/usr/include/openturns/WrapperMacros.h is in libopenturns-dev 0.15-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/**
* @file WrapperMacros.h
* @brief This file provides macros to ease wrapper writing
*
* (C) Copyright 2005-2011 EDF
*
* Permission to copy, use, modify, sell and distribute this software
* is granted provided this copyright notice appears in all copies.
* This software is provided "as is" without express or implied
* warranty, and with no claim as to its suitability for any purpose.
*
*
* @author $LastChangedBy: dutka $
* @date $LastChangedDate: 2007-11-06 19:01:18 +0100 (mar, 06 nov 2007) $
*/
#ifndef OPENTURNS_WRAPPERMACROS_H
#define OPENTURNS_WRAPPERMACROS_H
#include <stdio.h>
#include <stdlib.h>
#include "OTdebug.h"
#ifdef HAVE_PTHREAD_H
#include "OTthread.hxx"
#include <signal.h>
#define CHECK_MULTITHREAD
#else
#define CHECK_MULTITHREAD const char _Multithread_NOT_available_[-1];
#endif
/***************************************************************************************
* *
* Various macros *
* *
***************************************************************************************/
#ifdef DEBUG
#define dbg_printMessage( fname, msg ) printMessage((fname), (msg))
#define dbg_printEntrance( fname ) printEntrance((fname))
#define dbg_printExit( fname ) printExit((fname))
#define dbg_printState( fname, state ) printState((fname), (state))
#define dbg_printWrapperExchangedData( fname, exchangedData ) printWrapperExchangedData((fname), (exchangedData))
#define dbg_printWrapperInformation( fname, info ) printWrapperInformation((fname), (info))
#define dbg_printPoint( fname, point ) printPoint((fname), (point))
#define dbg_printSample( fname, sample ) printSample((fname), (sample))
#define dbg_printMatrix( fname, matrix ) printMatrix((fname), (matrix))
#define dbg_printTensor( fname, tensor ) printTensor((fname), (tensor))
#else
#define dbg_printMessage( fname, msg )
#define dbg_printEntrance( fname )
#define dbg_printExit( fname )
#define dbg_printState( fname, state )
#define dbg_printWrapperExchangedData( fname, exchangedData )
#define dbg_printWrapperInformation( fname, info )
#define dbg_printPoint( fname, point )
#define dbg_printSample( fname, sample )
#define dbg_printMatrix( fname, matrix )
#define dbg_printTensor( fname, tensor )
#endif
#if defined(__cplusplus)
#define CAST( type, arg ) reinterpret_cast< type >(arg)
#else
#define CAST( type, arg ) ((type) (arg))
#endif /* defined(__cplusplus) */
#define FIND_EXCHANGED_DATA_IN_INTERNAL_STATE( pointer ) FIND_EXCHANGED_DATA_IN_INTERNAL_STATE_DEF( pointer )
#define FIND_EXCHANGED_DATA_IN_INTERNAL_STATE_DEF( pointer ) CAST(struct WrapperExchangedData *, pointer)
#define SET_INFORMATION_FROM_EXCHANGED_DATA( p_exchangedData ) \
do { \
p_info->inSize_ = getNumberOfVariables( (p_exchangedData), WRAPPER_IN); \
p_info->outSize_ = getNumberOfVariables( (p_exchangedData), WRAPPER_OUT); \
} while (0);
#define GET_EXCHANGED_DATA_FROM( pointer ) GET_EXCHANGED_DATA_FROM_DEF( pointer )
#define GET_EXCHANGED_DATA_FROM_DEF( pointer ) \
struct WrapperExchangedData * p_exchangedData = FIND_EXCHANGED_DATA_IN_INTERNAL_STATE( pointer );
#define COPY_EXCHANGED_DATA_TO( pointer ) COPY_EXCHANGED_DATA_TO_DEF( pointer )
#define COPY_EXCHANGED_DATA_TO_DEF( pointer ) \
copyWrapperExchangedData( CAST(struct WrapperExchangedData **, pointer) \
, p_exchangedData \
, p_error);
#define DELETE_EXCHANGED_DATA_FROM( pointer ) DELETE_EXCHANGED_DATA_FROM_DEF( pointer )
#define DELETE_EXCHANGED_DATA_FROM_DEF( pointer ) \
freeWrapperExchangedData( CAST(struct WrapperExchangedData *, pointer) );
#define CHECK_WRAPPER_MODE( mode ) if ( p_exchangedData->parameters_->mode_ != (mode) ) { \
printMessage( FUNCTIONNAME, "Incorrrect mode for wrapper" ); \
return WRAPPER_USAGE_ERROR; \
}
#define CHECK_WRAPPER_IN( mode ) if ( p_exchangedData->parameters_->in_ != (mode) ) { \
