modeling tools
Sponsored Links
Sponsored Links
Secleted [ 0 ] software to compare
Results 1 - 15 of about 1242
Quantity Modeling Language 0.1
QML (Quantity Modeling Language) is a thing-based language for scientific and mathematical data modeling. more>>
QML (Quantity Modeling Language) is a "thing"-based language for scientific and mathematical data modeling.
Each "thing" is a quantity which may be associated with either a structure or physical phenomena.
Quantities, in turn, may hold other Quantities or values (numbers or strings). Higher-level data models, which associate or define meanings to various quantities (such as velocity or position), can be built from QML quantities.
The higher-level data model (XML) schema that inherits from QML may be understood, and its instance documents may be parsed into QML documents and objects by the QMLReader.
Enhancements:
- This release adds partial Xerces2 DOM support, and works with Java 1.4 and Java 1.5 (no JAXP DocumentBuilder/Factory support currently).
- The test procedure is a little less chatty.
- Support has been added for testing either/both Crimson/Xerces DOM support.
- (Note: Crimson support only works with Java 1.4, as Java 1.5 interfaces have DOM lvl 2 and 3, which crimson doesnt support).
- This release adds compilerargs, and better build support for different configurations to build.xml.
<<lessEach "thing" is a quantity which may be associated with either a structure or physical phenomena.
Quantities, in turn, may hold other Quantities or values (numbers or strings). Higher-level data models, which associate or define meanings to various quantities (such as velocity or position), can be built from QML quantities.
The higher-level data model (XML) schema that inherits from QML may be understood, and its instance documents may be parsed into QML documents and objects by the QMLReader.
Enhancements:
- This release adds partial Xerces2 DOM support, and works with Java 1.4 and Java 1.5 (no JAXP DocumentBuilder/Factory support currently).
- The test procedure is a little less chatty.
- Support has been added for testing either/both Crimson/Xerces DOM support.
- (Note: Crimson support only works with Java 1.4, as Java 1.5 interfaces have DOM lvl 2 and 3, which crimson doesnt support).
- This release adds compilerargs, and better build support for different configurations to build.xml.
Download (0.16MB)
Added: 2005-11-10 License: Public Domain Price:
1443 downloads
medini QVT 1.0
medini QVT implements OMGs QVT Relations specification in a powerful QVT engine. more>>
medini QVT implements OMGs QVT Relations specification in a powerful QVT engine.
The standard is designed for model-to-model transformations to allow fast development, maintenance and customization of process specific transformation rules.
Main features:
- Execution of QVT transformations expressed in the textual concrete syntax of the Relations language
- Trace management enabling incremental update during retransformation
- Key concept enabling incremental update as well as the transition from manual modeling to automation through transformations in the abscence of traces
- Bidirectional transformations
<<lessThe standard is designed for model-to-model transformations to allow fast development, maintenance and customization of process specific transformation rules.
Main features:
- Execution of QVT transformations expressed in the textual concrete syntax of the Relations language
- Trace management enabling incremental update during retransformation
- Key concept enabling incremental update as well as the transition from manual modeling to automation through transformations in the abscence of traces
- Bidirectional transformations
Download (MB)
Added: 2007-08-16 License: Free for non-commercial use Price:
805 downloads
Model Builder 0.4.0
Model Builder is a graphical tool for designing, simulating, and analyzing mathematical models. more>>
Model Builder is a graphical tool for designing, simulating, and analyzing mathematical models consisting of a system of ordinary differential equations (ODEs).
Main features:
- Equation-based model definition. No need to learn to program to define and run your models. Just type-in you differential equations
- Graphic output of simulation. You can save the graphics in the most common formats: png, svg, pdf, etc.
- Spreadsheet view of the results. From the spreadsheet you can make customized plots from your variables. You can also export your data to a .csv text file
- Latex rendering of your system of equations.
- Intuitive graphical interface.
- Uncertainty analysis module (coming soon!)
<<lessMain features:
- Equation-based model definition. No need to learn to program to define and run your models. Just type-in you differential equations
- Graphic output of simulation. You can save the graphics in the most common formats: png, svg, pdf, etc.
