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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 15:26:01 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 15:26:01 +0000
commitef03469fec14f1f0358b690934fc173d744f4e7d (patch)
tree8be439d7b2f1d7c8283b745919b9e66481a950e7 /debian/missing-sources/epoch/src/time.coffee
parentAdding upstream version 5.6.0. (diff)
downloadknot-resolver-ef03469fec14f1f0358b690934fc173d744f4e7d.tar.xz
knot-resolver-ef03469fec14f1f0358b690934fc173d744f4e7d.zip
Adding debian version 5.6.0-1.debian/5.6.0-1
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
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diff --git a/debian/missing-sources/epoch/src/time.coffee b/debian/missing-sources/epoch/src/time.coffee
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+# Real-time Plot Base Class. Uses an html5 canvas to recreate the basic d3 drawing routines
+# while simultaneously reducing the load on the viewer's cpu (and, you know, not leaking
+# memory which ultimately leads to a crashed browser).
+#
+# The class also handles the creation of axes and margins common to all time-series plots.
+# Furthermore it layers the canvas below an SVG element to keep visual consistency when
+# rendering text, glyphs, etc.
+class Epoch.Time.Plot extends Epoch.Chart.Canvas
+ defaults =
+ range: null
+ fps: 24
+ historySize: 120
+ windowSize: 40
+ queueSize: 10
+ axes: ['bottom']
+ ticks:
+ time: 15
+ left: 5
+ right: 5
+ tickFormats:
+ top: Epoch.Formats.seconds
+ bottom: Epoch.Formats.seconds
+ left: Epoch.Formats.si
+ right: Epoch.Formats.si
+
+ defaultAxisMargins =
+ top: 25
+ right: 50
+ bottom: 25
+ left: 50
+
+ optionListeners =
+ 'option:margins': 'marginsChanged'
+ 'option:margins.top': 'marginsChanged'
+ 'option:margins.right': 'marginsChanged'
+ 'option:margins.bottom': 'marginsChanged'
+ 'option:margins.left': 'marginsChanged'
+ 'option:axes': 'axesChanged'
+ 'option:ticks': 'ticksChanged'
+ 'option:ticks.top': 'ticksChanged'
+ 'option:ticks.right': 'ticksChanged'
+ 'option:ticks.bottom': 'ticksChanged'
+ 'option:ticks.left': 'ticksChanged'
+ 'option:tickFormats': 'tickFormatsChanged'
+ 'option:tickFormats.top': 'tickFormatsChanged'
+ 'option:tickFormats.right': 'tickFormatsChanged'
+ 'option:tickFormats.bottom': 'tickFormatsChanged'
+ 'option:tickFormats.left': 'tickFormatsChanged'
+
+ # Creates a new real-time plot.
+ #
+ # @param [Object] options Options for the plot.
+ # @option options [Integer] fps Number of frames per second to use when animating
+ # the plot.
+ # @option options [Integer] historySize Maximum number of elements to keep in history
+ # for the plot.
+ # @option options [Integer] windowSize Number of entries to simultaneously display
+ # when rendering the visualization.
+ # @option options [Integer] queueSize Number of elements to queue while not animating
+ # but still recieving elements. In some browsers, intervals will not fire if the
+ # page containing them is not the active tab. By setting a maximum limit to the
+ # number of unprocessed data points we can ensure that the memory footprint of the
+ # page does not get out of hand.
+ # @option options [Object] margins Explicit margins to use for the visualization. Note
+ # that these are optional and will be automatically generated based on which axes are
+ # used for the visualization. Margins are keyed by their position (top, left, bottom
+ # and/or right) and should map to [Integer] values.
+ # @option options [Array] axes Which axes to display when rendering the visualization
+ # (top, left, bottom, and/or right).
+ # @option options [Object] ticks Number of ticks to display on each axis available axes
+ # ares: time, left, and right. The number provided for the left and right axes are in
+ # absolute terms (i.e. there will be exactly that number of ticks). The time ticks
+ # denote how often a tick should be generated (e.g. if 5 is provided then a tick will
+ # be added every fifth time you push a new data entry into the visualization).
