cpu: `Minor' in-order CPU model

This patch contains a new CPU model named `Minor'. Minor models a four
stage in-order execution pipeline (fetch lines, decompose into
macroops, decompose macroops into microops, execute).

The model was developed to support the ARM ISA but should be fixable
to support all the remaining gem5 ISAs. It currently also works for
Alpha, and regressions are included for ARM and Alpha (including Linux
boot).

Documentation for the model can be found in src/doc/inside-minor.doxygen and
its internal operations can be visualised using the Minorview tool
utils/minorview.py.

Minor was designed to be fairly simple and not to engage in a lot of
instruction annotation. As such, it currently has very few gathered
stats and may lack other gem5 features.

Minor is faster than the o3 model. Sample results:

     Benchmark     |   Stat host_seconds (s)
    ---------------+--------v--------v--------
     (on ARM, opt) | simple | o3     | minor
                   | timing | timing | timing
    ---------------+--------+--------+--------
    10.linux-boot  |   169  |  1883  |  1075
    10.mcf         |   117  |   967  |   491
    20.parser      |   668  |  6315  |  3146
    30.eon         |   542  |  3413  |  2414
    40.perlbmk     |  2339  | 20905  | 11532
    50.vortex      |   122  |  1094  |   588
    60.bzip2       |  2045  | 18061  |  9662
    70.twolf       |   207  |  2736  |  1036

8 files changed, 2539 insertions, 0 deletions

diff --git a/util/minorview/__init__.py b/util/minorview/__init__.py
new file mode 100644
index 000000000..0b957dcec
--- /dev/null
+++ b/util/minorview/__init__.py
@@ -0,0 +1,36 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
diff --git a/util/minorview/blobs.py b/util/minorview/blobs.py
new file mode 100644
index 000000000..32d08dfa2
--- /dev/null
+++ b/util/minorview/blobs.py
@@ -0,0 +1,461 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+#
+# blobs.py: Blobs are the visual blocks, arrows and other coloured
+#   objects on the visualiser.  This file contains Blob definition and
+#   their rendering instructions in pygtk/cairo.
+#
+
+import pygtk
+pygtk.require('2.0')
+import gtk
+import gobject
+import cairo
+import re
+import math
+
+from point import Point
+import parse
+import colours
+from colours import backgroundColour, black
+import model
+
+def centre_size_to_sides(centre, size):
+    """Returns a 4-tuple of the relevant ordinates of the left,
+    right, top and bottom sides of the described rectangle"""
+    (x, y) = centre.to_pair()
+    (half_width, half_height) = (size.scale(0.5)).to_pair()
+    left = x - half_width
+    right = x + half_width
+    top = y - half_height
+    bottom = y + half_height
+    return (left, right, top, bottom)
+
+def box(cr, centre, size):
+    """Draw a simple box"""
+    (left, right, top, bottom) = centre_size_to_sides(centre, size)
+    cr.move_to(left, top)
+    cr.line_to(right, top)
+    cr.line_to(right, bottom)
+    cr.line_to(left, bottom)
+    cr.close_path()
+
+def stroke_and_fill(cr, colour):
+    """Stroke with the current colour then fill the same path with the
+    given colour"""
+    join = cr.get_line_join()
+    cr.set_line_join(gtk.gdk.JOIN_ROUND)
+    cr.close_path()
+    cr.set_source_color(backgroundColour)
+    cr.stroke_preserve()
+    cr.set_source_color(colour)
+    cr.fill()
+    cr.set_line_join(join)
+
+def striped_box(cr, centre, size, colours):
+    """Fill a rectangle (without outline) striped with the colours given"""
+    num_colours = len(colours)
+    if num_colours == 0:
+        box(cr, centre, size)
+        cr.set_source_color(backgroundColour)
+        cr.fill()
+    elif num_colours == 1:
+        box(cr, centre, size)
+        stroke_and_fill(cr, colours[0])
+    else:
+        (left, right, top, bottom) = centre_size_to_sides(centre, size)
+        (width, height) = size.to_pair()
+        x_stripe_width = width / num_colours
+        half_x_stripe_width = x_stripe_width / 2.0
+        # Left triangle
+        cr.move_to(left,  bottom)
+        cr.line_to(left + half_x_stripe_width, bottom)
+        cr.line_to(left + x_stripe_width + half_x_stripe_width, top)
+        cr.line_to(left, top)
+        stroke_and_fill(cr, colours[0])
+        # Stripes
+        for i in xrange(1, num_colours - 1):
+            xOffset = x_stripe_width * i
+            cr.move_to(left + xOffset - half_x_stripe_width, bottom)
+            cr.line_to(left + xOffset + half_x_stripe_width, bottom)
+            cr.line_to(left + xOffset + x_stripe_width +
+                half_x_stripe_width, top)
+            cr.line_to(left + xOffset + x_stripe_width -
+                half_x_stripe_width, top)
+            stroke_and_fill(cr, colours[i])
+        # Right triangle
+        cr.move_to((right - x_stripe_width) - half_x_stripe_width, bottom)
+        cr.line_to(right, bottom)
+        cr.line_to(right, top)
+        cr.line_to((right - x_stripe_width) + half_x_stripe_width, top)
+        stroke_and_fill(cr, colours[num_colours - 1])
+
+def speech_bubble(cr, top_left, size, unit):
+    """Draw a speech bubble with 'size'-sized internal space with its
+    top left corner at Point(2.0 * unit, 2.0 * unit)"""
+    def local_arc(centre, angleFrom, angleTo):
+        cr.arc(centre.x, centre.y, unit, angleFrom * math.pi,
+            angleTo * math.pi)
+
+    cr.move_to(*top_left.to_pair())
+    cr.rel_line_to(unit * 2.0, unit)
+    cr.rel_line_to(size.x, 0.0)
+    local_arc(top_left + Point(size.x + unit * 2.0, unit * 2.0), -0.5, 0.0)
+    cr.rel_line_to(0.0, size.y)
+    local_arc(top_left + Point(size.x + unit * 2.0, size.y + unit * 2.0),
+        0, 0.5)
+    cr.rel_line_to(-size.x, 0.0)
+    local_arc(top_left + Point(unit * 2.0, size.y + unit * 2.0), 0.5, 1.0)
+    cr.rel_line_to(0, -size.y)
+    cr.close_path()
+
+def open_bottom(cr, centre, size):
+    """Draw a box with left, top and right sides"""
+    (left, right, top, bottom) = centre_size_to_sides(centre, size)
+    cr.move_to(left, bottom)
+    cr.line_to(left, top)
+    cr.line_to(right, top)
+    cr.line_to(right, bottom)
+
+def fifo(cr, centre, size):
+    """Draw just the vertical sides of a box"""
+    (left, right, top, bottom) = centre_size_to_sides(centre, size)
+    cr.move_to(left, bottom)
+    cr.line_to(left, top)
+    cr.move_to(right, bottom)
+    cr.line_to(right, top)
+
+def cross(cr, centre, size):
+    """Draw a cross parallel with the axes"""
+    (left, right, top, bottom) = centre_size_to_sides(centre, size)
+    (x, y) = centre.to_pair()
+    cr.move_to(left, y)
+    cr.line_to(right, y)
+    cr.move_to(x, top)
+    cr.line_to(x, bottom)
+
+class Blob(object):
+    """Blob super class"""
+    def __init__(self, picChar, unit, topLeft, colour, size = Point(1,1)):
+        self.picChar = picChar
+        self.unit = unit
+        self.displayName = unit
+        self.nameLoc = 'top'
+        self.topLeft = topLeft
+        self.colour = colour
+        self.size = size
+        self.border = 1.0
+        self.dataSelect = model.BlobDataSelect()
+        self.shorten = 0
+
+    def render(self, cr, view, event, select, time):
+        """Render this blob with the given event's data.  Returns either
+        None or a pair of (centre, size) in device coordinates for the drawn
+        blob.  The return value can be used to detect if mouse clicks on
+        the canvas are within the blob"""
+        return None
+
+class Block(Blob):
+    """Blocks are rectangular blogs colourable with a 2D grid of striped
+    blocks.  visualDecoder specifies how event data becomes this coloured
+    grid"""
+    def __init__(self, picChar, unit, topLeft=Point(0,0),
+        colour=colours.black,
+        size=Point(1,1)):
+        super(Block,self).__init__(picChar, unit, topLeft, colour,
+            size = size)
+        # {horiz, vert}
+        self.stripDir = 'horiz'
+        # {LR, RL}: LR means the first strip will be on the left/top,
+        #   RL means the first strip will be on the right/bottom
+        self.stripOrd = 'LR'
+        # Number of blank strips if this is a frame
+        self.blankStrips = 0
+        # {box, fifo, openBottom}
+        self.shape = 'box'
+        self.visualDecoder = None
+
+    def render(self, cr, view, event, select, time):
+        # Find the right event, visuals and sizes for things
+        if event is None or self.displayName.startswith('_'):
+            event = model.BlobEvent(self.unit, time)
+
+        if self.picChar in event.visuals:
+            strips = event.visuals[self.picChar].to_striped_block(
+                select & self.dataSelect)
+        else:
+            strips = [[[colours.unknownColour]]]
+
+        if self.stripOrd == 'RL':
+            strips.reverse()
+
+        if len(strips) == 0:
+            strips = [[colours.errorColour]]
+            print 'Problem with the colour of event:', event
+
+        num_strips = len(strips)
+        strip_proportion = 1.0 / num_strips
+        first_strip_offset = (num_strips / 2.0) - 0.5
+
+        # Adjust blocks with 'shorten' attribute to the length of the data
+        size = Point(*self.size.to_pair())
+        if self.shorten != 0 and self.size.x > (num_strips * self.shorten):
+            size.x = num_strips * self.shorten
+
+        box_size = size - view.blobIndentFactor.scale(2)
+
+        # Now do cr sensitive things
+        cr.save()
+        cr.scale(*view.pitch.to_pair())
+        cr.translate(*self.topLeft.to_pair())
+        cr.translate(*(size - Point(1,1)).scale(0.5).to_pair())
+
+        translated_centre = Point(*cr.user_to_device(0.0, 0.0))
+        translated_size = \
+            Point(*cr.user_to_device_distance(*size.to_pair()))
+
+        # The 2D grid is a grid of strips of blocks.  Data [[1,2],[3]]
+        # is 2 strips of 2 and 1 blocks respectively.
+        # if stripDir == 'horiz', strips are stacked vertically
+        #   from top to bottom if stripOrd == 'LR' or bottom to top if
+        #   stripOrd == 'RL'.
