dfhack/examples/veinlook.cpp

1016 lines
31 KiB
C++

#include <integers.h>
#include <string.h> // for memset
#include <string>
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#include <fstream>
#include <iostream>
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#include <iomanip>
#include <vector>
#include <map>
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#include <bitset>
using namespace std;
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#include <sstream>
#include "fake-curses.h"
#include <stdlib.h>
#include <signal.h>
#include <locale.h>
#include <math.h>
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#include <DFGlobal.h>
#include <DFTypes.h>
#include <DFTileTypes.h>
#include <DFHackAPI.h>
#include <DFProcess.h>
#include <DFMemInfo.h>
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#include <modules/Maps.h>
#include <modules/Materials.h>
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#include "miscutils.h"
using namespace DFHack;
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string error;
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API * pDF = 0;
struct t_tempz
{
int32_t limit;
int character;
};
t_tempz temp_limits[]=
{
{50, '.'},
{100, '+'},
{500, '*'},
{1000, '#'},
{2000, '!'}
};
#define NUM_LIMITS 5
static void finish(int sig);
int gotoxy(int x, int y)
{
wmove(stdscr, y , x );
return 0;
}
int putch(int x, int y, int znak, int color)
{
attron(COLOR_PAIR(color));
mvwaddch(stdscr, y, x, znak);
attroff(COLOR_PAIR(color));
}
int putwch(int x, int y, int znak, int color)
{
attron(COLOR_PAIR(color));
mvwaddch(stdscr, y, x, znak);
attroff(COLOR_PAIR(color));
}
/*
enum TileClass
{
EMPTY,
WALL,
PILLAR,
FORTIFICATION,
STAIR_UP,
STAIR_DOWN,
STAIR_UPDOWN,
RAMP,
FLOOR,
TREE_DEAD,
TREE_OK,
SAPLING_DEAD,
SAPLING_OK,
SHRUB_DEAD,
SHRUB_OK,
BOULDER,
PEBBLES
};*/
int puttile(int x, int y, int tiletype, int color)
{
unsigned int znak;
switch(tileTypeTable[tiletype].c)
{
case EMPTY:
znak = ' ';
break;
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case PILLAR:
case WALL:
attron(COLOR_PAIR(color));
mvwaddwstr(stdscr, y, x, L"\u2593");
attroff(COLOR_PAIR(color));
//znak = ;
return 0;
case FORTIFICATION:
znak = '#';
break;
case STAIR_DOWN:
znak = '>';
break;
case STAIR_UP:
znak = '<';
break;
case STAIR_UPDOWN:
znak = '=';
break;
case RAMP:
attron(COLOR_PAIR(color));
mvwaddwstr(stdscr, y, x, L"\u25B2");
attroff(COLOR_PAIR(color));
return 0;
case RAMP_TOP:
attron(COLOR_PAIR(color));
mvwaddwstr(stdscr, y, x, L"\u25BC");
attroff(COLOR_PAIR(color));
return 0;
case FLOOR:
znak = '.';
break;
case TREE_DEAD:
case TREE_OK:
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attron(COLOR_PAIR(color));
mvwaddwstr(stdscr, y, x, L"\u2663");
attroff(COLOR_PAIR(color));
return 0;
case SAPLING_DEAD:
case SAPLING_OK:
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attron(COLOR_PAIR(color));
mvwaddwstr(stdscr, y, x, L"\u03C4");
attroff(COLOR_PAIR(color));
return 0;
case SHRUB_DEAD:
case SHRUB_OK:
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attron(COLOR_PAIR(color));
mvwaddwstr(stdscr, y, x, L"\u2666");
attroff(COLOR_PAIR(color));
return 0;
case BOULDER:
case PEBBLES:
znak= '*';
break;
}
attron(COLOR_PAIR(color));
mvwaddch(stdscr, y, x, znak);
attroff(COLOR_PAIR(color));
}
int cprintf(char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
int i = vwprintw(stdscr,fmt, ap);
va_end(ap);
return i;
}
void clrscr()
{
wbkgd(stdscr, COLOR_PAIR(COLOR_BLACK));
wclear(stdscr);
}
/*
enum TileMaterial
{
AIR,
SOIL,
STONE,
FEATSTONE, // whatever it is
OBSIDIAN,
VEIN,
ICE,
GRASS,
GRASS2,
GRASS_DEAD,
GRASS_DRY,
DRIFTWOOD,
HFS,
MAGMA,
CAMPFIRE,
FIRE,
ASHES,
CONSTRUCTED
};
*/
int pickColor(int tiletype)
