2023-08-21 17:30:13 -07:00
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#pragma once
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#include "printing.cpp"
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2023-07-25 20:00:57 -07:00
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#pragma region Memory
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2023-07-24 15:35:16 -07:00
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void* mem_copy( void* dest, void const* source, sw n )
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{
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if ( dest == NULL )
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{
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return NULL;
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}
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return memcpy( dest, source, n );
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}
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void const* mem_find( void const* data, u8 c, sw n )
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{
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u8 const* s = zpl_cast( u8 const* ) data;
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while ( ( zpl_cast( uptr ) s & ( sizeof( uw ) - 1 ) ) && n && *s != c )
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{
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s++;
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n--;
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}
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if ( n && *s != c )
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{
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sw const* w;
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sw k = GEN__ONES * c;
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w = zpl_cast( sw const* ) s;
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while ( n >= size_of( sw ) && ! GEN__HAS_ZERO( *w ^ k ) )
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{
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w++;
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n -= size_of( sw );
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}
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s = zpl_cast( u8 const* ) w;
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while ( n && *s != c )
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{
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s++;
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n--;
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}
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}
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return n ? zpl_cast( void const* ) s : NULL;
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}
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#define GEN_HEAP_STATS_MAGIC 0xDEADC0DE
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struct _heap_stats
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{
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u32 magic;
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sw used_memory;
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sw alloc_count;
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};
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global _heap_stats _heap_stats_info;
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void heap_stats_init( void )
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{
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zero_item( &_heap_stats_info );
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_heap_stats_info.magic = GEN_HEAP_STATS_MAGIC;
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}
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sw heap_stats_used_memory( void )
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{
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GEN_ASSERT_MSG( _heap_stats_info.magic == GEN_HEAP_STATS_MAGIC, "heap_stats is not initialised yet, call heap_stats_init first!" );
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return _heap_stats_info.used_memory;
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}
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sw heap_stats_alloc_count( void )
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{
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GEN_ASSERT_MSG( _heap_stats_info.magic == GEN_HEAP_STATS_MAGIC, "heap_stats is not initialised yet, call heap_stats_init first!" );
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return _heap_stats_info.alloc_count;
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}
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void heap_stats_check( void )
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{
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GEN_ASSERT_MSG( _heap_stats_info.magic == GEN_HEAP_STATS_MAGIC, "heap_stats is not initialised yet, call heap_stats_init first!" );
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GEN_ASSERT( _heap_stats_info.used_memory == 0 );
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GEN_ASSERT( _heap_stats_info.alloc_count == 0 );
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}
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struct _heap_alloc_info
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{
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sw size;
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void* physical_start;
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};
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void* heap_allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
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{
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void* ptr = NULL;
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// unused( allocator_data );
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// unused( old_size );
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if ( ! alignment )
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alignment = GEN_DEFAULT_MEMORY_ALIGNMENT;
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#ifdef GEN_HEAP_ANALYSIS
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sw alloc_info_size = size_of( _heap_alloc_info );
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sw alloc_info_remainder = ( alloc_info_size % alignment );
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sw track_size = max( alloc_info_size, alignment ) + alloc_info_remainder;
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switch ( type )
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{
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case EAllocation_FREE :
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{
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if ( ! old_memory )
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break;
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_heap_alloc_info* alloc_info = zpl_cast( _heap_alloc_info* ) old_memory - 1;
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_heap_stats_info.used_memory -= alloc_info->size;
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_heap_stats_info.alloc_count--;
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old_memory = alloc_info->physical_start;
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}
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break;
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case EAllocation_ALLOC :
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{
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size += track_size;
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}
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break;
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default :
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break;
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}
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#endif
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switch ( type )
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{
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#if defined( GEN_COMPILER_MSVC ) || ( defined( GEN_COMPILER_GCC ) && defined( GEN_SYSTEM_WINDOWS ) ) || ( defined( GEN_COMPILER_TINYC ) && defined( GEN_SYSTEM_WINDOWS ) )
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case EAllocation_ALLOC :
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ptr = _aligned_malloc( size, alignment );
