Post on 27-Dec-2015
IMPROVING PROGRAM COMPREHENSION TOOLS FOR DOMAIN-SPECIFIC LANGUAGES
Supervisors:
Professor Pedro Rangel Henriques
Professora Maria João Varanda Pereira
University of Minho, Department of Informatics
Nuno Oliveira
Imagine the following scenario:
2
You are a software analyst…
…who is assigned a task of maintaining a software piece
3
Well… this is just a part of that software…
void fn(){
struct model *o = (struct model *)malloc(sizeof(struct model));o->switch = true;while(o->switch){
try_sense(o);if(o->sensor_date != NULL){
o->p ++;o->h = 1;o->b = (struct object*)malloc(sizeof(struct object));o->b = o->sensor_date;o->sensor_date = NULL;o->b->next = NULL;
}}
}
Your first reaction…
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And this would be the second one…
- What does this program do?- What are its effects on the real world concepts?
- What is it all about?
- I Can’t even figure out the problem domain!
So you’d probably give up on maintaining such code.
5
Robots are picking stones, but their
arms never go back down, after the first
stone!
Boss You
Ah, Ok! Let me see it
again.
But… what if, somehow, you have information about the problem domain?
6
In fact, this code can solve a lot of problems, and none in particular
void fn(){
struct model *o = (struct model *)malloc(sizeof(struct model));o->switch = true;while(o->switch){
try_sense(o);if(o->sensor_date != NULL){
o->p ++;o->h = 1;o->b = (struct object*)malloc(sizeof(struct object));o->b = o->sensor_date;o->sensor_date = NULL;o->b->next = NULL;
}}
}
But if you know that this code corresponds to a robot task…
7
Then…
Program Comprehension (PC) tools (PCTools) will fasten the way you work…
JIRiSS Imagix4D
DA4Java
CodeCrawlerCerberus
BauhausAlma
AlborzSeeSoft
Rigi
Reflexion Model
PICSSHriMP
8
You will not be able to easily know what statement do what in the real world objects…
And…
Do not take advantage of Problem Domain
Do not connect Problem and Program Domains automatically
So…
Maintenance main tasks are still hand-made, increasing time and expenditures!
That is the HARDEST
part!!
9
Brooks theorizes that:
A program is better understood if the person who is through the process of comprehension knows the program and problem domains, and is capable of establishing bridges between them.
To formalize such theory in a tool for General Purpose Languages (GPL) is impossible or, at least, is neither easy nor
direct!
Would it be the same with Domain-Specific Languages?
Why?
Well, imagine again the same scenario:
10
You are a software analyst…
…who is assigned a task of maintaining a software piece
11
… and that software was developed with a DSL:
PROGRAM {TURN_ONWHILE (TURNED_ON){
IF(HAS_STONE_IN_FRONT){ROBOT_ARM_ON;PICK_STONE;DROP_STONE_IN_BAG;
}}
}
Your first reaction…
12
- What does this program do?- What are its effects on the real world concepts?
- Is that all?
- We’re talking about a robot task…- First, the robot is started, then, in a loop, it picks stones into a bag, whenever it senses one…
And this would be the second reaction…
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Do I need to tell you where the error is?
Boss You
No, boss! Already found it!
Yes, that was easy, but… what if
the DSL is more complex?
A PCTool improved to cope
with DSL advantages would
help us!Is it
possible?
14
If we prove the following three things:
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Can the PC techniques, tailored for GPLs, be applied on DSLs?
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ALMA
- A system to assist program comprehension tasks for ANY GPL
DAST – Decorated Abstract Syntax Tree(ALMA internal representation (IR) )
The DAST stores the meaning of the program by using semantic patterns as nodes of a tree!
The Meaning?
TEC
HN
IQU
ES
17
So, to cope with Problem Domain…
ALMA IR needs to be improved…
… adding on, to the semantic patterns:
represent the Problem Domain Concepts Actors
describe the behavior of the concepts according to the operational semantic of the program.