{
switch(tileTypeTable[tiletype].m)
{
case AIR:
return COLOR_BLACK;
case STONE:
case FEATSTONE:
case OBSIDIAN:
case CONSTRUCTED:
case ASHES:
default:
return COLOR_WHITE;
case SOIL:
case GRASS_DEAD:
case GRASS_DRY:
case DRIFTWOOD:
return COLOR_YELLOW;
case ICE:
return COLOR_CYAN;
case VEIN:
return COLOR_MAGENTA;
case GRASS:
case GRASS2:
return COLOR_GREEN;
case HFS:
case MAGMA:
case CAMPFIRE:
case FIRE:
return COLOR_RED;
}
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}
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/*
address = absolute address of dump start
length = length in bytes
*/
void hexdump (DFHack::API& DF, uint32_t address, uint32_t length, int filenum)
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{
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uint32_t reallength;
uint32_t lines;
lines = (length / 16) + 1;
reallength = lines * 16;
char *buf = new char[reallength];
ofstream myfile;
stringstream ss;
ss << "hexdump" << filenum << ".txt";
string name = ss.str();
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myfile.open (name.c_str());
DF.ReadRaw(address, reallength, (uint8_t *) buf);
for (int i = 0; i < lines; i++)
{
// leading offset
myfile << "0x" << hex << setw(4) << i*16 << " ";
// groups
for(int j = 0; j < 4; j++)
{
// bytes
for(int k = 0; k < 4; k++)
{
int idx = i * 16 + j * 4 + k;
myfile << hex << setw(2) << int(static_cast<unsigned char>(buf[idx])) << " ";
}
myfile << " ";
}
myfile << endl;
}
delete buf;
myfile.close();
}
// p = attached process
// blockaddr = address of the block
// blockX, blockY = local map X and Y coords in 16x16 of the block
// printX, printX = where to print stuff on the screen
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/*
void do_features(Process* p, uint32_t blockaddr, uint32_t blockX, uint32_t blockY, int printX, int printY, vector<DFHack::t_matgloss> &stonetypes)
{
memory_info* mem = p->getDescriptor();
uint32_t block_feature1 = mem->getOffset("map_data_feature_local");
uint32_t block_feature2 = mem->getOffset("map_data_feature_global");
uint32_t region_x_offset = mem->getAddress("region_x");
uint32_t region_y_offset = mem->getAddress("region_y");
uint32_t region_z_offset = mem->getAddress("region_z");
uint32_t feature1_start_ptr = mem->getAddress("local_feature_start_ptr");
int32_t regionX, regionY, regionZ;
// read position of the region inside DF world
p->readDWord (region_x_offset, (uint32_t &)regionX);
p->readDWord (region_y_offset, (uint32_t &)regionY);
p->readDWord (region_z_offset, (uint32_t &)regionZ);
// local feature present ?
int16_t idx = p->readWord(blockaddr + block_feature1);
if(idx != -1)
{
gotoxy(printX,printY);
cprintf("local feature present: %d", idx);
uint64_t block48_x = blockX / 3 + regionX;
gotoxy(printX,printY+1);
cprintf("blockX: %d, regionX: %d\nbigblock_x: %d\n", blockX, regionX, block48_x);
// region X coord offset by 8 big blocks (48x48 tiles)
uint16_t region_x_plus8 = ( block48_x + 8 ) / 16;
//uint16_t v12b = block48_x / 16;
//cout << "v12: " << v12 << " : " << v12b << endl;
// plain region Y coord
uint64_t region_y_local = (blockY / 3 + regionY) / 16;
gotoxy(printX,printY+2);
cprintf("region_y_local: %d\n", region_y_local);
// deref pointer to the humongo-structure
uint32_t base = p->readDWord(feature1_start_ptr);
gotoxy(printX,printY+3);
cprintf("region_y_local: 0x%x\n", base);
// this is just a few pointers to arrays of 16B (4 DWORD) structs
uint32_t array_elem = p->readDWord(base + (region_x_plus8 / 16) * 4);
gotoxy(printX,printY+4);
cprintf("array_elem: 0x%x\n", array_elem);
// second element of the struct is a pointer
uint32_t wtf = p->readDWord(array_elem + (16*(region_y_local/16)) + 4); // rounding!
