dfhack/library/modules/Creatures.cpp

645 lines
21 KiB
C++

/*
www.sourceforge.net/projects/dfhack
Copyright (c) 2009 Petr Mrázek (peterix), Kenneth Ferland (Impaler[WrG]), dorf
This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any
damages arising from the use of this software.
Permission is granted to anyone to use this software for any
purpose, including commercial applications, and to alter it and
redistribute it freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must
not claim that you wrote the original software. If you use this
software in a product, an acknowledgment in the product documentation
would be appreciated but is not required.
2. Altered source versions must be plainly marked as such, and
must not be misrepresented as being the original software.
3. This notice may not be removed or altered from any source
distribution.
*/
#include "Internal.h"
#include "ContextShared.h"
#include "dfhack/VersionInfo.h"
#include "dfhack/DFProcess.h"
#include "dfhack/DFVector.h"
#include "dfhack/DFError.h"
#include "dfhack/DFTypes.h"
// we connect to those
#include <shms.h>
#include <mod-core.h>
#include <mod-creature2010.h>
#include "dfhack/modules/Materials.h"
#include "dfhack/modules/Creatures.h"
#include "ModuleFactory.h"
#define SHMCREATURESHDR ((Creatures2010::shm_creature_hdr *)d->d->shm_start)
#define SHMCMD(num) ((shm_cmd *)d->d->shm_start)[num]->pingpong
#define SHMHDR ((shm_core_hdr *)d->d->shm_start)
#define SHMDATA(type) ((type *)(d->d->shm_start + SHM_HEADER))
using namespace DFHack;
struct Creatures::Private
{
bool Inited;
bool Started;
bool Ft_basic;
bool Ft_advanced;
bool Ft_jobs;
bool Ft_soul;
Creatures2010::creature_offsets creatures;
uint32_t creature_module;
uint32_t dwarf_race_index_addr;
uint32_t dwarf_civ_id_addr;
OffsetGroup * OG_jobs;
OffsetGroup * OG_job_mats;
DfVector <uint32_t> *p_cre;
DFContextShared *d;
Process *owner;
};
Module* DFHack::createCreatures(DFContextShared * d)
{
return new Creatures(d);
}
Creatures::Creatures(DFContextShared* _d)
{
d = new Private;
d->d = _d;
d->owner = _d->p;
d->Inited = false;
d->Started = false;
d->p_cre = NULL;
d->d->InitReadNames(); // throws on error
VersionInfo * minfo = d->d->offset_descriptor;
OffsetGroup *OG_Creatures = minfo->getGroup("Creatures");
OffsetGroup *OG_creature = OG_Creatures->getGroup("creature");
OffsetGroup *OG_creature_ex = OG_creature->getGroup("advanced");
OffsetGroup *OG_soul = OG_Creatures->getGroup("soul");
OffsetGroup * OG_name = minfo->getGroup("name");
d->OG_jobs = OG_Creatures->getGroup("job");
d->OG_job_mats = d->OG_jobs->getGroup("material");
d->Ft_basic = d->Ft_advanced = d->Ft_jobs = d->Ft_soul = false;
Creatures2010::creature_offsets &creatures = d->creatures;
try
{
// Creatures
creatures.vector = OG_Creatures->getAddress ("vector");
d->dwarf_race_index_addr = OG_Creatures->getAddress("current_race");
d->dwarf_civ_id_addr = OG_Creatures->getAddress("current_civ");
// Creatures/creature
creatures.name_offset = OG_creature->getOffset ("name");
creatures.custom_profession_offset = OG_creature->getOffset ("custom_profession");
creatures.profession_offset = OG_creature->getOffset ("profession");
creatures.race_offset = OG_creature->getOffset ("race");
creatures.pos_offset = OG_creature->getOffset ("position");
creatures.flags1_offset = OG_creature->getOffset ("flags1");
creatures.flags2_offset = OG_creature->getOffset ("flags2");
creatures.sex_offset = OG_creature->getOffset ("sex");
