Petr Mrázek 2011-10-27 02:06:57 +02:00
commit 8838d8c3d6
2 changed files with 459 additions and 0 deletions

@ -47,6 +47,7 @@ DFHACK_PLUGIN(cleanowned cleanowned.cpp)
DFHACK_PLUGIN(deramp deramp.cpp)
DFHACK_PLUGIN(flows flows.cpp)
DFHACK_PLUGIN(filltraffic filltraffic.cpp)
DFHACK_PLUGIN(seedwatch seedwatch.cpp)
# this is the skeleton plugin. If you want to make your own, make a copy and then change it
OPTION(BUILD_SKELETON "Build the skeleton plugin." OFF)

@ -0,0 +1,458 @@
// This does not work with Linux Dwarf Fortress
// With thanks to peterix for DFHack and Quietust for information http://www.bay12forums.com/smf/index.php?topic=91166.msg2605147#msg2605147
#include <map>
#include <string>
#include <vector>
#include "dfhack/Console.h"
#include "dfhack/Core.h"
#include "dfhack/Export.h"
#include "dfhack/PluginManager.h"
#include "dfhack/Process.h"
#include "dfhack/modules/Items.h"
#include "dfhack/modules/Materials.h"
typedef int32_t t_materialIndex;
typedef int16_t t_materialSubindex, t_itemType, t_itemSubtype;
typedef int8_t t_exclusionType;
const unsigned int seedLimit = 400; // a limit on the limits which can be placed on seeds
const t_itemType seedType = 52; // from df.magmawiki.com/index.php/Item_token
const t_itemType plantType = 53; // from df.magmawiki.com/index.php/Item_token
const t_itemSubtype organicSubtype = -1; // seems to fixed
const t_exclusionType cookingExclusion = 1; // seems to be fixed
const t_itemType limitType = 0; // used to store limit as an entry in the exclusion list
const t_itemSubtype limitSubtype = 0; // used to store limit as an entry in the exclusion list
const t_exclusionType limitExclusion = 4; // used to store limit as an entry in the exclusion list
const int buffer = 20; // seed number buffer - 20 is reasonable
bool running = false; // whether seedwatch is counting the seeds or not
std::map<std::string, std::string> abbreviations; // abbreviations for the standard plants
bool ignoreSeeds(DFHack::t_itemflags& f) // seeds with the following flags should not be counted
{
return
f.dump ||
f.forbid ||
f.garbage_colect ||
f.hidden ||
f.hostile ||
f.on_fire ||
f.rotten ||
f.trader ||
f.in_building ||
f.in_job;
};
void updateCountAndSubindices(DFHack::Core& core, std::map<t_materialIndex, unsigned int>& seedCount, std::map<t_materialIndex, t_materialSubindex>& seedSubindices, std::map<t_materialIndex, t_materialSubindex>& plantSubindices) // fills seedCount, seedSubindices and plantSubindices
{
DFHack::Items& itemsModule = *core.getItems();
itemsModule.Start();
std::vector<DFHack::t_item*> items;
itemsModule.readItemVector(items);
DFHack::dfh_item item;
std::size_t size = items.size();
for(std::size_t i = 0; i < size; ++i)
{
itemsModule.readItem(items[i], item);
t_materialIndex materialIndex = item.matdesc.index;
switch(item.matdesc.itemType)
{
case seedType:
seedSubindices[materialIndex] = item.matdesc.subIndex;
if(!ignoreSeeds(item.base->flags)) ++seedCount[materialIndex];
break;
case plantType:
plantSubindices[materialIndex] = item.matdesc.subIndex;
break;
}
}
itemsModule.Finish();
};
void printHelp(DFHack::Core& core) // prints help
{
core.con.print("\ne.g. #seedwatch MUSHROOM_HELMET_PLUMP 30\n");
core.con.print("This is how to add an item to the watch list.\n");
core.con.print("MUSHROOM_HELMET_PLUMP is the plant token for plump helmets (found in raws)\n");
core.con.print("The number of available plump helmet seeds is counted each tick\n");
core.con.print("If it falls below 30, plump helmets and plump helmet seeds will be excluded from cookery.\n");
core.con.print("%i is the buffer, therefore if the number rises above 30 + %i, then cooking will be allowed.\n", buffer, buffer);
if(!abbreviations.empty())
{
core.con.print("You can use these abbreviations for the plant tokens:\n");
for(std::map<std::string, std::string>::const_iterator i = abbreviations.begin(); i != abbreviations.end(); ++i)
{
core.con.print("%s -> %s\n", i->first.c_str(), i->second.c_str());
}
}
core.con.print("e.g. #seedwatch ph 30\nis the same as #seedwatch MUSHROOM_HELMET_PLUMP 30\n\n");
