mirror of
https://github.com/Ed94/gencpp.git
synced 2024-11-10 02:54:53 -08:00
539 lines
9.1 KiB
C++
539 lines
9.1 KiB
C++
template<class Type>
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struct Array
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{
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struct Header
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{
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AllocatorInfo Allocator;
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uw Capacity;
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uw Num;
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};
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static
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Array init( AllocatorInfo allocator )
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{
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return init_reserve( allocator, grow_formula(0) );
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}
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static
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Array init_reserve( AllocatorInfo allocator, sw capacity )
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{
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Header* header = rcast( Header*, alloc( allocator, sizeof(Header) + sizeof(Type) * capacity ));
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if ( header == nullptr )
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return { nullptr };
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header->Allocator = allocator;
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header->Capacity = capacity;
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header->Num = 0;
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return { rcast( Type*, header + 1) };
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}
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static
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uw grow_formula( uw value )
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{
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return 2 * value + 8;
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}
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bool append( Type value )
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{
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Header* header = get_header();
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if ( header->Num == header->Capacity )
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{
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if ( ! grow( header->Capacity ))
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return false;
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header = get_header();
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}
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Data[ header->Num ] = value;
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header->Num++;
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return true;
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}
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bool append( Type* items, uw item_num )
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{
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Header* header = get_header();
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if ( header->Num + item_num > header->Capacity )
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{
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if ( ! grow( header->Capacity + item_num ))
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return false;
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header = get_header();
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}
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mem_copy( Data + header->Num, items, item_num * sizeof(Type) );
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header->Num += item_num;
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return true;
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}
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bool append_at( Type item, uw idx )
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{
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Header* header = get_header();
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if ( idx >= header->Num )
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idx = header->Num - 1;
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if ( idx < 0 )
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idx = 0;
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if ( header->Capacity < header->Num + 1 )
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{
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if ( ! grow( header->Capacity + 1 ))
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return false;
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header = get_header();
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}
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Type* target = Data + idx;
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mem_move( target + 1, target, (header->Num - idx) * sizeof(Type) );
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header->Num++;
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return true;
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}
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bool append_at( Type* items, uw item_num, uw idx )
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{
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Header* header = get_header();
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if ( idx >= header->Num )
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{
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return append( items, item_num );
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}
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if ( item_num > header->Capacity )
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{
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if ( ! grow( header->Capacity + item_num ) )
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return false;
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header = get_header();
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}
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Type* target = Data + idx + item_num;
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Type* src = Data + idx;
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mem_move( target, src, (header->Num - idx) * sizeof(Type) );
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mem_copy( src, items, item_num * sizeof(Type) );
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header->Num += item_num;
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return true;
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}
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Type& back( void )
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{
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Header& header = * get_header();
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return Data[ header.Num - 1 ];
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}
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void clear( void )
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{
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Header& header = * get_header();
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header.Num = 0;
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}
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bool fill( uw begin, uw end, Type value )
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{
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Header& header = * get_header();
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if ( begin < 0 || end >= header.Num )
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return false;
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for ( sw idx = begin; idx < end; idx++ )
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{
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Data[ idx ] = value;
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}
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return true;
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}
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void free( void )
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{
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Header& header = * get_header();
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gen::free( header.Allocator, &header );
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Data = nullptr;
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}
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Header* get_header( void )
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{
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return rcast( Header*, Data ) - 1 ;
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}
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bool grow( uw min_capacity )
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{
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Header& header = * get_header();
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uw new_capacity = grow_formula( header.Capacity );
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if ( new_capacity < min_capacity )
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new_capacity = min_capacity;
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return set_capacity( new_capacity );
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}
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uw num( void )
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{
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return get_header()->Num;
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}
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bool pop( void )
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{
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Header& header = * get_header();
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GEN_ASSERT( header.Num > 0 );
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header.Num--;
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}
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void remove_at( uw idx )
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{
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Header* header = get_header();
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GEN_ASSERT( idx < header->Num );
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mem_move( header + idx, header + idx + 1, sizeof( Type ) * ( header->Num - idx - 1 ) );
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header->Num--;
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}
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bool reserve( uw new_capacity )
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{
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Header& header = * get_header();
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if ( header.Capacity < new_capacity )
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return set_capacity( new_capacity );
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return true;
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}
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bool resize( uw num )
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{
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Header* header = get_header();
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if ( header->Capacity < num )
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{
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if ( ! grow( num ) )
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return false;
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header = get_header();
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}
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header->Num = num;
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return true;
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}
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bool set_capacity( uw new_capacity )
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{
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Header& header = * get_header();
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if ( new_capacity == header.Capacity )
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return true;
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if ( new_capacity < header.Num )
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header.Num = new_capacity;
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sw size = sizeof( Header ) + sizeof( Type ) * new_capacity;
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Header* new_header = rcast( Header*, alloc( header.Allocator, size ) );
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if ( new_header == nullptr )
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return false;
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mem_move( new_header, &header, sizeof( Header ) + sizeof( Type ) * header.Num );
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new_header->Capacity = new_capacity;
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gen::free( header.Allocator, &header );
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Data = rcast( Type*, new_header + 1);
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return true;
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}
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Type* Data;
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operator Type*()
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{
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return Data;
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}
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operator Type const*() const
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{
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return Data;
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}
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// For-range based support
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Type* begin()
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{
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return Data;
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}
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Type* end()
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{
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return Data + get_header()->Num;