+ # @option options [Object] tickFormats Formatting functions for ticks on the given axes.
+ # The avaiable axes are: top, bottom, left, and right.
+ constructor: (@options) ->
+ givenMargins = Epoch.Util.copy(@options.margins) or {}
+ super(@options = Epoch.Util.defaults(@options, defaults))
+
+ if @options.model
+ @options.model.on 'data:push', => @pushFromModel()
+
+ # Queue entering data to get around memory bloat and "non-active" tab issues
+ @_queue = []
+
+ # Margins
+ @margins = {}
+ for pos in ['top', 'right', 'bottom', 'left']
+ @margins[pos] = if @options.margins? and @options.margins[pos]?
+ @options.margins[pos]
+ else if @hasAxis(pos)
+ defaultAxisMargins[pos]
+ else
+ 6
+
+ # SVG Overlay
+ @svg = @el.insert('svg', ':first-child')
+ .attr('width', @width)
+ .attr('height', @height)
+ .style('z-index', '1000')
+
+ # Position the canvas "under" the SVG element
+ if @el.style('position') != 'absolute' and @el.style('position') != 'relative'
+ @el.style('position', 'relative')
+
+ @canvas.style { position: 'absolute', 'z-index': '999' }
+ @_sizeCanvas()
+
+ # Animation / Transitions
+ @animation =
+ interval: null
+ active: false
+ delta: => -(@w() / @options.fps),
+ tickDelta: => -( (@w() / @pixelRatio) / @options.fps )
+ frame: 0,
+ duration: @options.fps
+
+ # Add SVG Axes
+ @_buildAxes()
+
+ # Callback used for animation
+ @animationCallback = => @_animate()
+
+ # Listen for specific option changes
+ @onAll optionListeners
+
+ # Positions and sizes the canvas based on margins and axes.
+ _sizeCanvas: ->
+ @canvas.attr
+ width: @innerWidth()
+ height: @innerHeight()
+
+ @canvas.style
+ width: "#{@innerWidth() / @pixelRatio}px"
+ height: "#{@innerHeight() / @pixelRatio}px"
+ top: "#{@margins.top}px"
+ left: "#{@margins.left}px"
+
+ # Removes any axes found in the SVG and adds both the time and range axes to the plot.
+ _buildAxes: ->
+ @svg.selectAll('.axis').remove()
+ @_prepareTimeAxes()
+ @_prepareRangeAxes()
+
+ # Works exactly as in Epoch.Chart.Base with the addition of truncating value arrays
+ # to that of the historySize defined in the chart's options.
+ _annotateLayers: (prepared) ->
+ data = []
+ for own i, layer of prepared
+ copy = Epoch.Util.copy(layer)
+ start = Math.max(0, layer.values.length - @options.historySize)
+ copy.values = layer.values.slice(start)
+ classes = ['layer']
+ classes.push "category#{(i|0)+1}"
+ classes.push(Epoch.Util.dasherize layer.label) if layer.label?
+ copy.className = classes.join(' ')
+ copy.visible = true
+ data.push copy
+ return data
+
+ # This method is called to provide a small offset for placement of horizontal ticks.
+ # The value returned will be added to the x value of each tick as they are being
+ # rendered.
+ #
+ # @return [Number] The horizontal offset for the top and bottom axes ticks.
+ _offsetX: -> 0
+
+ # Builds time axes (bottom and top)
+ _prepareTimeAxes: ->
+ if @hasAxis('bottom')
+ axis = @bottomAxis = @svg.append('g')
+ .attr('class', "x axis bottom canvas")
+ .attr('transform', "translate(#{@margins.left-1}, #{@innerHeight()/@pixelRatio+@margins.top})")
+ axis.append('path')
+ .attr('class', 'domain')
+ .attr('d', "M0,0H#{@innerWidth()/@pixelRatio+1}")
+
+ if @hasAxis('top')
+ axis = @topAxis = @svg.append('g')
+ .attr('class', "x axis top canvas")
+ .attr('transform', "translate(#{@margins.left-1}, #{@margins.top})")
+ axis.append('path')
+ .attr('class', 'domain')
+ .attr('d', "M0,0H#{@innerWidth()/@pixelRatio+1}")
+
+ @_resetInitialTimeTicks()
+
+ # Resets the initial ticks for the time axes.