- Spreadsheet view of the results. From the spreadsheet you can make customized plots from your variables. You can also export your data to a .csv text file
- Latex rendering of your system of equations.
- Intuitive graphical interface.
- Uncertainty analysis module (coming soon!)
Download (0.21MB)
Added: 2007-03-27 License: GPL (GNU General Public License) Price:
558 downloads
Biomolecule Toolkit 0.8.1
Biomolecule Toolkit project is an Open Source library for the structural modeling of biological macromolecules. more>>
Biomolecule Toolkit project is an Open Source library for the structural modeling of biological macromolecules. The toolkit provides a C++ interface for common tasks in computational structural biology, to facilitate the development of molecular modeling, design, and analysis tools.
Enhancements:
Documentation updates
- Addition of an extensive discussion of the leastsquares_superposition and RMSD-calculation methods, including a description of the mathematical theory behind their operation.
- Fully documented the rotation/translation methods
- Addition of a documented example program ("gyration_radius.cpp")
Bug fixes
- Fixed copy construction bug in PDBAtomDecorator that caused compilation errors in rare situations.
- Fixed a bug in PDBFileParser that caused a compilation error in the PDBSystem copy constructor.
- Fixed a const-conversion bug in GroupedElementIterator which prevented proper interoperation of const and non-const iterator types.
- Fixed a crash-producing bug in stream output for the TypeID class.
- Fixed a math error in RMSD and superposition methods that would corrupt molecule coordinates.
- Fixed a bug that caused all default-constructed PDBAtom objects to be treated as HETATMs.
Feature additions
- Added operator[] to AtomicStructure and PolymerStructure-derived classes.
- Added protected increment() and decrement() operators to TypeID class.
- PDBFileParser can now handle PDB files with ill-formed residue numbering (i.e. Files where residue numbers are repeated in successive chains).
<<lessEnhancements:
Documentation updates
- Addition of an extensive discussion of the leastsquares_superposition and RMSD-calculation methods, including a description of the mathematical theory behind their operation.
- Fully documented the rotation/translation methods
- Addition of a documented example program ("gyration_radius.cpp")
Bug fixes
- Fixed copy construction bug in PDBAtomDecorator that caused compilation errors in rare situations.
- Fixed a bug in PDBFileParser that caused a compilation error in the PDBSystem copy constructor.
- Fixed a const-conversion bug in GroupedElementIterator which prevented proper interoperation of const and non-const iterator types.
- Fixed a crash-producing bug in stream output for the TypeID class.
- Fixed a math error in RMSD and superposition methods that would corrupt molecule coordinates.
- Fixed a bug that caused all default-constructed PDBAtom objects to be treated as HETATMs.
Feature additions
- Added operator[] to AtomicStructure and PolymerStructure-derived classes.
- Added protected increment() and decrement() operators to TypeID class.
- PDBFileParser can now handle PDB files with ill-formed residue numbering (i.e. Files where residue numbers are repeated in successive chains).
Download (0.44MB)
Added: 2007-07-16 License: GPL (GNU General Public License) Price:
830 downloads
Config::Model::WarpedThing 0.611
Config::Model::WarpedThing is a base class for warped classes. more>>
Config::Model::WarpedThing is a base class for warped classes.
SYNOPSIS
use base qw/Config::Model::WarpedThing/ ;
This class must be inherited by all classes that can be warped by Config::Model::Value. This class provides a set of methods that are expected by a warp master from a warped class.
Currently this class is inherited by Config::Model::Value, Config::Model::AnyId and Config::Model::WarpedNode.
WarpThing does not provide a constructor.
<<lessSYNOPSIS
use base qw/Config::Model::WarpedThing/ ;
This class must be inherited by all classes that can be warped by Config::Model::Value. This class provides a set of methods that are expected by a warp master from a warped class.
Currently this class is inherited by Config::Model::Value, Config::Model::AnyId and Config::Model::WarpedNode.
WarpThing does not provide a constructor.
Download (0.12MB)
Added: 2007-07-06 License: Perl Artistic License Price:
840 downloads
KpovModeler 1.1.1
KPovModeler is a modeling and composition program for creating POV-Ray scenes in KDE. more>>
KPovModeler is a modeling and composition program for creating POV-Ray scenes in KDE.