gotoxy(printX,printY+5);
cprintf("wtf : 0x%x @ 0x%x\n", wtf, array_elem + (16*(region_y_local/16)) );
if(wtf)
{
//v14 = v10 + 24 * ((signed __int16)_tX + 16 * v9 % 16);
uint32_t feat_vector = wtf + 24 * (16 * (region_x_plus8 % 16) + (region_y_local % 16));
gotoxy(printX,printY+6);
cprintf("local feature vector: 0x%x\n", feat_vector);
DfVector<uint32_t> p_features(p, feat_vector);
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gotoxy(printX,printY + 7);
cprintf("feature %d addr: 0x%x\n", idx, p_features[idx]);
if(idx >= p_features.size())
{
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gotoxy(printX,printY + 8);
cprintf("ERROR, out of vector bounds.");
}
else
{
string name = p->readClassName(p->readDWord( p_features[idx] ));
bool discovered = p->readDWord( p_features[idx] + 4 );
gotoxy(printX,printY+8);
cprintf("%s", name.c_str());
if(discovered)
{
gotoxy(printX,printY+9);
cprintf("You've discovered it already!");
}
if(name == "feature_init_deep_special_tubest")
{
int32_t master_type = p->readWord( p_features[idx] + 0x30 );
int32_t slave_type = p->readDWord( p_features[idx] + 0x34 );
char * matname = "unknown";
// is stone?
if(master_type == 0)
{
matname = stonetypes[slave_type].id;
}
gotoxy(printX,printY+10);
cprintf("material %d/%d : %s", master_type, slave_type, matname);
}
}
}
}
// global feature present
idx = p->readWord(blockaddr + block_feature2);
if(idx != -1)
{
gotoxy(printX,printY+11);
cprintf( "global feature present: %d\n", idx);
DfVector<uint32_t> p_features (p,mem->getAddress("global_feature_vector"));
if(idx < p_features.size())
{
uint32_t feat_ptr = p->readDWord(p_features[idx] + mem->getOffset("global_feature_funcptr_"));
gotoxy(printX,printY+12);
cprintf("feature descriptor?: 0x%x\n", feat_ptr);
string name = p->readClassName(p->readDWord( feat_ptr));
bool discovered = p->readDWord( feat_ptr + 4 );
gotoxy(printX,printY+13);
cprintf("%s", name.c_str());
if(discovered)
{
gotoxy(printX,printY+14);
cout << "You've discovered it already!" << endl;
}
if(name == "feature_init_underworld_from_layerst")
{
int16_t master_type = p->readWord( feat_ptr + 0x34 );
int32_t slave_type = p->readDWord( feat_ptr + 0x38 );
char * matname = "unknown";
// is stone?
if(master_type == 0)
{
matname = stonetypes[slave_type].id;
}
gotoxy(printX,printY+15);
cprintf("material %d/%d : %s", master_type, slave_type, matname);
}
}
}
}
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*/
void do_features(API& DF, mapblock40d * block, uint32_t blockX, uint32_t blockY, int printX, int printY, vector<DFHack::t_matgloss> &stonetypes)
{
Maps * Maps = DF.getMaps();
Process * p = DF.getProcess();
if(!Maps)
return;
vector<DFHack::t_feature> global_features;
std::map <DFHack::planecoord, std::vector<DFHack::t_feature *> > local_features;
if(!Maps->ReadGlobalFeatures(global_features))
return;
if(!Maps->ReadLocalFeatures(local_features))
return;
planecoord pc;
pc.dim.x = blockX;
pc.dim.y = blockY;
int16_t idx =block->global_feature;
if(idx != -1)
{
t_feature &ftr =global_features[idx];
gotoxy(printX,printY);
cprintf( "global feature present: %d @ 0x%x\n", idx, ftr.origin);
if(ftr.discovered )
{
gotoxy(printX,printY+1);
cprintf("You've discovered it already!");
}
char * matname = "unknown";
// is stone?