+ _resetInitialTimeTicks: ->
+ tickInterval = @options.ticks.time
+ @_ticks = []
+ @_tickTimer = tickInterval
+
+ @bottomAxis.selectAll('.tick').remove() if @bottomAxis?
+ @topAxis.selectAll('.tick').remove() if @topAxis?
+
+ for layer in @data
+ continue unless Epoch.isNonEmptyArray(layer.values)
+ [i, k] = [@options.windowSize-1, layer.values.length-1]
+ while i >= 0 and k >= 0
+ @_pushTick i, layer.values[k].time, false, true
+ i -= tickInterval
+ k -= tickInterval
+ break
+
+ # Builds the range axes (left and right)
+ _prepareRangeAxes: ->
+ if @hasAxis('left')
+ @svg.append("g")
+ .attr("class", "y axis left")
+ .attr('transform', "translate(#{@margins.left-1}, #{@margins.top})")
+ .call(@leftAxis())
+
+ if @hasAxis('right')
+ @svg.append('g')
+ .attr('class', 'y axis right')
+ .attr('transform', "translate(#{@width - @margins.right}, #{@margins.top})")
+ .call(@rightAxis())
+
+ # @return [Object] The d3 left axis.
+ leftAxis: ->
+ ticks = @options.ticks.left
+ axis = d3.svg.axis().scale(@ySvgLeft()).orient('left')
+ .tickFormat(@options.tickFormats.left)
+ if ticks == 2
+ axis.tickValues @extent((d) -> d.y)
+ else
+ axis.ticks(ticks)
+
+ # @return [Object] The d3 right axis.
+ rightAxis: ->
+ extent = @extent((d) -> d.y)
+ ticks = @options.ticks.right
+ axis = d3.svg.axis().scale(@ySvgRight()).orient('right')
+ .tickFormat(@options.tickFormats.right)
+ if ticks == 2
+ axis.tickValues @extent((d) -> d.y)
+ else
+ axis.ticks(ticks)
+
+ # Determines if the visualization is displaying the axis with the given name.
+ # @param [String] name Name of the axis
+ # @return [Boolean] <code>true</code> if the axis was set in the options, <code>false</code> otherwise.
+ hasAxis: (name) ->
+ @options.axes.indexOf(name) > -1
+
+ # @return [Number] the width of the visualization area of the plot (full width - margins)
+ innerWidth: ->
+ (@width - (@margins.left + @margins.right)) * @pixelRatio
+
+ # @return [Number] the height of the visualization area of the plot (full height - margins)
+ innerHeight: ->
+ (@height - (@margins.top + @margins.bottom)) * @pixelRatio
+
+ # Abstract method for performing any preprocessing before queuing new entries
+ # @param entry [Object] The entry to prepare.
+ # @return [Object] The prepared entry.
+ _prepareEntry: (entry) -> entry
+
+ # Abstract method for preparing a group of layered entries entering the visualization
+ # @param [Array] layers The layered entries to prepare.
+ # @return [Array] The prepared layers.
+ _prepareLayers: (layers) -> layers
+
+ # This method will remove the first incoming entry from the visualization's queue
+ # and shift it into the working set (aka window). It then starts the animating the
+ # transition of the element into the visualization.
+ # @event transition:start in the case that animation is actually started.
+ _startTransition: ->
+ return if @animation.active == true or @_queue.length == 0
+ @trigger 'transition:start'
+ @_shift()
+ @animation.active = true
+ @animation.interval = setInterval(@animationCallback, 1000/@options.fps)
+
+ # Stops animating and clears the animation interval given there is no more
+ # incoming data to process. Also finalizes tick entering and exiting.
+ # @event transition:end After the transition has completed.