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}
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};
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template<typename Type>
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struct HashTable
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{
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struct FindResult
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{
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sw HashIndex;
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sw PrevIndex;
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sw EntryIndex;
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};
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struct Entry
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{
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u64 Key;
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sw Next;
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Type Value;
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};
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static
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HashTable init( AllocatorInfo allocator )
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{
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HashTable<Type> result = { { nullptr }, { nullptr } };
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result.Hashes = Array<sw>::init( allocator );
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result.Entries = Array<Entry>::init( allocator );
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return result;
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}
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static
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HashTable init_reserve( AllocatorInfo allocator, uw num )
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{
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HashTable<Type> result = { { nullptr }, { nullptr } };
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result.Hashes = Array<sw>::init_reserve( allocator, num );
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result.Hashes.get_header()->Num = num;
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result.Entries = Array<Entry>::init_reserve( allocator, num );
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return result;
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}
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void clear( void )
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{
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for ( sw idx = 0; idx < Hashes.num(); idx++ )
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Hashes[ idx ] = -1;
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Hashes.clear();
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Entries.clear();
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}
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void destroy( void )
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{
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if ( Hashes && Hashes.get_header()->Capacity )
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{
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Hashes.free();
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Entries.free();
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}
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}
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Type* get( u64 key )
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{
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sw idx = find( key ).EntryIndex;
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if ( idx >= 0 )
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return & Entries[ idx ].Value;
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return nullptr;
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}
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using MapProc = void (*)( u64 key, Type value );
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void map( MapProc map_proc )
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{
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GEN_ASSERT_NOT_NULL( map_proc );
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for ( sw idx = 0; idx < Entries.num(); idx++ )
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{
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map_proc( Entries[ idx ].Key, Entries[ idx ].Value );
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}
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}
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using MapMutProc = void (*)( u64 key, Type* value );
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void map_mut( MapMutProc map_proc )
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{
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GEN_ASSERT_NOT_NULL( map_proc );
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for ( sw idx = 0; idx < Entries.num(); idx++ )
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{
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map_proc( Entries[ idx ].Key, & Entries[ idx ].Value );
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}
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}
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void grow()
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{
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sw new_num = Array<Entry>::grow_formula( Entries.num() );
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rehash( new_num );
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}
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void rehash( sw new_num )
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{
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sw idx;
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sw last_added_index;
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HashTable<Type> new_ht = init_reserve( Hashes.get_header()->Allocator, new_num );
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Array<sw>::Header* hash_header = new_ht.Hashes.get_header();
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for ( idx = 0; idx < new_ht.Hashes.num(); ++idx )
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new_ht.Hashes[ idx ] = -1;
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for ( idx = 0; idx < Entries.num(); ++idx )
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{
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Entry& entry = Entries[ idx ];
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FindResult find_result;
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if ( new_ht.Hashes.num() == 0 )
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new_ht.grow();
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entry = Entries[ idx ];
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find_result = new_ht.find( entry.Key );
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last_added_index = new_ht.add_entry( entry.Key );
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if ( find_result.PrevIndex < 0 )
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new_ht.Hashes[ find_result.HashIndex ] = last_added_index;
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else
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new_ht.Entries[ find_result.PrevIndex ].Next = last_added_index;
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new_ht.Entries[ last_added_index ].Next = find_result.EntryIndex;
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new_ht.Entries[ last_added_index ].Value = entry.Value;
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}
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destroy();
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*this = new_ht;
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}
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void rehash_fast()
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{
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sw idx;
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for ( idx = 0; idx < Entries.num(); idx++ )
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Entries[ idx ].Next = -1;
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for ( idx = 0; idx < Hashes.num(); idx++ )
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Hashes[ idx ] = -1;
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for ( idx = 0; idx < Entries.num(); idx++ )
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{
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Entry* entry;
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FindResult find_result;
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}
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}
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void remove( u64 key )
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{
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FindResult find_result = find( key);
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if ( find_result.EntryIndex >= 0 )
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{
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Entries.remove_at( find_result.EntryIndex );
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rehash_fast();
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}
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}
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void remove_entry( sw idx )
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{
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Entries.remove_at( idx );
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}
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void set( u64 key, Type value )
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{
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sw idx;
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FindResult find_result;
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if ( Hashes.num() == 0 )
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grow();
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find_result = find( key );
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if ( find_result.EntryIndex >= 0 )
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{
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idx = find_result.EntryIndex;
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}
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else
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{
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idx = add_entry( key );
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if ( find_result.PrevIndex >= 0 )
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{
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Entries[ find_result.PrevIndex ].Next = idx;
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}
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else
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{
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Hashes[ find_result.HashIndex ] = idx;
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}
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}
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Entries[ idx ].Value = value;
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if ( full() )
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grow();
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}
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sw slot( u64 key )
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{
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for ( sw idx = 0; idx < Hashes.num(); ++idx )
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if ( Hashes[ idx ] == key )
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return idx;
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return -1;
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}
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Array< sw> Hashes;
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Array< Entry> Entries;
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protected:
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sw add_entry( u64 key )
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{
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sw idx;
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Entry entry = { key, -1 };
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idx = Entries.num();
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Entries.append( entry );
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return idx;
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}
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FindResult find( u64 key )
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{
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FindResult result = { -1, -1, -1 };
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if ( Hashes.num() > 0 )
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{
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result.HashIndex = key % Hashes.num();
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result.EntryIndex = Hashes[ result.HashIndex ];
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while ( result.EntryIndex >= 0 )
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{
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if ( Entries[ result.EntryIndex ].Key == key )
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break;
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result.PrevIndex = result.EntryIndex;
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result.EntryIndex = Entries[ result.EntryIndex ].Next;
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}
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}
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return result;
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}
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b32 full()
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{
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return 0.75f * Hashes.num() < Entries.num();
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}
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};
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#pragma region Hashing
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u32 crc32( void const* data, sw len );
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u64 crc64( void const* data, sw len );
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#pragma endregion Hashing
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