if(ftr.main_material == 0)
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{
matname = stonetypes[ftr.sub_material].id;
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}
gotoxy(printX,printY+2);
cprintf("%d:%s, material %d/%d : %s", ftr.type, sa_feature[ftr.type], ftr.main_material, ftr.sub_material, matname);
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{
gotoxy(printX,printY+3);
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string name = p->readClassName(p->readDWord( ftr.origin ));
cprintf("%s", name.c_str());
}
}
idx =block->local_feature;
if(idx != -1)
{
vector <t_feature *> &ftrv = local_features[pc];
if(idx < ftrv.size())
{
t_feature & ftr = *ftrv[idx];
gotoxy(printX,printY + 4);
cprintf( "local feature present: %d @ 0x%x\n", idx, ftr.origin);
if(ftr.discovered )
{
gotoxy(printX,printY+ 5);
cprintf("You've discovered it already!");
}
char * matname = "unknown";
// is stone?
if(ftr.main_material == 0)
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{
matname = stonetypes[ftr.sub_material].id;
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}
gotoxy(printX,printY+6);
cprintf("%d:%s, material %d/%d : %s", ftr.type, sa_feature[ftr.type], ftr.main_material, ftr.sub_material, matname);
gotoxy(printX,printY+7);
string name = p->readClassName(p->readDWord( ftr.origin ));
cprintf("%s", name.c_str());
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}
else
{
gotoxy(printX,printY + 4);
cprintf( "local feature vector overflow: %d", idx);
}
}
}
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main(int argc, char *argv[])
{
/* initialize your non-curses data structures here */
signal(SIGINT, finish); /* arrange interrupts to terminate */
setlocale(LC_ALL,"");
initscr(); /* initialize the curses library */
keypad(stdscr, TRUE); /* enable keyboard mapping */
nonl(); /* tell curses not to do NL->CR/NL on output */
cbreak(); /* take input chars one at a time, no wait for \n */
noecho(); /* don't echo input */
//nodelay(stdscr, true);
int wxMax = getmaxx(stdscr);
int wyMax = getmaxy(stdscr);
keypad(stdscr, TRUE);
scrollok(stdscr, TRUE);
if (has_colors())
{
start_color();
/*
* Simple color assignment, often all we need.
*/
init_pair(COLOR_BLACK, COLOR_BLACK, COLOR_BLACK);
init_pair(COLOR_GREEN, COLOR_GREEN, COLOR_BLACK);
init_pair(COLOR_RED, COLOR_RED, COLOR_BLACK);
init_pair(COLOR_BLUE, COLOR_BLUE, COLOR_BLACK);
init_pair(COLOR_YELLOW, COLOR_YELLOW, COLOR_BLACK);
init_color(COLOR_CYAN, 700, 700, 700); // lt grey
init_color(COLOR_MAGENTA, 500, 500, 500); // dk grey
init_pair(COLOR_WHITE, COLOR_WHITE, COLOR_BLACK);
init_pair(COLOR_CYAN, COLOR_CYAN, COLOR_BLACK);
init_pair(COLOR_MAGENTA, COLOR_MAGENTA, COLOR_BLACK);
}
int x_max,y_max,z_max;
uint32_t x_max_a,y_max_a,z_max_a;
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/*
uint16_t tiletypes[16][16];
DFHack::t_designation designations[16][16];
uint8_t regionoffsets[16];
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*/
map <int16_t, uint32_t> materials;
materials.clear();
mapblock40d blocks[3][3];
vector<DFHack::t_matgloss> stonetypes;
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vector<DFHack::t_matgloss> creature_types;
vector<DFHack::t_effect_df40d> effects;
vector< vector <uint16_t> > layerassign;
vector<t_vein> veinVector;
vector<t_frozenliquidvein> IceVeinVector;
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vector<t_spattervein> splatter;
t_temperatures b_temp1;
t_temperatures b_temp2;
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DFHack::Materials * Mats = 0;
DFHack::Maps * Maps = 0;
DFHack::API DF("Memory.xml");
try
{
DF.Attach();
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Mats = DF.getMaterials();
Maps = DF.getMaps();
pDF = &DF;
}
catch (exception& e)
{
cerr << e.what() << endl;
#ifndef LINUX_BUILD
cin.ignore();
#endif
finish(0);
}
Process* p = DF.getProcess();
// init the map
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if(!Maps->Start())
