# Template file for 'llvm' pkgname=llvm version=2.9 distfiles=" http://www.llvm.org/releases/${version}/llvm-${version}.tgz http://www.llvm.org/releases/${version}/clang-${version}.tgz" build_style=gnu-configure configure_args="--disable-expensive-checks --disable-debug-runtime --enable-targets=all --enable-bindings=none --enable-optimize --enable-shared --enable-libffi --enable-llvmc-dynamic" short_desc="Low Level Virtual Machine" maintainer="Juan RP " checksum=" 661236cfa17428b48cfa9cbb9909f7569c64b8ecd219fd91dbc00e3b557b3779 70c41f3f782a71cbaa7bc8d6ea29fce4263ad3e8558dfecc6dc11cdef17909df" long_desc=" Low Level Virtual Machine (LLVM) is: 1. A compilation strategy designed to enable effective program optimization across the entire lifetime of a program. LLVM supports effective optimization at compile time, link-time (particularly interprocedural), run-time and offline (i.e., after software is installed), while remaining transparent to developers and maintaining compatibility with existing build scripts. 2. A virtual instruction set - LLVM is a low-level object code representation that uses simple RISC-like instructions, but provides rich, language-independent, type information and dataflow (SSA) information about operands. This combination enables sophisticated transformations on object code, while remaining light-weight enough to be attached to the executable. This combination is key to allowing link-time, run-time, and offline transformations. 3. A compiler infrastructure - LLVM is also a collection of source code that implements the language and compilation strategy. The primary components of the LLVM infrastructure are a GCC-based C & C++ front-end, a link-time optimization framework with a growing set of global and interprocedural analyses and transformations, static back-ends for many popular (and some obscure) architectures, a back-end which emits portable C code, and a Just-In-Time compilers for several architectures. 4. LLVM does not imply things that you would expect from a high-level virtual machine. It does not require garbage collection or run-time code generation (In fact, LLVM makes a great static compiler!). Note that optional LLVM components can be used to build high-level virtual machines and other systems that need these services." subpackages="libclang clang-analyzer clang clang-devel libllvm" subpackages="${subpackages} llvm-devel llvm-docs" # XXX: Investigate bindings support. Add_dependency run libgcc Add_dependency run glibc Add_dependency run libstdc++ Add_dependency run libffi Add_dependency run libclang Add_dependency run libllvm Add_dependency build groff Add_dependency build perl Add_dependency build python Add_dependency build libffi-devel pre_configure() { # Move clang files into the llvm source. if [ -d ${XBPS_BUILDDIR}/clang-${version} ]; then mv ${XBPS_BUILDDIR}/clang-${version} ${wrksrc}/tools/clang fi } pre_install() { # for pod2html export PATH=$PATH:/usr/lib/perl5/core_perl/bin }