${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/Modules
)
-IF(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64") #Intel processor 64 bits
- message(STATUS "System processor: amd64")
- set(HAVE_RAWCTX 1)
-
-ELSEIF(CMAKE_SYSTEM_PROCESSOR MATCHES "x86") #Intel processor 32 bits
- message(STATUS "System processor: x86")
- set(PROCESSOR_i686 1)
- set(HAVE_RAWCTX 1)
-
-ELSEIF(CMAKE_SYSTEM_PROCESSOR MATCHES "^i.86$")
+# x86_64
+# x86
+# i.86
+IF(CMAKE_SYSTEM_PROCESSOR MATCHES ".86")
IF(${ARCH_32_BITS})
set(PROCESSOR_i686 1)
+ set(SIMGRID_SYSTEM_PROCESSOR "${CMAKE_SYSTEM_PROCESSOR}")
message(STATUS "System processor: ${CMAKE_SYSTEM_PROCESSOR}")
ELSE(${ARCH_32_BITS})
message(STATUS "System processor: amd64")
+ set(SIMGRID_SYSTEM_PROCESSOR "amd64")
set(PROCESSOR_x86_64 1)
set(PROCESSOR_i686 0)
ENDIF(${ARCH_32_BITS})
ELSE(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64") #PROCESSOR NOT fIND
message(STATUS "PROCESSOR NOT FOUND: ${CMAKE_SYSTEM_PROCESSOR}")
-ENDIF(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64")
+ENDIF(CMAKE_SYSTEM_PROCESSOR MATCHES ".86")
message(STATUS "Cmake version ${CMAKE_MAJOR_VERSION}.${CMAKE_MINOR_VERSION}")
### Test that we have a way to create semaphores
if(HAVE_SEM_OPEN_LIB)
- exec_program("${CMAKE_C_COMPILER} -lpthread ${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/test_prog/prog_sem_open.c -o testprog"
+ exec_program("${CMAKE_C_COMPILER} ${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/test_prog/prog_sem_open.c -lpthread -o testprog"
OUTPUT_VARIABLE HAVE_SEM_OPEN_run)
if(HAVE_SEM_OPEN_run)
set(HAVE_SEM_OPEN 0)
+ message(STATUS "Warning: sem_open not compilable")
else(HAVE_SEM_OPEN_run)
exec_program("./testprog" RETURN_VALUE HAVE_SEM_OPEN_run2 OUTPUT_VARIABLE var_compil)
if(HAVE_SEM_OPEN_run2)
set(HAVE_SEM_OPEN 0)
+ message(STATUS "Warning: sem_open not executable")
else(HAVE_SEM_OPEN_run2)
set(HAVE_SEM_OPEN 1)
endif(HAVE_SEM_OPEN_run2)
endif(HAVE_SEM_OPEN_LIB)
if(HAVE_SEM_INIT_LIB)
- exec_program("${CMAKE_C_COMPILER} -lpthread ${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/test_prog/prog_sem_init.c -o testprog"
+ exec_program("${CMAKE_C_COMPILER} ${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/test_prog/prog_sem_init.c -lpthread -o testprog"
OUTPUT_VARIABLE HAVE_SEM_INIT_run)
if(HAVE_SEM_INIT_run)
set(HAVE_SEM_INIT 0)
+ message(STATUS "Warning: sem_init not compilable")
else(HAVE_SEM_INIT_run)
exec_program("./testprog" RETURN_VALUE HAVE_SEM_INIT_run OUTPUT_VARIABLE var_compil)
if(HAVE_SEM_INIT_run)
set(HAVE_SEM_INIT 0)
+ message(STATUS "Warning: sem_init not executable")
else(HAVE_SEM_INIT_run)
set(HAVE_SEM_INIT 1)
endif(HAVE_SEM_INIT_run)
endif(HAVE_SEM_INIT_LIB)
if(NOT HAVE_SEM_OPEN AND NOT HAVE_SEM_INIT)
- message(FATAL_ERROR "Semaphores are not usable, but they are mandatory to threads (you may need to mount /dev).")
+ message(FATAL_ERROR "Semaphores are not usable (neither sem_open nor sem_init is both compilable and executable), but they are mandatory to threads (you may need to mount /dev).")
endif(NOT HAVE_SEM_OPEN AND NOT HAVE_SEM_INIT)
### Test that we have a way to timewait for semaphores
set(GRAS_BIGENDIAN 0)
endif(BIGENDIAN)
+# The syntax of this magic string is given in src/gras/DataDesc/ddt_convert.c
+# It kinda matches the values that the gras_arch_desc_t structure can take
+
+# Basically, the syntax is one char l or B for endianness (little or Big)
+# then there is a bunch of blocks separated by _.
