2009-10-04 07:08:20 -06:00
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/*
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www.sourceforge.net/projects/dfhack
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Copyright (c) 2009 Petr Mrázek (peterix), Kenneth Ferland (Impaler[WrG]), dorf
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This software is provided 'as-is', without any express or implied
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warranty. In no event will the authors be held liable for any
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damages arising from the use of this software.
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Permission is granted to anyone to use this software for any
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purpose, including commercial applications, and to alter it and
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redistribute it freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must
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not claim that you wrote the original software. If you use this
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software in a product, an acknowledgment in the product documentation
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would be appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and
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must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source
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distribution.
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*/
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#ifndef SIMPLEAPI_H_INCLUDED
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#define SIMPLEAPI_H_INCLUDED
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#include "Export.h"
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#include <string>
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#include <vector>
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#include "integers.h"
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2009-11-10 20:37:28 -07:00
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namespace DFHack
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{
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class memory_info;
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class Process;
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enum VegetationType
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{
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TREE_DEAD,
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TREE_OK,
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SAPLING_DEAD,
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SAPLING_OK,
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SHRUB_DEAD,
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SHRUB_OK
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};
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DFHACK_EXPORT bool isWallTerrain(int in);
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DFHACK_EXPORT bool isFloorTerrain(int in);
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DFHACK_EXPORT bool isRampTerrain(int in);
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DFHACK_EXPORT bool isStairTerrain(int in);
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DFHACK_EXPORT bool isOpenTerrain(int in);
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DFHACK_EXPORT int getVegetationType(int in);
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class DFHACK_EXPORT API
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{
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class Private;
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Private * const d;
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public:
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API(const string path_to_xml);
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~API();
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bool Attach();
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bool Detach();
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bool isAttached();
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bool Suspend();
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bool Resume();
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bool isSuspended();
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/**
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* Matgloss. next four methods look very similar. I could use two and move the processing one level up...
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* I'll keep it like this, even with the code duplication as it will hopefully get more features and separate data types later.
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* Yay for nebulous plans for a rock survey tool that tracks how much of which metal could be smelted from available resorces
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*/
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bool ReadStoneMatgloss(vector<t_matgloss> & output);
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bool ReadWoodMatgloss (vector<t_matgloss> & output);
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bool ReadMetalMatgloss(vector<t_matgloss> & output);
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bool ReadPlantMatgloss(vector<t_matgloss> & output);
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bool ReadCreatureMatgloss(vector<t_matgloss> & output);
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// read region surroundings, get their vectors of geolayers so we can do translation (or just hand the translation table to the client)
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// returns an array of 9 vectors of indices into stone matgloss
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/**
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Method for reading the geological surrounding of the currently loaded region.
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assign is a reference to an array of nine vectors of unsigned words that are to be filled with the data
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array is indexed by the BiomeOffset enum
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I omitted resolving the layer matgloss in this API, because it would
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introduce overhead by calling some method for each tile. You have to do it
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yourself. First get the stuff from ReadGeology and then for each block get
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the RegionOffsets. For each tile get the real region from RegionOffsets and
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cross-reference it with the geology stuff (region -- array of vectors, depth --
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vector). I'm thinking about turning that Geology stuff into a
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two-dimensional array with static size.
