LLVM 1.2 Release Notes
  1. Introduction
  2. What's New?
  3. Portability and Supported Platforms
  4. Installation Instructions
  5. Known Problems
  6. Additional Information

Written by the LLVM team

Introduction

This document contains the release notes for the LLVM compiler infrastructure, release 1.2. Here we describe the status of LLVM, including any known problems and bug fixes from the previous release. The most up-to-date version of this document can be found on the LLVM 1.2 web site. If you are not reading this on the LLVM web pages, you should probably go there because this document may be updated after the release.

For more information about LLVM, including information about potentially more current releases, please check out the main web site. If you have questions or comments, the LLVM developer's mailing list is a good place to send them.

Note that if you are reading this file from CVS, this document applies to the next release, not the current one. To see the release notes for the current or previous releases, see the releases page.

What's New?

This is the third public release of the LLVM compiler infrastructure. This release incorporates several new features (including exception handling support for the native code generators, the start of a source-level debugger, and profile guided optimizer components), many speedups and code quality improvements, documentation improvements, and a small collection of important bug fixes. Overall, this is our highest quality release to date, and we encourage you to upgrade if you are using LLVM 1.0 or 1.1.

At this time, LLVM is known to correctly compile and run all C & C++ SPEC CPU2000 benchmarks, the Olden benchmarks, and the Ptrdist benchmarks. It has also been used to compile many other programs. LLVM now also works with a broad variety of C++ programs, though it has still received less testing than the C front-end.

This release implements the following new features:
  1. A new LLVM source-level debugger has been started.
  2. LLVM 1.2 encodes bytecode files for large programs in 10-30% less space.
  3. LLVM can now feed profile information back into optimizers for Profile Guided Optimization, includes a simple basic block reordering pass, and supports edge profiling as well as function and block-level profiling.
  4. The LLVM JIT lazily initializes global variables, reducing startup time for programs with lots of globals (like C++ programs).
  5. The build and installation infrastructure in this release is dramatically improved. There is now an autoconf/AutoRegen.sh script that you can run to rebuild the configure script and its associated files as well as beta support for "make install" and RPM package generation.
  6. The "tblgen" tool is now documented.
  7. The target-independent code generator got several improvements:
    • It can now fold spill code into instructions (on targets that support it).
    • A generic machine code spiller/rewriter was added. It provides an API for global register allocators to eliminate virtual registers and add the appropriate spill code.
    • The represenation of machine code basic blocks is more efficient and has an easier to use interface.
  8. LLVM now no longer depends on the boost library.
  9. The X86 backend now generates substantially better native code and is faster.
  10. The C backend has been turned moved from the "llvm-dis" tool to the "llc" tool. You can activate it with "llc -march=c foo.bc -o foo.c".
  11. LLVM includes a new interprocedural optimization that marks global variables "constant" when they are provably never written to.
  12. LLVM now includes a new interprocedural optimization that converts small "by reference" arguments to "by value" arguments, which often improves the performance of C++ programs substantially.
  13. Bugpoint can now do a better job reducing miscompilation problems by reducing programs down to a particular loop nest, instead of just the function being miscompiled.
  14. The GCSE and LICM passes can now operate on side-effect-free function calls, for example hoisting calls to "strlen" and folding "cos" common subexpressions.
  15. LLVM has early support for a new select instruction, though it is currently only supported by the C backend.
In this release, the following missing features were implemented:
  1. Exception handling in the X86 & Sparc native code generators is now supported
  2. The C/C++ front-end now supports the GCC __builtin_return_address and __builtin_frame_address extensions. These are also supported by the X86 backend and by the C backend.
  3. [X86] Missing cast from ULong -> Double, cast FP -> bool and support for -9223372036854775808
  4. The C/C++ front-end now supports the "labels as values" GCC extension, often used to build "threaded interpreters".
In this release, the following Quality of Implementation issues were fixed:
  1. JIT should lazily initialize global variables
  2. [X86] X86 Backend never releases memory for machine code structures
  3. [vmcore] OpaqueType objects memory leak
  4. [llvmgcc] C front-end does not compile "extern inline" into linkonce
  5. Bytecode format inconsistent
  6. [loadvn/inline/scalarrepl] Slow optimizations with extremely large basic blocks
  7. [asmparser] Really slow parsing of types with complex upreferences
  8. [llvmgcc] C front-end does not emit 'zeroinitializer' when possible
  9. [llvmgcc] Structure copies result in a LOT of code
  10. LLVM is now much more memory efficient when handling large zero initialized arrays
  11. [llvmgcc] Local array initializers are expanded into large amounts of code
In this release, the following build problems were fixed:
  1. [build] Makefiles break if C frontend target string has unexpected value
  2. [build] hard-wired assumption that shared-library extension is ".so"
  3. make tools-only doesn't make lib/Support
In this release, the following Code Quality issues were fixed:
  1. [loopsimplify] Many pointless phi nodes are created
  2. [x86] wierd stack/frame pointer manipulation
  3. The X86 backend now generate fchs to negate floating point numbers, compiles memcpy() into the rep movs instruction, and makes much better use of powerful addressing modes and instructions.
In this release, the following bugs in the previous release were fixed:

Bugs in the LLVM Core:

  1. [licm] LICM promotes volatile memory locations to registers
  2. [licm] Memory read after free causes infrequent crash
  3. [indvars] Induction variable canonicalization always makes 32-bit indvars
  4. [constantmerge] Merging globals can cause use of invalid pointers!
  5. [bcreader] Bytecode reader misreads 'long -9223372036854775808'!
  6. Tail duplication does not update SSA form correctly.
  7. VMCore mishandles double -0.0
  8. [X86] X86 backend code generates -0.0 as +0.0
  9. [loopsimplify] Loopsimplify incorrectly updates dominator information
  10. [pruneeh] -pruneeh pass removes invoke instructions it shouldn't
  11. [sparc] Boolean constants are emitted as true and false
  12. [interpreter] va_list values silently corrupted by function calls
  13. Tablegen aborts on errors
  14. [inliner] Error inlining intrinsic calls into invoke instructions
  15. Linking weak and strong global variables is dependent on link order
  16. Variables used to define non-printable FP constants are externally visible
  17. CBE gives linkonce functions wrong linkage semantics
  18. [JIT] Programs cannot resolve the fstat function
  19. [indvars] Induction variable analysis violates LLVM invariants
  20. [execution engines] Unhandled cast constant expression
  21. [Sparc] Code generator asserts on alloca of zero size type

Bugs in the C/C++ front-end:

  1. Need weak linkage on memory management functions in libc runtime to allow them to be overriden
  2. [llvm-gcc] asserts when an extern inline function is redefined
  3. [llvmg++] Dynamically initialized constants cannot be marked 'constant'
  4. [llvmgcc] floating-point unary minus is incorrect for +0.0
  5. [llvm-gcc] miscompilation of 'X = Y = Z' with aggregate values
  6. [llvmgcc] Invalid code created for complex division operation
  7. [llvmgcc] Incorrect code generation for pointer subtraction
  8. [llvmg++] Crash assigning pointers-to-members with casted types
  9. [llvm-g++] Cleanups and gotos don't mix properly
  10. [llvmgcc] Crash on auto register variable with specific register specified
Portability and Supported Platforms

LLVM has been extensively tested on Intel and AMD machines running Red Hat Linux and FreeBSD. It has also been tested on Sun UltraSPARC workstations running Solaris 8. Additionally, LLVM works on Mac OS X 10.3 and above, but only with the C backend or interpreter (no native backend for the PowerPC is available yet). The core LLVM infrastructure uses "autoconf" for portability, so hopefully we work on more platforms than that. However, it is likely that we missed something and that minor porting is required to get LLVM to work on new platforms. We welcome portability patches and error messages.

Known Problems

This section contains all known problems with the LLVM system, listed by component. As new problems are discovered, they will be added to these sections. If you run into a problem, please check the LLVM bug database and submit a bug if there isn't already one.

Experimental features included with this release

The following components of this LLVM release are either untested, known to be broken or unreliable, or are in early development. These components should not be relied on, and bugs should not be filed against them, but they may be useful to some people. In particular, if you would like to work on one of these components, please contact us on the llvmdev list.

Known problems with the LLVM Core
Bugs in 1.2 fixed in 1.3:
Known problems with the C front-end
Bugs
Bugs in 1.2 fixed in 1.3:
Notes

If you run into GCC extensions which have not been included in any of these lists, please let us know (also including whether or not they work).

Known problems with the C++ front-end

For this release, the C++ front-end is considered to be fully functional but has not been tested as thoroughly as the C front-end. It has been tested and works for a number of non-trivial programs, but there may be lurking bugs. Please report any bugs or problems.

Bugs
Notes
Known problems with the X86 back-end
Bugs in 1.2 fixed in 1.3:
Known problems with the Sparc back-end
Known problems with the C back-end
Additional Information

A wide variety of additional information is available on the LLVM web page, including mailing lists and publications describing algorithms and components implemented in LLVM. The web page also contains versions of the API documentation which is up-to-date with the CVS version of the source code. You can access versions of these documents specific to this release by going into the "llvm/doc/" directory in the LLVM tree.

If you have any questions or comments about LLVM, please feel free to contact us via the mailing lists.


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