+        # if stripDir == 'vert', strips are stacked horizontally
+        #   from left to right if stripOf == 'LR' or right to left if
+        #   stripOrd == 'RL'.
+
+        strip_is_horiz = self.stripDir == 'horiz'
+
+        if strip_is_horiz:
+            strip_step_base = Point(1.0,0.0)
+            block_step_base = Point(0.0,1.0)
+        else:
+            strip_step_base = Point(0.0,1.0)
+            block_step_base = Point(1.0,0.0)
+
+        strip_size = (box_size * (strip_step_base.scale(strip_proportion) +
+            block_step_base))
+        strip_step = strip_size * strip_step_base
+        strip_centre = Point(0,0) - (strip_size *
+            strip_step_base.scale(first_strip_offset))
+
+        cr.set_line_width(view.midLineWidth / view.pitch.x)
+
+        # Draw the strips and their blocks
+        for strip_index in xrange(0, num_strips):
+            num_blocks = len(strips[strip_index])
+            block_proportion = 1.0 / num_blocks
+            firstBlockOffset = (num_blocks / 2.0) - 0.5
+
+            block_size = (strip_size *
+                (block_step_base.scale(block_proportion) +
+                strip_step_base))
+            block_step = block_size * block_step_base
+            block_centre = (strip_centre + strip_step.scale(strip_index) -
+                (block_size * block_step_base.scale(firstBlockOffset)))
+
+            for block_index in xrange(0, num_blocks):
+                striped_box(cr, block_centre +
+                    block_step.scale(block_index), block_size,
+                    strips[strip_index][block_index])
+
+        cr.set_font_size(0.7)
+        if self.border > 0.5:
+            weight = cairo.FONT_WEIGHT_BOLD
+        else:
+            weight = cairo.FONT_WEIGHT_NORMAL
+        cr.select_font_face('Helvetica', cairo.FONT_SLANT_NORMAL,
+            weight)
+
+        xb, yb, width, height, dx, dy = cr.text_extents(self.displayName)
+
+        text_comfort_space = 0.15
+
+        if self.nameLoc == 'left':
+            # Position text vertically along left side, top aligned
+            cr.save()
+            cr.rotate(- (math.pi / 2.0))
+            text_point = Point(size.y, size.x).scale(0.5) * Point(-1, -1)
+            text_point += Point(max(0, size.y - width), 0)
+            text_point += Point(-text_comfort_space, -text_comfort_space)
+        else: # Including top
+            # Position text above the top left hand corner
+            text_point = size.scale(0.5) * Point(-1,-1)
+            text_point += Point(0.00, -text_comfort_space)
+
+        if (self.displayName != '' and
+            not self.displayName.startswith('_')):
+            cr.set_source_color(self.colour)
+            cr.move_to(*text_point.to_pair())
+            cr.show_text(self.displayName)
+
+        if self.nameLoc == 'left':
+            cr.restore()
+
+        # Draw the outline shape
+        cr.save()
+        if strip_is_horiz:
+            cr.rotate(- (math.pi / 2.0))
+            box_size = Point(box_size.y, box_size.x)
+
+        if self.stripOrd == "RL":
+            cr.rotate(math.pi)
+
+        if self.shape == 'box':
+            box(cr, Point(0,0), box_size)
+        elif self.shape == 'openBottom':
+            open_bottom(cr, Point(0,0), box_size)
+        elif self.shape == 'fifo':
+            fifo(cr, Point(0,0), box_size)
+        cr.restore()
+
+        # Restore scale and stroke the outline
+        cr.restore()
+        cr.set_source_color(self.colour)
+        cr.set_line_width(view.thickLineWidth * self.border)
+        cr.stroke()
+
+        # Return blob size/position
+        if self.unit == '_':
+            return None
+        else:
+            return (translated_centre, translated_size)
+
+class Key(Blob):
+    """Draw a key to the special (and numeric colours) with swatches of the
+    colours half as wide as the key"""
+    def __init__(self, picChar, unit, topLeft, colour=colours.black,
+        size=Point(1,1)):
+        super(Key,self).__init__(picChar, unit, topLeft, colour, size = size)
+        self.colours = 'BBBB'
+        self.displayName = unit
+
+    def render(self, cr, view, event, select, time):
+        cr.save()
+        cr.scale(*view.pitch.to_pair())
+        cr.translate(*self.topLeft.to_pair())
+        # cr.translate(*(self.size - Point(1,1)).scale(0.5).to_pair())
+        half_width = self.size.x / 2.0
+        cr.translate(*(self.size - Point(1.0 + half_width,1.0)).scale(0.5).
+            to_pair())
+
+        num_colours = len(self.colours)
+        cr.set_line_width(view.midLineWidth / view.pitch.x)
+
+        blob_size = (Point(half_width,0.0) +
+            (self.size * Point(0.0,1.0 / num_colours)))
+        blob_step = Point(0.0,1.0) * blob_size
+        first_blob_centre = (Point(0.0,0.0) -
+            blob_step.scale((num_colours / 2.0) - 0.5))
+
+        cr.set_source_color(self.colour)
+        cr.set_line_width(view.thinLineWidth / view.pitch.x)
+
+        blob_proportion = 0.8
+
+        real_blob_size = blob_size.scale(blob_proportion)
+
+        cr.set_font_size(0.8 * blob_size.y * blob_proportion)
+        cr.select_font_face('Helvetica', cairo.FONT_SLANT_NORMAL,
+            cairo.FONT_WEIGHT_BOLD)
+
+        for i in xrange(0, num_colours):
+            centre = first_blob_centre + blob_step.scale(i)
+            box(cr, centre, real_blob_size)
+
+            colour_char = self.colours[i]
+            if colour_char.isdigit():
+                cr.set_source_color(colours.number_to_colour(
+                    int(colour_char)))
+                label = '...' + colour_char
+            else:
+                cr.set_source_color(model.special_state_colours[colour_char])
+                label = model.special_state_names[colour_char]
+
+            cr.fill_preserve()
+            cr.set_source_color(self.colour)
+            cr.stroke()
+
+            xb, yb, width, height, dx, dy = cr.text_extents(label)
+
+            text_left = (centre + (Point(0.5,0.0) * blob_size) +
+                Point(0.0, height / 2.0))
+
+            cr.move_to(*text_left.to_pair())
+            cr.show_text(label)
+
+class Arrow(Blob):
+    """Draw a left or right facing arrow"""
+    def __init__(self, unit, topLeft, colour=colours.black,
+        size=Point(1.0,1.0), direc='right'):
+        super(Arrow,self).__init__(unit, unit, topLeft, colour, size = size)
+        self.direc = direc
+
+    def render(self, cr, view, event, select, time):
+        cr.save()
+        cr.scale(*view.pitch.to_pair())
+        cr.translate(*self.topLeft.to_pair())
+        cr.translate(*(self.size - Point(1,1)).scale(0.5).to_pair())
+        cr.scale(*self.size.to_pair())
+        (blob_indent_x, blob_indent_y) = \
+            (view.blobIndentFactor / self.size).to_pair()
+        left = -0.5 - blob_indent_x
+        right = 0.5 + blob_indent_x
+
+        thickness = 0.2
+        flare = 0.2
+
+        if self.direc == 'left':
+            cr.rotate(math.pi)
+
+        cr.move_to(left, -thickness)
+        cr.line_to(0.0, -thickness)
+        cr.line_to(0.0, -(thickness + flare))
+        cr.line_to(right, 0)
+        # Break arrow to prevent the point ruining the appearance of boxes
+        cr.move_to(right, 0)
+        cr.line_to(0.0, (thickness + flare))
+        cr.line_to(0.0, +thickness)
+        cr.line_to(left, +thickness)
+
+        cr.restore()
+
+        # Draw arrow a bit more lightly than the standard line width
+        cr.set_line_width(cr.get_line_width() * 0.75)
+        cr.set_source_color(self.colour)
+        cr.stroke()
+
+        return None
diff --git a/util/minorview/colours.py b/util/minorview/colours.py
new file mode 100644
index 000000000..b8394b019
--- /dev/null
+++ b/util/minorview/colours.py
@@ -0,0 +1,68 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+
+import gtk
+
+# All the miscellaneous colours used in the interface
+unknownColour = gtk.gdk.color_parse('magenta')
+blockedColour = gtk.gdk.color_parse('grey')
+bubbleColour = gtk.gdk.color_parse('bisque')
+emptySlotColour = gtk.gdk.color_parse('grey90')
+reservedSlotColour = gtk.gdk.color_parse('cyan')
+errorColour = gtk.gdk.color_parse('blue')
+backgroundColour = gtk.gdk.color_parse('white')
+faultColour = gtk.gdk.color_parse('dark cyan')
+readColour = gtk.gdk.color_parse('red')
+writeColour = gtk.gdk.color_parse('white')
+
+black = gtk.gdk.color_parse('black')
+
+def name_to_colour(name):
+    """Convert a colour name to a GdkColor"""
+    try:
+        ret = gtk.gdk.color_parse(name)
+    except:
+        ret = unknownColour
+    return ret
+
+number_colour_code = map(name_to_colour, ['black', 'brown', 'red', 'orange',
+    'yellow', 'green', 'blue', 'violet', 'grey', 'white'])
+
+def number_to_colour(num):
+    """Convert the last decimal digit of an integer into a resistor
+    stripe colour"""
+    return number_colour_code[num % 10]
diff --git a/util/minorview/minor.pic b/util/minorview/minor.pic
new file mode 100644
index 000000000..52731d66f
--- /dev/null
+++ b/util/minorview/minor.pic
@@ -0,0 +1,154 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+#
+# minor.pic: Pipeline appearance of the Minor pipeline for minorview
+
+# Markup of the pipeline blocks.
+#   '>' and '<' are connecting arrows.
+#   '/', ':' and '\' mark multi-line arrows.
+#   All other (non-space) character rectangles are the shapes of the
+#       corresponding blocks below the markup.