Animation Functions
Resulting in…
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represent the animation, at problem domain level, according to the operational semantic of the program
Animation Patterns
Are injected in the DAST, creating a DAPAST (Decorated with Animation Patterns Abstract Syntax Tree)
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The DAST technique was used in a PCTool
for GPLs…
Boss You
… and can be added of Animation Patterns to cope with Problem Domain Concepts!
Which are static for every
statement in a DSL, regardless of
the program…
So, this answers
question 1!
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Evolution: ALMA
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Evolution: ALMA >> ALMA2
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Beautiful… but how we specify a front-end for
ALMA2 ?
Boss
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1. Analyse DSL formal definition and its specific domain
DSL Formal Definition DSL Problem Domain
Program Domain ConceptsProblem Domain Concepts
Possible Internal State
Designing the Problem Visualization by Domains Analysis
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2. Define mappings between the problem concepts and syntactic or semantic parts of the DSL;
Program Domain Concepts Problem Domain Concepts
Conceptual Mappings Table
Designing the Problem Visualization by Concepts Mappings Definition
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3. Associate images or image sequences with concepts at problem domain;
Problem Domain Concepts Images
Behavioural Visualization Table
Designing the Problem Visualization by Images and Concepts Association
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4. Use Alma2 to build the mappings between problem and program domains and the imagery.
Conceptual Mappings Table Behavioural Visualization Table
Alma2 Front-End for DSPs
Designing the Problem Visualization by Definition of ALMA2 Specification
Theory is good, what about practice?
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rule Instruction_TurnLeft { INSTRUCTION ::= #Turnleft compute { INSTRUCTION.tree = new Alma.CStmtsNode( new AnimAssignNode( tA, new Alma.COperNode( new Alma.COperNode( new Alma.CVarNode(tA), new Alma.CConstNode(90), "+” ), new Alma.CConstNode(360), "%"), new AnimationPattern[] { new APRotate(robot, new int[] {1}, "angle"), new APLabel(robot, new int[] {1}, "beepers: ", "beepers") } ) ); }; }
=
a %
+ 360
a 90
Rotate
Label
For each grammar rule we define1. The Operational Semantics using ALMA2 basic API and2. The Operational Behaviour using ALMA2 extended API
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ALMA2 tested with Imperative DSL
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ALMA2 tested with Declarative DSL
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The improvement of ALMA to ALMA2 is
possible…
Boss You
… and the animation of the Problem Domain concepts
together with the visualization of program
domain, is a better perspective for the users!
We can only be sure of its
usefulness if we prove it…
Let’s prove it then!
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Extended Brooks TheoryA program comprehension tool, will ease the task of comprehending a program when synchronized visualizations of its program and problem domains are provided, since from these visualizations, the user is able to build a conceptual knowledge base that easily bridges both program and problem domains.
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The Proof Ingredients:
20 Participants 1 Questionnaire (8 Questions)
The Proof Objectives:
Compare variables measured both in Alma and Alma2
Solve PC tasks using Alma and Alma2
Measure variables with the questions:
Time (spent in the questions)Correctness (in the answers)Relevance assigned to the approach (of the synchronized visualizations)
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Time
Correctness
Relevance
The Proof Results:
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Despite of spending more time to create a mental model of
the program…
Boss You
So, maintenance
time and expenditures are reduced!
…With this approach, the
effectiveness of the
comprehension is achieved…Meaning that synchronized
Visualizations of Prog. And Prob. Domains
are important to achieve the
comprehension of the program
Conclusion
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Because the connection of both domains allows us
to:
Boss You
-Perceive how the program does;- Perceive what are the effects of the program in the problem domain…
Conclusion
And of course, to achieve knowledge through an
Action-Effect paradigm.
IMPROVING PROGRAM COMPREHENSION TOOLS FOR DOMAIN-SPECIFIC LANGUAGES
Thank you!!
University of Minho, Department of Informatics
Nuno Oliveira