-# Check architecture signature begin
-try_run(RUN_GRAS_VAR COMPILE_GRAS_VAR
- ${PROJECT_BINARY_DIR}
- ${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/test_prog/prog_GRAS_ARCH.c
- RUN_OUTPUT_VARIABLE var1
- )
-if(BIGENDIAN)
- set(val_big "B${var1}")
- set(GRAS_BIGENDIAN 1)
-else(BIGENDIAN)
- set(val_big "l${var1}")
- 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:")
- #gras_arch=0; gras_size=32; gras_arch_name=little32_1;
- SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 0)
-endif(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:")
-if(val_big MATCHES "l_C:1/1:_I:2/2:4/2:4/2:8/2:_P:4/2:4/2:_D:4/2:8/2:")
- #gras_arch=1; gras_size=32; gras_arch_name=little32_2;
- SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 1)
-endif(val_big MATCHES "l_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 "l_C:1/1:_I:2/2:4/4:4/4:8/4:_P:4/4:4/4:_D:4/4:8/4:")
- #gras_arch=2; gras_size=32; gras_arch_name=little32_4;
- SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 2)
-endif(val_big MATCHES "l_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 "l_C:1/1:_I:2/2:4/4:4/4:8/8:_P:4/4:4/4:_D:4/4:8/8:")
- #gras_arch=3; gras_size=32; gras_arch_name=little32_8;
- SET(GRAS_ARCH_32_BITS 1)
- SET(GRAS_THISARCH 3)
-endif(val_big MATCHES "l_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 "l_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/8:")
- #gras_arch=4; gras_size=64; gras_arch_name=little64;
- 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=6; gras_size=32; gras_arch_name=big32_8;
- SET(GRAS_ARCH_32_BITS 1)
- 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=7; gras_size=32; gras_arch_name=big32_8_4;
- SET(GRAS_ARCH_32_BITS 1)
- 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=8; gras_size=32; gras_arch_name=big32_4;
- SET(GRAS_ARCH_32_BITS 1)
- 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=9; gras_size=32; gras_arch_name=big32_2;
- SET(GRAS_ARCH_32_BITS 1)
- 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=10; gras_size=64; gras_arch_name=big64;
- SET(GRAS_ARCH_32_BITS 0)
- 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=11; gras_size=64; gras_arch_name=big64_8_4;
- SET(GRAS_ARCH_32_BITS 0)
- 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")
+ # Check architecture signature begin
+ try_run(RUN_GRAS_VAR COMPILE_GRAS_VAR
+ ${CMAKE_BINARY_DIR}
+ ${CMAKE_HOME_DIRECTORY}/buildtools/Cmake/test_prog/prog_GRAS_ARCH.c
+ RUN_OUTPUT_VARIABLE var1
+ )
+ if(BIGENDIAN)
+ set(val_big "B${var1}")
+ set(GRAS_BIGENDIAN 1)
+ else(BIGENDIAN)
+ set(val_big "l${var1}")
+ set(GRAS_BIGENDIAN 0)
+ endif(BIGENDIAN)
+
+ # The syntax of this magic string is given in src/xbt/datadesc/ddt_convert.c
+ # It kinda matches the values that the xbt_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/xbt/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:")
+ #gras_arch=0; gras_size=32; gras_arch_name=little32_1;
+ SET(GRAS_ARCH_32_BITS 1)
+ SET(GRAS_THISARCH 0)
+ endif(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:")
+ if(val_big MATCHES "l_C:1/1:_I:2/2:4/2:4/2:8/2:_P:4/2:4/2:_D:4/2:8/2:")
+ #gras_arch=1; gras_size=32; gras_arch_name=little32_2;
+ SET(GRAS_ARCH_32_BITS 1)
+ SET(GRAS_THISARCH 1)
+ endif(val_big MATCHES "l_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 "l_C:1/1:_I:2/2:4/4:4/4:8/4:_P:4/4:4/4:_D:4/4:8/4:")
+ #gras_arch=2; gras_size=32; gras_arch_name=little32_4;
+ SET(GRAS_ARCH_32_BITS 1)
+ SET(GRAS_THISARCH 2)
+ endif(val_big MATCHES "l_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 "l_C:1/1:_I:2/2:4/4:4/4:8/8:_P:4/4:4/4:_D:4/4:8/8:")
+ #gras_arch=3; gras_size=32; gras_arch_name=little32_8;
+ SET(GRAS_ARCH_32_BITS 1)
+ SET(GRAS_THISARCH 3)
+ endif(val_big MATCHES "l_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 "l_C:1/1:_I:2/2:4/4:8/8:8/8:_P:8/8:8/8:_D:4/4:8/8:")
+ #gras_arch=4; gras_size=64; gras_arch_name=little64;
+ 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=6; gras_size=32; gras_arch_name=big32_8;
+ SET(GRAS_ARCH_32_BITS 1)
+ 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=7; gras_size=32; gras_arch_name=big32_8_4;
+ SET(GRAS_ARCH_32_BITS 1)
+ 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=8; gras_size=32; gras_arch_name=big32_4;
+ SET(GRAS_ARCH_32_BITS 1)
+ 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=9; gras_size=32; gras_arch_name=big32_2;
+ SET(GRAS_ARCH_32_BITS 1)
+ 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=10; gras_size=64; gras_arch_name=big64;
+ SET(GRAS_ARCH_32_BITS 0)
+ 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=11; gras_size=64; gras_arch_name=big64_8_4;
+ SET(GRAS_ARCH_32_BITS 0)
+ 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")