Actually my question is about the why should i use sonar instead of other hudson code analysis tools like emma or cobertura?
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The answer depends on what your quality goal is, i.e., what you are trying to achieve. If your goal is to increase correctness by maximizing test coverage, using EMMA or Cobertura for measuring the code coverage (test coverage), is just fine.
However, if your quality goal is increasing the maintainability, both tools won't get you far as they cannot measure the "right" things. In that sense, Sonar is much more powerful as it offers a considerably larger set of things to measure.
One word about measuring the "right" things. I feel always uncomfortable by starting to discuss about which tools to use without knowing what the goal is. The first step should be deciding which quality attribute you'd like to improve. Second, select a reasonable set of metrics to measure how far you have reached the goal. And only then think about which tools (EMMA, Cobertura, Sonar, ConQAT,...) you need for measurement. I've seen a lot of failure in practice, because things were measured without particular reason just because you could measure them.
A good starting point to learn about software quality, attributes, and potential goals is the ISO/IEC 9126 standard for software quality. Although it lacks practical information, e.g., which tools to use, it provides a good first overview what makes good software.
Hudson/Jenkins is a continuous integration server: its main purpose is to make it easy to trigger builds based on several conditions and using several parameters. While there are some Hudson/Jenkins plugins developed to make some reporting based on external tools (unit test engines, code analysis tools, ...), those features remain very simple and are just the first baby step to handle code quality.
On the contrary, the main purpose of Sonar is to offer all the advanced features required to put a real continuous inspection process in place: consolidated dashboards for your projects, measures and violations drilldown to hunt quality flaws, differential views to track incoming technical debt, tool to compare projects and/or versions of projects, review mechanism to affect remediation actions to developers, ...
So to sum up:
Nils and Fabrice gave sound advices: you should probably first know what you want to measure before asking yourself how. There is a good paper by Basili et al. [Basili] about this very subject, finely commented by Linda Westfall in [Westfall]. These are classic recommended readings when taking the path to quality measurement.
Now actually implementing this is another story. There are open-source or proprietary tools that do extensive checks (aka violations) or measures. Examples of open-source tools are checkstyle, findbugs, pmd, cobertura; examples of proprietary tools include Klocwork, Coverity, Polyspace, QAC, or IBM Logiscope. I have to admit that proprietary tools bring many informations about quality (buffer overflows, race conditions, memory leakages....) that cannot be detected by open-source tools.
Now these bring relevant, but very partial information. Quality depends on many other parameters, depending on the answers you gave in the first step: it may be reliability, testability (e.g. for aeronautics, critical embedded systems..), usability, maintainability..
Tools like Sonar or SQuORE help to gather the base information from the above-mentionned tools and smartly summarise it, thus allowing better understanding, taking better decisions, and having a really accurate vision on the software development project (which is sometimes called business intelligence).
I'm conducting a research work on software metrics (huge code base, many tools involved, days and days of analyses) with the later (SQuORE, [Disc]), and it runs just perfectly: measures from all different tools are retrieved in a single, consistent, and meaningful repository, where I can know what is ongoing, discover what happened, draw conclusions from there, etc.
Hope that helps,
[Basili] V. R. Basili, G. Caldiera, and H. D. Rombach, “The goal question metric approach,” Encyclopedia of Software Engineering, vol. 2. Wiley, pp. 528–532, 1994.
[Westfall] L. Westfall and C. Road, “12 Steps to Useful Software Metrics,” Proceedings of the Seventeenth Annual Pacific Northwest Software Quality Conference, vol. 57 Suppl 1, no. May 2006, pp. S40–3, 2005.
[Disc] I have to say that I'm in business with them, but still try to give right advice.