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if ( flags & ALLOCATOR_FLAG_CLEAR_TO_ZERO )
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zero_size( ptr, size );
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break;
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case EAllocation_FREE :
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_aligned_free( old_memory );
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break;
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case EAllocation_RESIZE :
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{
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AllocatorInfo a = heap();
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ptr = default_resize_align( a, old_memory, old_size, size, alignment );
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}
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break;
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#elif defined( GEN_SYSTEM_LINUX ) && ! defined( GEN_CPU_ARM ) && ! defined( GEN_COMPILER_TINYC )
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case EAllocation_ALLOC :
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{
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ptr = aligned_alloc( alignment, ( size + alignment - 1 ) & ~( alignment - 1 ) );
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if ( flags & GEN_ALLOCATOR_FLAG_CLEAR_TO_ZERO )
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{
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zero_size( ptr, size );
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}
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}
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break;
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case EAllocation_FREE :
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{
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free( old_memory );
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}
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break;
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case EAllocation_RESIZE :
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{
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AllocatorInfo a = heap();
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ptr = default_resize_align( a, old_memory, old_size, size, alignment );
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}
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break;
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#else
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case EAllocation_ALLOC :
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{
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posix_memalign( &ptr, alignment, size );
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if ( flags & GEN_ALLOCATOR_FLAG_CLEAR_TO_ZERO )
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{
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zero_size( ptr, size );
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}
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}
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break;
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case EAllocation_FREE :
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{
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free( old_memory );
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}
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break;
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case EAllocation_RESIZE :
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{
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AllocatorInfo a = heap();
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ptr = default_resize_align( a, old_memory, old_size, size, alignment );
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}
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break;
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#endif
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case EAllocation_FREE_ALL :
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break;
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}
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#ifdef GEN_HEAP_ANALYSIS
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if ( type == EAllocation_ALLOC )
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{
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_heap_alloc_info* alloc_info = zpl_cast( _heap_alloc_info* )( zpl_cast( char* ) ptr + alloc_info_remainder );
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zero_item( alloc_info );
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alloc_info->size = size - track_size;
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alloc_info->physical_start = ptr;
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ptr = zpl_cast( void* )( alloc_info + 1 );
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_heap_stats_info.used_memory += alloc_info->size;
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_heap_stats_info.alloc_count++;
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}
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#endif
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return ptr;
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}
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void* Arena::allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
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{
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Arena* arena = rcast(Arena*, allocator_data);
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void* ptr = NULL;
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// unused( old_size );
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switch ( type )
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{
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case EAllocation_ALLOC :
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{
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void* end = pointer_add( arena->PhysicalStart, arena->TotalUsed );
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sw total_size = align_forward_i64( size, alignment );
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// NOTE: Out of memory
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if ( arena->TotalUsed + total_size > (sw) arena->TotalSize )
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{
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// zpl__printf_err("%s", "Arena out of memory\n");
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2023-08-09 15:47:59 -07:00
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GEN_FATAL("Arena out of memory! (Possibly could not fit for the largest size Arena!!)");
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2023-07-24 15:35:16 -07:00
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return nullptr;
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}
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ptr = align_forward( end, alignment );
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arena->TotalUsed += total_size;
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if ( flags & ALLOCATOR_FLAG_CLEAR_TO_ZERO )
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zero_size( ptr, size );
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}
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break;
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case EAllocation_FREE :
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// NOTE: Free all at once
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// Use Temp_Arena_Memory if you want to free a block
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break;
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case EAllocation_FREE_ALL :
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arena->TotalUsed = 0;
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break;
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case EAllocation_RESIZE :
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{
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// TODO : Check if ptr is on top of stack and just extend
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AllocatorInfo a = arena->Backing;
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ptr = default_resize_align( a, old_memory, old_size, size, alignment );
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}