+ _stopTransition: ->
+ return unless @inTransition()
+
+ # Shift data off the end
+ for layer in @data
+ continue unless layer.values.length > @options.windowSize + 1
+ layer.values.shift()
+
+ # Finalize tick transitions
+ [firstTick, lastTick] = [@_ticks[0], @_ticks[@_ticks.length-1]]
+
+ if lastTick? and lastTick.enter
+ lastTick.enter = false
+ lastTick.opacity = 1
+
+ if firstTick? and firstTick.exit
+ @_shiftTick()
+
+ # Reset the animation frame modulus
+ @animation.frame = 0
+
+ # Trigger that we are done transitioning
+ @trigger 'transition:end'
+
+ # Clear the transition interval unless another entry is already queued
+ if @_queue.length > 0
+ @_shift()
+ else
+ @animation.active = false
+ clearInterval @animation.interval
+
+ # Determines if the plot is currently animating a transition.
+ # @return [Boolean] <code>true</code> if the plot is animating, <code>false</code> otherwise.
+ inTransition: ->
+ @animation.active
+
+ # This method is used by the application programmer to introduce new data into
+ # the timeseries plot. The method queues the incoming data, ensures a fixed size
+ # for the data queue, and finally calls <code>_startTransition</code> method to
+ # begin animating the plot.
+ # @param [Array] layers Layered incoming visualization data.
+ # @event push Triggered after the new data has been pushed into the queue.
+ push: (layers) ->
+ layers = @_prepareLayers(layers)
+
+ # Handle entry queue maximum size
+ if @_queue.length > @options.queueSize
+ @_queue.splice @options.queueSize, (@_queue.length - @options.queueSize)
+ return false if @_queue.length == @options.queueSize
+
+ # Push the entry into the queue
+ @_queue.push layers.map((entry) => @_prepareEntry(entry))
+
+ @trigger 'push'
+
+ # Begin the transition unless we are already doing so
+ @_startTransition() unless @inTransition()
+
+ # Fetches new entry data from the model in response to a 'data:push' event.
+ pushFromModel: ->
+ @push @options.model.getNext(@options.type, @options.dataFormat)
+
+ # Shift elements off the incoming data queue (see the implementation of
+ # push above).
+ #
+ # If there's data to be shoved into the visualization it will pull it
+ # off the queue and put it into the working dataset. It also calls through
+ # to @_updateTicks to handle horizontal (or "time") axes tick transitions
+ # since we're implementing independent of d3 as well.
+ #
+ # @event before:shift Before an element has been shifted off the queue.
+ # @event after:shift After the element has been shifted off the queue.
+ _shift: ->
+ @trigger 'before:shift'
+ entry = @_queue.shift()
+ layer.values.push(entry[i]) for own i, layer of @data
+ @_updateTicks(entry[0].time)
+ @_transitionRangeAxes()
+ @trigger 'after:shift'
+
+ # Transitions the left and right axes when the range of the plot has changed.
+ _transitionRangeAxes: ->
+ if @hasAxis('left')
+ @svg.selectAll('.y.axis.left').transition()
+ .duration(500)
+ .ease('linear')
+ .call(@leftAxis())
+
+ if @hasAxis('right')
+ @svg.selectAll('.y.axis.right').transition()
+ .duration(500)
+ .ease('linear')
+ .call(@rightAxis())
+
+ # Performs the animation for transitioning elements in the visualization.
+ _animate: ->
+ return unless @inTransition()
+ @_stopTransition() if ++@animation.frame == @animation.duration
+ @draw(@animation.frame * @animation.delta())
+ @_updateTimeAxes()
+
+ # @param [Array] givenDomain A given domain for the scale
+ # @return [Function] The y scale for the plot
+ y: (givenDomain) ->
+ d3.scale.linear()
+ .domain(@_getScaleDomain(givenDomain))
+ .range([@innerHeight(), 0])
+
+ # @param [Array] givenDomain Optional domain to override default
+ # @return [Function] The y scale for the svg portions of the plot
+ ySvg: (givenDomain) ->
+ d3.scale.linear()
+ .domain(@_getScaleDomain(givenDomain))
+ .range([@innerHeight() / @pixelRatio, 0])
+
+ # @return [Function] The y scale for the svg portion of the plot for the left axis
+ ySvgLeft: ->
+ if @options.range?
