Welcome¶

This is a project aiming at developing a build tool for ATS. It is based on CMake. Currently, it provides some very useful CMake modules for ATS users to simplify building processes. In the near future, it will support downloading artifacts from a server to help you utilize third party ATS libraries.

The project is hosted on GitHub. Welcome to contribute.

Table of Contents¶

Examples¶

I will try to cover more usage details in the following examples.

Multiple Executables¶

This project involves multiple executables in one project. Source files can be found here.

SimpleUsage
|   CMakeLists.txt
|   gcd.dats                    # compute GCD using lambda
|   lambda.dats                 # implementation of simple lambda calculas
|   lambda.sats                 # definition of simple lambda calculas
|   lambda_env.dats             # lambda evaluation environment
|   prime.dats                  # compute prime number using lambda
|
\---build                               # out-of-source build dir
        ...

What we want are two executables, gcd and prime.

CMAKE_MINIMUM_REQUIRED (VERSION 2.8)
PROJECT (SIMPLE_USAGE C)

FIND_PACKAGE (ATS REQUIRED)
IF (NOT ATS_FOUND)
	MESSAGE (FATAL_ERROR "ATS Not Found!")
ENDIF ()

SET (LAMBDA lambda.sats lambda.dats lambda_env.dats)

ATS_COMPILE (GCD_SRC ${LAMBDA} gcd.dats)
ATS_COMPILE (PRIME_SRC ${LAMBDA} prime.dats)

ADD_EXECUTABLE (gcd ${GCD_SRC})
ADD_EXECUTABLE (prime ${PRIME_SRC})

Local CMake Modules¶

Sometimes, you may want to use these CMake moduls locally. I will modify the last example with locally loaded ATS modules. Source files can be found here.

LocalModule
|   CMakeLists.txt
|   gcd.dats
|   lambda.dats
|   lambda.sats
|   lambda_env.dats
|   prime.dats
|
+---build
\---cmake
        ATSCC.cmake
        FindATS.cmake

I put the CMake modules under ${CMAKE_CURRENT_SOURCE_DIR}/cmake. And the CMakeLists.txt should be updated as follows.

CMAKE_MINIMUM_REQUIRED (VERSION 2.8)
PROJECT (SIMPLE_USAGE C)

SET (CMAKE_MODULE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/cmake)
INCLUDE (ATSCC)

FIND_PACKAGE (ATS REQUIRED)
IF (NOT ATS_FOUND)
	MESSAGE (FATAL_ERROR "ATS Not Found!")
ENDIF ()

SET (LAMBDA lambda.sats lambda.dats lambda_env.dats)

ATS_COMPILE (GCD_SRC ${LAMBDA} gcd.dats)
ATS_COMPILE (PRIME_SRC ${LAMBDA} prime.dats)

ADD_EXECUTABLE (gcd ${GCD_SRC})
ADD_EXECUTABLE (prime ${PRIME_SRC})

Inside the Code¶

This page is a reference to all macros/functions in ATSCC.cmake and FindATS.cmake.

Tips for filename/path

Most of commands/macros in CMake, and most of commands of Lunix require filenames/paths contain NO space. So, I assume no space in any of the filenames/paths. If you get errors, first check if there is any space in any filenames/paths, and remove them. It is always good to make a space-free filename/path.

FindATS Module¶

FIND_PACKAGE (ATS REQUIRED)¶

Quick Ref

• Input

  ATSHOME environment variable.

• Output (CMake variables)

  ATS_HOME ATSCC ATSOPT ATSCC_FLAGS ATS_INCLUDE_DIRS ATS_LIBRARIES ATS_VERBOSE: False by default

• Effects (CMake variables for internal usage)

  ATS_INCLUDE_DIR ATS_LIBRARY CMAKE_C_COMPILER

This is a standard CMake FindXXX module. CMake community has a documentation about how to write a FindXXX module, here. You have to write this in your CMakeLists.txt in order to use ATS.

In my FindATS.cmake, I use environment variable ATSHOME to lookup ATS binaries. And if it is found, a series of CMake variables will be set. They are the followings.

ATS_Home:

Set to the same value as environment variable ATSHOME.

ATS_INCLUDE_DIR:

For internal usage only. Set to the include directories of ATS. Its value is ${ATS_HOME}/ccomp/runtime.

ATS_LIBRARY:

For internal usage only. Set to the link directories of ATS. Its value is ${ATS_HOME}/ccomp/lib.