For most of the modelers, POV-Ray is nothing but a rendering engine and they bring a lot of limitations to the innate possibilities of POV-Ray scripted language. This is not the case for KPovModeler which allows you to use all the features of POV-Ray through the translation of POV-Ray language into a graphical tree.
Almost all options of POV-Rays script language can be used within KPovModeler. "Almost" because variables, loop instructions, macros and some operators cant directly be, unfortunately.
On the other hand, KPovModeler allows you to include a part of a script with the "Raw POV-Ray" tool; such a raw code will only be taken into account by POV-Ray during the rendering stage.
Main features:
- Management of the scene through a graphical tree.
- Object modification with control points in a graphical view or direct manipulation of object attributes in a dialog
- Nonblocking scene rendering with OpenGL as wire frame views
- Freely configurable view layout with dock widgets
- Copy/paste and drag/drop of (a subset of) povray(!) code into and out of the object tree
- Undo and redo
- Scene rendering and texture preview with povray inside the program
- Support for almost all povray objects
- Support for all textures
- Prototypes (declarations) and references
- All projection modes of the camera
For modeling an object, it is not required to know POV-Rays script language. On the other hand, for creating textures refering to POV-Rays documentation will be difficult to avoid.
But to ease the work, it is possible to simply cut-and-paste a script from POV-Ray into KPovModeler. KPovModeler will then, if the script only makes use of known primitives, convert the pasted text and include it into the current scene.
In other words, if you dont know how to create an object or an effect with KPovModeler, you could always copy its example from POV-Rays documentation and experiment with it within KPovModeler.
<<lessFor most of the modelers, POV-Ray is nothing but a rendering engine and they bring a lot of limitations to the innate possibilities of POV-Ray scripted language. This is not the case for KPovModeler which allows you to use all the features of POV-Ray through the translation of POV-Ray language into a graphical tree.
Almost all options of POV-Rays script language can be used within KPovModeler. "Almost" because variables, loop instructions, macros and some operators cant directly be, unfortunately.
On the other hand, KPovModeler allows you to include a part of a script with the "Raw POV-Ray" tool; such a raw code will only be taken into account by POV-Ray during the rendering stage.
Main features:
- Management of the scene through a graphical tree.
- Object modification with control points in a graphical view or direct manipulation of object attributes in a dialog
- Nonblocking scene rendering with OpenGL as wire frame views
- Freely configurable view layout with dock widgets
- Copy/paste and drag/drop of (a subset of) povray(!) code into and out of the object tree
- Undo and redo
- Scene rendering and texture preview with povray inside the program
- Support for almost all povray objects
- Support for all textures
- Prototypes (declarations) and references
- All projection modes of the camera
For modeling an object, it is not required to know POV-Rays script language. On the other hand, for creating textures refering to POV-Rays documentation will be difficult to avoid.
But to ease the work, it is possible to simply cut-and-paste a script from POV-Ray into KPovModeler. KPovModeler will then, if the script only makes use of known primitives, convert the pasted text and include it into the current scene.
In other words, if you dont know how to create an object or an effect with KPovModeler, you could always copy its example from POV-Rays documentation and experiment with it within KPovModeler.
Download (2.8MB)
Added: 2005-05-30 License: GPL (GNU General Public License) Price:
1608 downloads
Network UPS Tools 2.2.0
Network UPS Tools is an extremely powerful and versatile client/server based approach to UPS monitoring. more>>
Network UPS Tools is a collection of programs which provide a common interface for monitoring and administering UPS hardware. Network UPS Tools uses a layered approach to connect all of the parts.
Drivers are provided for a wide assortment of equipment. They understand the specific language of each UPS and map it back to a compatibility layer.
This means both an expensive "smart" protocol UPS and a simple "power strip" model can be handled transparently.
This information is cached by the network server upsd, which then answers queries from the clients. upsd contains a number of access control features to limit the abilities of the clients. Only authorized hosts may monitor or control your UPS hardware if you wish.
Since the notion of monitoring over the network is built into the software, you can hang many systems off one large UPS and they will all shut down together.
Clients such as upsmon check on the status of the hardware and do things when necessary. The most important task is shutting down the operating system cleanly before the UPS runs out of power.