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{
error = "Can't find a map to look at.";
pDF = 0;
finish(0);
}
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Maps->getSize(x_max_a,y_max_a,z_max_a);
x_max = x_max_a;
y_max = y_max_a;
z_max = z_max_a;
// get stone matgloss mapping
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if(!Mats->ReadInorganicMaterials(stonetypes))
{
error = "Can't read stone types.";
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pDF = 0;
finish(0);
}
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if(!Mats->ReadCreatureTypes(creature_types))
{
error = "Can't read stone types.";
pDF = 0;
finish(0);
}
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/*
// get region geology
if(!DF.ReadGeology( layerassign ))
{
error = "Can't read local geology.";
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pDF = 0;
finish(0);
}
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*/
// FIXME: could fail on small forts
int cursorX = x_max/2 - 1;
int cursorY = y_max/2 - 1;
int cursorZ = z_max/2 - 1;
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bool dig = false;
bool dump = false;
bool digbit = false;
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bool dotwiddle;
unsigned char twiddle = 0;
int vein = 0;
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int filenum = 0;
bool dirtybit = false;
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uint32_t blockaddr = 0;
uint32_t blockaddr2 = 0;
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t_blockflags bflags;
bflags.whole = 0;
enum e_tempmode
{
TEMP_NO,
TEMP_1,
TEMP_2
};
e_tempmode temperature = TEMP_NO;
// resume so we don't block DF while we wait for input
DF.Resume();
for (;;)
{
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dig = false;
dump = false;
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dotwiddle = false;
digbit = false;
int c = getch(); /* refresh, accept single keystroke of input */
flushinp();
clrscr();
/* process the command keystroke */
switch(c)
{
case KEY_DOWN:
cursorY ++;
break;
case KEY_UP:
cursorY --;
break;
case KEY_LEFT:
cursorX --;
break;
case KEY_RIGHT:
cursorX ++;
break;
case KEY_NPAGE:
cursorZ --;
break;
case KEY_PPAGE:
cursorZ ++;
break;
case '+':
vein ++;
break;
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case 'd':
dig = true;
break;
case 'o':
dump = true;
break;
case '-':
vein --;
break;
case 'z':
digbit = true;
break;
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case '/':
if(twiddle != 0) twiddle--;
break;
case '*':
twiddle++;
break;
case 't':
dotwiddle = true;
break;
case 'b':
temperature = TEMP_NO;
break;
case 'n':
temperature = TEMP_1;
break;
case 'm':
temperature = TEMP_2;
break;
default:
break;
}
cursorX = max(cursorX, 0);
cursorY = max(cursorY, 0);
cursorZ = max(cursorZ, 0);
cursorX = min(cursorX, x_max - 1);
cursorY = min(cursorY, y_max - 1);
cursorZ = min(cursorZ, z_max - 1);
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if(twiddle > 31)
twiddle = 31;
// clear data before we suspend
memset(blocks,0,sizeof(blocks));
veinVector.clear();
IceVeinVector.clear();
effects.clear();
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splatter.clear();
dirtybit = 0;
// Supend, read/write data
DF.Suspend();
uint32_t effectnum;
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/*
if(DF.InitReadEffects(effectnum))
{
for(uint32_t i = 0; i < effectnum;i++)
{
t_effect_df40d effect;
DF.ReadEffect(i,effect);
effects.push_back(effect);
}
}
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*/
for(int i = -1; i <= 1; i++) for(int j = -1; j <= 1; j++)
{
mapblock40d * Block = &blocks[i+1][j+1];
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if(Maps->isValidBlock(cursorX+i,cursorY+j,cursorZ))
{
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Maps->ReadBlock40d(cursorX+i,cursorY+j,cursorZ, Block);
// extra processing of the block in the middle
if(i == 0 && j == 0)
{