ATS_INCLUDE_DIRS:

Its the same value as ${ATS_INCLUDE_DIR}, but it is for users.

ATS_LIBRARIES:

Its the same value as ${ATS_LIBRARY}, but it is for users.

Note

These two internal variables and two user variables are compliant to CMake naming conventions. Please refer to CMake documentations.

ATS_VERBOSE:

False by defalut. If set to ture, it will produce more informations during making process. Please set it only after FIND_PACKAGE (ATS ...). Otherwise, it will be reset to default value inside the FindATS module.

Example

FIND_PACKAGE (ATS REQUIRED)
IF (NOT ATS_FOUND)
    MESSAGE (FATAL_ERROR "ATS Not Found!")
ENDIF ()

SET (ATS_VERBOSE True)

ATSCC:

It is set to the full path of atscc executable.

ATSOPT:

It is set to the full path of atsopt executable.

ATSCC_FLAGS:

It is set to empty.

CMAKE_C_COMPILER:

For internal usage only. This is a trick. First, atscc will call atsopt and then gcc to compile the code. Second, atscc includes many useful arguments for gcc so that it can correctly find all runtime dependencies. Thrid, by setting C compiler to atscc, CMake will invoke atscc to compile C code, thus utilizing atscc‘s extra arguments to locate all necessary headers and libraries. You won’t need to use this. But I think it’s better to let you know this.

Example

FIND_PACKAGE (ATS REQUIRED)

IF (NOT ATS_FOUND)
    MESSAGE (FATAL_ERROR "ATS Not Found!")
ENDIF ()

Result

If ATS is found, those commands/macros/variables will be avaiable. Otherwise, ATS Not Found! will be printed and CMake will terminate.

ATSCC Module¶

ATS_INCLUDE (path ...)¶

This macro will add all paths as directories to look up for SATS/HATS files. This will result in multiple IATS flags for atsopt. The paths should be relative to ${CMAKE_CURRENT_LIST_DIR}, or they are absolute paths. You need at least one path as a parameter.

Example

ATS_INCLUDE (SATS HATS /usr/include/ats028/SATS)

Result

${CMAKE_CURRENT_LIST_DIR}/SATS, ${CMAKE_CURRENT_LIST_DIR}/HATS and /usr/include/ats028/SATS will be added to atsopt -IATS flags.

ATS_COMPILE (output src ...)¶

Quick Ref

• Input

  OUTPUT

  The name of the variable where to store output filenames. It is a list, not a string.

  Source filenames

  Specify all related files to be compiled. Seperate them using space. Only DATS and SATS files are needed.

• Output

  OUTPUT

  All fullpaths of C files will be stored in OUTPUT.

This macro will compile all sources provided into corresponding C sources, and store all generated C file names into ${output} for further use. Those file names are absolute paths.

The dependencies will be automatically generated. This includes two parts. First, all staload (for sats file) and #include (for hats file) will be detected using atsopt -dep1. Second, all generated C files will also be involved in dependencies. For example, if a.sats includes a.hats, and a.dats staload a.sats. Then a dependency a_dats.c -> a_sats.c will be generated so that if a.hats changes, a_dats.c will be regenerated.

Example

ATS_COMPILE (TEST_SRC SATS/hello.sats DATS/hello.dats DATS/main.dats)

Result

All C files compiled from ATS files are stored in TEST_SRC. They are SATS/hello_sats.c, DATS/hello_dats.c and DATS/main_dats.c.

Note that there is no need to specify CATS files and HATS files, since atsopt will automatically find them in the paths specified by ATS_INCLUDE ().

Warning

CMake has some really confusing terms, like list and string. Basically, a list is a single string where inner items are seperated using semicolon, while a string is seperated using spaces. set (MyString "Hello World") will give you a string, while set (MyList Hello World) will give you a list, which is stored as Hello;World. Also, you need to pay attention to quotes. set (MyString2 "${MyString}") will be a string, while set (MyList2 ${MyString}) will be a list, since it will evaluate to set (MyList2 Hello World). You should search “CMake List String” on Google for more information.

ATS_DEPGEN (OUTPUT SRC) _{(For internal usage only)}¶

Quick Ref

• Input:

  A single source file path.

• Output:

  ${OUTPUT} will contain space separated dependencies. It is a string, not a list. All dependencies are fullpaths.