Other programs are also provided to log UPS status regularly, monitor status through your web browser, and more.
Enhancements:
- HAL support. IPv6 support.
- Support for many new devices.
- Many driver improvements.
- This release uses automake.
<<lessDrivers are provided for a wide assortment of equipment. They understand the specific language of each UPS and map it back to a compatibility layer.
This means both an expensive "smart" protocol UPS and a simple "power strip" model can be handled transparently.
This information is cached by the network server upsd, which then answers queries from the clients. upsd contains a number of access control features to limit the abilities of the clients. Only authorized hosts may monitor or control your UPS hardware if you wish.
Since the notion of monitoring over the network is built into the software, you can hang many systems off one large UPS and they will all shut down together.
Clients such as upsmon check on the status of the hardware and do things when necessary. The most important task is shutting down the operating system cleanly before the UPS runs out of power.
Other programs are also provided to log UPS status regularly, monitor status through your web browser, and more.
Enhancements:
- HAL support. IPv6 support.
- Support for many new devices.
- Many driver improvements.
- This release uses automake.
Download (0.64MB)
Added: 2007-07-06 License: GPL (GNU General Public License) Price:
847 downloads
OCamlI18N 0.3
OCamlI18N is a library for internationalization of Objective Caml programs. more>>
OCamlI18N is an OCaml library for programs internationalization.
OCamlI18N (will) provide an I18N module modeling locales, time zones, calendars and dates, numbers and collations for any language, provided enough locale information has been given to him.
The design is heavily inspired by Javas model of localization classes and its motivation was to have a completely thread-safe implementation of internationalization for OCaml fans. If you have any suggestions about the code, contact me (mattam AT mattam DOT org).
OCamlI18N is distributed under the terms of the LGPL.
Enhancements:
- Makefile (VERSION): Set to 0.3, for first release of LDML parsing code.
- src/ISO*.ml*, src/KeyTypes.ml*, src/Variants.ml*, src/ISO_types.ml*: Support for ISO and LDML types, with direct encoding of the enumerations as variant types.
- src/generate_parser.ml: Parser generator, using camlp4 for code construction and capable of producing class types, implementations and parsing code from DTDs.
- src/LDML_types.ml*, src/LDML_impl.ml*: generated code for parsing LDML documents using pxp.
- src/LDML_support.ml*: Support functions for parsing.
- src/LDML.ml*: main entry point to access LDML information.
<<lessOCamlI18N (will) provide an I18N module modeling locales, time zones, calendars and dates, numbers and collations for any language, provided enough locale information has been given to him.
The design is heavily inspired by Javas model of localization classes and its motivation was to have a completely thread-safe implementation of internationalization for OCaml fans. If you have any suggestions about the code, contact me (mattam AT mattam DOT org).
OCamlI18N is distributed under the terms of the LGPL.
Enhancements:
- Makefile (VERSION): Set to 0.3, for first release of LDML parsing code.
- src/ISO*.ml*, src/KeyTypes.ml*, src/Variants.ml*, src/ISO_types.ml*: Support for ISO and LDML types, with direct encoding of the enumerations as variant types.
- src/generate_parser.ml: Parser generator, using camlp4 for code construction and capable of producing class types, implementations and parsing code from DTDs.
- src/LDML_types.ml*, src/LDML_impl.ml*: generated code for parsing LDML documents using pxp.
- src/LDML_support.ml*: Support functions for parsing.
- src/LDML.ml*: main entry point to access LDML information.
Download (0.098MB)
Added: 2005-04-18 License: LGPL (GNU Lesser General Public License) Price:
1649 downloads
Config::Model 1.003 (Config::Model::CursesUI)
Config::Model provides a framework to help in validating the semantic content of configuration data. more>>
Config::Model provides a framework to help in validating the semantic content of configuration data. The project can also be used to provide a semantic check of options of a complex program like mplayer or transcode.
For most complex software, configuration upgrade is a difficult task for most people. By using Config::Model, a software can provide a smooth upgrade path for their users.
How does this work ?
Using this project, a typical configuration validation tool will be made of 3 parts :
The user interface
The validation engine which is in charge of validating all the configuration information provided by the user.
