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Defense Of Research

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Defense Of Research Ian Smith – PowerPoint PPT presentation

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Title: Defense Of Research


1
Defense Of Research
  • Ian Smith

2
Overview
  • Motivational scenario
  • The problem
  • Approach
  • Tool explanation (example)
  • Local state problem
  • Contribution Summary
  • Related work

3
Scenario
  • Alice Bob want to change the org chart together
  • They worked together before but now Alice travels
    more often...
  • Alice is remote, Bob is at his desk
  • Alice has a pilot, Bob has a workstation.

4
Workstation Org Chart App
App Controls
5
Org Chart App On A Pilot?(Bad Idea 1)
Pilot Display?
App Controls
6
Org Chart App On A Pilot?(Bad Idea 2)
Pilot Display
7
Pilot Org Chart Application
Org Chart
Reports To
President (John)
VP of Eng. (Jane)
Staff Eng. (Bill)
VP of Finance (Fred)
Principal Sci. (Mary)
8
The Problem?
  • People want to work together, but have different
    devices
  • Two structurally different views of same data
  • UIs have different underlying structures
  • Views must be synchronized

9
Graphical Formulation
Pilot
Workstation
Org Chart
Reports To
President (John)
App Controls
VP of Eng. (Jane)
Staff Eng. (Bill)
VP of Finance (Fred)
Window
Pilot App
Principal Sci. (Mary)
Scroller
Palette
Scroller
Tree Control
...
Tree Node
Line
Rect
Rect
Tree Node
Tree Node
10
My World
11
Problem Generalization
  • Given a UI tree A, compute a new UI tree B from A
  • If A is computed from a model, compute B from the
    same model

Ultraman
A
B
Model
Ultraman
Ultraman
A
B
12
Approach
  • End-programmer declares constraints on the
    structure of an interface
  • Constraint here is a function of a tree which
    computes a tree (not values!)
  • Constraints apply over an entire input tree
  • When you see a node of type foo, create a node
    of type bar and attach to this structure
  • Constraints are applied dynamically, as the
    application runs

13
Using Ultraman
  • Ultraman is a tool and a runtime
  • Tool allows you to declare patterns and
    transformations
  • Pattern is a structural relationship of nodes in
    the source tree
  • Transformation is a computation to run when a
    pattern is found

14
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15
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16
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17
Ultraman Tool Summary
  • Several ways to specify computations and
    structural patterns
  • Tool generates a lexer/parser specification which
    implements the pattern matching
  • Lexer/parser pair is built on ANTLR 2.20
  • Generated parser calls into user code to
    implement transformations
  • Transformations are run after each event

18
Example App
19
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20
Transformations? But.
Column
Pull-Down Menu
Ultraman
...
RadioButton
MenuItem
MenuItem
  • Pull-Down menus have state the currently
    displayed item.
  • If we regenerate the menu how do we get the right
    item displayed in the Pull-Down?

21
Local State Problem
  • Tree T1 produces tree T2 by some transformation
    F.
  • User manipulates T2 in some way, modifying T2s
    state.
  • We make a change to T1 and rerun transformation F
    producing tree T3.
  • How do we reconcile the freshly created T3 with
    the old, stateful tree T2?

22
Value Numbering
  • Nodes created by the transformations are given a
    label called a value number
  • The value number (VN) is a representation of
    where and when in the transformation node was
    created.
  • Nodes with the same VN are from the same spot
    in the transformation process.

23
Shadow Objects
  • Shadow objects are objects which represent
    interior nodes in the UI tree.
  • Shadow objects mimic the API of an interactor,
    but actually buffer calls
  • End programmers build dynamic structures
    underneath shadow objects.
  • Effectively, shadow objects build a shadow
    version of the interactor hierarchy during the
    transformation.

24
Grafting Algorithm
  • After the transformation is complete...
  • Walk the interface on the screens tree (T2)
    collecting pairs (VN,node).
  • Walk the shadow interfaces tree (T3) and compare
    VNs of its nodes to the table.
  • If a VN is in the table, exchange the
    corresponding nodes.
  • Replace the interface on the screen with the
    shadow.

25
Grafting Algorithm Example
26
Issues With Grafting
  • Value numbering is a sensitive and bottom-up
    change metric.
  • Changes at the top of a tree can be missed due
    to shadow objects.
  • End-programmer can be surprised when objects
    which are created never appear!
  • Garbage collector can be a problem...

27
Contribution Summary
  • Developed a taxonomy for multi-viewed
    transformation (4 categories) identified
    salient characteristics of multi-viewed
    transformation system (7 properties)
  • Implemented a specification tool for composing
    patterns and transformations

28
Contributions (contd)
  • Developed and implemented algorithms for
    converting specifications into grammars
  • Developed and implemented algorithms for handling
    the local state problem
  • Implemented 2 demo applications
  • Cards Transform to a very different device
  • Contact Transform someone elses data model

29
Related Work
  • UI Software (excluding toolkits)
  • Patterson Hill, Foley/Szekely, Olsen
  • Constraints
  • Borning, Hudson, Myers, Vander Zanden
  • Compilers/Parsing
  • Early, Parr, Graham Glanville, Brotsky/Wills,
    Alpern
  • Transformation Systems
  • TXL, REFINE

30
Characteristics Of A Multi-Viewed Transformation
System
  • Semantic Predicates
  • Aggregation
  • Multiple recursive patterns
  • Input output trees have different shapes
  • Control the progress of the pattern match
  • Multi-tree input
  • Take input from a model

31
Taxonomy Of Transformations
  • Filtering - projection (N to 1)
  • Aggregating - Computing a function of the entire
    input
  • Reordering - order change only (1 to 1)
  • Decorating - adding nodes to the input (1 to N)
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