creatures.caste_offset = OG_creature->getOffset ("caste");
creatures.id_offset = OG_creature->getOffset ("id");
creatures.civ_offset = OG_creature->getOffset ("civ");
// name struct
creatures.name_firstname_offset = OG_name->getOffset("first");
creatures.name_nickname_offset = OG_name->getOffset("nick");
creatures.name_words_offset = OG_name->getOffset("second_words");
d->Ft_basic = true;
try
{
creatures.inventory_offset = OG_creature_ex->getOffset("inventory_vector");
creatures.pickup_equipment_bit = OG_creature_ex->getOffset("pickup_equipment_bit");
creatures.mood_offset = OG_creature_ex->getOffset("mood");
// pregnancy
// pregnancy_ptr
creatures.birth_year_offset = OG_creature_ex->getOffset("birth_year");
creatures.birth_time_offset = OG_creature_ex->getOffset("birth_time");
creatures.current_job_offset = OG_creature_ex->getOffset("current_job");
creatures.mood_skill_offset = OG_creature_ex->getOffset("current_job_skill");
creatures.physical_offset = OG_creature_ex->getOffset("physical");
creatures.appearance_vector_offset = OG_creature_ex->getOffset("appearance_vector");
creatures.artifact_name_offset = OG_creature_ex->getOffset("artifact_name");
creatures.labors_offset = OG_creature_ex->getOffset ("labors");
creatures.happiness_offset = OG_creature_ex->getOffset ("happiness");
d->Ft_advanced = true;
}
catch(Error::All&){};
try
{
creatures.soul_vector_offset = OG_creature_ex->getOffset("soul_vector");
creatures.default_soul_offset = OG_creature_ex->getOffset("current_soul");
creatures.soul_mental_offset = OG_soul->getOffset("mental");
creatures.soul_skills_vector_offset = OG_soul->getOffset("skills_vector");
creatures.soul_traits_offset = OG_soul->getOffset("traits");
d->Ft_soul = true;
}
catch(Error::All&){};
}
catch(Error::All&){};
d->Inited = true;
}
Creatures::~Creatures()
{
if(d->Started)
Finish();
}
bool Creatures::Start( uint32_t &numcreatures )
{
if(d->Ft_basic)
{
d->p_cre = new DfVector <uint32_t> (d->owner, d->creatures.vector);
d->Started = true;
numcreatures = d->p_cre->size();
return true;
}
return false;
}
bool Creatures::Finish()
{
if(d->p_cre)
{
delete d->p_cre;
d->p_cre = 0;
}
d->Started = false;
return true;
}
bool Creatures::ReadCreature (const int32_t index, t_creature & furball)
{
if(!d->Started) return false;
memset(&furball, 0, sizeof(t_creature));
// SHM fast path
Process * p = d->owner;
/*
if(d->creature_module)
{
SHMCREATURESHDR->index = index;
const uint32_t cmd = Creatures2010::CREATURE_AT_INDEX + (d->creature_module << 16);
p->SetAndWait(cmd);
memcpy(&furball,SHMDATA(t_creature),sizeof(t_creature));
return true;
}
*/
// non-SHM slow path
// read pointer from vector at position
uint32_t temp = d->p_cre->at (index);
furball.origin = temp;
Creatures2010::creature_offsets &offs = d->creatures;
//read creature from memory
if(d->Ft_basic)
{
// name
d->d->readName(furball.name,temp + offs.name_offset);
// basic stuff
p->readDWord (temp + offs.id_offset, furball.id);
p->read (temp + offs.pos_offset, 3 * sizeof (uint16_t), (uint8_t *) & (furball.x)); // xyz really
p->readDWord (temp + offs.race_offset, furball.race);
furball.civ = p->readDWord (temp + offs.civ_offset);
p->readByte (temp + offs.sex_offset, furball.sex);
p->readWord (temp + offs.caste_offset, furball.caste);
p->readDWord (temp + offs.flags1_offset, furball.flags1.whole);
p->readDWord (temp + offs.flags2_offset, furball.flags2.whole);
// custom profession
