mirror of
https://github.com/Ed94/HandmadeHero.git
synced 2024-11-10 03:44:53 -08:00
181 lines
5.3 KiB
C++
181 lines
5.3 KiB
C++
#if INTELLISENSE_DIRECTIVES
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#include "tile_map.hpp"
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#endif
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NS_ENGINE_BEGIN
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inline
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TileMapPosition subtract( TileMapPosition pos_a, TileMapPosition pos_b )
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{
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TileMapPosition result {
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pos_a.x - pos_b.x,
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pos_a.y - pos_b.y,
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pos_a.tile_x - pos_b.tile_x,
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pos_a.tile_y - pos_b.tile_y,
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// TODO(Ed) : Think about how to handle z...
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pos_a.tile_z - pos_b.tile_z
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};
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return result;
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}
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// TODO(Ed) : Consider moving (Casey wants to)
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inline
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void cannonicalize_coord( TileMap* tile_map, s32* tile_coord, f32* pos_coord )
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{
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assert( tile_map != nullptr );
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assert( tile_coord != nullptr );
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f32 tile_size = scast(f32, tile_map->tile_size_in_meters);
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// Note(Ed) : World is assumed to be a "torodial topology"
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s32 offset = round( (* pos_coord) / tile_size );
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s32 new_tile_coord = (* tile_coord) + offset;
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f32 new_pos_coord = (* pos_coord) - scast(f32, offset) * tile_size;
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assert( new_pos_coord >= -tile_size * 0.5f );
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assert( new_pos_coord <= tile_size * 0.5f );
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(* tile_coord) = new_tile_coord;
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(* pos_coord) = new_pos_coord;
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}
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// TODO(Ed) : Consider moving (Casey wants to)
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inline
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TileMapPosition recannonicalize_position( TileMap* tile_map, TileMapPosition pos )
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{
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assert( tile_map != nullptr );
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TileMapPosition result = pos;
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cannonicalize_coord( tile_map, & result.tile_x, & result.x );
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cannonicalize_coord( tile_map, & result.tile_y, & result.y );
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return result;
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}
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inline
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u32 TileChunk_get_tile_value( TileChunk* tile_chunk, TileMap* tile_map, s32 x, s32 y )
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{
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assert( tile_map != nullptr );
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assert( tile_chunk != nullptr );
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assert( x < tile_map->chunk_dimension );
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assert( y < tile_map->chunk_dimension );
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u32 value = tile_chunk->tiles[ (y * tile_map->chunk_dimension) + x ];
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return value;
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}
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inline
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void TileChunk_set_tile_value( TileChunk* tile_chunk, TileMap* tile_map, s32 x, s32 y, s32 value)
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{
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assert( tile_map != nullptr );
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assert( tile_chunk != nullptr );
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assert( x < tile_map->chunk_dimension );
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assert( y < tile_map->chunk_dimension );
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tile_chunk->tiles[ (y * tile_map->chunk_dimension) + x ] = value;
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}
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inline
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TileChunk* TileMap_get_chunk( TileMap* tile_map, s32 tile_chunk_x, s32 tile_chunk_y, s32 tile_chunk_z )
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{
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TileChunk* chunk = nullptr;
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if ( tile_chunk_x >= 0 && tile_chunk_x < scast(s32, tile_map->tile_chunks_num_x)
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&& tile_chunk_y >= 0 && tile_chunk_y < scast(s32, tile_map->tile_chunks_num_y)
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&& tile_chunk_z >= 0 && tile_chunk_z < scast(s32, tile_map->tile_chunks_num_z) )
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{
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chunk = & tile_map->chunks[
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tile_chunk_z * tile_map->tile_chunks_num_y * tile_map->tile_chunks_num_x
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+ tile_chunk_y * tile_map->tile_chunks_num_x
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+ tile_chunk_x ];
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}
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return chunk;
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}
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inline
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TileChunkPosition get_tile_chunk_position_for( TileMap* tile_map, u32 abs_tile_x, u32 abs_tile_y, u32 abs_tile_z )
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{
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assert( tile_map != nullptr );
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TileChunkPosition chunk_pos {};
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chunk_pos.tile_chunk_x = abs_tile_x >> tile_map->chunk_shift;
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chunk_pos.tile_chunk_y = abs_tile_y >> tile_map->chunk_shift;
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chunk_pos.tile_chunk_z = abs_tile_z;
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chunk_pos.tile_x = abs_tile_x & tile_map->chunk_mask;
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chunk_pos.tile_y = abs_tile_y & tile_map->chunk_mask;
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return chunk_pos;
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}
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inline
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u32 TileMap_get_tile_value( TileMap* tile_map, u32 tile_x, u32 tile_y, u32 tile_z )
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{
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assert( tile_map != nullptr );
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u32 value = 0;
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TileChunkPosition chunk_pos = get_tile_chunk_position_for( tile_map, tile_x, tile_y, tile_z );
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TileChunk* chunk = TileMap_get_chunk( tile_map, chunk_pos.tile_chunk_x, chunk_pos.tile_chunk_y, chunk_pos.tile_chunk_z );
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if ( chunk && chunk->tiles )
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value = TileChunk_get_tile_value( chunk, tile_map, chunk_pos.tile_x, chunk_pos.tile_y );
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return value;
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}
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inline
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u32 TileMap_get_tile_value( TileMap* tile_map, TileMapPosition position )
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{
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u32 value = TileMap_get_tile_value( tile_map, position.tile_x, position.tile_y, position.tile_z );
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return value;
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}
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internal
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b32 TileMap_is_point_empty( TileMap* tile_map, TileMapPosition position )
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{
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assert( tile_map != nullptr );
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u32 chunk_value = TileMap_get_tile_value( tile_map, position.tile_x, position.tile_y, position.tile_z );
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b32
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is_empty = chunk_value == 1;
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is_empty |= chunk_value == 3;
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is_empty |= chunk_value == 4;
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return is_empty;
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}
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internal
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void TileMap_set_tile_value( MemoryArena* arena, TileMap* tile_map, s32 abs_tile_x, s32 abs_tile_y, s32 abs_tile_z, s32 value )
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{
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TileChunkPosition chunk_pos = get_tile_chunk_position_for( tile_map, abs_tile_x, abs_tile_y, abs_tile_z );
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TileChunk* chunk = TileMap_get_chunk( tile_map, chunk_pos.tile_chunk_x, chunk_pos.tile_chunk_y, chunk_pos.tile_chunk_z );
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assert( chunk != nullptr );
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if ( chunk->tiles == nullptr )
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{
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ssize num_tiles = tile_map->chunk_dimension * tile_map->chunk_dimension;
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chunk->tiles = arena->push_array( s32, num_tiles );
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for ( ssize tile_index = 0; tile_index < num_tiles; ++ tile_index )
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{
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chunk->tiles[ tile_index ] = 1;
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}
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}
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TileChunk_set_tile_value( chunk, tile_map, chunk_pos.tile_x, chunk_pos.tile_y, value );
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}
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internal
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b32 TileMap_are_on_same_tile( TileMapPosition* pos_a, TileMapPosition* pos_b )
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{
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b32 result =
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pos_a->tile_x == pos_b->tile_x
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&& pos_a->tile_y == pos_b->tile_y
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&& pos_a->tile_z == pos_b->tile_z;
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return result;
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}
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NS_ENGINE_END
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