+ @ySvg @options.range.left
+ else
+ @ySvg()
+
+ # @return [Function] The y scale for the svg portion of the plot for the right axis
+ ySvgRight: ->
+ if @options.range?
+ @ySvg @options.range.right
+ else
+ @ySvg()
+
+ # @return [Number] The width of a single section of the graph pertaining to a data point
+ w: ->
+ @innerWidth() / @options.windowSize
+
+ # This is called every time we introduce new data (as a result of _shift)
+ # it checks to see if we also need to update the working tick set and
+ # makes the approriate changes for handling tick animation (enter, exit,
+ # and update in the d3 model).
+ #
+ # @param [Integer] newTime Current newest timestamp in the data
+ _updateTicks: (newTime) ->
+ return unless @hasAxis('top') or @hasAxis('bottom')
+
+ # Incoming ticks
+ unless (++@_tickTimer) % @options.ticks.time
+ @_pushTick(@options.windowSize, newTime, true)
+
+ # Outgoing ticks
+ return unless @_ticks.length > 0
+ unless @_ticks[0].x - (@w()/@pixelRatio) >= 0
+ @_ticks[0].exit = true
+
+ # Makes and pushes a new tick into the visualization.
+ #
+ # @param bucket Index in the data window where the tick should initially be position
+ # @param time The unix timestamp associated with the tick
+ # @param enter Whether or not the tick should be considered as "newly entering"
+ # Used primarily for performing the tick opacity tween.
+ _pushTick: (bucket, time, enter=false, reverse=false) ->
+ return unless @hasAxis('top') or @hasAxis('bottom')
+ tick =
+ time: time
+ x: bucket*(@w()/@pixelRatio) + @_offsetX()
+ opacity: if enter then 0 else 1
+ enter: if enter then true else false
+ exit: false
+
+ if @hasAxis('bottom')
+ g = @bottomAxis.append('g')
+ .attr('class', 'tick major')
+ .attr('transform', "translate(#{tick.x+1},0)")
+ .style('opacity', tick.opacity)
+
+ g.append('line')
+ .attr('y2', 6)
+
+ g.append('text')
+ .attr('text-anchor', 'middle')
+ .attr('dy', 19)
+ .text(@options.tickFormats.bottom(tick.time))
+
+ tick.bottomEl = g
+
+ if @hasAxis('top')
+ g = @topAxis.append('g')
+ .attr('class', 'tick major')
+ .attr('transform', "translate(#{tick.x+1},0)")
+ .style('opacity', tick.opacity)
+
+ g.append('line')
+ .attr('y2', -6)
+
+ g.append('text')
+ .attr('text-anchor', 'middle')
+ .attr('dy', -10)
+ .text(@options.tickFormats.top(tick.time))
+
+ tick.topEl = g
+
+ if reverse
+ @_ticks.unshift tick
+ else
+ @_ticks.push tick
+ return tick
+
+ # Shifts a tick that is no longer needed out of the visualization.
+ _shiftTick: ->
+ return unless @_ticks.length > 0
+ tick = @_ticks.shift()
+ tick.topEl.remove() if tick.topEl?
+ tick.bottomEl.remove() if tick.bottomEl?
+
+ # This performs animations for the time axes (top and bottom).
+ _updateTimeAxes: ->
+ return unless @hasAxis('top') or @hasAxis('bottom')
+ [dx, dop] = [@animation.tickDelta(), 1 / @options.fps]
+
+ for tick in @_ticks
+ tick.x += dx
+ if @hasAxis('bottom')
+ tick.bottomEl.attr('transform', "translate(#{tick.x+1},0)")
+ if @hasAxis('top')
+ tick.topEl.attr('transform', "translate(#{tick.x+1},0)")
+
+ if tick.enter
+ tick.opacity += dop
+ else if tick.exit
+ tick.opacity -= dop
+
+ if tick.enter or tick.exit
+ tick.bottomEl.style('opacity', tick.opacity) if @hasAxis('bottom')
+ tick.topEl.style('opacity', tick.opacity) if @hasAxis('top')
+
+ # Draws the visualization in the plot's canvas.