The storage facility that store the configuration information
Dont we already have some configuration validation tools ?
Youre probably thinking of tools like webmin. Yes, these tools exist and work fine, but they have their set of drawbacks.
Usually, the validation of configuration data is done with a script which performs semantic validation and often ends up being quite complex (e.g. 2500 lines for Debians xserver-xorg.config script which handles xorg.conf file).
In most cases, the configuration model is expressed in instructions (whatever programming language is used) and interspersed with a lot of processing to handle the actual configuration data.
Whats the advantage of this project ?
The Config::Model projects provide a way to get a validation engine where the configuration model is completely separated from the actual processing instruction.
The configuration model is expressed in a declarative form (i.e. a Perl data structure) which is always easier to maintain than a lot of code.
The declaration specifies:
the structure of the configuration data (which can be queried by generic user interfaces)
the properties of each element (boundaries, check, integer or string, enum like type ...)
the default values of parameters (if any)
mandatory parameters
the targeted audience (intermediate, advance, master)
on-line help (for ach parameter or value of parameter)
the level of expertise of each parameter (to hide expert parameters from newbie eyes)
So, in the end:
maintenance and evolution of the configuration content is easier
user will see a *common* interface for *all* programs using this project.
user will not see advanced parameters
upgrade of configuration data is easier and sanity check is performed
audit of configuration is possible to check what was modified by the user compated to default values
What about the user interface ?
Config::Model will also come with a Curses::UI interface that queries the users model and generate the relevant user screens.
What about data storage ?
Since the syntax of configuration files vary wildly form one program to another, most people who want to use this framework will have to provide a dedicated parser/writer.
Nevertheless, this project can also provide a writer/parser for most common format: like ini style file, or provide an interface to the Elektra or debconf projects. This point is open for discussion.
It is entirely possible for a single configuration model to use several parsers and writers so one model will ensure the consistency of several configuration files together.
Enhancements:
- The Xorg model was updated to Config::model version 0.609.
- Some bugs were fixed.
<<lessFor most complex software, configuration upgrade is a difficult task for most people. By using Config::Model, a software can provide a smooth upgrade path for their users.
How does this work ?
Using this project, a typical configuration validation tool will be made of 3 parts :
The user interface
The validation engine which is in charge of validating all the configuration information provided by the user.
The storage facility that store the configuration information
Dont we already have some configuration validation tools ?
Youre probably thinking of tools like webmin. Yes, these tools exist and work fine, but they have their set of drawbacks.
Usually, the validation of configuration data is done with a script which performs semantic validation and often ends up being quite complex (e.g. 2500 lines for Debians xserver-xorg.config script which handles xorg.conf file).
In most cases, the configuration model is expressed in instructions (whatever programming language is used) and interspersed with a lot of processing to handle the actual configuration data.
Whats the advantage of this project ?
The Config::Model projects provide a way to get a validation engine where the configuration model is completely separated from the actual processing instruction.
The configuration model is expressed in a declarative form (i.e. a Perl data structure) which is always easier to maintain than a lot of code.
The declaration specifies:
the structure of the configuration data (which can be queried by generic user interfaces)
the properties of each element (boundaries, check, integer or string, enum like type ...)
the default values of parameters (if any)
mandatory parameters
the targeted audience (intermediate, advance, master)
on-line help (for ach parameter or value of parameter)
the level of expertise of each parameter (to hide expert parameters from newbie eyes)
So, in the end:
maintenance and evolution of the configuration content is easier
user will see a *common* interface for *all* programs using this project.
user will not see advanced parameters
upgrade of configuration data is easier and sanity check is performed
audit of configuration is possible to check what was modified by the user compated to default values
What about the user interface ?
Config::Model will also come with a Curses::UI interface that queries the users model and generate the relevant user screens.
What about data storage ?
Since the syntax of configuration files vary wildly form one program to another, most people who want to use this framework will have to provide a dedicated parser/writer.
Nevertheless, this project can also provide a writer/parser for most common format: like ini style file, or provide an interface to the Elektra or debconf projects. This point is open for discussion.
It is entirely possible for a single configuration model to use several parsers and writers so one model will ensure the consistency of several configuration files together.