+
+<<<
+        IPIPIPIPIPIPIPIPIP                          LSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLS  KKKKKKKKKK
+        IP              IP                          LS                                      LS  KK      KK
+        IPiririr-\itititIP                          LSimimim  drdrdr-\dtdtdtdt  sbsbsbsbsbsbLS  KK      KK
+        IPiririr-/itititIP                          LSimimim  drdrdr-/dtdtdtdt  sbsbsbsbsbsbLS  KK      KK
+        IPIPIPIPIPIPIPIPIP                          LSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLSLS  KK      KK
+                                                                                                KK      KK
+                                                                                                KK      KK
+        acacac  sasasasasasasasa                    EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE  KK      KK
+        acacac  sasasasasasasasa                    EE                                      EE  KK      KK
+                                                    EEscscscscscscscscscscscscscscscscscscscEE  KK      KK
+                                                    EEscscscscscscscscscscscscscscscscscscscEE  KK      KK
+                                                    EE                                      EE  KK      KK
+        F1F1F1F1-\1212-\F2F2F2F2-\2D2D-\DDDD-\DEDE-\EEiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqEE  KK      KK
+        F1    F1 :1212 :F2    F2 :2D2D :DDDD :DEDE :EEiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqiqEE  KK      KK
+        F1fefeF1 :1212 :F2fifiF2 :2D2D :DDDD :DEDE :EE                                      EE  KK      KK
+        F1fefeF1 :1212 :F2fifiF2 :2D2D :DDDD :DEDE :EEEiEiEiEi  f0f0f0f0f0f0f0f0f0f0f0  ccccEE  KK      KK
+        F1fefeF1 :1212 :F2fifiF2 :2D2D :DDDD :DEDE :EEEiEiEiEi  f0f0f0f0f0f0f0f0f0f0f0  ccccEE  KK      KK
+        F1fefeF1 :1212 :F2fifiF2-/2D2D-/DDDD-/DEDE-/EEEiEiEiEi  f1f1f1f1f1f1f1f1f1f1f1  ccccEE  KKKKKKKKKK
+        F1fefeF1 :1212 :F2fifiF2        DDDD        EEEiEiEiEi  f1f1f1f1f1f1f1f1f1f1f1  ccccEE
+        F1fefeF1-/1212-/F2fifiF2        DDDD        EEEiEiEiEi  f2f2f2f2f2f2f2f2f2f2f2  ccccEE
+  b2b2-\F1fefeF1      -\F2fifiF2        DDDD        EEEiEiEiEi  f2f2f2f2f2f2f2f2f2f2f2  ccccEE-\b1b1
+  b2b2-/F1fefeF1      -/F2fifiF2        DDDD        EEEiEiEiEi  f3f3f3f3f3f3f3f3f3f3f3  ccccEE-/b1b1
+        F1fefeF1/-2121/-F2fifiF2        DDDD        EEEiEiEiEi  f3f3f3f3f3f3f3f3f3f3f3  ccccEE
+        F1F1F1F1\-2121\-F2F2F2F2        DDDD        EEEiEiEiEi  f4f4f4f4f4f4f4f4f4f4f4  ccccEE
+                                                    EEEiEiEiEi  f4f4f4f4f4f4f4f4f4f4f4  ccccEE
+                      FiFiFiFi    DiDiDiDi          EE          f5f5f5f5f5f5f5f5f5f5f5  ccccEE
+                      Fi    Fi    Di    Di          EE          f5f5f5f5f5f5f5f5f5f5f5  ccccEE
+                      FiFiFiFi    DiDiDiDi          EE          f6f6f6f6f6f6f6f6f6f6f6  ccccEE
+                                                    EE          f6f6f6f6f6f6f6f6f6f6f6  ccccEE
+                                                    EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE
+>>>
+
+# Macros for block type appearance.  Macros are expanded in the 'block'
+# lines below and can include other macros.
+#
+# Attributes are name=value pairs.
+# Available names (and valid values);
+#
+# shape: {fifo, box, openBottom}
+# stripDir: {vert, horiz}
+# stripOrd: {RL, LR}
+# decoder: {insts, lines, branch, dcache, counts}
+# border: {thin, mid, thick}
+# dataElement: <name>
+# hideId: ({T, S, P, L, F, E})*
+# name: <string>
+# colours: ({U, B, -, E, R, F, r, w, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9})*
+# type: {key, block}
+
+# macro fifo: shape=fifo stripDir=vert
+macro fifo: shape=openBottom stripDir=horiz stripOrd=RL border=mid
+macro fu: decoder=insts border=mid name="" nameLoc=left
+# macro back: decoder=back border=mid dataElement=space name=""
+macro prediction: decoder=branch border=mid dataElement=prediction name=""
+macro forward: border=mid name=""
+macro dcache: fifo decoder=dcache dataElement=addr
+macro icache: fifo decoder=lines
+macro cacheFrame: stripDir=vert decoder=frame blankStrips=5 \
+    dataElement=in_tlb_mem
+macro activity: decoder=counts shorten=2 border=mid
+macro inputBuffer: name="inputBuffer" fifo
+macro seqNum: decoder=counts border=mid
+macro streamFrame: decoder=frame stripDir=vert dataElement=streamSeqNum
+macro predictionFrame: decoder=frame stripDir=vert dataElement=predictionSeqNum
+
+# Block descriptions:
+# description ::= <char>: <unit-name-in-trace>
+#   ( {<macro-name>, <name>=<value> )*
+# name ::= ? alphanumeric name with dots ?
+# value ::= "(<char-except-">)*", <char-except-' '>* }
+
+Fi: fetch2.inputBuffer inputBuffer decoder=lines
+Di: decode.inputBuffer inputBuffer decoder=insts hideId=E
+Ei: execute.inputBuffer inputBuffer stripDir=horiz decoder=insts border=mid
+F1: fetch1 streamFrame blankStrips=11 name="Fetch1"
+fe: fetch1 decoder=lines border=thin name="Line"
+F2: fetch2 predictionFrame blankStrips=11 name="Fetch2"
+fi: fetch2 decoder=insts border=thin name="Insts"
+DD: decode decoder=insts name="Decode"
+EE: execute streamFrame blankStrips=21 name="Execute"
+cc: execute decoder=insts name="Commit" border=mid
+12: f1ToF2 forward decoder=lines
+21: f2ToF1 prediction
+2D: f2ToD forward decoder=insts hideId=E
+DE: dToE forward decoder=insts
+b1: eToF1 forward decoder=branch
+b2: eToF1 forward decoder=branch
+IP: fetch1 cacheFrame name="Fetch queues"
+LS: execute.lsq cacheFrame name="LSQ"
+ir: fetch1.requests icache name="Requests"
+it: fetch1.transfers icache name="Transfers"
+dr: execute.lsq.requests dcache name="Requests"
+dt: execute.lsq.transfers dcache name="Transfers"
+sb: execute.lsq.storeBuffer dcache name="Store buffer"
+KK: _ type=key colours="UB-ERFrw0123456789"
+f0: execute.fu.0 fu shorten=2 name=Int
+f1: execute.fu.1 fu shorten=2 name=Int
+f2: execute.fu.2 fu shorten=2 name=Mul
+f3: execute.fu.3 fu shorten=2 name=Div
+f4: execute.fu.4 fu shorten=2 name=Float
+f5: execute.fu.5 fu shorten=2 name=Mem
+f6: execute.fu.6 fu shorten=2 name=Misc
+iq: execute.inFlightInsts fifo decoder=insts name="inFlightInsts"
+im: execute.inFUMemInsts fifo decoder=insts name="inFU..."
+sc: execute.scoreboard name="scoreboard" decoder=indexedCounts \
+    dataElement=busy border=mid name="scoreboard" strips=38 stripelems=3
+sa: activity dataElement=stages activity name="Stage activity"
+ac: activity dataElement=activity decoder=counts border=mid name="Activity"
diff --git a/util/minorview/model.py b/util/minorview/model.py
new file mode 100644
index 000000000..a120f1f7c
--- /dev/null
+++ b/util/minorview/model.py
@@ -0,0 +1,1109 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+
+import parse
+import colours
+from colours import unknownColour
+from point import Point
+import re
+import blobs
+from time import time as wall_time
+import os
+
+id_parts = "TSPLFE"
+
+all_ids = set(id_parts)
+no_ids = set([])
+
+class BlobDataSelect(object):
+    """Represents which data is displayed for Ided object"""
+    def __init__(self):
+        # Copy all_ids
+        self.ids = set(all_ids)
+
+    def __and__(self, rhs):
+        """And for filtering"""
+        ret = BlobDataSelect()
+        ret.ids = self.ids.intersection(rhs.ids)
+        return ret
+
+class BlobVisualData(object):
+    """Super class for block data colouring"""
+    def to_striped_block(self, select):
+        """Return an array of colours to use for a striped block"""
+        return unknownColour
+
+    def get_inst(self):
+        """Get an instruction Id (if any) from this data"""
+        return None
+
+    def get_line(self):
+        """Get a line Id (if any) from this data"""
+        return None
+
+    def __repr__(self):
+        return self.__class__.__name__ + '().from_string(' + \
+            self.__str__() + ')'
+
+    def __str__(self):
+        return ''
+
+class Id(BlobVisualData):
+    """A line or instruction id"""
+    def __init__(self):
+        self.isFault = False
+        self.threadId = 0
+        self.streamSeqNum = 0
+        self.predictionSeqNum = 0
+        self.lineSeqNum = 0
+        self.fetchSeqNum = 0
+        self.execSeqNum = 0
+
+    def as_list(self):
+        return [self.threadId, self.streamSeqNum, self.predictionSeqNum,
+            self.lineSeqNum, self.fetchSeqNum, self.execSeqNum]
+
+    def __cmp__(self, right):
+        return cmp(self.as_list(), right.as_list())
+
+    def from_string(self, string):
+        m = re.match('^(F;)?(\d+)/(\d+)\.(\d+)/(\d+)(/(\d+)(\.(\d+))?)?',
+            string)
+
+        def seqnum_from_string(string):
+            if string is None:
+                return 0
+            else:
+                return int(string)
+
+        if m is None:
+            print 'Invalid Id string', string
+        else:
+            elems = m.groups()
+
+            if elems[0] is not None:
+                self.isFault = True
+            else:
+                self.isFault = False
+
+            self.threadId = seqnum_from_string(elems[1])
+            self.streamSeqNum = seqnum_from_string(elems[2])
+            self.predictionSeqNum = seqnum_from_string(elems[3])
+            self.lineSeqNum = seqnum_from_string(elems[4])
+            self.fetchSeqNum = seqnum_from_string(elems[6])
+            self.execSeqNum = seqnum_from_string(elems[8])
+        return self
+
+    def get_inst(self):
+        if self.fetchSeqNum != 0:
+            return self
+        else:
+            return None
+
+    def get_line(self):
+        return self
+
+    def __str__(self):
+        """Returns the usual id T/S.P/L/F.E string"""
+        return (
+            str(self.threadId) + '/' +
+            str(self.streamSeqNum) + '.' +
+            str(self.predictionSeqNum) + '/' +
+            str(self.lineSeqNum) + '/' +