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this is the algorithm for applying matgloss:
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void DfMap::applyGeoMatgloss(Block * b)
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{
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// load layer matgloss
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for(int x_b = 0; x_b < BLOCK_SIZE; x_b++)
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{
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for(int y_b = 0; y_b < BLOCK_SIZE; y_b++)
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{
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int geolayer = b->designation[x_b][y_b].bits.geolayer_index;
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int biome = b->designation[x_b][y_b].bits.biome;
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b->material[x_b][y_b].type = Mat_Stone;
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b->material[x_b][y_b].index = v_geology[b->RegionOffsets[biome]][geolayer];
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}
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}
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}
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*/
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bool ReadGeology( vector < vector <uint16_t> >& assign );
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/*
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* BLOCK DATA
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*/
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/// allocate and read pointers to map blocks
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bool InitMap();
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/// destroy the mapblock cache
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bool DestroyMap();
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/// get size of the map in tiles
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void getSize(uint32_t& x, uint32_t& y, uint32_t& z);
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/**
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* Return false/0 on failure, buffer allocated by client app, 256 items long
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*/
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bool isValidBlock(uint32_t blockx, uint32_t blocky, uint32_t blockz);
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bool ReadTileTypes(uint32_t blockx, uint32_t blocky, uint32_t blockz, uint16_t *buffer); // 256 * sizeof(uint16_t)
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bool WriteTileTypes(uint32_t blockx, uint32_t blocky, uint32_t blockz, uint16_t *buffer); // 256 * sizeof(uint16_t)
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bool ReadDesignations(uint32_t blockx, uint32_t blocky, uint32_t blockz, uint32_t *buffer); // 256 * sizeof(uint32_t)
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bool WriteDesignations (uint32_t blockx, uint32_t blocky, uint32_t blockz, uint32_t *buffer);
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bool ReadOccupancy(uint32_t blockx, uint32_t blocky, uint32_t blockz, uint32_t *buffer); // 256 * sizeof(uint32_t)
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bool WriteOccupancy(uint32_t blockx, uint32_t blocky, uint32_t blockz, uint32_t *buffer); // 256 * sizeof(uint32_t)
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/// read region offsets of a block
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bool ReadRegionOffsets(uint32_t blockx, uint32_t blocky, uint32_t blockz, uint8_t *buffer); // 16 * sizeof(uint8_t)
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/// read aggregated veins of a block
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bool ReadVeins(uint32_t blockx, uint32_t blocky, uint32_t blockz, vector <t_vein> & veins);
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/**
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* Buildings, constructions, plants, all pretty straighforward. InitReadBuildings returns all the building types as a mapping between a numeric values and strings
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*/
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uint32_t InitReadConstructions();
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bool ReadConstruction(const int32_t &index, t_construction & construction);
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void FinishReadConstructions();
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uint32_t InitReadBuildings(vector <string> &v_buildingtypes);
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bool ReadBuilding(const int32_t &index, t_building & building);
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void FinishReadBuildings();
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uint32_t InitReadVegetation();
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bool ReadVegetation(const int32_t &index, t_tree_desc & shrubbery);
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void FinishReadVegetation();
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uint32_t InitReadCreatures();
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// returns index of creature actually read or -1 if no creature can be found
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int32_t ReadCreatureInBox(int32_t index, t_creature & furball,
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const uint16_t &x1, const uint16_t &y1,const uint16_t &z1,
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const uint16_t &x2, const uint16_t &y2,const uint16_t &z2);
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bool ReadCreature(const int32_t &index, t_creature & furball);
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void FinishReadCreatures();
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void ReadRaw (const uint32_t &offset, const uint32_t &size, uint8_t *target);
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void WriteRaw (const uint32_t &offset, const uint32_t &size, uint8_t *source);
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bool InitViewAndCursor();
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bool getViewCoords (int32_t &x, int32_t &y, int32_t &z);
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bool setViewCoords (const int32_t &x, const int32_t &y, const int32_t &z);
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bool getCursorCoords (int32_t &x, int32_t &y, int32_t &z);
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bool setCursorCoords (const int32_t &x, const int32_t &y, const int32_t &z);
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/*
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// FIXME: add a real creature class, move these
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string getLastName(const uint32_t &index, bool);
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string getSquadName(const uint32_t &index, bool);
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string getProfession(const uint32_t &index);
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string getCurrentJob(const uint32_t &index);
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vector<t_skill> getSkills(const uint32_t &index);
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vector<t_trait> getTraits(const uint32_t &index);
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vector<t_labor> getLabors(const uint32_t &index);
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*/
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void InitReadNameTables();
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void FinishReadNameTables();
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uint32_t InitReadItems();
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bool ReadItem(const uint32_t &index, t_item & item);
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void FinishReadItems();
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memory_info getMemoryInfo();
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Process * getProcess();
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};
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} // namespace DFHack
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#endif // SIMPLEAPI_H_INCLUDED
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