core.con.print("e.g. #seedwatch all 30\nAdds all which are in the abbreviation list to the watch list, the limit being 30.\n\n");
core.con.print("e.g. #seedwatch MUSHROOM_HELMET_PLUMP\nRemoves MUSHROOM_HELMET_PLUMP from the watch list.\n\n");
core.con.print("#seedwatch all\nClears the watch list.\n\n");
core.con.print("#seedwatch start\nStart seedwatch watch.\n\n");
core.con.print("#seedwatch stop\nStop seedwatch watch.\n\n");
core.con.print("#seedwatch info\nDisplay whether seedwatch is watching, and the watch list.\n\n");
core.con.print("#seedwatch clear\nClears the watch list.\n");
};
std::string searchAbbreviations(std::string in) // searches abbreviations, returns expansion if so, returns original if not
{
if(abbreviations.count(in) > 0) return abbreviations[in];
return in;
};
class t_kitchenExclusions // helps to organise access to the cooking exclusions
{
public:
t_kitchenExclusions(DFHack::Core& core_) // constructor
: core(core_)
, itemTypes (*((std::vector<t_itemType >*)(start(core_) ))) // using the kludge in start
, itemSubtypes (*((std::vector<t_itemSubtype >*)(start(core_) + 0x10))) // further kludge offset
, materialSubindices(*((std::vector<t_materialSubindex>*)(start(core_) + 0x20))) // further kludge offset
, materialIndices (*((std::vector<t_materialIndex >*)(start(core_) + 0x30))) // further kludge offset
, exclusionTypes (*((std::vector<t_exclusionType >*)(start(core_) + 0x40))) // further kludge offset
{
};
void print() // print the exclusion list, with the material index also translated into its token (for organics) - for debug really
{
core.con.print("Kitchen Exclusions\n");
DFHack::Materials& materialsModule= *core.getMaterials();
materialsModule.ReadOrganicMaterials();
for(std::size_t i = 0; i < size(); ++i)
{
core.con.print("%2u: IT:%2i IS:%i MI:%2i MS:%3i ET:%i %s\n", i, itemTypes[i], itemSubtypes[i], materialIndices[i], materialSubindices[i], exclusionTypes[i], materialsModule.organic[materialIndices[i]].id.c_str());
}
core.con.print("\n");
};
void allowCookery(t_materialIndex materialIndex) // remove this material from the exclusion list if it is in it
{
bool match = false;
do
{
match = false;
std::size_t matchIndex = 0;
for(std::size_t i = 0; i < size(); ++i)
{
if(materialIndices[i] == materialIndex && (itemTypes[i] == seedType || itemTypes[i] == plantType) && exclusionTypes[i] == cookingExclusion)
{
match = true;
matchIndex = i;
}
}
if(match)
{
itemTypes.erase(itemTypes.begin() + matchIndex);
itemSubtypes.erase(itemSubtypes.begin() + matchIndex);
materialIndices.erase(materialIndices.begin() + matchIndex);
materialSubindices.erase(materialSubindices.begin() + matchIndex);
exclusionTypes.erase(exclusionTypes.begin() + matchIndex);
}
} while(match);
};
void denyCookery(t_materialIndex materialIndex, std::map<t_materialIndex, t_materialSubindex>& seedSubindices, std::map<t_materialIndex, t_materialSubindex>& plantSubindices) // add this material to the exclusion list, if it is not already in it
{
if(seedSubindices.count(materialIndex) > 0)
{
bool alreadyIn = false;
for(std::size_t i = 0; i < size(); ++i)
{
if(materialIndices[i] == materialIndex && itemTypes[i] == seedType && exclusionTypes[i] == cookingExclusion)
{
alreadyIn = true;
}
}
if(!alreadyIn)
{
itemTypes.push_back(seedType);
itemSubtypes.push_back(organicSubtype);
materialIndices.push_back(materialIndex);
materialSubindices.push_back(seedSubindices[materialIndex]);
exclusionTypes.push_back(cookingExclusion);
}
}
if(plantSubindices.count(materialIndex) > 0)
{
bool alreadyIn = false;
for(std::size_t i = 0; i < size(); ++i)
{
if(materialIndices[i] == materialIndex && itemTypes[i] == plantType && exclusionTypes[i] == cookingExclusion)
{
alreadyIn = true;
}
}
if(!alreadyIn)
{
itemTypes.push_back(plantType);
itemSubtypes.push_back(organicSubtype);
materialIndices.push_back(materialIndex);
materialSubindices.push_back(plantSubindices[materialIndex]);
exclusionTypes.push_back(cookingExclusion);
}
}
};
void fillWatchMap(std::map<t_materialIndex, unsigned int>& watchMap) // fills a map with info from the limit info storage entries in the exclusion list
{
watchMap.clear();
for(std::size_t i = 0; i < size(); ++i)
