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/*  GRT stack implementation based on pthreads.
    Copyright (C) 2003, 2004, 2005 Felix Bertram & Tristan Gingold.

    GHDL is free software; you can redistribute it and/or modify it under
    the terms of the GNU General Public License as published by the Free
    Software Foundation; either version 2, or (at your option) any later
    version.

    GHDL is distributed in the hope that it will be useful, but WITHOUT ANY
    WARRANTY; without even the implied warranty of MERCHANTABILITY or
    FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
    for more details.

    You should have received a copy of the GNU General Public License
    along with GCC; see the file COPYING.  If not, write to the Free
    Software Foundation, 59 Temple Place - Suite 330, Boston, MA
    02111-1307, USA.
*/
//-----------------------------------------------------------------------------
// Project:     GHDL - VHDL Simulator
// Description: pthread port of stacks package, for use with MacOSX
// Note:        Tristan's original i386/Linux used assembly-code 
//              to manually switch stacks for performance reasons.
// History:     2003may22, FB, created.
//-----------------------------------------------------------------------------

#include <pthread.h>
#include <stdlib.h>
#include <stdio.h>
#include <setjmp.h>

//#define INFO printf
#define INFO (void)

// GHDL names an endless loop calling FUNC with ARG a 'stack'
// at a given time, only one stack may be 'executed'
typedef struct 
{	pthread_t           thread;         // stack's thread
	pthread_mutex_t     mutex;          // mutex to suspend/resume thread
	void                (*Func)(void*); // stack's FUNC
	void*               Arg;            // ARG passed to FUNC
} Stack_Type_t, *Stack_Type;

static Stack_Type_t      main_stack_context;
static Stack_Type_t	 *current;
extern void grt_set_main_stack (Stack_Type_t *stack);

//----------------------------------------------------------------------------
void grt_stack_init(void)
// Initialize the stacks package.
// This may adjust stack sizes.
// Must be called after grt.options.decode.
// => procedure Stack_Init;
{	INFO("grt_stack_init\n");
	INFO("  main_stack_context=0x%08x\n", &main_stack_context);
	
	pthread_mutex_init(&(main_stack_context.mutex), NULL);

	// lock the mutex, as we are currently running
	pthread_mutex_lock(&(main_stack_context.mutex));
	
	current = &main_stack_context;

	grt_set_main_stack (&main_stack_context);
}

//----------------------------------------------------------------------------
static void* grt_stack_loop(void* pv_myStack)
{
	Stack_Type myStack= (Stack_Type)pv_myStack;

	INFO("grt_stack_loop\n");
	
	INFO("  myStack=0x%08x\n", myStack);

	// block until mutex becomes available again.
	// this happens when this stack is enabled for the first time
	pthread_mutex_lock(&(myStack->mutex));
	
	// run stack's function in endless loop
	while(1)
	{	INFO("  call 0x%08x with 0x%08x\n", myStack->Func, myStack->Arg);
		myStack->Func(myStack->Arg);
	}
	
	// we never get here...
	return 0;
}

//----------------------------------------------------------------------------
Stack_Type grt_stack_create(void* Func, void* Arg) 
// Create a new stack, which on first execution will call FUNC with
// an argument ARG.
// => function Stack_Create (Func : Address; Arg : Address) return Stack_Type;
{
  	Stack_Type newStack;

	INFO("grt_stack_create\n");
	INFO("  call 0x%08x with 0x%08x\n", Func, Arg);
			
	newStack= malloc(sizeof(Stack_Type_t));
	
	// init function and argument
	newStack->Func= Func;
	newStack->Arg=  Arg;
	
	// create mutex
	pthread_mutex_init(&(newStack->mutex), NULL);
	
	// block the mutex, so that thread will blocked in grt_stack_loop
	pthread_mutex_lock(&(newStack->mutex));
	
	INFO("  newStack=0x%08x\n", newStack);
	
	// create thread, which executes grt_stack_loop
	pthread_create(&(newStack->thread), NULL, grt_stack_loop, newStack); 
	
	return newStack;
}

static int need_longjmp;
static int run_env_en;
static jmp_buf run_env;

//----------------------------------------------------------------------------
void grt_stack_switch(Stack_Type To, Stack_Type From)
// Resume stack TO and save the current context to the stack pointed by
// CUR.
// => procedure Stack_Switch (To : Stack_Type; From : Stack_Type);
{	INFO("grt_stack_switch\n");
	INFO("  from 0x%08x to 0x%08x\n", From, To);

	current = To;

	// unlock 'To' mutex. this will make the other thread either
	// - starts for first time in grt_stack_loop
	// - resumes at lock below
	pthread_mutex_unlock(&(To->mutex));
		
	// block until 'From' mutex becomes available again
	// as we are running, our mutex is locked and we block here
	// when stacks are switched, with above unlock, we may proceed
	pthread_mutex_lock(&(From->mutex));

	if (From == &main_stack_context && need_longjmp != 0)
	  longjmp (run_env, need_longjmp);
}

//----------------------------------------------------------------------------
void grt_stack_delete(Stack_Type Stack)
// Delete stack STACK, which must not be currently executed.
// => procedure Stack_Delete (Stack : Stack_Type);
{	INFO("grt_stack_delete\n");
}

void
__ghdl_maybe_return_via_longjump (int val)
{
  if (!run_env_en)
    return;

  if (current != &main_stack_context)
    {
      need_longjmp = val;
      grt_stack_switch (&main_stack_context, current);
    }
  else
    longjmp (run_env, val);
}

int
__ghdl_run_through_longjump (int (*func)(void))
{
  int res;

  run_env_en = 1;
  res = setjmp (run_env);
  if (res == 0)
    res = (*func)();
  run_env_en = 0;
  return res;
}


//----------------------------------------------------------------------------

#ifndef WITH_GNAT_RUN_TIME
void __gnat_raise_storage_error(void)
{
   abort ();
}

void __gnat_raise_program_error(void)
{
   abort ();
}
#endif /* WITH_GNAT_RUN_TIME */

//----------------------------------------------------------------------------
// end of file