It is called by ATS_COMPILE (). It runs atsopt to generate ATS dependencies. For example, if hello.dats depends on hello.sats, it will append the fullpath of hello.sats to the output. Later, it will call ATS_DEPGEN_C () to generate C dependencies. Take the above example, it will make hello_dats.c depends on hello_sats.c. This enables hello_dats.c to be regenerated when hello.sats is modified.

ATS_DEPGEN_C (DEP) _{(For internal usage only)}¶

Quick Ref

• Input:

  All dependencies for a source file.

• Output:

  C dependencies will be appended.

It is called by ATS_DEPGEN (). For example, if we have 1.sats <- 2.sats, then we add 1_sats.c <- 2_sats.c.

This is useful when 1.sats inludes a HATS file. When the HATS file updates, 1.sats is not changed, but 1_sats.c is changed. And since 2.sats depends on 1.sats and it is not changed, 2_sats.c is not recompiled. However, it should be recompiled since the actual meaning of 1.sats has been changed. Thus, we need to append C dependencies.

Useful CMake Commands¶

These are useful CMake commands. They are parts of CMake, not my project. But I think you will need them everywhere. If you need detail information, please refer to CMake offical documents.

Note

You can always check out latest usage of CMake here. Every commands are listed and documented.

TARGET_LINK_LIBRARIES (target libs...)¶

It will link those libraries to a specific target listed in the same CMake list files. Those library names could be confusing sometime. If you want to link a library file libzlog.so.2, you may try zlog or libzlog as parameters to TARGET_LINK_LIBRARIES.

ADD_EXECUTABLE (output src ...)¶

It will produce the binary output from all the source files.

Contacts¶

If you find something wrong, please email me at hwwu AT bu DOT edu.

Features¶

• It uses CMake, which is cross platform.
• Automatic dependency resolving. This is especially useful, and is first supported by this project.
• Easy to use.

Quick Start¶

• Install CMake. You can download them from CMake Website.

  Note

  Version 2.8.3+ required, since ATS-CMake uses CMAKE_CURRENT_LIST_DIR variable

• Install ATS from ATS Website.

  Note

  You need to setup environment variables ATSHOME and PATH properly. ATS-CMake use them to locate your currently available ATS binaries. For example:

  export ATSHOME=/cs/coursedata/cs320/ATS029
  export ATSHOMERELOC=ATS-0.2.9
  export PATH=$PATH:$ATSHOME/bin
  

• Download this project from GitHub. Particularly, FindATS.cmake and ATSCC.cmake.

• Copy those CMake modules into CMake module dir.

  Note

  Normally, the module dir is /usr/share/cmake-x.x.x/Modules. You can find more information at CMake Website.

• Start using it!

Hello World¶

Suppose you have a small project containing hello.sats, hello.dats and main.dats. Then, you need to write a CMakeLists.txt like the following

CMAKE_MINIMUM_REQUIRED (VERSION 2.8)

#Specify project name as HELLOWORLD, and project language as C. Yes, it is C
PROJECT (HELLOWORLD C)     

#Actually, this makes CMake to find ATSCC.cmake using FindATS.cmake
FIND_PACKAGE (ATS REQUIRED) 

#The ATS_FOUND is automatically set by FindATS.cmake module
IF (NOT ATS_FOUND) 
    MESSAGE (FATAL_ERROR "ATS Not Found!")
ENDIF ()

#ATS_COMIPLE is the core of this project. To put it simple, 
#you just specify related SATS/DATS files here, and use a variable
#like TEST_SRC to store the outputs. ATS_COMPILE will analyze their 
#dependencies, compile them into C files, and store those C file 
#names into TEST_SRC

#You can use ATS_INCLUDE to add search paths for the compiler to
#find proper SATS/HATS files.    
ATS_COMPILE (TEST_SRC 
    hello.sats 
    hello.dats 
    main.dats)

#It generate the final file "test" using all the C files in TEST_SRC.
#And this is a standard CMake command
ADD_EXECUTABLE (test ${TEST_SRC}) 

After you have a correct CMakeLists.txt, we just need to invoke cmake. But please make sure that you have a correct project layout.

HelloWorld
|   CMakeLists.txt
|   hello.dats
|   hello.sats
|   main.dats
|
\---build
        ...

Now, go to ./build and invoke cmake. It will generate a makefile for you under ./build. You can invoke make now, to build the project as usual, and congratulations! The output binary will be under ./build

>>> cd ./build
>>> cmake ..
...
>>> make
...

What’s Next¶

In the followings, I will try to cover more use cases, and then look into what’s happening in the CMake modules, so that you can better use them, and even help me develop it.