Enhancements:
- The Xorg model was updated to Config::model version 0.609.
- Some bugs were fixed.
Download (0.015MB)
Added: 2007-05-22 License: LGPL (GNU Lesser General Public License) Price:
886 downloads
Other version of Config::Model
Config::Model provides a framework to help in validating the semantic content ... Using this project, a typical configuration validation tool will be made of 3 parts : - The userLicense:LGPL (GNU Lesser General Public License)
Config::Model provides a framework to help in validating the semantic content ... Using this project, a typical configuration validation tool will be made of 3 parts : The userLicense:GPL (GNU General Public License)
GO::Model::Term 0.04
GO::Model::Term is a term or concept in an ontology. more>>
GO::Model::Term is a term or concept in an ontology.
SYNOPSIS
# From a file
use GO::Parser;
my $parser = new GO::Parser({handler=>obj}); # create parser object
$parser->parse("gene_ontology.obo"); # parse file -> objects
my $graph = $parser->handler->graph; # get L object
my $term = $graph->get_term("GO:0001303"); # fetch a term by ID
printf "Term %s %sn", $term->name, $term->acc;
# From a GO Database (requires go-db-perl)
my apph = GO::AppHandle->connect(-dbname=>$dbname);
my $term = $apph->get_term({acc=>00003677});
printf "Term:%s (%s)nDefinition:%snSynonyms:%sn",
$term->name,
$term->public_acc,
$term->definition,
join(", ", @{$term->synonym_list});
Represents an Ontology term; the same class is used for process, compartment and function
currently, a Term is not aware of its Relationships; to find out how a term is related to other terms, use the a GO::Model::Graph object, which will give you the GO::Model::Relationship objects; for example
$rels = $graph->get_parent_relationships($term->acc);
<<lessSYNOPSIS
# From a file
use GO::Parser;
my $parser = new GO::Parser({handler=>obj}); # create parser object
$parser->parse("gene_ontology.obo"); # parse file -> objects
my $graph = $parser->handler->graph; # get L object
my $term = $graph->get_term("GO:0001303"); # fetch a term by ID
printf "Term %s %sn", $term->name, $term->acc;
# From a GO Database (requires go-db-perl)
my apph = GO::AppHandle->connect(-dbname=>$dbname);
my $term = $apph->get_term({acc=>00003677});
printf "Term:%s (%s)nDefinition:%snSynonyms:%sn",
$term->name,
$term->public_acc,
$term->definition,
join(", ", @{$term->synonym_list});
Represents an Ontology term; the same class is used for process, compartment and function
currently, a Term is not aware of its Relationships; to find out how a term is related to other terms, use the a GO::Model::Graph object, which will give you the GO::Model::Relationship objects; for example
$rels = $graph->get_parent_relationships($term->acc);
Download (0.58MB)
Added: 2006-10-02 License: Perl Artistic License Price:
1117 downloads
ACT-RBOT + MRS 0.1 (Tools)
ACT-RBOT + MRS is a cognitive agent-based social simulation toolkit. more>>
ACT-RBOT + MRS is a cognitive agent-based social simulation toolkit (RBOT+MRS).
ACT-RBOT + MRS is also a production system based on ACT-R for modelling single actor cognitive experiments (RBOT) and multiple actors in a simulated (semiotic) world (RBOT + MRS).
<<lessACT-RBOT + MRS is also a production system based on ACT-R for modelling single actor cognitive experiments (RBOT) and multiple actors in a simulated (semiotic) world (RBOT + MRS).
Download (MB)
Added: 2007-01-24 License: LGPL (GNU Lesser General Public License) Price:
1004 downloads
Eclipse Web Tools Platform Project 1.0
Eclipse Web Tools Platform Project is a top-level Eclipse project that contains tools for developing Java Web applications. more>>
Eclipse Web Tools Platform Project is a top-level Eclipse project that contains tools for developing Java Web applications.
The WTP project includes the following tools: source editors for HTML, Javascript, CSS, JSP, SQL, XML, DTD, XSD, and WSDL; graphical editors for XSD and WSDL; J2EE project natures, builders, and models and a J2EE navigator; a Web service wizard and explorer, and WS-I Test Tools; and database access and query tools and models.