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do_features(DF, Block, cursorX, cursorY, 50,10, stonetypes);
// read veins
Maps->ReadVeins(cursorX+i,cursorY+j,cursorZ,&veinVector,&IceVeinVector,&splatter);
// get pointer to block
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blockaddr = Maps->getBlockPtr(cursorX+i,cursorY+j,cursorZ);
blockaddr2 = Block->origin;
// dig all veins and trees
if(dig)
{
for(int x = 0; x < 16; x++) for(int y = 0; y < 16; y++)
{
TileClass tc = tileTypeTable[Block->tiletypes[x][y]].c;
TileMaterial tm = tileTypeTable[Block->tiletypes[x][y]].m;
if( tc == WALL && tm == VEIN || tc == TREE_OK || tc == TREE_DEAD)
{
Block->designation[x][y].bits.dig = designation_default;
}
}
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Maps->WriteDesignations(cursorX+i,cursorY+j,cursorZ, &(Block->designation));
}
// read temperature data
Maps->ReadTemperatures(cursorX+i,cursorY+j,cursorZ,&b_temp1, &b_temp2 );
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if(dotwiddle)
{
bitset<32> bs = Block->designation[0][0].whole;
bs.flip(twiddle);
Block->designation[0][0].whole = bs.to_ulong();
Maps->WriteDesignations(cursorX+i,cursorY+j,cursorZ, &(Block->designation));
dotwiddle = false;
}
// do a dump of the block data
if(dump)
{
hexdump(DF,blockaddr,0x1E00,filenum);
filenum++;
}
// read/write dirty bit of the block
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Maps->ReadDirtyBit(cursorX+i,cursorY+j,cursorZ,dirtybit);
Maps->ReadBlockFlags(cursorX+i,cursorY+j,cursorZ,bflags);
if(digbit)
{
dirtybit = !dirtybit;
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Maps->WriteDirtyBit(cursorX+i,cursorY+j,cursorZ,dirtybit);
}
}
}
}
// Resume, print stuff to the terminal
DF.Resume();
for(int i = -1; i <= 1; i++) for(int j = -1; j <= 1; j++)
{
mapblock40d * Block = &blocks[i+1][j+1];
for(int x = 0; x < 16; x++) for(int y = 0; y < 16; y++)
{
int color = COLOR_BLACK;
color = pickColor(Block->tiletypes[x][y]);
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/*
if(!Block->designation[x][y].bits.hidden)
{
puttile(x+(i+1)*16,y+(j+1)*16,Block->tiletypes[x][y], color);
}
else*/
{
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attron(A_STANDOUT);
puttile(x+(i+1)*16,y+(j+1)*16,Block->tiletypes[x][y], color);
attroff(A_STANDOUT);
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}
}
// print effects for the center tile
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/*
if(i == 0 && j == 0)
{
for(uint zz = 0; zz < effects.size();zz++)
{
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if(effects[zz].z == cursorZ && !effects[zz].isHidden)
{
// block coords to tile coords
uint16_t x = effects[zz].x - (cursorX * 16);
uint16_t y = effects[zz].y - (cursorY * 16);
if(x < 16 && y < 16)
{
putch(x + 16,y + 16,'@',COLOR_WHITE);
}
}
}
}
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*/
}
gotoxy(50,0);
cprintf("arrow keys, PGUP, PGDN = navigate");
gotoxy(50,1);
cprintf("+,- = switch vein");
gotoxy(50,2);
uint32_t mineralsize = veinVector.size();
uint32_t icesize = IceVeinVector.size();
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uint32_t splattersize = splatter.size();
uint32_t totalVeinSize = mineralsize+ icesize + splattersize;
if(vein == totalVeinSize) vein = totalVeinSize - 1;
if(vein < -1) vein = -1;
cprintf("X %d/%d, Y %d/%d, Z %d/%d. Vein %d of %d",cursorX+1,x_max,cursorY+1,y_max,cursorZ,z_max,vein+1,totalVeinSize);
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if(!veinVector.empty() || !IceVeinVector.empty() || !splatter.empty())
{
if(vein != -1 && vein < totalVeinSize)
{
uint32_t realvein = 0;
if(vein < mineralsize)
{
realvein = vein;
//iterate through vein rows
for(uint32_t j = 0;j<16;j++)
{
//iterate through the bits
for (uint32_t k = 0; k< 16;k++)
{
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/*
if(tileTypeTable[blocks[1][1].tiletypes[k][j]].m != VEIN)
continue;
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*/