printMessage( FUNCTIONNAME, "Incorrrect 'in' parameter for wrapper" ); \
return WRAPPER_USAGE_ERROR; \
}
#define CHECK_WRAPPER_OUT( mode ) if ( p_exchangedData->parameters_->out_ != (mode) ) { \
printMessage( FUNCTIONNAME, "Incorrrect 'out' parameter for wrapper" ); \
return WRAPPER_USAGE_ERROR; \
}
#define PRINT(...) printUserMessage( FUNCTIONNAME, __VA_ARGS__ );
#define SETERROR(...) setError( p_error, __VA_ARGS__ );
#define MIN(a, b) ( ( (a) < (b) ) ? (a) : (b) )
#define MAX(a, b) ( ( (a) > (b) ) ? (a) : (b) )
#define DEF_STRUCT_ARGUMENTS \
struct AdapterArguments { \
void * p_state; \
struct WrapperExchangedData * p_exchangedData; \
void * p_error; \
const struct sample * inSample; \
struct sample * outSample; \
long begin; \
long end; \
long threadId; \
enum WrapperErrorCode rc; \
volatile long * p_errorEncountered; \
};
#define INPOINT_ARRAY (inPoint->data_)
#define OUTPOINT_ARRAY (outPoint->data_)
#define INPOINT_SIZE (inPoint->size_)
#define OUTPOINT_SIZE (outPoint->size_)
#define INPOINT_COORD( i ) (inPoint->data_[ (i) ])
#define OUTPOINT_COORD( i ) (outPoint->data_[ (i) ])
#define OUTMATRIX_ARRAY (outMatrix->data_)
#define OUTMATRIX_ROWS (outMatrix->nbrows_)
#define OUTMATRIX_COLS (outMatrix->nbcols_)
#define OUTMATRIX_COORD( i, j ) (outMatrix->data_[ (i) + (j) * outMatrix->nbrows_ ])
#define OUTTENSOR_ARRAY (outTensor->data_)
#define OUTTENSOR_ROWS (outTensor->nbrows_)
#define OUTTENSOR_COLS (outTensor->nbcols_)
#define OUTTENSOR_SHEETS (outTensor->nbsheets_)
#define OUTTENSOR_COORD( i, j, k ) (outTensor->data_[ (i) + (j) * outMatrix->nbrows_ + (k) * outMatrix->nbrows_ * outMatrix->nbcols_ ])
#define INSAMPLE_ARRAY (inSample->data_)
#define OUTSAMPLE_ARRAY (outSample->data_)
#define INSAMPLE_SIZE (inSample->size_)
#define OUTSAMPLE_SIZE (outSample->size_)
/***************************************************************************************
* *
* Function macros *
* *
***************************************************************************************/
#define FUNC_INFO( name , code ) FUNC_INFO_DEF( name, code )
#define FUNC_INFO_DEF( name , code ) \
enum WrapperErrorCode func_getInfo_ ## name (void * p_state, \
struct WrapperInformation * p_info, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_getInfo_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printWrapperInformation(FUNCTIONNAME, p_info); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define FUNC_CREATESTATE( name , code ) FUNC_CREATESTATE_DEF( name, code )
#define FUNC_CREATESTATE_DEF( name , code ) \
enum WrapperErrorCode func_createState_ ## name (void ** p_p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_createState_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printWrapperExchangedData(FUNCTIONNAME, p_exchangedData); \
\
code ; \
\
dbg_printState(FUNCTIONNAME, *p_p_state); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define FUNC_DELETESTATE( name , code ) FUNC_DELETESTATE_DEF( name, code )
#define FUNC_DELETESTATE_DEF( name , code ) \
enum WrapperErrorCode func_deleteState_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_deleteState_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
\
code ; \
\
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define FUNC_INIT( name , code ) FUNC_INIT_DEF( name, code )
#define FUNC_INIT_DEF( name , code ) \
enum WrapperErrorCode func_init_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_init_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
/* If prefix is NULL (= 0) then get user prefix either in wrapper description file or in resource map */
#define FUNC_EXEC_BODY_CALLING_COMMAND_IN_TEMP_DIR( prefix ) FUNC_EXEC_BODY_CALLING_COMMAND_IN_TEMP_DIR_DEF( prefix )
#define FUNC_EXEC_BODY_CALLING_COMMAND_IN_TEMP_DIR_DEF( prefix ) \
{ \
long rc = 0; \
char * temporaryDirectory = 0; \
