Oracle Developer Studio

Oracle Solaris Studio
Developer(s)	Oracle Corporation
Stable release	12.4 / November 11, 2014; 10 years ago
Operating system	Solaris, OpenSolaris, RHEL, Oracle Linux
Available in	English, Japanese; Simplified Chinese
Type	Compiler, debugger, software build, integrated development environment
License	Free for download and use as described in the Sun Studio product license.
Website	http://www.oracle.com/technetwork/server-storage/solarisstudio/overview/

The Oracle Solaris Studio, formerly named Sun Studio, Sun WorkShop, Forte Developer, and SunPro Compilers, is a compiler suite which is Oracle Corporation's flagship software development product for the operating systems Solaris and Linux. The Oracle Solaris Studio software delivers optimizing compilers for C, C++, and Fortran, libraries, and performance analysis, and debugging tools for Solaris on SPARC, and both Solaris and Linux on x86/x64 platforms, including multi-core systems.

The Oracle Studio compiler and development tools software suite is downloadable at no charge from an Oracle website however there are many security and functionality patch updates which are only available with a support contract from Oracle.^[3]

Version 12.4 adds support for compiling C++ programs as C++11.^[4] All features of C++11 are supported except for concurrency and atomic operations, and user-defined literals.

Languages

Supported architectures

SPARC
i86pc (x86 and x86-64)

Components

The Oracle Studio software is a suite of software products that includes:

C, C++, and Fortran compilers and support libraries
dbx and frontends
lint
IDE based on NetBeans
Performance Analyzer^[5]
Thread analyzer
Sun performance library
Distributed make^[6]

Compiler optimizations

A common optimizing backend is used for code generation.

A high-level intermediate representation called Sun IR is used, and high-level optimizations done in the iropt (intermediate representation optimizer) component are operated at the Sun IR level. Major optimizations include:

Copy propagation
Constant folding and constant propagation
Dead code elimination
Interprocedural optimization analysis
Loop optimizations
Automatic parallelization
Profile-guided optimization
Scalar replacement
Strength reduction
Automatic vectorization, with -xvector=simd

OpenMP

The OpenMP shared memory parallelization API is native to all three Solaris Studio compilers.

Code coverage

Tcov, a source code coverage analysis and statement-by-statement profiling tool, comes as a standard utility with Sun Studio suite. Tcov generates exact counts of the number of times each statement in a program is executed and annotates source code to add instrumentation.

The tcov utility gives information on how often a program executes segments of code. It produces a copy of the source file, annotated with execution frequencies. The code can be annotated at the basic block level or the source line level. As the statements in a basic block are executed the same number of times, a count of basic block executions equals the number of times each statement in the block is executed.^[7] The tcov utility does not produce any time-based data.

GCCFSS

The GCC for SPARC Systems (GCCFSS) compiler uses GNU Compiler Collection's (GCC) front end with the Sun Studio compiler's code-generating back end. Thus, GCCFSS is able to handle GCC-specific compiler directives, while it is also able to take advantage of the compiler optimizations in the Sun Studio compiler's back end. This greatly facilitates the porting of GCC-based applications to SPARC systems.

GCCFSS 4.2 adds a new functionality as a cross compiler; SPARC binaries can be generated on an x86 (or x64) machine running Solaris.^[8]

Research platform

Before its cancellation, the Rock would have been the first general-purpose processor to support hardware transactional memory (HTM). The Sun Studio compiler is used by a number of research projects, including Hybrid Transactional Memory (HyTM)^[9] and Phased Transactional Memory (PhTM),^[10] to investigate support and possible HTM optimizations.

References

^ Solaris Studio
^ Oracle gooses Studio compilers for Solaris, Linux
^ Oracle Solaris Studio downloads
^ http://docs.oracle.com/cd/E37069_01/html/E37071/gncix.html
^ "Oracle Solaris Studio 12.2: Performance Analyzer". Oracle Corporation. Retrieved 2010-09-11.
^ "Sun Studio 12: Distributed Make (dmake)". Oracle Corporation. Retrieved 2010-09-11.
^ "Definition of basic block of code states that basic block has only one entry and only one exit point, essentially implying the statement". Retrieved 6 Feb 2012.
^ "Cool Tools - GCC for Sun Systems 4.2.0 as a Cross Compiler". Sun Microsystems. Retrieved 2008-07-31.
^ "Hybrid Transactional Memory" (PDF). Sun Microsystems. Retrieved 2007-11-10.
^ "PhTM: Phased Transactional Memory" (PDF). Sun Microsystems. Retrieved 2007-11-10.

External links

Documentation

Template:Integrated development environments for C and C++

[1] Solaris Studio

[2] Oracle gooses Studio compilers for Solaris, Linux

[3] Oracle Solaris Studio downloads

[4] ttp://docs.oracle.com/cd/E37069_01/html/E37071/gncix.html

[5] "Oracle Solaris Studio 12.2: Performance Analyzer". Oracle Corporation. Retrieved 2010-09-11.

[6] "Sun Studio 12: Distributed Make (dmake)". Oracle Corporation. Retrieved 2010-09-11.

[7] "Definition of basic block of code states that basic block has only one entry and only one exit point, essentially implying the statement". Retrieved 6 Feb 2012.

[8] "Cool Tools - GCC for Sun Systems 4.2.0 as a Cross Compiler". Sun Microsystems. Retrieved 2008-07-31.

[9] "Hybrid Transactional Memory" (PDF). Sun Microsystems. Retrieved 2007-11-10.

[10] "PhTM: Phased Transactional Memory" (PDF). Sun Microsystems. Retrieved 2007-11-10.

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