+ # @param delta The current x offset to apply to all elements when rendering. This number
+ # will be 0 when the plot is not animating and negative when it is.
+ # @abstract It does nothing on its own but is provided so that subclasses can
+ # define a custom rendering routine.
+ draw: (delta=0) -> super()
+
+ dimensionsChanged: ->
+ super()
+ @svg.attr('width', @width).attr('height', @height)
+ @_sizeCanvas()
+ @_buildAxes()
+ @draw(@animation.frame * @animation.delta())
+
+ # Updates axes in response to an <code>option:axes</code> event.
+ axesChanged: ->
+ for pos in ['top', 'right', 'bottom', 'left']
+ continue if @options.margins? and @options.margins[pos]?
+ if @hasAxis(pos)
+ @margins[pos] = defaultAxisMargins[pos]
+ else
+ @margins[pos] = 6
+ @_sizeCanvas()
+ @_buildAxes()
+ @draw(@animation.frame * @animation.delta())
+
+ # Updates ticks in response to an <code>option.ticks.*</code> event.
+ ticksChanged: ->
+ @_resetInitialTimeTicks()
+ @_transitionRangeAxes()
+ @draw(@animation.frame * @animation.delta())
+
+ # Updates tick formats in response to an <code>option.tickFormats.*</code> event.
+ tickFormatsChanged: ->
+ @_resetInitialTimeTicks()
+ @_transitionRangeAxes()
+ @draw(@animation.frame * @animation.delta())
+
+ # Updates margins in response to an <code>option.margins.*</code> event.
+ marginsChanged: ->
+ return unless @options.margins?
+ for own pos, size of @options.margins
+ unless size?
+ @margins[pos] = 6
+ else
+ @margins[pos] = size
+
+ @_sizeCanvas()
+ @draw(@animation.frame * @animation.delta())
+
+ layerChanged: ->
+ @_transitionRangeAxes()
+ super()
+
+
+# Base class for all "stacked" plot types (e.g. bar charts, area charts, etc.)
+# @abstract It does not perform rendering but instead formats the data
+# so as to ease the process of rendering stacked plots.
+class Epoch.Time.Stack extends Epoch.Time.Plot
+ # Sets stacking information (y0) for each of the points in each layer
+ _stackLayers: ->
+ return unless (layers = @getVisibleLayers()).length > 0
+ for i in [0...layers[0].values.length]
+ y0 = 0
+ for layer in layers
+ layer.values[i].y0 = y0
+ y0 += layer.values[i].y
+
+ # Adds stacking information for layers entering the visualization.
+ # @param [Array] layers Layers to stack.
+ _prepareLayers: (layers) ->
+ y0 = 0
+ for own i, d of layers
+ continue unless @data[i].visible
+ d.y0 = y0
+ y0 += d.y
+ return layers
+
+ # Ensures that elements are stacked when setting the initial data.
+ # @param [Array] data Layered data to set for the visualization.
+ setData: (data) ->
+ super(data)
+ @_stackLayers()
+
+ # Finds the correct extent to use for range axes (left and right).
+ # @return [Array] An extent array with the first element equal to 0
+ # and the second element equal to the maximum value amongst the
+ # stacked entries.
+ extent: ->
+ [max, layers] = [0, @getVisibleLayers()]
+ return [0, 0] unless layers.length
+
+ for i in [0...layers[0].values.length]
+ sum = 0
+ for j in [0...layers.length]
+ sum += layers[j].values[i].y
+ max = sum if sum > max
+
+ [0, max]
+
+ layerChanged: ->
+ @_stackLayers()
+ @_prepareLayers(layers) for layers in @_queue
+ super()