de528ffb17
Constants actual arguments in function/subroutine calls are currently lowered as allocas + store. This can sometimes inhibit LTO and the constant will not be propagated to the called function. Particularly in cases where the function/subroutine call happens inside a condition. This patch changes the lowering of these constant actual arguments to a global constant + fir.address_of_op. This lowering makes it easier for LTO to propagate the constant. The optimization must be enabled explicitly to run. Use -mmlir --enable-constant-argument-globalisation to enable. --------- Co-authored-by: Dmitriy Smirnov <dmitriy.smirnov@arm.com>
Flang
Flang is a ground-up implementation of a Fortran front end written in modern C++. It started off as the f18 project (https://github.com/flang-compiler/f18) with an aim to replace the previous flang project (https://github.com/flang-compiler/flang) and address its various deficiencies. F18 was subsequently accepted into the LLVM project and rechristened as Flang.
Please note that flang is not ready yet for production usage.
Getting Started
Read more about flang in the docs directory. Start with the compiler overview.
To better understand Fortran as a language and the specific grammar accepted by flang, read Fortran For C Programmers and flang's specifications of the Fortran grammar and the OpenMP grammar.
Treatment of language extensions is covered in this document.
To understand the compilers handling of intrinsics, see the discussion of intrinsics.
To understand how a flang program communicates with libraries at runtime, see the discussion of runtime descriptors.
If you're interested in contributing to the compiler, read the style guide and also review how flang uses modern C++ features.
If you are interested in writing new documentation, follow LLVM's Markdown style guide.
Consult the Getting Started with Flang for information on building and running flang.