{
if(itemTypes[i] == limitType && itemSubtypes[i] == limitSubtype && exclusionTypes[i] == limitExclusion)
{
watchMap[materialIndices[i]] = (unsigned int) materialSubindices[i];
}
}
};
void removeLimit(t_materialIndex materialIndex) // removes a limit info storage entry from the exclusion list if it is in it
{
bool match = false;
do
{
match = false;
std::size_t matchIndex = 0;
for(std::size_t i = 0; i < size(); ++i)
{
if(itemTypes[i] == limitType && itemSubtypes[i] == limitSubtype && materialIndices[i] == materialIndex && exclusionTypes[i] == limitExclusion)
{
match = true;
matchIndex = i;
}
}
if(match)
{
itemTypes.erase(itemTypes.begin() + matchIndex);
itemSubtypes.erase(itemSubtypes.begin() + matchIndex);
materialIndices.erase(materialIndices.begin() + matchIndex);
materialSubindices.erase(materialSubindices.begin() + matchIndex);
exclusionTypes.erase(exclusionTypes.begin() + matchIndex);
}
} while(match);
};
void setLimit(t_materialIndex materialIndex, unsigned int limit) // add a limit info storage item to the exclusion list, or alters an existing one
{
removeLimit(materialIndex);
if(limit > seedLimit) limit = seedLimit;
itemTypes.push_back(limitType);
itemSubtypes.push_back(limitSubtype);
materialIndices.push_back(materialIndex);
materialSubindices.push_back((t_materialSubindex) (limit < seedLimit) ? limit : seedLimit);
exclusionTypes.push_back(limitExclusion);
};
void clearLimits() // clears all limit info storage items from the exclusion list
{
bool match = false;
do
{
match = false;
std::size_t matchIndex;
for(std::size_t i = 0; i < size(); ++i)
{
if(itemTypes[i] == limitType && itemSubtypes[i] == limitSubtype && exclusionTypes[i] == limitExclusion)
{
match = true;
matchIndex = i;
}
}
if(match)
{
itemTypes.erase(itemTypes.begin() + matchIndex);
itemSubtypes.erase(itemSubtypes.begin() + matchIndex);
materialIndices.erase(materialIndices.begin() + matchIndex);
materialSubindices.erase(materialSubindices.begin() + matchIndex);
exclusionTypes.erase(exclusionTypes.begin() + matchIndex);
}
} while(match);
};
private:
DFHack::Core& core;
std::vector<t_itemType>& itemTypes; // the item types vector of the kitchen exclusion list
std::vector<t_itemSubtype>& itemSubtypes; // the item subtype vector of the kitchen exclusion list
std::vector<t_materialSubindex>& materialSubindices; // the material subindex vector of the kitchen exclusion list
std::vector<t_materialIndex>& materialIndices; // the material index vector of the kitchen exclusion list
std::vector<t_exclusionType>& exclusionTypes; // the exclusion type vector of the kitchen excluions list
std::size_t size() // the size of the exclusions vectors (they are all the same size - if not, there is a problem!)
{
return itemTypes.size();
};
static uint32_t start(const DFHack::Core& core) // the kludge for the exclusion position in memory
{
return core.p->getBase() + 0x014F0BB4 - 0x400000;
};
};
DFhackCExport DFHack::command_result df_seedwatch(DFHack::Core* pCore, std::vector<std::string>& parameters)
{
DFHack::Core& core = *pCore;
if(!core.isValid()) return DFHack::CR_FAILURE;
core.Suspend();
DFHack::Materials& materialsModule = *core.getMaterials();
materialsModule.ReadOrganicMaterials();
std::vector<DFHack::t_matgloss>& organics = materialsModule.organic;
std::map<std::string, t_materialIndex> materialsReverser;
for(std::size_t i = 0; i < organics.size(); ++i)
{
materialsReverser[organics[i].id] = i;
}
std::string par;
int limit;
switch(parameters.size())
{
case 0:
printHelp(core);
break;
case 1:
par = parameters[0];
if(par == "help") printHelp(core);
else if(par == "?") printHelp(core);
else if(par == "start")
{
running = true;
core.con.print("seedwatch supervision started.\n");
}
else if(par == "stop")
{
running = false;
core.con.print("seedwatch supervision stopped.\n");
}
else if(par == "clear")
{
t_kitchenExclusions kitchenExclusions(core);
kitchenExclusions.clearLimits();
core.con.print("seedwatch watchlist cleared\n");
}
else if(par == "info")
{
core.con.print("seedwatch Info:\n");
if(running) core.con.print("seedwatch is supervising. Use 'seedwatch stop' to stop supervision.\n");