Main features:
- Extension of the Eclipse value proposition The Eclipse Project has set a high standard for technical excellence, functional innovation and overall extensibility within the Java IDE domain. We intend to apply these same standards to the Web/J2EE application-tooling domain.
- Vendor ecosystem A major goal of this project is to support a vital application development tools market. Its exemplary functionality will be useful on its own but it will be designed from the start to be extensible so commercial vendors can use what this project delivers as a foundation for their own product innovation and development efficiency.
- Vendor neutrality Vendor neutrality will be at the core of this project. We aim to encourage Eclipse participation and drive Eclipse market acceptance by strengthening the long-term product value propositions of the widest possible range of application development vendors.
- Standards-based innovation This project will deliver an extensible, standards-based tooling foundation on which the widest possible range of vendors can create value-added development products for their customers and end-users. Where standards exist, we will adhere to them. At least, at first, where standards are emerging, we will wait for them to emerge; this can be re-evaluated later according to user needs and contributor availability. Where multiple technologies are widely used for a given functional need, we will attempt to support each, subject only to technical feasibility and our goal of providing the most capable and extensible foundation long term.
- Agile development Our aim is to incorporate into our planning process the innovations that arise once a project is underway, and the feedback from our user community on our achievements to date. We think an agile development and planning process, in which progress is incremental, near-term deliverables are focused, and long-term planning is flexible, will be the best way to achieve this.
- Inclusiveness & diversity We aim to assimilate the best ideas from the largest number of participants representing the needs of the widest range of end-users. So we will encourage organizations across a broad range of technical, market and geographical domains to participate in this project.
<<lessThe WTP project includes the following tools: source editors for HTML, Javascript, CSS, JSP, SQL, XML, DTD, XSD, and WSDL; graphical editors for XSD and WSDL; J2EE project natures, builders, and models and a J2EE navigator; a Web service wizard and explorer, and WS-I Test Tools; and database access and query tools and models.
Main features:
- Extension of the Eclipse value proposition The Eclipse Project has set a high standard for technical excellence, functional innovation and overall extensibility within the Java IDE domain. We intend to apply these same standards to the Web/J2EE application-tooling domain.
- Vendor ecosystem A major goal of this project is to support a vital application development tools market. Its exemplary functionality will be useful on its own but it will be designed from the start to be extensible so commercial vendors can use what this project delivers as a foundation for their own product innovation and development efficiency.
- Vendor neutrality Vendor neutrality will be at the core of this project. We aim to encourage Eclipse participation and drive Eclipse market acceptance by strengthening the long-term product value propositions of the widest possible range of application development vendors.
- Standards-based innovation This project will deliver an extensible, standards-based tooling foundation on which the widest possible range of vendors can create value-added development products for their customers and end-users. Where standards exist, we will adhere to them. At least, at first, where standards are emerging, we will wait for them to emerge; this can be re-evaluated later according to user needs and contributor availability. Where multiple technologies are widely used for a given functional need, we will attempt to support each, subject only to technical feasibility and our goal of providing the most capable and extensible foundation long term.
- Agile development Our aim is to incorporate into our planning process the innovations that arise once a project is underway, and the feedback from our user community on our achievements to date. We think an agile development and planning process, in which progress is incremental, near-term deliverables are focused, and long-term planning is flexible, will be the best way to achieve this.
- Inclusiveness & diversity We aim to assimilate the best ideas from the largest number of participants representing the needs of the widest range of end-users. So we will encourage organizations across a broad range of technical, market and geographical domains to participate in this project.
Download (174.5MB)
Added: 2006-01-16 License: Eclipse Public License Price:
1378 downloads
OpenEuclide 0.5
OpenEuclide is an opensource multi-platform 2D geometry software. more>>
OpenEuclide is a geometry software that can produce geometrical figures by adding preformed objects one at a time.
OpenEuclide is an opensource multi-platform 2D geometry software. Figures are defined dynamically by describing formal geometrical constraints. This project is a basic tool for educational or modeling purpose that aims to be extended as far as possible in response to user needs. May it involve users talents in C++ programming.
Supported languages are : English and French.
The goal is now to make a robust, easy to use, totally multiplatform software (no runtime environment needed), featured for education until high school (excluded).