p->readSTLString(temp + offs.custom_profession_offset, furball.custom_profession, sizeof(furball.custom_profession));
// profession
furball.profession = p->readByte (temp + offs.profession_offset);
}
if(d->Ft_advanced)
{
// happiness
p->readDWord (temp + offs.happiness_offset, furball.happiness);
// physical attributes
p->read(temp + offs.physical_offset,
sizeof(t_attrib) * NUM_CREATURE_PHYSICAL_ATTRIBUTES,
(uint8_t *)&furball.strength);
// mood stuff
furball.mood = (int16_t) p->readWord (temp + offs.mood_offset);
furball.mood_skill = p->readWord (temp + offs.mood_skill_offset);
d->d->readName(furball.artifact_name, temp + offs.artifact_name_offset);
// labors
p->read (temp + offs.labors_offset, NUM_CREATURE_LABORS, furball.labors);
furball.birth_year = p->readDWord (temp + offs.birth_year_offset );
furball.birth_time = p->readDWord (temp + offs.birth_time_offset );
/*
* p->readDWord(temp + offs.creature_pregnancy_offset, furball.pregnancy_timer);
*/
// appearance
DfVector <uint32_t> app(p, temp + offs.appearance_vector_offset);
furball.nbcolors = app.size();
if(furball.nbcolors>MAX_COLORS)
furball.nbcolors = MAX_COLORS;
for(uint32_t i = 0; i < furball.nbcolors; i++)
{
furball.color[i] = app[i];
}
//likes
/*
DfVector <uint32_t> likes(d->p, temp + offs.creature_likes_offset);
furball.numLikes = likes.getSize();
for(uint32_t i = 0;i<furball.numLikes;i++)
{
uint32_t temp2 = *(uint32_t *) likes[i];
p->read(temp2,sizeof(t_like),(uint8_t *) &furball.likes[i]);
}*/
}
if(d->Ft_soul)
{
/*
// enum soul pointer vector
DfVector <uint32_t> souls(p,temp + offs.creature_soul_vector_offset);
*/
uint32_t soul = p->readDWord(temp + offs.default_soul_offset);
furball.has_default_soul = false;
if(soul)
{
furball.has_default_soul = true;
// get first soul's skills
DfVector <uint32_t> skills(p, soul + offs.soul_skills_vector_offset);
furball.defaultSoul.numSkills = skills.size();
for (uint32_t i = 0; i < furball.defaultSoul.numSkills;i++)
{
uint32_t temp2 = skills[i];
// a byte: this gives us 256 skills maximum.
furball.defaultSoul.skills[i].id = p->readByte (temp2);
furball.defaultSoul.skills[i].rating =
p->readByte (temp2 + offsetof(t_skill, rating));
furball.defaultSoul.skills[i].experience =
p->readWord (temp2 + offsetof(t_skill, experience));
}
// mental attributes are part of the soul
p->read(soul + offs.soul_mental_offset,
sizeof(t_attrib) * NUM_CREATURE_MENTAL_ATTRIBUTES,
(uint8_t *)&furball.defaultSoul.analytical_ability);
// traits as well
p->read(soul + offs.soul_traits_offset,
sizeof (uint16_t) * NUM_CREATURE_TRAITS,
(uint8_t *) &furball.defaultSoul.traits);
}
}
if(d->Ft_jobs)
{
furball.current_job.occupationPtr = p->readDWord (temp + offs.current_job_offset);
if(furball.current_job.occupationPtr)
{
furball.current_job.active = true;
furball.current_job.jobType = p->readByte (furball.current_job.occupationPtr + d->OG_jobs->getOffset("type") );
furball.current_job.jobId = p->readDWord (furball.current_job.occupationPtr + d->OG_jobs->getOffset("id") );
}
else
{
furball.current_job.active = false;;
}
}
return true;
}
// returns index of creature actually read or -1 if no creature can be found
int32_t Creatures::ReadCreatureInBox (int32_t index, t_creature & furball,
const uint16_t x1, const uint16_t y1, const uint16_t z1,
const uint16_t x2, const uint16_t y2, const uint16_t z2)
{
if (!d->Started)
return -1;
Process *p = d->owner;
/*
if(d->creature_module)
{
// supply the module with offsets so it can work with them
SHMCREATURESHDR->index = index;
