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[vg.git] / vg_async.h

/* Copyright (C) 2021-2023 Harry Godden (hgn) - All Rights Reserved 
 *
 * primateves that you use when you need to run something from another thread 
 * back in the main loop of vg, at the start of each frame
 */

#ifndef VG_ASYNC_H
#define VG_ASYNC_H

#define VG_GAME
#include "vg/vg.h"
static void vg_assert_thread( enum vg_thread_purpose required );

typedef struct vg_async_item vg_async_item;

struct vg_async_item{
   vg_async_item *next;

   void *payload;
   u32 size;

   void (*fn_runner)( void *payload, u32 size );
};

struct vg_async{
   void *buffer;
   
   vg_async_item *start, *end;

   SDL_sem *sem_wait_for_flush;
   SDL_SpinLock sl_index;
}
static vg_async;

static enum vg_thread_purpose vg_thread_purpose(void);
static enum engine_status _vg_engine_status(void);

/*
 * Allocate an asynchronous call with a bit of memory
 */
static vg_async_item *vg_async_alloc( u32 size )
{
   /* ditch out here if engine crashed. this serves as the 'quit checking' */
   if( _vg_engine_status() == k_engine_status_crashed ){
      assert( vg_thread_purpose() == k_thread_purpose_loader );
      longjmp( vg.env_loader_exit, 1 );
   }

   SDL_AtomicLock( &vg_async.sl_index );

   u32 total_allocation = vg_align8(size) + vg_align8(sizeof(vg_async_item)),
       remaining        = vg_linear_remaining( vg_async.buffer ),
       capacity         = vg_linear_get_capacity( vg_async.buffer );

   if( total_allocation > capacity ){
      SDL_AtomicUnlock( &vg_async.sl_index );
      vg_error( "Requested: %umb. Buffer size: %umb\n",
                  (total_allocation/1024)/1024,
                  (capacity/1024)/1024 );

      vg_fatal_error( "async alloc invalid size\n" );
   }

   if( total_allocation > remaining ){
      SDL_AtomicUnlock( &vg_async.sl_index );
      SDL_SemWait( vg_async.sem_wait_for_flush );
      SDL_AtomicLock( &vg_async.sl_index );

      remaining = vg_linear_remaining( vg_async.buffer );
      capacity = vg_linear_get_capacity( vg_async.buffer );

      assert( remaining == capacity );
      assert( vg_async.start == NULL );
      assert( vg_async.end   == NULL );
   }

   void *block = vg_linear_alloc( vg_async.buffer, total_allocation );

   vg_async_item *entry = block;
   entry->next = NULL;

   if( size ) entry->payload = ((u8*)block) + vg_align8(sizeof(vg_async_item)); 
   else entry->payload = NULL;

   entry->size = size;
   entry->fn_runner = NULL;

   if( vg_async.end ){
      vg_async.end->next = entry;
      vg_async.end = entry;
   }else{
      vg_async.start = entry;
      vg_async.end = entry;
   }

   SDL_AtomicUnlock( &vg_async.sl_index );

   return entry;
}

/*
 * Wait until the current stack of async calls is completely flushed out 
 */
static void vg_async_stall(void){
   vg_assert_thread(k_thread_purpose_loader);
#if 0
   vg_info( "async_stall: %d\n", SDL_SemValue( vg_async.sem_wait_for_flush ) );
#endif
   SDL_SemWait( vg_async.sem_wait_for_flush );
}

/*
 * Mark the call as being filled and ready to go
 */
static void vg_async_dispatch( vg_async_item *item, 
                                  void (*runner)( void *payload, u32 size ) )
{
   vg_assert_thread(k_thread_purpose_loader);
   if( SDL_SemValue(vg_async.sem_wait_for_flush) )
      SDL_SemWait(vg_async.sem_wait_for_flush);

   SDL_AtomicLock( &vg_async.sl_index );
   item->fn_runner = runner;
   SDL_AtomicUnlock( &vg_async.sl_index );
}

/*
 * Make a simple async call without allocating extra.
 */
static void vg_async_call( void (*runner)( void *payload, u32 size ), 
                              void *payload, u32 size )
{
   vg_assert_thread(k_thread_purpose_loader);
   vg_async_item *call = vg_async_alloc(0);
   call->payload = payload;
   call->size = size;
   vg_async_dispatch( call, runner );
}

/*
 * Run as much of the async buffer as possible
 */
static void vg_run_async_checked(void)
{
   SDL_AtomicLock( &vg_async.sl_index );

   while( vg_async.start ){
      vg_async_item *entry = vg_async.start;

      if( entry->fn_runner ){
         entry->fn_runner( entry->payload, entry->size );
         vg_async.start = entry->next;

         if( vg_async.start == NULL ){
            vg_async.end = NULL;

            vg_linear_clear( vg_async.buffer );

            if( !SDL_SemValue( vg_async.sem_wait_for_flush ) ){
               SDL_SemPost( vg_async.sem_wait_for_flush );
            }
         }
      }
      else{
         SDL_AtomicUnlock( &vg_async.sl_index );
         return;
      }

      /* TODO: if exceed max frametime.... */
   }

   if( !SDL_SemValue( vg_async.sem_wait_for_flush ) ){
      SDL_SemPost( vg_async.sem_wait_for_flush );
   }

   SDL_AtomicUnlock( &vg_async.sl_index );
}

static void vg_async_init(void)
{
   vg_async.sem_wait_for_flush = SDL_CreateSemaphore(0);
   vg_async.buffer = vg_create_linear_allocator( NULL, 50*1024*1024, 
                                                 VG_MEMORY_SYSTEM );
}

#endif /* VG_ASYNC_H */