else core.con.print("seedwatch is not supervising. Use 'seedwatch start' to start supervision.\n");
t_kitchenExclusions kitchenExclusions(core);
std::map<t_materialIndex, unsigned int> watchMap;
kitchenExclusions.fillWatchMap(watchMap);
if(watchMap.empty()) core.con.print("The watch list is empty.\n");
else
{
core.con.print("The watch list is:\n");
for(std::map<t_materialIndex, unsigned int>::const_iterator i = watchMap.begin(); i != watchMap.end(); ++i)
{
core.con.print("%s : %u\n", organics[i->first].id.c_str(), i->second);
}
}
/*kitchenExclusions.print();*/
}
else
{
std::string token = searchAbbreviations(par);
if(materialsReverser.count(token) > 0)
{
t_kitchenExclusions kitchenExclusions(core);
kitchenExclusions.removeLimit(materialsReverser[token]);
core.con.print("%s is not being watched\n", token.c_str());
}
else
{
core.con.print("%s has not been found as a material.\n", token.c_str());
}
}
break;
case 2:
limit = atoi(parameters[1].c_str());
if(limit < 0) limit = 0;
if(parameters[0] == "all")
{
for(std::map<std::string, std::string>::const_iterator i = abbreviations.begin(); i != abbreviations.end(); ++i)
{
t_kitchenExclusions kitchenExclusions(core);
if(materialsReverser.count(i->second) > 0) kitchenExclusions.setLimit(materialsReverser[i->second], limit);
}
}
else
{
std::string token = searchAbbreviations(parameters[0]);
if(materialsReverser.count(token) > 0)
{
t_kitchenExclusions kitchenExclusions(core);
kitchenExclusions.setLimit(materialsReverser[token], limit);
core.con.print("%s is being watched.\n", token.c_str());
}
else
{
core.con.print("%s has not been found as a material.\n", token.c_str());
}
}
break;
default:
printHelp(core);
break;
}
core.Resume();
return DFHack::CR_OK;
}
DFhackCExport const char* plugin_name(void)
{
return "seedwatch";
}
DFhackCExport DFHack::command_result plugin_init(DFHack::Core* pCore, std::vector<DFHack::PluginCommand>& commands)
{
commands.clear();
commands.push_back(DFHack::PluginCommand("seedwatch", "Switches cookery based on quantity of seeds, to keep reserves", df_seedwatch));
// fill in the abbreviations map, with abbreviations for the standard plants
abbreviations["bs"] = "SLIVER_BARB";
abbreviations["bt"] = "TUBER_BLOATED";
abbreviations["bw"] = "WEED_BLADE";
abbreviations["cw"] = "GRASS_WHEAT_CAVE";
abbreviations["dc"] = "MUSHROOM_CUP_DIMPLE";
abbreviations["fb"] = "BERRIES_FISHER";
abbreviations["hr"] = "ROOT_HIDE";
abbreviations["kb"] = "BULB_KOBOLD";
abbreviations["lg"] = "GRASS_LONGLAND";
abbreviations["mr"] = "ROOT_MUCK";
abbreviations["pb"] = "BERRIES_PRICKLE";
abbreviations["ph"] = "MUSHROOM_HELMET_PLUMP";
abbreviations["pt"] = "GRASS_TAIL_PIG";
abbreviations["qb"] = "BUSH_QUARRY";
abbreviations["rr"] = "REED_ROPE";
abbreviations["rw"] = "WEED_RAT";
abbreviations["sb"] = "BERRY_SUN";
abbreviations["sp"] = "POD_SWEET";
abbreviations["vh"] = "HERB_VALLEY";
abbreviations["ws"] = "BERRIES_STRAW_WILD";
abbreviations["wv"] = "VINE_WHIP";
return DFHack::CR_OK;
}
DFhackCExport DFHack::command_result plugin_onupdate(DFHack::Core* pCore)
{
if(running)
{
DFHack::Core& core = *pCore;
std::map<t_materialIndex, unsigned int> seedCount; // the number of seeds
std::map<t_materialIndex, t_materialSubindex> seedSubindices; // holds information needed to add entries to the cooking exclusions
std::map<t_materialIndex, t_materialSubindex> plantSubindices; // holds information need to add entries to the cooking exclusions
updateCountAndSubindices(core, seedCount, seedSubindices, plantSubindices);
t_kitchenExclusions kitchenExclusions(core);
std::map<t_materialIndex, unsigned int> watchMap;
kitchenExclusions.fillWatchMap(watchMap);
for(std::map<t_materialIndex, unsigned int>::const_iterator i = watchMap.begin(); i != watchMap.end(); ++i)
{
if(seedCount[i->first] <= i->second)
{
kitchenExclusions.denyCookery(i->first, seedSubindices, plantSubindices);
}
else if(i->second + buffer < seedCount[i->first])
{
kitchenExclusions.allowCookery(i->first);
}
}
}
return DFHack::CR_OK;
}
DFhackCExport DFHack::command_result plugin_shutdown(DFHack::Core* pCore)
{
return DFHack::CR_OK;
}