SHMCREATURESHDR->x = x1;
SHMCREATURESHDR->y = y1;
SHMCREATURESHDR->z = z1;
SHMCREATURESHDR->x2 = x2;
SHMCREATURESHDR->y2 = y2;
SHMCREATURESHDR->z2 = z2;
const uint32_t cmd = Creatures2010::CREATURE_FIND_IN_BOX + (d->creature_module << 16);
p->SetAndWait(cmd);
if(SHMCREATURESHDR->index != -1)
memcpy(&furball,SHMDATA(void),sizeof(t_creature));
return SHMCREATURESHDR->index;
}
else*/
{
uint16_t coords[3];
uint32_t size = d->p_cre->size();
while (uint32_t(index) < size)
{
// read pointer from vector at position
uint32_t temp = d->p_cre->at(index);
p->read (temp + d->creatures.pos_offset, 3 * sizeof (uint16_t), (uint8_t *) &coords);
if (coords[0] >= x1 && coords[0] < x2)
{
if (coords[1] >= y1 && coords[1] < y2)
{
if (coords[2] >= z1 && coords[2] < z2)
{
ReadCreature (index, furball);
return index;
}
}
}
index++;
}
return -1;
}
}
bool Creatures::WriteLabors(const uint32_t index, uint8_t labors[NUM_CREATURE_LABORS])
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->write(temp + d->creatures.labors_offset, NUM_CREATURE_LABORS, labors);
uint32_t pickup_equip;
p->readDWord(temp + d->creatures.pickup_equipment_bit, pickup_equip);
pickup_equip |= 1u;
p->writeDWord(temp + d->creatures.pickup_equipment_bit, pickup_equip);
return true;
}
bool Creatures::WriteHappiness(const uint32_t index, const uint32_t happinessValue)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->writeDWord (temp + d->creatures.happiness_offset, happinessValue);
return true;
}
bool Creatures::WriteFlags(const uint32_t index,
const uint32_t flags1,
const uint32_t flags2)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->writeDWord (temp + d->creatures.flags1_offset, flags1);
p->writeDWord (temp + d->creatures.flags2_offset, flags2);
return true;
}
bool Creatures::WriteSkills(const uint32_t index, const t_soul &soul)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
uint32_t souloff = p->readDWord(temp + d->creatures.default_soul_offset);
if(!souloff)
{
return false;
}
DfVector<uint32_t> skills(p, souloff + d->creatures.soul_skills_vector_offset);
for (uint32_t i=0; i<soul.numSkills; i++)
{
uint32_t temp2 = skills[i];
p->writeByte(temp2 + offsetof(t_skill, rating), soul.skills[i].rating);
p->writeWord(temp2 + offsetof(t_skill, experience), soul.skills[i].experience);
}
return true;
}
bool Creatures::WriteAttributes(const uint32_t index, const t_creature &creature)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
uint32_t souloff = p->readDWord(temp + d->creatures.default_soul_offset);
if(!souloff)
{
return false;
}
// physical attributes
p->write(temp + d->creatures.physical_offset,
sizeof(t_attrib) * NUM_CREATURE_PHYSICAL_ATTRIBUTES,
(uint8_t *)&creature.strength);
// mental attributes are part of the soul
p->write(souloff + d->creatures.soul_mental_offset,
sizeof(t_attrib) * NUM_CREATURE_MENTAL_ATTRIBUTES,
(uint8_t *)&creature.defaultSoul.analytical_ability);
return true;
}
bool Creatures::WriteSex(const uint32_t index, const uint8_t sex)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->writeByte (temp + d->creatures.sex_offset, sex);
return true;
}
bool Creatures::WriteTraits(const uint32_t index, const t_soul &soul)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
uint32_t souloff = p->readDWord(temp + d->creatures.default_soul_offset);
if(!souloff)
{
return false;
}
p->write(souloff + d->creatures.soul_traits_offset,
sizeof (uint16_t) * NUM_CREATURE_TRAITS,
(uint8_t *) &soul.traits);
return true;
}