<<lessOpenEuclide is an opensource multi-platform 2D geometry software. Figures are defined dynamically by describing formal geometrical constraints. This project is a basic tool for educational or modeling purpose that aims to be extended as far as possible in response to user needs. May it involve users talents in C++ programming.
Supported languages are : English and French.
The goal is now to make a robust, easy to use, totally multiplatform software (no runtime environment needed), featured for education until high school (excluded).
Download (0.19MB)
Added: 2006-10-31 License: GPL (GNU General Public License) Price:
1092 downloads
Misfit Model 3D 1.3.5
Misfit Model 3D is an OpenGL-based 3D model editor. more>>
Misfit Model 3D is an OpenGL-based 3D model editor that works with triangle-based models. Misfit Model 3D supports multi-level undo, skeletal animations, simple texturing, scripting, command-line batch processing, and a plugin system for adding new model and image filters.
Complete online help is included. It is designed to be easy to use and easy to extend with plugins and scripts.
Misfit Model 3D was written and tested on Linux (2.4 and 2.6 kernels) and has been compiled and tested on most major Linux distributions.
It is not endian-safe so it is unlikely to run on non-x86 hardware platforms--this will probably not change soon unless I get requests for a version thats usable on big-endian archs.
Enhancements:
- The menus have been re-organized. There is a new command to make normals face outward. The texture coordinate window now has a rotate tool. Material support for COB has been improved. Many animation bugs have been fixed. A "File | Export" command has been added to indicate which formats have less reliable write support.
<<lessComplete online help is included. It is designed to be easy to use and easy to extend with plugins and scripts.
Misfit Model 3D was written and tested on Linux (2.4 and 2.6 kernels) and has been compiled and tested on most major Linux distributions.
It is not endian-safe so it is unlikely to run on non-x86 hardware platforms--this will probably not change soon unless I get requests for a version thats usable on big-endian archs.
Enhancements:
- The menus have been re-organized. There is a new command to make normals face outward. The texture coordinate window now has a rotate tool. Material support for COB has been improved. Many animation bugs have been fixed. A "File | Export" command has been added to indicate which formats have less reliable write support.
Download (0.71MB)
Added: 2007-07-16 License: GPL (GNU General Public License) Price:
832 downloads
CoreLinux++ Function Load Library 0.1.1
libclfll++ takes advantage of the abstract Library Load framework in the CoreLinux libclfw++ library. more>>
CoreLinux++ Function Load Library (libclfll++) takes advantage of the abstract Library Load framework in the CoreLinux libclfw++ library by providing management of loading Linux shared libraries.
Application developers define function objects as wrappers and can then dynamically load the functions. It is very useful for implementing a framework for plug-ins.
Main features:
- Enlist members ( for requirements, analysis, design, and development )
- Formalize conventions for Object Oriented Analysis (OOA) and Design (OOD).
- Formalize standards and conventions for C++ code style.
- Gather requirements. Perform OOA and OOD using UML as the modeling language.
- Implement designs and example drivers.
- Develop utilities and applications for Linux that are CoreLinux++ certified
- Showcase CoreLinux++ certified applications by others
<<lessApplication developers define function objects as wrappers and can then dynamically load the functions. It is very useful for implementing a framework for plug-ins.
Main features:
- Enlist members ( for requirements, analysis, design, and development )
- Formalize conventions for Object Oriented Analysis (OOA) and Design (OOD).
- Formalize standards and conventions for C++ code style.
- Gather requirements. Perform OOA and OOD using UML as the modeling language.
- Implement designs and example drivers.
- Develop utilities and applications for Linux that are CoreLinux++ certified
- Showcase CoreLinux++ certified applications by others
Download (0.091MB)
Added: 2006-05-31 License: LGPL (GNU Lesser General Public License) Price:
1247 downloads
Secleted [ 0 ] software to compare
Copyright Notice:
Software piracy is theft, Using crack, password, serial numbers, registration codes, key generators is illegal and prevent future software development. The above modeling tools search only lists software in full, demo and trial versions for free download. Download links are directly from our mirror sites or publisher sites, torrent files or links from rapidshare.com, yousendit.com or megaupload.com are not allowed