char * cmd = 0; \
char * currentWorkingDirectory = 0; \
\
/* We save the current working directory for a future come back */ \
currentWorkingDirectory = getCurrentWorkingDirectory( p_error ); \
if (currentWorkingDirectory == NULL) return WRAPPER_EXECUTION_ERROR; \
\
/* We build a temporary directory in which we will work */ \
temporaryDirectory = createTemporaryDirectory( (prefix) ? (prefix) : getUserPrefix(p_exchangedData), \
p_exchangedData, p_error ); \
if (temporaryDirectory == NULL) return WRAPPER_EXECUTION_ERROR; \
\
/* We create the input files for the external code in the temporary directory */ \
if (createInputFiles(temporaryDirectory, p_exchangedData, inPoint, p_error )) \
return WRAPPER_EXECUTION_ERROR; \
\
/* The real computation is here */ \
rc = runInsulatedCommand(temporaryDirectory, p_exchangedData, inPoint, p_error ); \
\
/* Read the output values */ \
if ( rc == 0 ) \
if (readOutputFiles(temporaryDirectory, p_exchangedData, outPoint, p_error )) { \
const char * msg = getError( p_error ); \
setError( p_error, "Can't read output files. Reason: %s", msg ); \
free( (void *) msg ); \
return WRAPPER_EXECUTION_ERROR; \
} \
\
/* We kill the temporary directory */ \
deleteTemporaryDirectory(temporaryDirectory, rc, p_error ); \
\
free( currentWorkingDirectory ); \
\
if ( rc != 0 ) { \
const char * msg = getError( p_error ); \
setError( p_error, "Code returned error %d. Reason: %s", rc, msg ); \
free( (void *) msg ); \
return WRAPPER_EXECUTION_ERROR; \
} \
}
#define FUNC_EXEC( name , code ) FUNC_EXEC_DEF( name, code )
#define FUNC_EXEC_DEF( name , code ) \
enum WrapperErrorCode func_exec_ ## name (void * p_state, \
const struct point * inPoint, \
struct point * outPoint, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_exec_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printPoint(FUNCTIONNAME, inPoint); \
\
code ; \
\
dbg_printPoint(FUNCTIONNAME, outPoint); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define FUNC_EXEC_SAMPLE( name , code ) FUNC_EXEC_SAMPLE_DEF( name, code )
#define FUNC_EXEC_SAMPLE_DEF( name , code ) \
enum WrapperErrorCode func_exec_sample_ ## name (void * p_state, \
const struct sample * inSample, \
struct sample * outSample, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_exec_sample_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printSample(FUNCTIONNAME, inSample); \
\
code ; \
\
dbg_printSample(FUNCTIONNAME, outSample); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define FUNC_FINALIZE( name , code ) FUNC_FINALIZE_DEF( name, code )
#define FUNC_FINALIZE_DEF( name , code ) \
enum WrapperErrorCode func_finalize_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "func_finalize_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
/***************************************************************************************
* *
* Gradient macros *
* *
**************************************************************************************/
#define GRAD_INFO( name , code ) GRAD_INFO_DEF( name, code )
#define GRAD_INFO_DEF( name , code ) \
enum WrapperErrorCode grad_getInfo_ ## name (void * p_state, \
struct WrapperInformation * p_info, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "grad_getInfo_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define GRAD_CREATESTATE( name , code ) GRAD_CREATESTATE_DEF( name, code )
#define GRAD_CREATESTATE_DEF( name , code ) \
enum WrapperErrorCode grad_createState_ ## name (void ** p_p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "grad_createState_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printWrapperExchangedData(FUNCTIONNAME, p_exchangedData); \
\
code ; \
\
dbg_printState(FUNCTIONNAME, *p_p_state); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define GRAD_DELETESTATE( name , code ) GRAD_DELETESTATE_DEF( name, code )
#define GRAD_DELETESTATE_DEF( name , code ) \
