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//===========================================================================
//
//      compatmode.cxx
//
//      Compatibility mode setting for Math library
//
//===========================================================================
//####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
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// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
//
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// for more details.
//
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//
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// or inline functions from this file, or you compile this file and link it
// with other works to produce a work based on this file, this file does not
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//####ECOSGPLCOPYRIGHTEND####
//===========================================================================
//#####DESCRIPTIONBEGIN####
//
// Author(s):   jlarmour
// Contributors:  jlarmour
// Date:        1998-02-13
// Purpose:     
// Description: Contains the accessor functions to get and set the standards
//              compatibility mode of the Math library
// Usage:       
//
//####DESCRIPTIONEND####
//
//===========================================================================
 
// CONFIGURATION
 
#include <pkgconf/libm.h>   // Configuration header
 
// Include the Math library?
#ifdef CYGPKG_LIBM
 
// INCLUDES
 
#include <cyg/infra/cyg_type.h>    // Common type definitions and support
#include <cyg/infra/cyg_trac.h>    // Tracing macros
 
#include <math.h>                  // Main header for math library
 
#ifdef CYGSEM_LIBM_THREAD_SAFE_COMPAT_MODE
# include <pkgconf/kernel.h>        // Kernel configuration
# include <cyg/kernel/thread.hxx>   // Kernel thread header
# include <cyg/kernel/thread.inl>   // and its associated inlines
# include <cyg/kernel/mutex.hxx>    // We need mutexes too
#endif
 
// GLOBAL VARIABLES
 
#ifndef CYGSEM_LIBM_THREAD_SAFE_COMPAT_MODE
 
# ifdef CYGSEM_LIBM_COMPAT_IEEE_ONLY
Cyg_libm_compat_t cygvar_libm_compat_mode = CYGNUM_LIBM_COMPAT_IEEE;
# else
Cyg_libm_compat_t cygvar_libm_compat_mode = CYGNUM_LIBM_COMPAT_DEFAULT;
# endif
 
#else  // ifndef CYGSEM_LIBM_THREAD_SAFE_COMPAT_MODE
 
static Cyg_Mutex cyg_libm_mode_thread_data_index_mutex;
static cyg_count32 cyg_libm_mode_thread_data_index = CYGNUM_KERNEL_THREADS_DATA_MAX;
 
 
# if defined(CYGDBG_USE_TRACING) && \
     defined(CYGNUM_LIBM_COMPATMODE_TRACE_LEVEL)
static int libm_compatmode_trace = CYGNUM_LIBM_COMPATMODE_TRACE_LEVEL;
#  define TL1 (0 < libm_compatmode_trace )
# else
#  define TL1 (0)
# endif
 
// FUNCTIONS
 
 
Cyg_libm_compat_t
cyg_libm_get_compat_mode( void )
{
    Cyg_Thread *self = Cyg_Thread::self();
    CYG_ADDRWORD current_val;
 
    CYG_REPORT_FUNCNAMETYPE( "Cyg_libm_get_compat_mode", "mode is %d" );
 
    // First check if this is the first thread to get here, and if so,
    // initialise the thread data index
 
    if (cyg_libm_mode_thread_data_index == CYGNUM_KERNEL_THREADS_DATA_MAX)
    {
        CYG_TRACE0( TL1, "Index unset, locking mutex to allocate" );
 
        // Lock mutex and then check again - less overhead for normal
        // execution path
        cyg_libm_mode_thread_data_index_mutex.lock();
 
        if (cyg_libm_mode_thread_data_index == CYGNUM_KERNEL_THREADS_DATA_MAX)
        {
            CYG_TRACE0( TL1, "Allocating index" );
            cyg_libm_mode_thread_data_index = self->new_data_index();
 
        } // if
 
        cyg_libm_mode_thread_data_index_mutex.unlock();
 
        self->set_data( cyg_libm_mode_thread_data_index,
                        CYGNUM_LIBM_COMPAT_DEFAULT );
 
        // But if we've gone through this, then we know what the mode is!
        CYG_REPORT_RETVAL( CYGNUM_LIBM_COMPAT_DEFAULT );
        return CYGNUM_LIBM_COMPAT_DEFAULT;
    } // if
 
    CYG_TRACE0( TL1, "Index set, now fetching per-thread data" );
 
    // If we're here, then the index is set up
 
    current_val = self->get_data( cyg_libm_mode_thread_data_index );
 
    // If its at the "default" setting, then return the default
    if (current_val == CYGNUM_LIBM_COMPAT_UNINIT)
    {
        CYG_REPORT_RETVAL( CYGNUM_LIBM_COMPAT_DEFAULT );
        return CYGNUM_LIBM_COMPAT_DEFAULT;
    } // if
 
    CYG_REPORT_RETVAL( current_val );
    return (Cyg_libm_compat_t) current_val;
} // cyg_libm_get_compat_mode()
 
 
Cyg_libm_compat_t
cyg_libm_set_compat_mode( Cyg_libm_compat_t new_mode )
{
    Cyg_Thread *self = Cyg_Thread::self();
    CYG_ADDRWORD current_val;
 
    CYG_REPORT_FUNCNAMETYPE( "Cyg_libm_set_compat_mode", "old mode was %d" );
    CYG_REPORT_FUNCARG1DV( new_mode );
 
    // First check if this is the first thread to get here, and if so,
    // initialise the thread data index
 
    if (cyg_libm_mode_thread_data_index == CYGNUM_KERNEL_THREADS_DATA_MAX)
    {
        CYG_TRACE0( TL1, "Index unset, locking mutex to allocate" );
 
        // Lock mutex and then check again - less overhead for normal
        // execution path
        cyg_libm_mode_thread_data_index_mutex.lock();
 
        if (cyg_libm_mode_thread_data_index == CYGNUM_KERNEL_THREADS_DATA_MAX)
        {
            CYG_TRACE0( TL1, "Allocating index" );
            cyg_libm_mode_thread_data_index = self->new_data_index();
 
        } // if
 
        cyg_libm_mode_thread_data_index_mutex.unlock();
 
        self->set_data( cyg_libm_mode_thread_data_index,
                        new_mode );
 
        // But if we've gone through this, then we know what the old mode was!
 
        CYG_REPORT_RETVAL( CYGNUM_LIBM_COMPAT_UNINIT );
        return CYGNUM_LIBM_COMPAT_UNINIT;
 
    } // if
 
    // If we're here, then the index is set up
 
    CYG_TRACE0( TL1, "Index set, now fetching per-thread data" );
 
    current_val = self->get_data( cyg_libm_mode_thread_data_index );
 
    self->set_data( cyg_libm_mode_thread_data_index,
                    new_mode );
 
    CYG_REPORT_RETVAL( current_val );
    return (Cyg_libm_compat_t) current_val;
 
} // cyg_libm_set_compat_mode()
 
#endif // ifdef CYGSEM_LIBM_THREAD_SAFE_COMPAT_MODE
 
 
#endif // ifdef CYGPKG_LIBM
 
// EOF compatmode.cxx