bool Creatures::WriteMood(const uint32_t index, const uint16_t mood)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->writeWord(temp + d->creatures.mood_offset, mood);
return true;
}
bool Creatures::WriteMoodSkill(const uint32_t index, const uint16_t moodSkill)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->writeWord(temp + d->creatures.mood_skill_offset, moodSkill);
return true;
}
bool Creatures::WriteJob(const t_creature * furball, std::vector<t_material> const& mat)
{
unsigned int i;
if(!d->Inited) return false;
if(!furball->current_job.active) return false;
Process * p = d->owner;
DfVector <uint32_t> cmats(p, furball->current_job.occupationPtr + d->OG_jobs->getOffset("materials_vector"));
for(i=0;i<cmats.size();i++)
{
p->writeWord(cmats[i] + d->OG_job_mats->getOffset("maintype"), mat[i].itemType);
p->writeWord(cmats[i] + d->OG_job_mats->getOffset("sectype1"), mat[i].subType);
p->writeWord(cmats[i] + d->OG_job_mats->getOffset("sectype2"), mat[i].subIndex);
p->writeDWord(cmats[i] + d->OG_job_mats->getOffset("sectype3"), mat[i].index);
p->writeDWord(cmats[i] + d->OG_job_mats->getOffset("flags"), mat[i].flags);
}
return true;
}
bool Creatures::WritePos(const uint32_t index, const t_creature &creature)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->write (temp + d->creatures.pos_offset, 3 * sizeof (uint16_t), (uint8_t *) & (creature.x));
return true;
}
bool Creatures::WriteCiv(const uint32_t index, const int32_t civ)
{
if(!d->Started)
{
return false;
}
uint32_t temp = d->p_cre->at (index);
Process * p = d->owner;
p->writeDWord(temp + d->creatures.civ_offset, civ);
return true;
}
uint32_t Creatures::GetDwarfRaceIndex()
{
if(!d->Inited) return 0;
Process * p = d->owner;
return p->readDWord(d->dwarf_race_index_addr);
}
int32_t Creatures::GetDwarfCivId()
{
if(!d->Inited) return -1;
Process * p = d->owner;
return p->readDWord(d->dwarf_civ_id_addr);
}
/*
bool Creatures::getCurrentCursorCreature(uint32_t & creature_index)
{
if(!d->cursorWindowInited) return false;
Process * p = d->owner;
creature_index = p->readDWord(d->current_cursor_creature_offset);
return true;
}
*/
bool Creatures::ReadJob(const t_creature * furball, vector<t_material> & mat)
{
unsigned int i;
if(!d->Inited) return false;
if(!furball->current_job.active) return false;
Process * p = d->owner;
DfVector <uint32_t> cmats(p, furball->current_job.occupationPtr + d->OG_jobs->getOffset("materials_vector"));
mat.resize(cmats.size());
for(i=0;i<cmats.size();i++)
{
mat[i].itemType = p->readWord(cmats[i] + d->OG_job_mats->getOffset("maintype"));
mat[i].subType = p->readWord(cmats[i] + d->OG_job_mats->getOffset("sectype1"));
mat[i].subIndex = p->readWord(cmats[i] + d->OG_job_mats->getOffset("sectype2"));
mat[i].index = p->readDWord(cmats[i] + d->OG_job_mats->getOffset("sectype3"));
mat[i].flags = p->readDWord(cmats[i] + d->OG_job_mats->getOffset("flags"));
}
return true;
}
bool Creatures::ReadInventoryIdx(const uint32_t index, std::vector<uint32_t> & item)
{
if(!d->Started) return false;
uint32_t temp = d->p_cre->at (index);
return this->ReadInventoryPtr(temp, item);
}
bool Creatures::ReadInventoryPtr(const uint32_t temp, std::vector<uint32_t> & item)
{
unsigned int i;
if(!d->Started) return false;
Process * p = d->owner;
DfVector <uint32_t> citem(p, temp + d->creatures.inventory_offset);
if(citem.size() == 0)
return false;
item.resize(citem.size());
for(i=0;i<citem.size();i++)
item[i] = p->readDWord(citem[i]);
return true;
}