+            str(self.fetchSeqNum) + '.' +
+            str(self.execSeqNum))
+
+    def to_striped_block(self, select):
+        ret = []
+
+        if self.isFault:
+            ret.append(colours.faultColour)
+
+        if 'T' in select.ids:
+            ret.append(colours.number_to_colour(self.threadId))
+        if 'S' in select.ids:
+            ret.append(colours.number_to_colour(self.streamSeqNum))
+        if 'P' in select.ids:
+            ret.append(colours.number_to_colour(self.predictionSeqNum))
+        if 'L' in select.ids:
+            ret.append(colours.number_to_colour(self.lineSeqNum))
+        if self.fetchSeqNum != 0 and 'F' in select.ids:
+            ret.append(colours.number_to_colour(self.fetchSeqNum))
+        if self.execSeqNum != 0 and 'E' in select.ids:
+            ret.append(colours.number_to_colour(self.execSeqNum))
+
+        if len(ret) == 0:
+            ret = [colours.unknownColour]
+
+        if self.isFault:
+            ret.append(colours.faultColour)
+
+        return ret
+
+class Branch(BlobVisualData):
+    """Branch data new stream and prediction sequence numbers, a branch
+    reason and a new PC"""
+    def __init__(self):
+        self.newStreamSeqNum = 0
+        self.newPredictionSeqNum = 0
+        self.newPC = 0
+        self.reason = "NoBranch"
+        self.id = Id()
+
+    def from_string(self, string):
+        m = re.match('^(\w+);(\d+)\.(\d+);([0-9a-fA-Fx]+);(.*)$', string)
+
+        if m is not None:
+            self.reason, newStreamSeqNum, newPredictionSeqNum, \
+                newPC, id = m.groups()
+
+            self.newStreamSeqNum = int(newStreamSeqNum)
+            self.newPredictionSeqNum = int(newPredictionSeqNum)
+            self.newPC = int(newPC, 0)
+            self.id = special_view_decoder(Id)(id)
+            # self.branch = special_view_decoder(Branch)(branch)
+        else:
+            print "Bad Branch data:", string
+        return self
+
+    def to_striped_block(self, select):
+        return [colours.number_to_colour(self.newStreamSeqNum),
+            colours.number_to_colour(self.newPredictionSeqNum),
+            colours.number_to_colour(self.newPC)]
+
+class Counts(BlobVisualData):
+    """Treat the input data as just a /-separated list of count values (or
+    just a single value)"""
+    def __init__(self):
+        self.counts = []
+
+    def from_string(self, string):
+        self.counts = map(int, re.split('/', string))
+        return self
+
+    def to_striped_block(self, select):
+        return map(colours.number_to_colour, self.counts)
+
+class Colour(BlobVisualData):
+    """A fixed colour block, used for special colour decoding"""
+    def __init__(self, colour):
+        self.colour = colour
+
+    def to_striped_block(self, select):
+        return [self.colour]
+
+class DcacheAccess(BlobVisualData):
+    """Data cache accesses [RW];id"""
+    def __init__(self):
+        self.direc = 'R'
+        self.id = Id()
+
+    def from_string(self, string):
+        self.direc, id = re.match('^([RW]);([^;]*);.*$', string).groups()
+        self.id.from_string(id)
+        return self
+
+    def get_inst(self):
+        return self.id
+
+    def to_striped_block(self, select):
+        if self.direc == 'R':
+            direc_colour = colours.readColour
+        elif self.direc == 'R':
+            direc_colour = colours.writeColour
+        else:
+            direc_colour = colours.errorColour
+        return [direc_colour] + self.id.to_striped_block(select)
+
+class ColourPattern(object):
+    """Super class for decoders that make 2D grids rather than just single
+    striped blocks"""
+    def elems(self):
+        return []
+
+    def to_striped_block(self, select):
+        return [[[colours.errorColour]]]
+
+def special_view_decoder(class_):
+    """Generate a decode function that checks for special character
+    arguments first (and generates a fixed colour) before building a
+    BlobVisualData of the given class"""
+    def decode(symbol):
+        if symbol in special_state_colours:
+            return Colour(special_state_colours[symbol])
+        else:
+            return class_().from_string(symbol)
+    return decode
+
+class TwoDColours(ColourPattern):
+    """A 2D grid pattern decoder"""
+    def __init__(self, blockss):
+        self.blockss = blockss
+
+    @classmethod
+    def decoder(class_, elemClass, dataName):
+        """Factory for making decoders for particular block types"""
+        def decode(pairs):
+            if dataName not in pairs:
+                print 'TwoDColours: no event data called:', \
+                    dataName, 'in:', pairs
+                return class_([[Colour(colours.errorColour)]])
+            else:
+                parsed = parse.list_parser(pairs[dataName])
+                return class_(parse.map2(special_view_decoder(elemClass), \
+                    parsed))
+        return decode
+
+    @classmethod
+    def indexed_decoder(class_, elemClass, dataName, picPairs):
+        """Factory for making decoders for particular block types but
+        where the list elements are pairs of (index, data) and
+        strip and stripelems counts are picked up from the pair
+        data on the decoder's picture file.  This gives a 2D layout
+        of the values with index 0 at strip=0, elem=0 and index 1
+        at strip=0, elem=1"""
+        def decode(pairs):
+            if dataName not in pairs:
+                print 'TwoDColours: no event data called:', \
+                    dataName, 'in:', pairs
+                return class_([[Colour(colours.errorColour)]])
+            else:
+                strips = int(picPairs['strips'])
+                strip_elems = int(picPairs['stripelems'])
+
+                raw_iv_pairs = pairs[dataName]
+
+                parsed = parse.parse_indexed_list(raw_iv_pairs)
+
+                array = [[Colour(colours.emptySlotColour)
+                    for i in xrange(0, strip_elems)]
+                    for j in xrange(0, strips)]
+
+                for index, value in parsed:
+                    try:
+                        array[index % strips][index / strips] = \
+                            special_view_decoder(elemClass)(value)
+                    except:
+                        print "Element out of range strips: %d," \
+                            " stripelems %d, index: %d" % (strips,
+                            strip_elems, index)
+
+                # return class_(array)
+                return class_(array)
+        return decode
+
+    def elems(self):
+        """Get a flat list of all elements"""
+        ret = []
+        for blocks in self.blockss:
+            ret += blocks
+        return ret
+
+    def to_striped_block(self, select):
+        return parse.map2(lambda d: d.to_striped_block(select), self.blockss)
+
+class FrameColours(ColourPattern):
+    """Decode to a 2D grid which has a single occupied row from the event
+    data and some blank rows forming a frame with the occupied row as a
+    'title' coloured stripe"""
+    def __init__(self, block, numBlankSlots):
+        self.numBlankSlots = numBlankSlots
+        self.block = block
+
+    @classmethod
+    def decoder(class_, elemClass, numBlankSlots, dataName):
+        """Factory for element type"""
+        def decode(pairs):
+            if dataName not in pairs:
+                print 'FrameColours: no event data called:', dataName, \
+                    'in:', pairs
+                return class_([Colour(colours.errorColour)])
+            else:
+                parsed = parse.list_parser(pairs[dataName])
+                return class_(special_view_decoder(elemClass)
+                    (parsed[0][0]), numBlankSlots)
+        return decode
+
+    def elems(self):
+        return [self.block]
+
+    def to_striped_block(self, select):
+        return ([[self.block.to_striped_block(select)]] +
+            (self.numBlankSlots * [[[colours.backgroundColour]]]))
+
+special_state_colours = {
+    'U': colours.unknownColour,
+    'B': colours.blockedColour,
+    '-': colours.bubbleColour,
+    '': colours.emptySlotColour,
+    'E': colours.emptySlotColour,
+    'R': colours.reservedSlotColour,
+    'X': colours.errorColour,
+    'F': colours.faultColour,
+    'r': colours.readColour,
+    'w': colours.writeColour
+    }
+
+special_state_names = {
+    'U': '(U)nknown',
+    'B': '(B)locked',
+    '-': '(-)Bubble',
+    '': '()Empty',
+    'E': '(E)mpty',
+    'R': '(R)eserved',
+    'X': '(X)Error',
+    'F': '(F)ault',
+    'r': '(r)ead',
+    'w': '(w)rite'
+    }
+
+special_state_chars = special_state_colours.keys()
+
+# The complete set of available block data types
+decoder_element_classes = {
+    'insts': Id,
+    'lines': Id,
+    'branch': Branch,
+    'dcache': DcacheAccess,
+    'counts': Counts
+    }
+
+indexed_decoder_element_classes = {
+    'indexedCounts' : Counts
+    }
+
+def find_colour_decoder(stripSpace, decoderName, dataName, picPairs):
+    """Make a colour decoder from some picture file blob attributes"""
+    if decoderName == 'frame':
+        return FrameColours.decoder(Counts, stripSpace, dataName)
+    elif decoderName in decoder_element_classes:
+        return TwoDColours.decoder(decoder_element_classes[decoderName],
+            dataName)
+    elif decoderName in indexed_decoder_element_classes:
+        return TwoDColours.indexed_decoder(
+            indexed_decoder_element_classes[decoderName], dataName, picPairs)
+    else:
+        return None
+
+class IdedObj(object):
+    """An object identified by an Id carrying paired data.
+    The super class for Inst and Line"""
+
+    def __init__(self, id, pairs={}):
+        self.id = id
+        self.pairs = pairs
+
+    def __cmp__(self, right):
+        return cmp(self.id, right.id)
+
+    def table_line(self):
+        """Represent the object as a list of table row data"""
+        return []
+
+    # FIXME, add a table column titles?
