach();
	this.subRows_ = this.buildSubRows_(slices);
	for (var srI = 0; srI < this.subRows_.length; srI++) {
	if (this.subRows_[srI].length) {
	this.addSliceTrack_(this.subRows_[srI]);
	}
	}
	},

	/**
	* Breaks up the list of slices into N rows, each of which is a list of
	* slices that are non overlapping.
	*/
	buildSubRows_: function(slices) {
	// This function works by walking through slices by start time.
	//
	// The basic idea here is to insert each slice as deep into the subrow
	// list as it can go such that every subSlice is fully contained by its
	// parent slice.
	//
	// Visually, if we start with this:
	// 0: [ a ]
	// 1: [ b ]
	// 2: [c][d]
	//
	// To place this slice:
	// [e]
	// We first check row 2's last item, [d]. [e] wont fit into [d] (they dont
	// even intersect). So we go to row 1. That gives us [b], and [d] wont fit
	// into that either. So, we go to row 0 and its last slice, [a]. That can
	// completely contain [e], so that means we should add [e] as a subchild
	// of [a]. That puts it on row 1, yielding:
	// 0: [ a ]
	// 1: [ b ][e]
	// 2: [c][d]
	//
	// If we then get this slice:
	// [f]
	// We do the same deepest-to-shallowest walk of the subrows trying to fit
	// it. This time, it doesn't fit in any open slice. So, we simply append
	// it to row 0:
	// 0: [ a ] [f]
	// 1: [ b ][e]
	// 2: [c][d]
	if (!slices.length)
	return [];

	var ops = [];
	for (var i = 0; i < slices.length; i++) {
	if (slices[i].subSlices)
	slices[i].subSlices.splice(0,
	slices[i].subSlices.length);
	ops.push(i);
	}

	ops.sort(function(ix, iy) {
	var x = slices[ix];
	var y = slices[iy];
	if (x.start != y.start)
	return x.start - y.start;

	// Elements get inserted into the slices array in order of when the
	// slices end. Because slices must be properly nested, we break
	// start-time ties by assuming that the elements appearing earlier in
	// the slices array (and thus ending earlier) start later.
	return iy - ix;
	});

	var subRows = [[]];
	this.badSlices_ = []; // TODO(simonjam): Connect this again.

	for (var i = 0; i < ops.length; i++) {
	var op = ops[i];
	var slice = slices[op];

	// Try to fit the slice into the existing subrows.
	var inserted = false;
	for (var j = subRows.length - 1; j >= 0; j--) {
	if (subRows[j].length == 0)
	continue;

	var insertedSlice = subRows[j][subRows[j].length - 1];
	if (slice.start < insertedSlice.start) {
	this.badSlices_.push(slice);
	inserted = true;
	}
	if (slice.start >= insertedSlice.start &&
	slice.end <= insertedSlice.end) {
	// Insert it into subRow j + 1.
	while (subRows.length <= j + 1)
	subRows.push([]);
	subRows[j + 1].push(slice);
	if (insertedSlice.subSlices)
	insertedSlice.subSlices.push(slice);
	inserted = true;
	break;
	}
	}
	if (inserted)
	continue;

	// Append it to subRow[0] as a root.
	subRows[0].push(slice);
	}

	return subRows;
	},

	areArrayContentsSame_: function(a, b) {
	if (!a \|\| !b)
	return false;
	if (!a.length \|\| !b.length)
	return false;
	if (a.length != b.length)
	return false;
	for (var i = 0; i < a.length; ++i) {
	if (a[i] != b[i])
	return false;
	}
	return true;
	}
	};

	return {
	TimelineSliceGroupTrack: TimelineSliceGroupTrack
	};
	});