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Exploiting Abstractions for Specification Reuse Java/C# Case Study

Exploiting Abstractions for Specification Reuse Java/C# Case Study. Egon Börger in cooperation with R. Stärk, V. Gervasi, G. Fruja Dipartimento di Informatica, Universita di Pisa http://www.di.unipi.it/~boerger. Supporting Good System Design Principles.

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Exploiting Abstractions for Specification Reuse Java/C# Case Study

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  1. Exploiting Abstractions for Specification ReuseJava/C# Case Study Egon Börger in cooperation with R. Stärk, V. Gervasi, G. Fruja Dipartimento di Informatica, Universita di Pisa http://www.di.unipi.it/~boerger

  2. Supporting Good System Design Principles • Key Strategy: Separation of Different Concerns • Separating orthogonal design decisions • to keep design space open (specify-for-change (Parnas), avoiding premature design decisions) • to structure design space(rigorous interfaces for system (de)composition) • Separating design from analysis • Separating within analysis • validation(by simulation)from verification • Separating levels (degrees of detail) of verification • By reasoning for human inspection (design justification) • By rule based reasoning systems • interactive systems • automatic tools: model checkers, automatic theorem provers • Key Method:Refinements for crossing system levels (Dahl, Dijkstra, Hoare, Wirth) © Egon Börger: Using Abstraction for Reuse

  3. Examples of ASM Design &Verification Hierarchies Compiler verification established piecemeal ISO Prolog to WAM: 12 refinement steps, KIV verified backtracking, structure of predicates, structure of clauses, structure of terms & substitution, optimizations SCP 95 Occam to TransputerComp.J. 96 15 modeling steps exhibiting channels, sequentialization of par procs, pgm ctrl structure, env, transputer datapath and workspace, relocatable code (relative instr addresses & resolving labels) Java to JVM : language & security driven decomposition 5 sublanguages (imperative, modules, oo, exceptions, concurrency) 4 JVM levels for trustful execution, checking defensively at run time and diligently at compile time, loading Jbook 2001 Control Systems, Architectures, Protocols,…AsmBook 2003 © Egon Börger: Using Abstraction for Reuse

  4. Reuse of ASM Specifications and Verifications WAM PROLOG SCP 95 PROTOS-L IBM-PAM FAC 96 CLP(R) IBM-CLAM OUP 95 Reuse of submachines (layered components) lemmas Facilitated by extensional character of involved lgs/machines © Egon Börger: Using Abstraction for Reuse

  5. Java/C# semantics by instantiating an abstract interpreter by additions and changing instantiations Common Features MSIL Interpreter Instantiations from common abstraction support precise evaluation of differences Language Interpreter Jbook 2001 JVM Interpreter JAVA Interpreter C# Interpreter Instantiating components (macros) and refining static analysis © Egon Börger: Using Abstraction for Reuse

  6. Instantiating Hierarchical Language Layerssupporting modular definitions C#I C#C Common features C#O Adding new features Adapting instantiations C#E C#T JavaI imperative JavaC static class features(procedures) JavaO oo features JavaE exception handling JavaT concurrent threads Adding components C#D , C#U for Delegate and Unsafe layers © Egon Börger: Using Abstraction for Reuse

  7. Language driven decomposition of Java/C# execC# = execC#Iimperative control constructs execC#Cstatic class features (modules) execC#Ooo features execC#E exception handling execC#T concurrent threads execC#Ddelegates & events execC#Uunsafe code Abstraction Principle (used for Java and C# models) : grouping similar instructions into one parameterized abstract instruction © Egon Börger: Using Abstraction for Reuse

  8. Decomposition of layered submachines At each language layer L (in both Java and C#) split for exp and stm: execC#L= execC#ExpLexpression evaluation execC#StmLstatement execution Submachines permit instructionwise definition of language semantics, containing • identical rules for common languages constructs (mostly in I, C, O, E) • similar rules with different functs & differently instantiated macros captured by variations (mostly refinements) of • state components (e.g. Value domain, type structure, etc.) • rules (e.g. YIELD macro, mem related macros, etc.) • new rules for additional language constructs • goto (makes abruption rules more complicated) • call by reference (triggers introduction of addresses and mem function) • typeof, as • throw without arguments (triggers introduction of exc stack) © Egon Börger: Using Abstraction for Reuse

  9. Separation of Statics and Dynamicssupporting modular definition of semantic features • Supported by classification of ASM functions • static or dynamic (controlled, monitored, shared, output) • basic or derived • rulescapture the system dynamics and define the controlled and partly the shared functions • auxiliary functionscan be given purely functional or axiomatic (or whatever other form of satisfactory) definitions • Static semantics of C# extends that of Java due to • different type structure (dichotomy of ref/val types, struct types) with (un)boxing and user-defined type conversion • triggers refinement of YIELD and memory content related macros • call-by-reference with ref/out params • triggers addresses and introduction of mem content function • extensive operator overloading © Egon Börger: Using Abstraction for Reuse

  10. hierarchical layers I, C, O, E, T separation of statics/dynamics common or similar constructs captured in the models by variations (mostly refinements) of state components rules (in particular macros) new language layers delegates and events unsafe code (pointers) type structure val/ref dichotomy (compiler allocates mem to val type var upon decl) with (un)boxing for conversion bw the two struct types (efficient “classes” like val types) new instructions Java/C#: Similarities and Differences There is a great variety of more technical than conceptual differences listed below © Egon Börger: Using Abstraction for Reuse

  11. pragmatically motivated constructs reducible to core model by syntactical translataions properties indexers events attributes interoperability features (not treated in the model) for linking to COM, DLL libraries, other CCI languages operator overloading (un)checked blocks (for C# overflow control) private/non-private meths (1) scope definitions (e.g. for labels) place of initializations (3) abr stm constraints (simplify C# abr rules) excs in static constructors (2) stack trace of excs (4) “instance of” vs “is” additional clause for val types Java/C#: Technical Differences • (1) In Java priv meths use InvokeSpecial (=InvokeNonVirtual), non-private meths are by default Virtual (late binding). In C# the latter have to be marked by modifier virtual or override, othw they are called directly (early binding) • (2) In Java class becomes Unusable, in C# the old exc object is rethrown • (3) In Java before and in C# after the evaluation of arguments • (4) In Java set when exc obj is created/initialized, in C# when it is thrown © Egon Börger: Using Abstraction for Reuse

  12. References R. Stärk, J. Schmid, E. Börger :Java and the Java Virtual Machine. Definition, Verification, Validation. Springer-Verlag , 2001.http://www.inf.ethz.ch/~jbook/ E. Börger, G. Fruja, V. Gervasi, R. Stärk :A High-Level Modular Definition of the Semantics of C# (TCS 2004) R. Stärk, E. Börger :An ASM model for C# threads (Springer LNCS : Proc. ASM 2004) E. Börger, R. Stärk: Abstract State Machines. A Method for High-Level System Design and Analysis.Springer-Verlag , 2003.http://www.di.unipi.it/AsmBook/ © Egon Börger: Using Abstraction for Reuse

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