enum WrapperErrorCode grad_deleteState_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "grad_deleteState_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
\
code ; \
\
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define GRAD_INIT( name , code ) GRAD_INIT_DEF( name, code )
#define GRAD_INIT_DEF( name , code ) \
enum WrapperErrorCode grad_init_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "grad_init_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define GRAD_EXEC( name , code ) GRAD_EXEC_DEF( name, code )
#define GRAD_EXEC_DEF( name , code ) \
enum WrapperErrorCode grad_exec_ ## name (void * p_state, \
const struct point * inPoint, \
struct matrix * outMatrix, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "grad_exec_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printPoint(FUNCTIONNAME, inPoint); \
\
code ; \
\
dbg_printMatrix(FUNCTIONNAME, outMatrix); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define GRAD_FINALIZE( name , code ) GRAD_FINALIZE_DEF( name, code )
#define GRAD_FINALIZE_DEF( name , code ) \
enum WrapperErrorCode grad_finalize_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "grad_finalize_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
/***************************************************************************************
* *
* Hessian macros *
* *
**************************************************************************************/
#define HESS_INFO( name , code ) HESS_INFO_DEF( name, code )
#define HESS_INFO_DEF( name , code ) \
enum WrapperErrorCode hess_getInfo_ ## name (void * p_state, \
struct WrapperInformation * p_info, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "hess_getInfo_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define HESS_CREATESTATE( name , code ) HESS_CREATESTATE_DEF( name, code )
#define HESS_CREATESTATE_DEF( name , code ) \
enum WrapperErrorCode hess_createState_ ## name (void ** p_p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "hess_createState_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printWrapperExchangedData(FUNCTIONNAME, p_exchangedData); \
\
code ; \
\
dbg_printState(FUNCTIONNAME, *p_p_state); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define HESS_DELETESTATE( name , code ) HESS_DELETESTATE_DEF( name, code )
#define HESS_DELETESTATE_DEF( name , code ) \
enum WrapperErrorCode hess_deleteState_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "hess_deleteState_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
\
code ; \
\
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define HESS_INIT( name , code ) HESS_INIT_DEF( name, code )
#define HESS_INIT_DEF( name , code ) \
enum WrapperErrorCode hess_init_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "hess_init_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define HESS_EXEC( name , code ) HESS_EXEC_DEF( name, code )
#define HESS_EXEC_DEF( name , code ) \
enum WrapperErrorCode hess_exec_ ## name (void * p_state, \
const struct point * inPoint, \
struct tensor * outTensor, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "hess_exec_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
dbg_printPoint(FUNCTIONNAME, inPoint); \
\
code ; \
\
dbg_printTensor(FUNCTIONNAME, outTensor); \
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#define HESS_FINALIZE( name , code ) HESS_FINALIZE_DEF( name, code )
#define HESS_FINALIZE_DEF( name , code ) \
enum WrapperErrorCode hess_finalize_ ## name (void * p_state, \
const struct WrapperExchangedData * p_exchangedData, \
void * p_error) \
{ \
const char FUNCTIONNAME[] = "hess_finalize_" #name ; \
dbg_printEntrance(FUNCTIONNAME); \
dbg_printState(FUNCTIONNAME, p_state); \
\
code ; \
\
dbg_printExit(FUNCTIONNAME); \
\
return WRAPPER_OK; \
}
#endif /* OPENTURNS_WRAPPERMACROS_H */
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