LABSQL: laboratório de ensino de SQL

Este trabalho apresenta uma nova abordagem para avaliação automática de consultas SQL. Essa abordagem propõe uma solução para o desafio de estimular o aprendiz a aperfeiçoar a sua solução: buscando, além de uma resposta que retorna o resultado correto, uma consulta com complexidade próxima da solução ótima. Essa proposta pode ser utilizada em ambientes de educação a distancia ou na educação presencial em atividades de laboratório, incluindo as avaliações. A solução proposta tem como vantagens: (1) o aprendiz recebe um feedback instantâneo durante a atividade prática de programação, o qual permite ao aprendiz refatorar a sua solução em direção a uma solução ótima; (2) completa integração entre o ensino de conceitos de programação com exemplo de fragmentos de programas executáveis on-line; (3) monitoramento das atividades do aprendiz (quantos exemplos foram executados; em cada exercício quantas tentativas de execução foram feitas, etc). Este trabalho é um primeiro passo na direção de construção de um ambiente totalmente assistido (por exemplo com avaliação automática) para ensino da linguagem de programação SQL, onde o professor é liberado do árduo trabalho de correção de comandos SQL podendo realizar tarefas pedagógicas mais relevantes. O método, fundamentado em estatística e métricas da Engenharia de Software, pode ser adaptado para outras linguagens tais como Java e Pascal. Além disso, o LabSQL serve com um laboratório para experimentação de duas novas técnicas, uma de avaliação e outra de acompanhamento, que estão sendo pesquisadas em trabalhos em paralelos: (a) avaliação automática de questões conceituais discursivas, além de permitir as tradicionais perguntas objetivas, (b) método de acompanhamento através de montagem de uma rubrica de avaliação.

Hiord: A type-free higher-order logic programming language with predicate abstraction

A new formalism, called Hiord, for defining type-free higherorder logic programming languages with predicate abstraction is introduced. A model theory, based on partial combinatory algebras, is presented, with respect to which the formalism is shown sound. A programming language built on a subset of Hiord, and its implementation are discussed. A new proposal for defining modules in this framework is considered, along with several examples.

A programming language for the parallel processing of pictures /

Thesis (M.S.)--University of Illinois at Urbana-Champaign, 1966.

pl/2d--a programming language for generating 2-dimensional patterns /

Thesis (M.S.)--University of Illinois at Urbana-Champaign.

GIMLI and GIML : a machine and programming language for low-cost interactive graphical systems /

"UILU-ENG 77 1708."

LINGOL, a readable formalism for programming language semantics /

"UILU-ENG 77 1766."

VIPTRAN--a programming language and its compiler for Boolean systems or process control equations.

Thesis (M.A.)--University of Illinois at Urbana-Champaign.

VIPTRAN2 : an improved programming language and its compiler for process control equations /

Mode of access: Internet.

Specifications and test methods for numeric accuracy in programming language standards /

Item 247.

The programming language python in earth system simulations

-scale vary from a planetary scale and million years for convection problems to 100km and 10 years for fault systems simulations. Various techniques are in use to deal with the time dependency (e.g. Crank-Nicholson), with the non-linearity (e.g. Newton-Raphson) and weakly coupled equations (e.g. non-linear Gauss-Seidel). Besides these high-level solution algorithms discretization methods (e.g. finite element method (FEM), boundary element method (BEM)) are used to deal with spatial derivatives. Typically, large-scale, three dimensional meshes are required to resolve geometrical complexity (e.g. in the case of fault systems) or features in the solution (e.g. in mantel convection simulations). The modelling environment escript allows the rapid implementation of new physics as required for the development of simulation codes in earth sciences. Its main object is to provide a programming language, where the user can define new models and rapidly develop high-level solution algorithms. The current implementation is linked with the finite element package finley as a PDE solver. However, the design is open and other discretization technologies such as finite differences and boundary element methods could be included. escript is implemented as an extension of the interactive programming environment python (see www.python.org). Key concepts introduced are Data objects, which are holding values on nodes or elements of the finite element mesh, and linearPDE objects, which are defining linear partial differential equations to be solved by the underlying discretization technology. In this paper we will show the basic concepts of escript and will show how escript is used to implement a simulation code for interacting fault systems. We will show some results of large-scale, parallel simulations on an SGI Altix system. Acknowledgements: Project work is supported by Australian Commonwealth Government through the Australian Computational Earth Systems Simulator Major National Research Facility, Queensland State Government Smart State Research Facility Fund, The University of Queensland and SGI.

The effective use of implicit parallelism through the use of an object-oriented programming language

This thesis explores translating well-written sequential programs in a subset of the Eiffel programming language - without syntactic or semantic extensions - into parallelised programs for execution on a distributed architecture. The main focus is on constructing two object-oriented models: a theoretical self-contained model of concurrency which enables a simplified second model for implementing the compiling process. There is a further presentation of principles that, if followed, maximise the potential levels of parallelism. Model of Concurrency. The concurrency model is designed to be a straightforward target for mapping sequential programs onto, thus making them parallel. It aids the compilation process by providing a high level of abstraction, including a useful model of parallel behaviour which enables easy incorporation of message interchange, locking, and synchronization of objects. Further, the model is sufficient such that a compiler can and has been practically built. Model of Compilation. The compilation-model's structure is based upon an object-oriented view of grammar descriptions and capitalises on both a recursive-descent style of processing and abstract syntax trees to perform the parsing. A composite-object view with an attribute grammar style of processing is used to extract sufficient semantic information for the parallelisation (i.e. code-generation) phase. Programming Principles. The set of principles presented are based upon information hiding, sharing and containment of objects and the dividing up of methods on the basis of a command/query division. When followed, the level of potential parallelism within the presented concurrency model is maximised. Further, these principles naturally arise from good programming practice. Summary. In summary this thesis shows that it is possible to compile well-written programs, written in a subset of Eiffel, into parallel programs without any syntactic additions or semantic alterations to Eiffel: i.e. no parallel primitives are added, and the parallel program is modelled to execute with equivalent semantics to the sequential version. If the programming principles are followed, a parallelised program achieves the maximum level of potential parallelisation within the concurrency model.

Sistema integral de facturación y fabricación para una empresa de manufacturas metalúrgicas

L'objectiu d'aquest projecte és fer l'anàlisi i el disseny d'un sistema informàtic que gestioni de manera integral la facturació i els estocs de l'empresa García Escalera SL.