The WSDL2Ws tool that comes with Axis C++ can be used to generate different types of wrapper classes / skeletons for the server side and wrapper classes / stubs for the client side for a given WSDL file.
WSCC) provides a set of libraries and Java(TM) tools that enable you to build C++ Web service client applications from existing Web Service Description Language (WSDL) files. These applications are able to communicate over Hypertext Transfer Protocol (HTTP) with other applications that are configured in a similar way, using transmission control protocol/internet protocol (TCP/IP) with SOAP protocols.
This document describes an abstract feature and a concrete implementation of it for optimizing the transmission and/or wire format of SOAP messages. The concrete implementation relies on the [XML-binary Optimized Packaging] format for carrying SOAP messages.
This is a Tutorial: SAAJ API allows you to do XML messaging from the Java platform: By simply making method calls using the SAAJ API, you can read and write SOAP-based XML messages, and you can optionally send and receive such messages over the Internet (some implementations may not support sending and receiving).
This document defines a binding for a SOAP 1.1 message to be carried within a MIME multipart/related message in such a way that the processing rules for the SOAP 1.1 message are preserved. The MIME multipart mechanism for encapsulation of compound documents can be used to bundle entities related to the SOAP 1.1 message such as attachments. Rules for the usage of URI references to refer to entities bundled within the MIME package are specified.
Semantic Annotations for WSDL and XML Schema (SAWSDL) does not specify a language for representing the semantic models. Instead it provides mechanisms by which concepts from the semantic models, typically defined outside the WSDL document, can be referenced from within WSDL and XML Schema components using annotations.
Y. Huang, and Q. Huang. CCGRID '05: Proceedings of the Fifth IEEE International Symposium on Cluster Computing and the Grid (CCGrid'05) - Volume 1, page 558--565. Washington, DC, USA, IEEE Computer Society, (2005)
A. Kut, and D. Birant. ICWS '04: Proceedings of the IEEE International Conference on Web Services, page 812. Washington, DC, USA, IEEE Computer Society, (2004)
D. Puppin, N. Tonellotto, and D. Laforenza. ICPPW '05: Proceedings of the 2005 International Conference on Parallel Processing Workshops, page 29--33. Washington, DC, USA, IEEE Computer Society, (2005)
A. Akram, D. Meredith, and R. Allan. CCGRID '06: Proceedings of the Sixth IEEE International Symposium on Cluster Computing and the Grid, page 269--274. Washington, DC, USA, IEEE Computer Society, (2006)
P. Sajjipanon, and S. Ngamsuriyaroj. APSCC '08: Proceedings of the 2008 IEEE Asia-Pacific Services Computing Conference, page 265--270. Washington, DC, USA, IEEE Computer Society, (2008)