+
+    def __repr__(self):
+        return ' '.join(self.table_line())
+
+class Inst(IdedObj):
+    """A non-fault instruction"""
+    def __init__(self, id, disassembly, addr, pairs={}):
+        super(Inst,self).__init__(id, pairs)
+        if 'nextAddr' in pairs:
+            self.nextAddr = int(pairs['nextAddr'], 0)
+            del pairs['nextAddr']
+        else:
+            self.nextAddr = None
+        self.disassembly = disassembly
+        self.addr = addr
+
+    def table_line(self):
+        if self.nextAddr is not None:
+            addrStr = '0x%x->0x%x' % (self.addr, self.nextAddr)
+        else:
+            addrStr = '0x%x' % self.addr
+        ret = [addrStr, self.disassembly]
+        for name, value in self.pairs.iteritems():
+            ret.append("%s=%s" % (name, str(value)))
+        return ret
+
+class InstFault(IdedObj):
+    """A fault instruction"""
+    def __init__(self, id, fault, addr, pairs={}):
+        super(InstFault,self).__init__(id, pairs)
+        self.fault = fault
+        self.addr = addr
+
+    def table_line(self):
+        ret = ["0x%x" % self.addr, self.fault]
+        for name, value in self.pairs:
+            ret.append("%s=%s", name, str(value))
+        return ret
+
+class Line(IdedObj):
+    """A fetched line"""
+    def __init__(self, id, vaddr, paddr, size, pairs={}):
+        super(Line,self).__init__(id, pairs)
+        self.vaddr = vaddr
+        self.paddr = paddr
+        self.size = size
+
+    def table_line(self):
+        ret = ["0x%x/0x%x" % (self.vaddr, self.paddr), "%d" % self.size]
+        for name, value in self.pairs:
+            ret.append("%s=%s", name, str(value))
+        return ret
+
+class LineFault(IdedObj):
+    """A faulting line"""
+    def __init__(self, id, fault, vaddr, pairs={}):
+        super(LineFault,self).__init__(id, pairs)
+        self.vaddr = vaddr
+        self.fault = fault
+
+    def table_line(self):
+        ret = ["0x%x" % self.vaddr, self.fault]
+        for name, value in self.pairs:
+            ret.append("%s=%s", name, str(value))
+        return ret
+
+class BlobEvent(object):
+    """Time event for a single blob"""
+    def __init__(self, unit, time, pairs = {}):
+        # blob's unit name
+        self.unit = unit
+        self.time = time
+        # dict of picChar (blob name) to visual data
+        self.visuals = {}
+        # Miscellaneous unparsed MinorTrace line data
+        self.pairs = pairs
+        # Non-MinorTrace debug printout for this unit at this time
+        self.comments = []
+
+    def find_ided_objects(self, model, picChar, includeInstLines):
+        """Find instructions/lines mentioned in the blob's event
+        data"""
+        ret = []
+        if picChar in self.visuals:
+            blocks = self.visuals[picChar].elems()
+            def find_inst(data):
+                instId = data.get_inst()
+                lineId = data.get_line()
+                if instId is not None:
+                    inst = model.find_inst(instId)
+                    line = model.find_line(instId)
+                    if inst is not None:
+                        ret.append(inst)
+                    if includeInstLines and line is not None:
+                        ret.append(line)
+                elif lineId is not None:
+                    line = model.find_line(lineId)
+                    if line is not None:
+                        ret.append(line)
+            map(find_inst, blocks)
+        return sorted(ret)
+
+class BlobModel(object):
+    """Model bringing together blob definitions and parsed events"""
+    def __init__(self, unitNamePrefix=''):
+        self.blobs = []
+        self.unitNameToBlobs = {}
+        self.unitEvents = {}
+        self.clear_events()
+        self.picSize = Point(20,10)
+        self.lastTime = 0
+        self.unitNamePrefix = unitNamePrefix
+
+    def clear_events(self):
+        """Drop all events and times"""
+        self.lastTime = 0
+        self.times = []
+        self.insts = {}
+        self.lines = {}
+        self.numEvents = 0
+
+        for unit, events in self.unitEvents.iteritems():
+            self.unitEvents[unit] = []
+
+    def add_blob(self, blob):
+        """Add a parsed blob to the model"""
+        self.blobs.append(blob)
+        if blob.unit not in self.unitNameToBlobs:
+            self.unitNameToBlobs[blob.unit] = []
+
+        self.unitNameToBlobs[blob.unit].append(blob)
+
+    def add_inst(self, inst):
+        """Add a MinorInst instruction definition to the model"""
+        # Is this a non micro-op instruction.  Microops (usually) get their
+        #   fetchSeqNum == 0 varient stored first
+        macroop_key = (inst.id.fetchSeqNum, 0)
+        full_key = (inst.id.fetchSeqNum, inst.id.execSeqNum)
+
+        if inst.id.execSeqNum != 0 and macroop_key not in self.insts:
+            self.insts[macroop_key] = inst
+
+        self.insts[full_key] = inst
+
+    def find_inst(self, id):
+        """Find an instruction either as a microop or macroop"""
+        macroop_key = (id.fetchSeqNum, 0)
+        full_key = (id.fetchSeqNum, id.execSeqNum)
+
+        if full_key in self.insts:
+            return self.insts[full_key]
+        elif macroop_key in self.insts:
+            return self.insts[macroop_key]
+        else:
+            return None
+
+    def add_line(self, line):
+        """Add a MinorLine line to the model"""
+        self.lines[line.id.lineSeqNum] = line
+
+    def add_unit_event(self, event):
+        """Add a single event to the model.  This must be an event at a
+        time >= the current maximum time"""
+        if event.unit in self.unitEvents:
+            events = self.unitEvents[event.unit]
+            if len(events) > 0 and events[len(events)-1].time > event.time:
+                print "Bad event ordering"
+            events.append(event)
+        self.numEvents += 1
+        self.lastTime = max(self.lastTime, event.time)
+
+    def extract_times(self):
+        """Extract a list of all the times from the seen events.  Call after
+        reading events to give a safe index list to use for time indices"""
+        times = {}
+        for unitEvents in self.unitEvents.itervalues():
+            for event in unitEvents:
+                times[event.time] = 1
+        self.times = times.keys()
+        self.times.sort()
+
+    def find_line(self, id):
+        """Find a line by id"""
+        key = id.lineSeqNum
+        return self.lines.get(key, None)
+
+    def find_event_bisection(self, unit, time, events,
+        lower_index, upper_index):
+        """Find an event by binary search on time indices"""
+        while lower_index <= upper_index:
+            pivot = (upper_index + lower_index) / 2
+            pivotEvent = events[pivot]
+            event_equal = (pivotEvent.time == time or
+                (pivotEvent.time < time and
+                    (pivot == len(events) - 1 or
+                        events[pivot + 1].time > time)))
+
+            if event_equal:
+                return pivotEvent
+            elif time > pivotEvent.time:
+                if pivot == upper_index:
+                    return None
+                else:
+                    lower_index = pivot + 1
+            elif time < pivotEvent.time:
+                if pivot == lower_index:
+                    return None
+                else:
+                    upper_index = pivot - 1
+            else:
+                return None
+        return None
+
+    def find_unit_event_by_time(self, unit, time):
+        """Find the last event for the given unit at time <= time"""
+        if unit in self.unitEvents:
+            events = self.unitEvents[unit]
+            ret = self.find_event_bisection(unit, time, events,
+                0, len(events)-1)
+
+            return ret
+        else:
+            return None
+
+    def find_time_index(self, time):
+        """Find a time index close to the given time (where
+        times[return] <= time and times[return+1] > time"""
+        ret = 0
+        lastIndex = len(self.times) - 1
+        while ret < lastIndex and self.times[ret + 1] <= time:
+            ret += 1
+        return ret
+
+    def add_minor_inst(self, rest):
+        """Parse and add a MinorInst line to the model"""
+        pairs = parse.parse_pairs(rest)
+        other_pairs = dict(pairs)
+
+        id = Id().from_string(pairs['id'])
+        del other_pairs['id']
+
+        addr = int(pairs['addr'], 0)
+        del other_pairs['addr']
+
+        if 'inst' in other_pairs:
+            del other_pairs['inst']
+
+            # Collapse unnecessary spaces in disassembly
+            disassembly = re.sub('  *', ' ',
+                re.sub('^ *', '', pairs['inst']))
+
+            inst = Inst(id, disassembly, addr, other_pairs)
+            self.add_inst(inst)
+        elif 'fault' in other_pairs:
+            del other_pairs['fault']
+
+            inst = InstFault(id, pairs['fault'], addr, other_pairs)
+
+            self.add_inst(inst)
+
+    def add_minor_line(self, rest):
+        """Parse and add a MinorLine line to the model"""
+        pairs = parse.parse_pairs(rest)
+        other_pairs = dict(pairs)
+
+        id = Id().from_string(pairs['id'])
+        del other_pairs['id']
+
+        vaddr = int(pairs['vaddr'], 0)
+        del other_pairs['vaddr']
+
+        if 'paddr' in other_pairs:
+            del other_pairs['paddr']
+            del other_pairs['size']
+            paddr = int(pairs['paddr'], 0)
+            size = int(pairs['size'], 0)
+
+            self.add_line(Line(id,
+                vaddr, paddr, size, other_pairs))
+        elif 'fault' in other_pairs:
+            del other_pairs['fault']
+
+            self.add_line(LineFault(id, pairs['fault'], vaddr, other_pairs))
+
+    def load_events(self, file, startTime=0, endTime=None):
+        """Load an event file and add everything to this model"""
+        def update_comments(comments, time):
+            # Add a list of comments to an existing event, if there is one at
+            #   the given time, or create a new, correctly-timed, event from
+            #   the last event and attach the comments to that
+            for commentUnit, commentRest in comments:
+                event = self.find_unit_event_by_time(commentUnit, time)
+                # Find an event to which this comment can be attached
+                if event is None:
+                    # No older event, make a new empty one
+                    event = BlobEvent(commentUnit, time, {})
+                    self.add_unit_event(event)
+                elif event.time != time:
+                    # Copy the old event and make a new one with the right
+                    #   time and comment
+                    newEvent = BlobEvent(commentUnit, time, event.pairs)
+                    newEvent.visuals = dict(event.visuals)
+                    event = newEvent
+                    self.add_unit_event(event)
+                event.comments.append(commentRest)
+
+        self.clear_events()
+
+        # A negative time will *always* be different from an event time
+        time = -1
+        time_events = {}
+        last_time_lines = {}
+        minor_trace_line_count = 0
+        comments = []
+
+        default_colour = [[colours.unknownColour]]
+        next_progress_print_event_count = 1000
+
+        if not os.access(file, os.R_OK):
+            print 'Can\'t open file', file
+            exit(1)
+        else:
+            print 'Opening file', file
+
+        f = open(file)
+
+        start_wall_time = wall_time()
+
+        # Skip leading events
+        still_skipping = True
+        l = f.readline()
+        while l and still_skipping:
+            match = re.match('^\s*(\d+):', l)
+            if match is not None:
+                event_time = match.groups()
+                if int(event_time[0]) >= startTime:
+                    still_skipping = False
+                else:
+                    l = f.readline()
+            else:
+                l = f.readline()
+
+        match_line_re = re.compile(
+            '^\s*(\d+):\s*([\w\.]+):\s*(Minor\w+:)?\s*(.*)$')
+
+        # Parse each line of the events file, accumulating comments to be
+        #   attached to MinorTrace events when the time changes
+        reached_end_time = False
+        while not reached_end_time and l:
+            match = match_line_re.match(l)
+            if match is not None:
+                event_time, unit, line_type, rest = match.groups()
+                event_time = int(event_time)
+
+                unit = re.sub('^' + self.unitNamePrefix + '\.?(.*)$',
+                    '\\1', unit)
+
+                # When the time changes, resolve comments
+                if event_time != time:
+                    if self.numEvents > next_progress_print_event_count:
+                        print ('Parsed to time: %d' % event_time)
+                        next_progress_print_event_count = (
+                            self.numEvents + 1000)
+                    update_comments(comments, time)
+                    comments = []
+                    time = event_time
+
+                if line_type is None:
+                    # Treat this line as just a 'comment'
+                    comments.append((unit, rest))
+                elif line_type == 'MinorTrace:':
+                    minor_trace_line_count += 1
+
+                    # Only insert this event if it's not the same as
+                    #   the last event we saw for this unit
+                    if last_time_lines.get(unit, None) != rest:
+                        event = BlobEvent(unit, event_time, {})
+                        pairs = parse.parse_pairs(rest)
+                        event.pairs = pairs
+
+                        # Try to decode the colour data for this event
+                        blobs = self.unitNameToBlobs.get(unit, [])
+                        for blob in blobs:
+                            if blob.visualDecoder is not None:
+                                event.visuals[blob.picChar] = (
+                                    blob.visualDecoder(pairs))
+
+                        self.add_unit_event(event)
+                        last_time_lines[unit] = rest
+                elif line_type == 'MinorInst:':
+                    self.add_minor_inst(rest)
+                elif line_type == 'MinorLine:':
+                    self.add_minor_line(rest)
+
+            if endTime is not None and time > endTime:
+                reached_end_time = True
+
+            l = f.readline()
+
+        update_comments(comments, time)
+        self.extract_times()
+        f.close()
+
+        end_wall_time = wall_time()
+
+        print 'Total events:', minor_trace_line_count, 'unique events:', \
+            self.numEvents
+        print 'Time to parse:', end_wall_time - start_wall_time
+
+    def add_blob_picture(self, offset, pic, nameDict):
+        """Add a parsed ASCII-art pipeline markup to the model"""
+        pic_width = 0
+        for line in pic:
+            pic_width = max(pic_width, len(line))
+        pic_height = len(pic)
+
+        # Number of horizontal characters per 'pixel'.  Should be 2
+        charsPerPixel = 2
+
+        # Clean up pic_width to a multiple of charsPerPixel
+        pic_width = (pic_width + charsPerPixel - 1) // 2
+
+        self.picSize = Point(pic_width, pic_height)
+
+        def pic_at(point):
+            """Return the char pair at the given point.
