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“llvm-toolchain-3.3” 1:3.3-5ubuntu4~precise1 source package in Ubuntu

Changelog

llvm-toolchain-3.3 (1:3.3-5ubuntu4~precise1) precise-proposed; urgency=low

  * Copy package from saucy to precise.
  * Use renamed cloog and isl dev packages.
  * Drop dependency on new binutils.
  * Don't link with gold.
  * Drop the -latomic patch.
  * Explicitly add zlib1g-dev to llvm-3.3-dev.
    - The backport links against libz for some reason, while saucy does not.
 -- Maarten Lankhorst <email address hidden>   Mon, 23 Dec 2013 12:50:45 +0100

Upload details

Uploaded by:
Maarten Lankhorst on 2013-12-23
Sponsored by:
Timo Aaltonen
Uploaded to:
Precise
Original maintainer:
Ubuntu Developers
Component:
main
Architectures:
any all
Section:
devel
Urgency:
Low Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Precise updates on 2014-01-10 main devel

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llvm-toolchain-3.3_3.3.orig-clang-tools-extra.tar.bz2 85.7 KiB 27d6d269287d22c47019558929a5af71
llvm-toolchain-3.3_3.3.orig-clang.tar.bz2 7.3 MiB 7043daa073c8e0a423a29079ca8f9fdb
llvm-toolchain-3.3_3.3.orig-compiler-rt.tar.bz2 1.1 MiB bd2c31717aafe4c82cd493c7ce4e3c5b
llvm-toolchain-3.3_3.3.orig-lldb.tar.bz2 2.5 MiB 72a7d8f0ab7e5fcd3fa05ddd4ee1ed9d
llvm-toolchain-3.3_3.3.orig-polly.tar.bz2 6.1 MiB 79c248e7cba6a9e26ad74fbee976f258
llvm-toolchain-3.3_3.3.orig.tar.bz2 10.1 MiB 737613631f4f2a74fb969c0697cca262
llvm-toolchain-3.3_3.3-5ubuntu4~precise1.debian.tar.gz 181.6 KiB be731598a2f8783d4206337634c14049
llvm-toolchain-3.3_3.3-5ubuntu4~precise1.dsc 4.7 KiB 535d96ecc4e091111a6819c30848a43c

Binary packages built by this source

clang-3.3: C, C++ and Objective-C compiler (LLVM based)

 Clang project is a C, C++, Objective C and Objective C++ front-end
 for the LLVM compiler. Some of its goals include the following:
 .
 End-User Features:
 .
    * Fast compiles and low memory use
    * Expressive diagnostics (examples)
    * GCC compatibility
 .
 Utility and Applications:
 .
    * Modular library based architecture
    * Support diverse clients (refactoring, static analysis, code
      generation, etc)
    * Allow tight integration with IDEs
    * Use the LLVM 'BSD' License
 .
 Internal Design and Implementation:
 .
    * A real-world, production quality compiler
    * A simple and hackable code base
    * A single unified parser for C, Objective C, C++, and Objective C++
    * Conformance with C/C++/ObjC and their variants

clang-3.3-doc: C, C++ and Objective-C compiler (LLVM based) - Documentation

 Clang project is a C, C++, Objective C and Objective C++ front-end
 for the LLVM compiler. Some of its goals include the following:
 .
 End-User Features:
 .
    * Fast compiles and low memory use
    * Expressive diagnostics (examples)
    * GCC compatibility
 .
 Utility and Applications:
 .
    * Modular library based architecture
    * Support diverse clients (refactoring, static analysis, code
      generation, etc)
    * Allow tight integration with IDEs
    * Use the LLVM 'BSD' License
 .
 Internal Design and Implementation:
 .
    * A real-world, production quality compiler
    * A simple and hackable code base
    * A single unified parser for C, Objective C, C++, and Objective C++
    * Conformance with C/C++/ObjC and their variants
 .
 This package contains the documentation.

clang-format-3.3: Tool to format C/C++/Obj-C code

 Clang-format is both a library and a stand-alone tool with the goal of
 automatically reformatting C++ sources files according to configurable
 style guides. To do so, clang-format uses Clang's Lexer to transform an
 input file into a token stream and then changes all the whitespace around
 those tokens. The goal is for clang-format to both serve both as a user
 tool (ideally with powerful IDE integrations) and part of other
 refactoring tools, e.g. to do a reformatting of all the lines changed
 during a renaming.
 .
 This package also provides vim and emacs plugins.