+# C block is for char, I block for integers, P block for pointers and
+# D block for floating points
+# For each block there is an amount of chuncks separated by :, each of
+# them describing a data size. For example there is only one chunk
+# in the char block, because no architecture provide several sizes
+# of chars. In integer block, there is 4 chunks: "short int", "int",
+# "long int", "long long int". There is 2 pointer chunks for data
+# pointers and pointers on functions (thanks to the AMD64 madness).
+# Thee two floating points chuncks are for "float" and "double".
+# Each chunk is of the form datasize/minimal_alignment_size
+
+# These informations are used to convert a data stream from one
+# formalism to another. Only the GRAS_ARCH is transfered in the
+# stream, and it it of cruxial importance to keep these detection
+# information here synchronized with the data hardcoded in the
+# source in src/gras/DataDesc/ddt_convert.c
+
+# If you add something here (like a previously unknown architecture),
+# please add it to the source code too.
+# Please do not modify stuff here since it'd break the GRAS protocol.
+# If you really need to change stuff, please also bump
+# GRAS_PROTOCOL_VERSION in src/gras/Msg/msg_interface.h
+
SET(GRAS_THISARCH "none")
if(val_big MATCHES "l_C:1/1:_I:2/1:4/1:4/1:8/1:_P:4/1:4/1:_D:4/1:8/1:")
SET(GRAS_ARCH_32_BITS 0)
SET(GRAS_THISARCH 4)
endif(val_big MATCHES "l_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/8:")
+if(val_big MATCHES "l_C:1/1:_I:2/2:4/4:4/4:8/8:_P:8/8:8/8:_D:4/4:8/8:")
+ #gras_arch=5; gras_size=64; gras_arch_name=little64_2;
+ SET(GRAS_ARCH_32_BITS 0)
+ SET(GRAS_THISARCH 5)
+endif(val_big MATCHES "l_C:1/1:_I:2/2:4/4:4/4:8/8:_P:8/8:8/8:_D:4/4:8/8:")
if(val_big MATCHES "B_C:1/1:_I:2/2:4/4:4/4:8/8:_P:4/4:4/4:_D:4/4:8/8:")
- #gras_arch=5; gras_size=32; gras_arch_name=big32;
+ #gras_arch=6; gras_size=32; gras_arch_name=big32_8;
SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 5)
+ SET(GRAS_THISARCH 6)
endif(val_big MATCHES "B_C:1/1:_I:2/2:4/4:4/4:8/8:_P:4/4:4/4:_D:4/4:8/8:")
if(val_big MATCHES "B_C:1/1:_I:2/2:4/4:4/4:8/8:_P:4/4:4/4:_D:4/4:8/4:")
- #gras_arch=6; gras_size=32; gras_arch_name=big32_8_4;
+ #gras_arch=7; gras_size=32; gras_arch_name=big32_8_4;
SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 6)
+ SET(GRAS_THISARCH 7)
endif(val_big MATCHES "B_C:1/1:_I:2/2:4/4:4/4:8/8:_P:4/4:4/4:_D:4/4:8/4:")
if(val_big MATCHES "B_C:1/1:_I:2/2:4/4:4/4:8/4:_P:4/4:4/4:_D:4/4:8/4:")
- #gras_arch=7; gras_size=32; gras_arch_name=big32_4;
+ #gras_arch=8; gras_size=32; gras_arch_name=big32_4;
SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 7)
+ SET(GRAS_THISARCH 8)
endif(val_big MATCHES "B_C:1/1:_I:2/2:4/4:4/4:8/4:_P:4/4:4/4:_D:4/4:8/4:")
if(val_big MATCHES "B_C:1/1:_I:2/2:4/2:4/2:8/2:_P:4/2:4/2:_D:4/2:8/2:")
- #gras_arch=8; gras_size=32; gras_arch_name=big32_2;
+ #gras_arch=9; gras_size=32; gras_arch_name=big32_2;
SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 8)
+ SET(GRAS_THISARCH 9)
endif(val_big MATCHES "B_C:1/1:_I:2/2:4/2:4/2:8/2:_P:4/2:4/2:_D:4/2:8/2:")
if(val_big MATCHES "B_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/8:")
- #gras_arch=9; gras_size=64; gras_arch_name=big64;
+ #gras_arch=10; gras_size=64; gras_arch_name=big64;
SET(GRAS_ARCH_32_BITS 0)
- SET(GRAS_THISARCH 9)
+ SET(GRAS_THISARCH 10)
endif(val_big MATCHES "B_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/8:")
if(val_big MATCHES "B_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/4:")
- #gras_arch=10;gras_size=64; gras_arch_name=big64_8_4;
+ #gras_arch=11; gras_size=64; gras_arch_name=big64_8_4;
SET(GRAS_ARCH_32_BITS 0)
- SET(GRAS_THISARCH 10)
+ SET(GRAS_THISARCH 11)
endif(val_big MATCHES "B_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/4:")
if(GRAS_THISARCH MATCHES "none")