+            Returns None for characters off the picture"""
+            x, y = point.to_pair()
+            x *= 2
+            if y >= len(pic) or x >= len(pic[y]):
+                return None
+            else:
+                return pic[y][x:x + charsPerPixel]
+
+        def clear_pic_at(point):
+            """Clear the chars at point so we don't trip over them again"""
+            line = pic[point.y]
+            x = point.x * charsPerPixel
+            pic[point.y] = line[0:x] + (' ' * charsPerPixel) + \
+                line[x + charsPerPixel:]
+
+        def skip_same_char(start, increment):
+            """Skip characters which match pic_at(start)"""
+            char = pic_at(start)
+            hunt = start
+            while pic_at(hunt) == char:
+                hunt += increment
+            return hunt
+
+        def find_size(start):
+            """Find the size of a rectangle with top left hand corner at
+            start consisting of (at least) a -. shaped corner describing
+            the top right corner of a rectangle of the same char"""
+            char = pic_at(start)
+            hunt_x = skip_same_char(start, Point(1,0))
+            hunt_y = skip_same_char(start, Point(0,1))
+            off_bottom_right = (hunt_x * Point(1,0)) + (hunt_y * Point(0,1))
+            return off_bottom_right - start
+
+        def point_return(point):
+            """Carriage return, line feed"""
+            return Point(0, point.y + 1)
+
+        def find_arrow(start):
+            """Find a simple 1-char wide arrow"""
+
+            def body(endChar, contChar, direc):
+                arrow_point = start
+                arrow_point += Point(0, 1)
+                clear_pic_at(start)
+                while pic_at(arrow_point) == contChar:
+                    clear_pic_at(arrow_point)
+                    arrow_point += Point(0, 1)
+
+                if pic_at(arrow_point) == endChar:
+                    clear_pic_at(arrow_point)
+                    self.add_blob(blobs.Arrow('_', start + offset,
+                        direc = direc,
+                        size = (Point(1, 1) + arrow_point - start)))
+                else:
+                    print 'Bad arrow', start
+
+            char = pic_at(start)
+            if char == '-\\':
+                body('-/', ' :', 'right')
+            elif char == '/-':
+                body('\\-', ': ', 'left')
+
+        blank_chars = ['  ', ' :', ': ']
+
+        # Traverse the picture left to right, top to bottom to find blobs
+        seen_dict = {}
+        point = Point(0,0)
+        while pic_at(point) is not None:
+            while pic_at(point) is not None:
+                char = pic_at(point)
+                if char == '->':
+                    self.add_blob(blobs.Arrow('_', point + offset,
+                        direc = 'right'))
+                elif char == '<-':
+                    self.add_blob(blobs.Arrow('_', point + offset,
+                        direc = 'left'))
+                elif char == '-\\' or char == '/-':
+                    find_arrow(point)
+                elif char in blank_chars:
+                    pass
+                else:
+                    if char not in seen_dict:
+                        size = find_size(point)
+                        topLeft = point + offset
+                        if char not in nameDict:
+                            # Unnamed blobs
+                            self.add_blob(blobs.Block(char,
+                                nameDict.get(char, '_'),
+                                topLeft, size = size))
+                        else:
+                            # Named blobs, set visual info.
+                            blob = nameDict[char]
+                            blob.size = size
+                            blob.topLeft = topLeft
+                            self.add_blob(blob)
+                    seen_dict[char] = True
+                point = skip_same_char(point, Point(1,0))
+            point = point_return(point)
+
+    def load_picture(self, filename):
+        """Load a picture file into the model"""
+        def parse_blob_description(char, unit, macros, pairsList):
+            # Parse the name value pairs in a blob-describing line
+            def expand_macros(pairs, newPairs):
+                # Recursively expand macros
+                for name, value in newPairs:
+                    if name in macros:
+                        expand_macros(pairs, macros[name])
+                    else:
+                        pairs[name] = value
+                return pairs
+
+            pairs = expand_macros({}, pairsList)
+
+            ret = None
+
+            typ = pairs.get('type', 'block')
+            colour = colours.name_to_colour(pairs.get('colour', 'black'))
+
+            if typ == 'key':
+                ret = blobs.Key(char, unit, Point(0,0), colour)
+            elif typ == 'block':
+                ret = blobs.Block(char, unit, Point(0,0), colour)
+            else:
+                print "Bad picture blog type:", typ
+
+            if 'hideId' in pairs:
+                hide = pairs['hideId']
+                ret.dataSelect.ids -= set(hide)
+
+            if typ == 'block':
+                ret.displayName = pairs.get('name', unit)
+                ret.nameLoc = pairs.get('nameLoc', 'top')
+                ret.shape = pairs.get('shape', 'box')
+                ret.stripDir = pairs.get('stripDir', 'horiz')
+                ret.stripOrd = pairs.get('stripOrd', 'LR')
+                ret.blankStrips = int(pairs.get('blankStrips', '0'))
+                ret.shorten = int(pairs.get('shorten', '0'))
+
+                if 'decoder' in pairs:
+                    decoderName = pairs['decoder']
+                    dataElement = pairs.get('dataElement', decoderName)
+
+                    decoder = find_colour_decoder(ret.blankStrips,
+                        decoderName, dataElement, pairs)
+                    if decoder is not None:
+                        ret.visualDecoder = decoder
+                    else:
+                        print 'Bad visualDecoder requested:', decoderName
+
+                if 'border' in pairs:
+                    border = pairs['border']
+                    if border == 'thin':
+                        ret.border = 0.2
+                    elif border == 'mid':
+                        ret.border = 0.5
+                    else:
+                        ret.border = 1.0
+            elif typ == 'key':
+                ret.colours = pairs.get('colours', ret.colours)
+
+            return ret
+
+        def line_is_comment(line):
+            """Returns true if a line starts with #, returns False
+            for lines which are None"""
+            return line is not None \
+                and re.match('^\s*#', line) is not None
+
+        def get_line(f):
+            """Get a line from file f extending that line if it ends in
+            '\' and dropping lines that start with '#'s"""
+            ret = f.readline()
+
+            # Discard comment lines
+            while line_is_comment(ret):
+                ret = f.readline()
+
+            if ret is not None:
+                extend_match = re.match('^(.*)\\\\$', ret)
+
+                while extend_match is not None:
+                    new_line = f.readline()
+
+                    if new_line is not None and not line_is_comment(new_line):
+                        line_wo_backslash, = extend_match.groups()
+                        ret = line_wo_backslash + new_line
+                        extend_match = re.match('^(.*)\\\\$', ret)
+                    else:
+                        extend_match = None
+
+            return ret
+
+        # Macros are recursively expanded into name=value pairs
+        macros = {}
+
+        if not os.access(filename, os.R_OK):
+            print 'Can\'t open file', filename
+            exit(1)
+        else:
+            print 'Opening file', filename
+
+        f = open(filename)
+        l = get_line(f)
+        picture = []
+        blob_char_dict = {}
+
+        self.unitEvents = {}
+        self.clear_events()
+
+        # Actually parse the file
+        in_picture = False
+        while l:
+            l = parse.remove_trailing_ws(l)
+            l = re.sub('#.*', '', l)
+
+            if re.match("^\s*$", l) is not None:
+                pass
+            elif l == '<<<':
+                in_picture = True
+            elif l == '>>>':
+                in_picture = False
+            elif in_picture:
+                picture.append(re.sub('\s*$', '', l))
+            else:
+                line_match = re.match(
+                    '^([a-zA-Z0-9][a-zA-Z0-9]):\s+([\w.]+)\s*(.*)', l)
+                macro_match = re.match('macro\s+(\w+):(.*)', l)
+
+                if macro_match is not None:
+                    name, defn = macro_match.groups()
+                    macros[name] = parse.parse_pairs_list(defn)
+                elif line_match is not None:
+                    char, unit, pairs = line_match.groups()
+                    blob = parse_blob_description(char, unit, macros,
+                        parse.parse_pairs_list(pairs))
+                    blob_char_dict[char] = blob
+                    # Setup the events structure
+                    self.unitEvents[unit] = []
+                else:
+                    print 'Problem with Blob line:', l
+
+            l = get_line(f)
+
+        self.blobs = []
+        self.add_blob_picture(Point(0,1), picture, blob_char_dict)
diff --git a/util/minorview/parse.py b/util/minorview/parse.py
new file mode 100644
index 000000000..352371428
--- /dev/null
+++ b/util/minorview/parse.py
@@ -0,0 +1,109 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+
+import re
+
+def list_parser(names):
+    """Parse a list of elements, some of which might be one-level sublists
+    within parentheses, into a a list of lists of those elements.  For
+    example: list_parser('(a,b),c') -> [['a', 'b'], 'c']"""
+    elems = re.split(',', names)
+    ret = []
+    accum = []
+    for elem in elems:
+        if re.search('^\((.*)\)$', elem):
+            accum.append(re.sub('^\((.*)\)', '\\1', elem))
+            ret.append(accum)
+            accum = []
+        elif re.search('^\(', elem):
+            accum.append(re.sub('^\(', '', elem))
+        elif re.search('\)$', elem):
+            accum.append(re.sub('\)$', '', elem))
+            ret.append(accum)
+            accum = []
+        elif len(accum) != 0:
+            accum.append(elem)
+        else:
+            ret.append([elem])
+
+    if len(accum) > 0:
+        print 'Non matching brackets in', names
+
+    return ret
+
+def map2(f, ls):
+    """map to a depth of 2.  That is, given a list of lists, apply
+    f to those innermost elements """
+    return map(lambda l: map(f, l), ls)
+
+def remove_trailing_ws(line):
+    return re.sub('\s*$', '', line)
+
+def remove_leading_and_trailing_ws(line):
+    return re.sub('\s*$', '', re.sub('^\s*', '', line))
+
+def parse_pairs_list(pairString):
+    """parse a string like 'name=value name2=value2' into a
+    list of pairs of ('name', 'value') ..."""