cpp11-migrate-3.3: Tool to convert C++98 and C++03 code to C++11

 The purpose of the C++11 Migrator is to do source-to-source translation to
 migrate existing C++ code to use C++11 features to enhance
 maintainability, readability, runtime performance, and compile-time
 performance. Development is still early and transforms fall mostly into
 the first two categories. The migrator is based on Clang's LibTooling and
 the AST Matching library.

libclang-3.3-dev: clang library - Development package

 Clang project is a C, C++, Objective C and Objective C++ front-end
 for the LLVM compiler. Some of its goals include the following:
 .
 End-User Features:
 .
    * Fast compiles and low memory use
    * Expressive diagnostics (examples)
    * GCC compatibility
 .
 Utility and Applications:
 .
    * Modular library based architecture
    * Support diverse clients (refactoring, static analysis, code
      generation, etc)
    * Allow tight integration with IDEs
    * Use the LLVM 'BSD' License
 .
 Internal Design and Implementation:
 .
    * A real-world, production quality compiler
    * A simple and hackable code base
    * A single unified parser for C, Objective C, C++, and Objective C++
    * Conformance with C/C++/ObjC and their variants
 .
 This package contains the clang headers to develop extensions over
 libclang1-3.3.

libclang-common-3.3-dev: clang library - Common development package

 Clang project is a C, C++, Objective C and Objective C++ front-end
 for the LLVM compiler. Some of its goals include the following:
 .
 End-User Features:
 .
    * Fast compiles and low memory use
    * Expressive diagnostics (examples)
    * GCC compatibility
 .
 Utility and Applications:
 .
    * Modular library based architecture
    * Support diverse clients (refactoring, static analysis, code
      generation, etc)
    * Allow tight integration with IDEs
    * Use the LLVM 'BSD' License
 .
 Internal Design and Implementation:
 .
    * A real-world, production quality compiler
    * A simple and hackable code base
    * A single unified parser for C, Objective C, C++, and Objective C++
    * Conformance with C/C++/ObjC and their variants
 .
 This package contains the clang generic headers and some libraries
 (profiling, etc).

libclang1-3.3: clang library

 Clang project is a C, C++, Objective C and Objective C++ front-end
 for the LLVM compiler. Some of its goals include the following:
 .
 End-User Features:
 .
    * Fast compiles and low memory use
    * Expressive diagnostics (examples)
    * GCC compatibility
 .
 Utility and Applications:
 .
    * Modular library based architecture
    * Support diverse clients (refactoring, static analysis, code
      generation, etc)
    * Allow tight integration with IDEs
    * Use the LLVM 'BSD' License
 .
 Internal Design and Implementation:
 .
    * A real-world, production quality compiler
    * A simple and hackable code base
    * A single unified parser for C, Objective C, C++, and Objective C++
    * Conformance with C/C++/ObjC and their variants
 .
 This package contains the clang library.

libclang1-3.3-dbg: clang library

 Clang project is a C, C++, Objective C and Objective C++ front-end
 for the LLVM compiler. Some of its goals include the following:
 .
 End-User Features:
 .
    * Fast compiles and low memory use
    * Expressive diagnostics (examples)
    * GCC compatibility
 .
 Utility and Applications:
 .
    * Modular library based architecture
    * Support diverse clients (refactoring, static analysis, code
      generation, etc)
    * Allow tight integration with IDEs
    * Use the LLVM 'BSD' License
 .
 Internal Design and Implementation:
 .
    * A real-world, production quality compiler
    * A simple and hackable code base
    * A single unified parser for C, Objective C, C++, and Objective C++
    * Conformance with C/C++/ObjC and their variants
 .
 This package contains the debugging symbols.