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/*
if(blocks[1][1].designation[k][j].bits.hidden)
continue;
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*/
// and the bit array with a one-bit mask, check if the bit is set
bool set = !!(((1 << k) & veinVector[realvein].assignment[j]) >> k);
if(set)
{
putch(k+16,j+16,'$',COLOR_RED);
}
}
}
gotoxy(50,3);
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cprintf("Mineral: %s",stonetypes[veinVector[vein].type].id);
}
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else if (vein < mineralsize + icesize)
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{
realvein = vein - mineralsize;
t_frozenliquidvein &frozen = IceVeinVector[realvein];
for(uint32_t i = 0;i<16;i++)
{
for (uint32_t j = 0; j< 16;j++)
{
int color = COLOR_BLACK;
int tile = frozen.tiles[i][j];
color = pickColor(tile);
attron(A_STANDOUT);
puttile(i+16,j+16,tile, color);
attroff(A_STANDOUT);
}
}
gotoxy(50,3);
cprintf("ICE");
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}
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else
{
realvein = vein - mineralsize - icesize;
t_spattervein &bloodmud = splatter[realvein];
for(uint32_t yyy = 0; yyy < 16; yyy++)
{
for(uint32_t xxx = 0; xxx < 16; xxx++)
{
uint8_t intensity = splatter[realvein].intensity[xxx][yyy];
if(intensity)
{
attron(A_STANDOUT);
putch(xxx+16,yyy+16,'*', COLOR_RED);
attroff(A_STANDOUT);
}
}
}
gotoxy(50,3);
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cprintf("Spatter: %s",PrintSplatterType(splatter[realvein].mat1,splatter[realvein].mat2,creature_types).c_str());
}
}
}
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mapblock40d * Block = &blocks[1][1];
t_temperatures * ourtemp;
if(temperature == TEMP_NO)
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{
for(int x = 0; x < 16; x++) for(int y = 0; y < 16; y++)
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{
if((Block->occupancy[x][y].whole & (1 << twiddle)))
{
putch(x + 16,y + 16,'@',COLOR_WHITE);
}
}
}
else
{
if(temperature == TEMP_1)
ourtemp = &b_temp1;
else if(temperature == TEMP_2)
ourtemp = &b_temp2;
uint64_t sum = 0;
uint16_t min, max;
min = max = (*ourtemp)[0][0];
for(int x = 0; x < 16; x++) for(int y = 0; y < 16; y++)
{
uint16_t temp = (*ourtemp)[x][y];
if(temp < min) min = temp;
if(temp > max) max = temp;
sum += temp;
}
uint64_t average = sum/256;
gotoxy (50,8);
if(temperature == TEMP_1)
cprintf ("temperature1 [°U] (min,avg,max): %d,%d,%d", min, average, max);
else if(temperature == TEMP_2)
cprintf ("temperature2 [°U] (min,avg,max): %d,%d,%d", min, average, max);
for(int x = 0; x < 16; x++) for(int y = 0; y < 16; y++)
{
int32_t temper = (int32_t) (*ourtemp)[x][y];
temper -= average;
uint32_t abs_temp = abs(temper);
int color;
unsigned char character = ' ';
if(temper >= 0)
color = COLOR_RED;
else
color = COLOR_BLUE;
for(int i = 0; i < NUM_LIMITS; i++)
{
if(temp_limits[i].limit < abs_temp)
character = temp_limits[i].character;
else break;
}
if( character != ' ')
{
putch(x + 16,y + 16,character,color);
}
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}
}
gotoxy (50,4);
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cprintf("block address 0x%x, flags 0x%08x",blockaddr, bflags.whole);
gotoxy (50,5);
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cprintf("dirty bit: %d, twiddle: %d",dirtybit,twiddle);
gotoxy (50,6);
cprintf ("d - dig veins, o - dump map block, z - toggle dirty bit");
gotoxy (50,7);
cprintf ("b - no temperature, n - temperature 1, m - temperature 2");
wrefresh(stdscr);
}
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pDF = 0;
finish(0);
}
static void finish(int sig)
{
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// ugly
if(pDF)
{
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pDF->ForceResume();
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pDF->Detach();
}
endwin();
if(!error.empty())
{
cerr << error << endl;
}
exit(0);
}