+    ret = []
+    pairs = re.finditer('(\w+)(=("[^"]*"|[^\s]*))?', pairString)
+    for pair in pairs:
+        name, rest, value = pair.groups()
+        if value is not None:
+            value = re.sub('^"(.*)"$', '\\1', value)
+            ret.append((name, value))
+        else:
+            ret.append((name, ''))
+    return ret
+
+def parse_indexed_list(string):
+    """parse a string of the form "(index,value),(index,value)..."
+    into a list of index, value pairs"""
+
+    ret = []
+    pairs = list_parser(string)
+    for pair in pairs:
+        if len(pair) == 2:
+            index, value = pair
+            ret.append((int(index), value))
+
+    return ret
+
+def parse_pairs(pairString):
+    """parse a string like 'name=value name2=value2' into a
+    dictionary of {'name': 'value', 'name2': 'value2'} """
+    return dict(parse_pairs_list(pairString))
diff --git a/util/minorview/point.py b/util/minorview/point.py
new file mode 100644
index 000000000..75097e2c2
--- /dev/null
+++ b/util/minorview/point.py
@@ -0,0 +1,78 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+
+class Point(object):
+    """2D point coordinates/size type"""
+    def __init__(self, x, y):
+        self.x = x
+        self.y = y
+
+    def __add__(self, rhs):
+        return Point(self.x + rhs.x, self.y + rhs.y)
+
+    def __sub__(self, rhs):
+        return Point(self.x - rhs.x, self.y - rhs.y)
+
+    def __mul__(self, rhs):
+        return Point(self.x * rhs.x, self.y * rhs.y)
+
+    def __div__(self, rhs):
+        return Point(float(self.x) / rhs.x, float(self.y) / rhs.y)
+
+    def scale(self, factor):
+        return Point(self.x * factor, self.y * factor)
+
+    def to_pair(self):
+        return (self.x, self.y)
+
+    def __str__(self):
+        return "Point(%f,%f)" % (self.x, self.y)
+
+    def __repr__(self):
+        return "Point(%f,%f)" % (self.x, self.y)
+
+    def is_within_box(self, box):
+        """Is this point inside the (centre, size) box box"""
+        centre, size = box
+        half_size = size.scale(0.5)
+        top_left = centre - half_size
+        bottom_right = centre + half_size
+        return (top_left.x < self.x and
+            top_left.y < self.y and
+            bottom_right.x > self.x and
+            bottom_right.y > self.y)
+
diff --git a/util/minorview/view.py b/util/minorview/view.py
new file mode 100644
index 000000000..8a9aaffea
--- /dev/null
+++ b/util/minorview/view.py
@@ -0,0 +1,524 @@
+# Copyright (c) 2013 ARM Limited
+# All rights reserved
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+
+import pygtk
+pygtk.require('2.0')
+import gtk
+import gobject
+import cairo
+import re
+
+from point import Point
+import parse
+import colours
+import model
+from model import Id, BlobModel, BlobDataSelect, special_state_chars
+import blobs
+
+class BlobView(object):
+    """The canvas view of the pipeline"""
+    def __init__(self, model):
+        # A unit blob will appear at size blobSize inside a space of
+        #   size pitch.
+        self.blobSize = Point(45.0, 45.0)
+        self.pitch = Point(60.0, 60.0)
+        self.origin = Point(50.0, 50.0)
+        # Some common line definitions to cut down on arbitrary
+        #   set_line_widths
+        self.thickLineWidth = 10.0
+        self.thinLineWidth = 4.0
+        self.midLineWidth = 6.0
+        # The scale from the units of pitch to device units (nominally
+        #   pixels for 1.0 to 1.0
+        self.masterScale = Point(1.0,1.0)
+        self.model = model
+        self.fillColour = colours.emptySlotColour
+        self.timeIndex = 0
+        self.time = 0
+        self.positions = []
+        self.controlbar = None
+        # The sequence number selector state
+        self.dataSelect = BlobDataSelect()
+        # Offset of this view's time from self.time used for miniviews
+        #   This is actually an offset of the index into the array of times
+        #   seen in the event file)
+        self.timeOffset = 0
+        # Maximum view size for initial window mapping
+        self.initialHeight = 600.0
+
+        # Overlays are speech bubbles explaining blob data
+        self.overlays = []
+
+        self.da = gtk.DrawingArea()
+        def draw(arg1, arg2):
+            self.redraw()
+        self.da.connect('expose_event', draw)
+
+        # Handy offsets from the blob size
+        self.blobIndent = (self.pitch - self.blobSize).scale(0.5)
+        self.blobIndentFactor = self.blobIndent / self.pitch
+
+    def add_control_bar(self, controlbar):
+        """Add a BlobController to this view"""
+        self.controlbar = controlbar
+
+    def draw_to_png(self, filename):
+        """Draw the view to a PNG file"""
+        surface = cairo.ImageSurface(
+            cairo.FORMAT_ARGB32,
+            self.da.get_allocation().width,
+            self.da.get_allocation().height)
+        cr = gtk.gdk.CairoContext(cairo.Context(surface))
+        self.draw_to_cr(cr)
+        surface.write_to_png(filename)
+
+    def draw_to_cr(self, cr):
+        """Draw to a given CairoContext"""
+        cr.set_source_color(colours.backgroundColour)
+        cr.set_line_width(self.thickLineWidth)
+        cr.paint()
+        cr.save()
+        cr.scale(*self.masterScale.to_pair())
+        cr.translate(*self.origin.to_pair())
+
+        positions = [] # {}
+
+        # Draw each blob
+        for blob in self.model.blobs:
+            blob_event = self.model.find_unit_event_by_time(
+                blob.unit, self.time)
+
+            cr.save()
+            pos = blob.render(cr, self, blob_event, self.dataSelect,
+                self.time)
+            cr.restore()
+            if pos is not None:
+                (centre, size) = pos
+                positions.append((blob, centre, size))
+
+        # Draw all the overlays over the top
+        for overlay in self.overlays:
+            overlay.show(cr)
+
+        cr.restore()
+
+        return positions
+
+    def redraw(self):
+        """Redraw the whole view"""
+        buffer = cairo.ImageSurface(
+            cairo.FORMAT_ARGB32,
+            self.da.get_allocation().width,
+            self.da.get_allocation().height)
+
+        cr = gtk.gdk.CairoContext(cairo.Context(buffer))
+        positions = self.draw_to_cr(cr)
+
+        # Assume that blobs are in order for depth so we want to
+        #   hit the frontmost blob first if we search by position
+        positions.reverse()
+        self.positions = positions
+
+        # Paint the drawn buffer onto the DrawingArea
+        dacr = self.da.window.cairo_create()
+        dacr.set_source_surface(buffer, 0.0, 0.0)
+        dacr.paint()
+
+        buffer.finish()
+
+    def set_time_index(self, time):
+        """Set the time index for the view.  A time index is an index into
+        the model's times array of seen event times"""
+        self.timeIndex = time + self.timeOffset
+        if len(self.model.times) != 0:
+            if self.timeIndex >= len(self.model.times):
+                self.time = self.model.times[len(self.model.times) - 1]
+            else:
+                self.time = self.model.times[self.timeIndex]
+        else:
+            self.time = 0
+
+    def get_pic_size(self):
+        """Return the size of ASCII-art picture of the pipeline scaled by
+        the blob pitch"""
+        return (self.origin + self.pitch *
+            (self.model.picSize + Point(1.0,1.0)))
+
+    def set_da_size(self):
+        """Set the DrawingArea size after scaling"""
+        self.da.set_size_request(10 , int(self.initialHeight))
+
+class BlobController(object):
+    """The controller bar for the viewer"""
+    def __init__(self, model, view,
+        defaultEventFile="", defaultPictureFile=""):
+        self.model = model
+        self.view = view
+        self.playTimer = None
+        self.filenameEntry = gtk.Entry()
+        self.filenameEntry.set_text(defaultEventFile)
+        self.pictureEntry = gtk.Entry()
+        self.pictureEntry.set_text(defaultPictureFile)
+        self.timeEntry = None
+        self.defaultEventFile = defaultEventFile
+        self.startTime = None
+        self.endTime = None
+
+        self.otherViews = []
+
+        def make_bar(elems):
+            box = gtk.HBox(homogeneous=False, spacing=2)
+            box.set_border_width(2)
+            for widget, signal, handler in elems:
+                if signal is not None:
+                    widget.connect(signal, handler)
+                box.pack_start(widget, False, True, 0)
+            return box
+
+        self.timeEntry = gtk.Entry()
+
+        t = gtk.ToggleButton('T')
+        t.set_active(False)
+        s = gtk.ToggleButton('S')
+        s.set_active(True)
+        p = gtk.ToggleButton('P')
+        p.set_active(True)
+        l = gtk.ToggleButton('L')
+        l.set_active(True)
+        f = gtk.ToggleButton('F')
+        f.set_active(True)
+        e = gtk.ToggleButton('E')
+        e.set_active(True)
+
+        # Should really generate this from above
+        self.view.dataSelect.ids = set("SPLFE")
+
+        self.bar = gtk.VBox()
+        self.bar.set_homogeneous(False)
+
+        row1 = make_bar([
+            (gtk.Button('Start'), 'clicked', self.time_start),
+            (gtk.Button('End'), 'clicked', self.time_end),
+            (gtk.Button('Back'), 'clicked', self.time_back),
+            (gtk.Button('Forward'), 'clicked', self.time_forward),
+            (gtk.Button('Play'), 'clicked', self.time_play),
+            (gtk.Button('Stop'), 'clicked', self.time_stop),
+            (self.timeEntry, 'activate', self.time_set),
+            (gtk.Label('Visible ids:'), None, None),
+            (t, 'clicked', self.toggle_id('T')),
+            (gtk.Label('/'), None, None),
+            (s, 'clicked', self.toggle_id('S')),
+            (gtk.Label('.'), None, None),
+            (p, 'clicked', self.toggle_id('P')),