libllvm-3.3-ocaml-dev: Low-Level Virtual Machine (LLVM), bindings for OCaml

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs. LLVM
 uses a single, language-independent virtual instruction set both
 as an offline code representation (to communicate code between
 compiler phases and to run-time systems) and as the compiler internal
 representation (to analyze and transform programs). This persistent
 code representation allows a common set of sophisticated compiler
 techniques to be applied at compile-time, link-time, install-time,
 run-time, or "idle-time" (between program runs).
 .
 This package provides the OCaml bindings to develop applications using llvm.

libllvm3.3: Low-Level Virtual Machine (LLVM), runtime library

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs.
 .
 This package contains the LLVM runtime library.

libllvm3.3-dbg: Low-Level Virtual Machine (LLVM), debugging symbols library

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs.
 .
 This package contains the LLVM runtime library debug symbols.

lldb-3.3: Next generation, high-performance debugger

 LLDB is a next generation, high-performance debugger. It is built as a set of
 reusable components which highly leverage existing libraries in the larger LLVM
 Project, such as the Clang expression parser and LLVM disassembler.

llvm-3.3: Low-Level Virtual Machine (LLVM)

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs. LLVM
 uses a single, language-independent virtual instruction set both
 as an offline code representation (to communicate code between
 compiler phases and to run-time systems) and as the compiler internal
 representation (to analyze and transform programs). This persistent
 code representation allows a common set of sophisticated compiler
 techniques to be applied at compile-time, link-time, install-time,
 run-time, or "idle-time" (between program runs).
 .
 The strengths of the LLVM infrastructure are its extremely
 simple design (which makes it easy to understand and use),
 source-language independence, powerful mid-level optimizer, automated
 compiler debugging support, extensibility, and its stability and
 reliability. LLVM is currently being used to host a wide variety of
 academic research projects and commercial projects. LLVM includes C
 and C++ front-ends, a front-end for a Forth-like language (Stacker),
 a young scheme front-end, and Java support is in development. LLVM can
 generate code for X86, SparcV9, PowerPC, or it can emit C code.
 .
 LLVM is the key component of the clang compiler and the gcc plugin called
 dragonegg.

llvm-3.3-dev: Low-Level Virtual Machine (LLVM), libraries and headers

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs. LLVM
 uses a single, language-independent virtual instruction set both
 as an offline code representation (to communicate code between
 compiler phases and to run-time systems) and as the compiler internal
 representation (to analyze and transform programs). This persistent
 code representation allows a common set of sophisticated compiler
 techniques to be applied at compile-time, link-time, install-time,
 run-time, or "idle-time" (between program runs).
 .
 This package provides the libraries and headers to develop applications
 using llvm.

llvm-3.3-doc: Low-Level Virtual Machine (LLVM), documentation

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs. LLVM
 uses a single, language-independent virtual instruction set both
 as an offline code representation (to communicate code between
 compiler phases and to run-time systems) and as the compiler internal
 representation (to analyze and transform programs). This persistent
 code representation allows a common set of sophisticated compiler
 techniques to be applied at compile-time, link-time, install-time,
 run-time, or "idle-time" (between program runs).
 .
 This package contains all documentation (extensive).

llvm-3.3-examples: Low-Level Virtual Machine (LLVM), examples

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs. LLVM
 uses a single, language-independent virtual instruction set both
 as an offline code representation (to communicate code between
 compiler phases and to run-time systems) and as the compiler internal
 representation (to analyze and transform programs). This persistent
 code representation allows a common set of sophisticated compiler
 techniques to be applied at compile-time, link-time, install-time,
 run-time, or "idle-time" (between program runs).
 .
 This package contains examples for using LLVM, both in developing
 extensions to LLVM and in using it to compile code.

llvm-3.3-runtime: Low-Level Virtual Machine (LLVM), bytecode interpreter

 The Low-Level Virtual Machine (LLVM) is a collection of libraries and
 tools that make it easy to build compilers, optimizers, Just-In-Time
 code generators, and many other compiler-related programs. LLVM
 uses a single, language-independent virtual instruction set both
 as an offline code representation (to communicate code between
 compiler phases and to run-time systems) and as the compiler internal
 representation (to analyze and transform programs). This persistent
 code representation allows a common set of sophisticated compiler
 techniques to be applied at compile-time, link-time, install-time,
 run-time, or "idle-time" (between program runs).
 .
 This package provides the minimal required to execute programs in LLVM
 format.