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break;
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}
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return ptr;
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}
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void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
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{
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Pool* pool = zpl_cast( Pool* ) allocator_data;
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void* ptr = NULL;
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// unused( old_size );
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switch ( type )
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{
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case EAllocation_ALLOC :
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{
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uptr next_free;
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GEN_ASSERT( size == pool->BlockSize );
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GEN_ASSERT( alignment == pool->BlockAlign );
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GEN_ASSERT( pool->FreeList != NULL );
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next_free = *zpl_cast( uptr* ) pool->FreeList;
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ptr = pool->FreeList;
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pool->FreeList = zpl_cast( void* ) next_free;
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pool->TotalSize += pool->BlockSize;
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if ( flags & ALLOCATOR_FLAG_CLEAR_TO_ZERO )
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zero_size( ptr, size );
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}
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break;
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case EAllocation_FREE :
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{
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uptr* next;
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if ( old_memory == NULL )
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return NULL;
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next = zpl_cast( uptr* ) old_memory;
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*next = zpl_cast( uptr ) pool->FreeList;
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pool->FreeList = old_memory;
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pool->TotalSize -= pool->BlockSize;
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}
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break;
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case EAllocation_FREE_ALL :
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{
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sw actual_block_size, block_index;
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void* curr;
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uptr* end;
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actual_block_size = pool->BlockSize + pool->BlockAlign;
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pool->TotalSize = 0;
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// NOTE: Init intrusive freelist
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curr = pool->PhysicalStart;
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for ( block_index = 0; block_index < pool->NumBlocks - 1; block_index++ )
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{
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uptr* next = zpl_cast( uptr* ) curr;
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*next = zpl_cast( uptr ) curr + actual_block_size;
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curr = pointer_add( curr, actual_block_size );
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}
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end = zpl_cast( uptr* ) curr;
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*end = zpl_cast( uptr ) NULL;
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pool->FreeList = pool->PhysicalStart;
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}
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break;
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case EAllocation_RESIZE :
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// NOTE: Cannot resize
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GEN_PANIC( "You cannot resize something allocated by with a pool." );
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break;
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}
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return ptr;
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}
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Pool Pool::init_align( AllocatorInfo backing, sw num_blocks, sw block_size, sw block_align )
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{
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Pool pool = {};
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sw actual_block_size, pool_size, block_index;
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void *data, *curr;
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uptr* end;
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zero_item( &pool );
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pool.Backing = backing;
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pool.BlockSize = block_size;
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pool.BlockAlign = block_align;
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pool.NumBlocks = num_blocks;
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actual_block_size = block_size + block_align;
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pool_size = num_blocks * actual_block_size;
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data = alloc_align( backing, pool_size, block_align );
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// NOTE: Init intrusive freelist
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curr = data;
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for ( block_index = 0; block_index < num_blocks - 1; block_index++ )
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{
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uptr* next = ( uptr* ) curr;
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*next = ( uptr ) curr + actual_block_size;
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curr = pointer_add( curr, actual_block_size );
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}
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end = ( uptr* ) curr;
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*end = ( uptr ) NULL;
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pool.PhysicalStart = data;
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pool.FreeList = data;
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return pool;
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}
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void Pool::clear()
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{
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sw actual_block_size, block_index;
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void* curr;
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uptr* end;
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actual_block_size = BlockSize + BlockAlign;
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curr = PhysicalStart;
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for ( block_index = 0; block_index < NumBlocks - 1; block_index++ )
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{
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uptr* next = ( uptr* ) curr;
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*next = ( uptr ) curr + actual_block_size;
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curr = pointer_add( curr, actual_block_size );
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}
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end = ( uptr* ) curr;
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*end = ( uptr ) NULL;
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FreeList = PhysicalStart;
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}
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2023-07-25 20:00:57 -07:00
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#pragma endregion Memory
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