+            (gtk.Label('/'), None, None),
+            (l, 'clicked', self.toggle_id('L')),
+            (gtk.Label('/'), None, None),
+            (f, 'clicked', self.toggle_id('F')),
+            (gtk.Label('.'), None, None),
+            (e, 'clicked', self.toggle_id('E')),
+            (self.filenameEntry, 'activate', self.load_events),
+            (gtk.Button('Reload'), 'clicked', self.load_events)
+            ])
+
+        self.bar.pack_start(row1, False, True, 0)
+        self.set_time_index(0)
+
+    def toggle_id(self, id):
+        """One of the sequence number selector buttons has been toggled"""
+        def toggle(button):
+            if button.get_active():
+                self.view.dataSelect.ids.add(id)
+            else:
+                self.view.dataSelect.ids.discard(id)
+
+            # Always leave one thing visible
+            if len(self.view.dataSelect.ids) == 0:
+                self.view.dataSelect.ids.add(id)
+                button.set_active(True)
+            self.view.redraw()
+        return toggle
+
+    def set_time_index(self, time):
+        """Set the time index in the view"""
+        self.view.set_time_index(time)
+
+        for view in self.otherViews:
+            view.set_time_index(time)
+            view.redraw()
+
+        self.timeEntry.set_text(str(self.view.time))
+
+    def time_start(self, button):
+        """Start pressed"""
+        self.set_time_index(0)
+        self.view.redraw()
+
+    def time_end(self, button):
+        """End pressed"""
+        self.set_time_index(len(self.model.times) - 1)
+        self.view.redraw()
+
+    def time_forward(self, button):
+        """Step forward pressed"""
+        self.set_time_index(min(self.view.timeIndex + 1,
+            len(self.model.times) - 1))
+        self.view.redraw()
+        gtk.gdk.flush()
+
+    def time_back(self, button):
+        """Step back pressed"""
+        self.set_time_index(max(self.view.timeIndex - 1, 0))
+        self.view.redraw()
+
+    def time_set(self, entry):
+        """Time dialogue changed.  Need to find a suitable time
+        <= the entry's time"""
+        newTime = self.model.find_time_index(int(entry.get_text()))
+        self.set_time_index(newTime)
+        self.view.redraw()
+
+    def time_step(self):
+        """Time step while playing"""
+        if not self.playTimer \
+            or self.view.timeIndex == len(self.model.times) - 1:
+            self.time_stop(None)
+            return False
+        else:
+            self.time_forward(None)
+            return True
+
+    def time_play(self, play):
+        """Automatically advance time every 100 ms"""
+        if not self.playTimer:
+            self.playTimer = gobject.timeout_add(100, self.time_step)
+
+    def time_stop(self, play):
+        """Stop play pressed"""
+        if self.playTimer:
+            gobject.source_remove(self.playTimer)
+            self.playTimer = None
+
+    def load_events(self, button):
+        """Reload events file"""
+        self.model.load_events(self.filenameEntry.get_text(),
+            startTime=self.startTime, endTime=self.endTime)
+        self.set_time_index(min(len(self.model.times) - 1,
+            self.view.timeIndex))
+        self.view.redraw()
+
+class Overlay(object):
+    """An Overlay is a speech bubble explaining the data in a blob"""
+    def __init__(self, model, view, point, blob):
+        self.model = model
+        self.view = view
+        self.point = point
+        self.blob = blob
+
+    def find_event(self):
+        """Find the event for a changing time and a fixed blob"""
+        return self.model.find_unit_event_by_time(self.blob.unit,
+            self.view.time)
+
+    def show(self, cr):
+        """Draw the overlay"""
+        event = self.find_event()
+
+        if event is None:
+            return
+
+        insts = event.find_ided_objects(self.model, self.blob.picChar,
+            False)
+
+        cr.set_line_width(self.view.thinLineWidth)
+        cr.translate(*(Point(0.0,0.0) - self.view.origin).to_pair())
+        cr.scale(*(Point(1.0,1.0) / self.view.masterScale).to_pair())
+
+        # Get formatted data from the insts to format into a table
+        lines = list(inst.table_line() for inst in insts)
+
+        text_size = 10.0
+        cr.set_font_size(text_size)
+
+        def text_width(str):
+            xb, yb, width, height, dx, dy = cr.text_extents(str)
+            return width
+
+        # Find the maximum number of columns and the widths of each column
+        num_columns = 0
+        for line in lines:
+            num_columns = max(num_columns, len(line))
+
+        widths = [0] * num_columns
+        for line in lines:
+            for i in xrange(0, len(line)):
+                widths[i] = max(widths[i], text_width(line[i]))
+
+        # Calculate the size of the speech bubble
+        column_gap = 1 * text_size
+        id_width = 6 * text_size
+        total_width = sum(widths) + id_width + column_gap * (num_columns + 1)
+        gap_step = Point(1.0, 0.0).scale(column_gap)
+
+        text_point = self.point
+        text_step = Point(0.0, text_size)
+
+        size = Point(total_width, text_size * len(insts))
+
+        # Draw the speech bubble
+        blobs.speech_bubble(cr, self.point, size, text_size)
+        cr.set_source_color(colours.backgroundColour)
+        cr.fill_preserve()
+        cr.set_source_color(colours.black)
+        cr.stroke()
+
+        text_point += Point(1.0,1.0).scale(2.0 * text_size)
+
+        id_size = Point(id_width, text_size)
+
+        # Draw the rows in the table
+        for i in xrange(0, len(insts)):
+            row_point = text_point
+            inst = insts[i]
+            line = lines[i]
+            blobs.striped_box(cr, row_point + id_size.scale(0.5),
+                id_size, inst.id.to_striped_block(self.view.dataSelect))
+            cr.set_source_color(colours.black)
+
+            row_point += Point(1.0, 0.0).scale(id_width)
+            row_point += text_step
+            # Draw the columns of each row
+            for j in xrange(0, len(line)):
+                row_point += gap_step
+                cr.move_to(*row_point.to_pair())
+                cr.show_text(line[j])
+                row_point += Point(1.0, 0.0).scale(widths[j])
+
+            text_point += text_step
+
+class BlobWindow(object):
+    """The top-level window and its mouse control"""
+    def __init__(self, model, view, controller):
+        self.model = model
+        self.view = view
+        self.controller = controller
+        self.controlbar = None
+        self.window = None
+        self.miniViewCount = 0
+
+    def add_control_bar(self, controlbar):
+        self.controlbar = controlbar
+
+    def show_window(self):
+        self.window = gtk.Window()
+
+        self.vbox = gtk.VBox()
+        self.vbox.set_homogeneous(False)
+        if self.controlbar:
+            self.vbox.pack_start(self.controlbar, False, True, 0)
+        self.vbox.add(self.view.da)
+
+        if self.miniViewCount > 0:
+            self.miniViews = []
+            self.miniViewHBox = gtk.HBox(homogeneous=True, spacing=2)
+
+            # Draw mini views
+            for i in xrange(1, self.miniViewCount + 1):
+                miniView = BlobView(self.model)
+                miniView.set_time_index(0)
+                miniView.masterScale = Point(0.1, 0.1)
+                miniView.set_da_size()
+                miniView.timeOffset = i + 1
+                self.miniViews.append(miniView)
+                self.miniViewHBox.pack_start(miniView.da, False, True, 0)
+
+            self.controller.otherViews = self.miniViews
+            self.vbox.add(self.miniViewHBox)
+
+        self.window.add(self.vbox)
+
+        def show_event(picChar, event):
+            print '**** Comments for', event.unit, \
+                'at time', self.view.time
+            for name, value in event.pairs.iteritems():
+                print name, '=', value
+            for comment in event.comments:
+                print comment
+            if picChar in event.visuals:
+                # blocks = event.visuals[picChar].elems()
+                print '**** Colour data'
+                objs = event.find_ided_objects(self.model, picChar, True)
+                for obj in objs:
+                    print ' '.join(obj.table_line())
+
+        def clicked_da(da, b):
+            point = Point(b.x, b.y)
+
+            overlay = None
+            for blob, centre, size in self.view.positions:
+                if point.is_within_box((centre, size)):
+                    event = self.model.find_unit_event_by_time(blob.unit,
+                        self.view.time)
+                    if event is not None:
+                        if overlay is None:
+                            overlay = Overlay(self.model, self.view, point,
+                                blob)
+                        show_event(blob.picChar, event)
+            if overlay is not None:
+                self.view.overlays = [overlay]
+            else:
+                self.view.overlays = []
+
+            self.view.redraw()
+
+        # Set initial size and event callbacks
+        self.view.set_da_size()
+        self.view.da.add_events(gtk.gdk.BUTTON_PRESS_MASK)
+        self.view.da.connect('button-press-event', clicked_da)
+        self.window.connect('destroy', lambda(widget): gtk.main_quit())
+
+        def resize(window, event):
+            """Resize DrawingArea to match new window size"""
+            size = Point(float(event.width), float(event.height))
+            proportion = size / self.view.get_pic_size()
+            # Preserve aspect ratio
+            daScale = min(proportion.x, proportion.y)
+            self.view.masterScale = Point(daScale, daScale)
+            self.view.overlays = []
+
+        self.view.da.connect('configure-event', resize)
+
+        self.window.show_all()