mirror of https://github.com/OpenTTD/OpenTTD.git
150 lines
5.0 KiB
C++
150 lines
5.0 KiB
C++
/*
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* This file is part of OpenTTD.
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* OpenTTD 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, version 2.
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* OpenTTD 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.
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* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file tile_map.cpp Global tile accessors. */
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#include "stdafx.h"
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#include "tile_map.h"
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#include "safeguards.h"
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/**
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* Get a tile's slope given the heigh of its four corners.
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* @param hnorth The height at the northern corner in the same unit as TileHeight.
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* @param hwest The height at the western corner in the same unit as TileHeight.
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* @param heast The height at the eastern corner in the same unit as TileHeight.
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* @param hsouth The height at the southern corner in the same unit as TileHeight.
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* @return The slope and the lowest height of the four corners.
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*/
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static std::tuple<Slope, int> GetTileSlopeGivenHeight(int hnorth, int hwest, int heast, int hsouth)
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{
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/* Due to the fact that tiles must connect with each other without leaving gaps, the
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* biggest difference in height between any corner and 'min' is between 0, 1, or 2.
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*
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* Also, there is at most 1 corner with height difference of 2.
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*/
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int hminnw = std::min(hnorth, hwest);
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int hmines = std::min(heast, hsouth);
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int hmin = std::min(hminnw, hmines);
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int hmaxnw = std::max(hnorth, hwest);
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int hmaxes = std::max(heast, hsouth);
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int hmax = std::max(hmaxnw, hmaxes);
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Slope r = SLOPE_FLAT;
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if (hnorth != hmin) r |= SLOPE_N;
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if (hwest != hmin) r |= SLOPE_W;
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if (heast != hmin) r |= SLOPE_E;
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if (hsouth != hmin) r |= SLOPE_S;
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if (hmax - hmin == 2) r |= SLOPE_STEEP;
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return {r, hmin};
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}
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/**
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* Return the slope of a given tile inside the map.
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* @param tile Tile to compute slope of
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* @return Slope of the tile, except for the HALFTILE part, and the z height
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*/
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std::tuple<Slope, int> GetTileSlopeZ(TileIndex tile)
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{
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uint x1 = TileX(tile);
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uint y1 = TileY(tile);
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uint x2 = std::min(x1 + 1, Map::MaxX());
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uint y2 = std::min(y1 + 1, Map::MaxY());
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int hnorth = TileHeight(tile); // Height of the North corner.
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int hwest = TileHeight(TileXY(x2, y1)); // Height of the West corner.
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int heast = TileHeight(TileXY(x1, y2)); // Height of the East corner.
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int hsouth = TileHeight(TileXY(x2, y2)); // Height of the South corner.
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return GetTileSlopeGivenHeight(hnorth, hwest, heast, hsouth);
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}
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/**
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* Return the slope of a given tile, also for tiles outside the map (virtual "black" tiles).
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*
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* @param x X coordinate of the tile to compute slope of, may be outside the map.
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* @param y Y coordinate of the tile to compute slope of, may be outside the map.
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* @param h If not \c nullptr, pointer to storage of z height.
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* @return Slope of the tile, except for the HALFTILE part, and the z height of the tile.
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*/
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std::tuple<Slope, int> GetTilePixelSlopeOutsideMap(int x, int y)
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{
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int hnorth = TileHeightOutsideMap(x, y); // N corner.
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int hwest = TileHeightOutsideMap(x + 1, y); // W corner.
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int heast = TileHeightOutsideMap(x, y + 1); // E corner.
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int hsouth = TileHeightOutsideMap(x + 1, y + 1); // S corner.
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auto [slope, h] = GetTileSlopeGivenHeight(hnorth, hwest, heast, hsouth);
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return {slope, h * TILE_HEIGHT};
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}
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/**
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* Check if a given tile is flat
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* @param tile Tile to check
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* @param h If not \c nullptr, pointer to storage of z height (only if tile is flat)
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* @return Whether the tile is flat
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*/
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bool IsTileFlat(TileIndex tile, int *h)
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{
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uint x1 = TileX(tile);
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uint y1 = TileY(tile);
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uint x2 = std::min(x1 + 1, Map::MaxX());
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uint y2 = std::min(y1 + 1, Map::MaxY());
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uint z = TileHeight(tile);
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if (TileHeight(TileXY(x2, y1)) != z) return false;
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if (TileHeight(TileXY(x1, y2)) != z) return false;
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if (TileHeight(TileXY(x2, y2)) != z) return false;
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if (h != nullptr) *h = z;
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return true;
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}
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/**
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* Get bottom height of the tile
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* @param tile Tile to compute height of
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* @return Minimum height of the tile
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*/
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int GetTileZ(TileIndex tile)
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{
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uint x1 = TileX(tile);
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uint y1 = TileY(tile);
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uint x2 = std::min(x1 + 1, Map::MaxX());
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uint y2 = std::min(y1 + 1, Map::MaxY());
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return std::min({
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TileHeight(tile), // N corner
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TileHeight(TileXY(x2, y1)), // W corner
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TileHeight(TileXY(x1, y2)), // E corner
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TileHeight(TileXY(x2, y2)), // S corner
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});
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}
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/**
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* Get top height of the tile inside the map.
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* @param t Tile to compute height of
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* @return Maximum height of the tile
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*/
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int GetTileMaxZ(TileIndex t)
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{
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uint x1 = TileX(t);
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uint y1 = TileY(t);
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uint x2 = std::min(x1 + 1, Map::MaxX());
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uint y2 = std::min(y1 + 1, Map::MaxY());
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return std::max({
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TileHeight(t), // N corner
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TileHeight(TileXY(x2, y1)), // W corner
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TileHeight(TileXY(x1, y2)), // E corner
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TileHeight(TileXY(x2, y2)), // S corner
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});
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}
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