dfhack/plugins/blueprint.cpp

1562 lines
54 KiB
C++

/**
* Translates a region of tiles specified by the cursor and arguments/prompts
* into a series of blueprint files suitable for replay via quickfort.
*
* Written by cdombroski.
*/
#include <sstream>
#include <unordered_map>
#include "Console.h"
#include "DataDefs.h"
#include "DataFuncs.h"
#include "DataIdentity.h"
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#include "Debug.h"
#include "LuaTools.h"
#include "PluginManager.h"
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#include "TileTypes.h"
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#include "modules/Buildings.h"
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#include "modules/Filesystem.h"
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#include "modules/Gui.h"
#include "df/building_axle_horizontalst.h"
#include "df/building_bridgest.h"
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#include "df/building_civzonest.h"
#include "df/building_constructionst.h"
#include "df/building_furnacest.h"
#include "df/building_rollersst.h"
#include "df/building_screw_pumpst.h"
#include "df/building_siegeenginest.h"
#include "df/building_trapst.h"
#include "df/building_water_wheelst.h"
#include "df/building_workshopst.h"
#include "df/engraving.h"
#include "df/world.h"
using std::endl;
using std::ofstream;
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using std::pair;
using std::map;
using std::string;
using std::vector;
using namespace DFHack;
DFHACK_PLUGIN("blueprint");
REQUIRE_GLOBAL(world);
static const string BLUEPRINT_USER_DIR = "dfhack-config/blueprints/";
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namespace DFHack {
DBG_DECLARE(blueprint,log);
}
struct blueprint_options {
// whether to display help
bool help = false;
// starting tile coordinate of the translation area (if not set then all
// coordinates are set to -30000)
df::coord start;
// output file format. this could be an enum if we set up the boilerplate
// for it.
string format;
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// whether to skip generating meta blueprints
bool nometa = false;
// offset and comment to write in the quickfort start() modeline marker
// if not set, coordinates are set to 0 and the comment will be empty
df::coord2d playback_start = df::coord2d(0, 0);
string playback_start_comment;
// file splitting strategy. this could be an enum if we set up the
// boilerplate for it.
string split_strategy;
// dimensions of translation area. width and height are guaranteed to be
// greater than 0. depth can be positive or negative, but not zero.
int32_t width = 0;
int32_t height = 0;
int32_t depth = 0;
// base name to use for generated files
string name;
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// whether to capture all smoothed tiles
bool smooth = false;
// whether to capture engravings and smooth the tiles that will be engraved
bool engrave = false;
// whether to autodetect which phases to output
bool auto_phase = false;
// if not autodetecting, which phases to output
bool dig = false;
bool carve = false;
bool construct = false;
bool build = false;
bool place = false;
bool zone = false;
bool query = false;
bool rooms = false;
static struct_identity _identity;
};
static const struct_field_info blueprint_options_fields[] = {
{ struct_field_info::PRIMITIVE, "help", offsetof(blueprint_options, help), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::SUBSTRUCT, "start", offsetof(blueprint_options, start), &df::coord::_identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "format", offsetof(blueprint_options, format), df::identity_traits<string>::get(), 0, 0 },
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{ struct_field_info::PRIMITIVE, "nometa", offsetof(blueprint_options, nometa), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::SUBSTRUCT, "playback_start", offsetof(blueprint_options, playback_start), &df::coord2d::_identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "playback_start_comment", offsetof(blueprint_options, playback_start_comment), df::identity_traits<string>::get(), 0, 0 },
{ struct_field_info::PRIMITIVE, "split_strategy", offsetof(blueprint_options, split_strategy), df::identity_traits<string>::get(), 0, 0 },
{ struct_field_info::PRIMITIVE, "width", offsetof(blueprint_options, width), &df::identity_traits<int32_t>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "height", offsetof(blueprint_options, height), &df::identity_traits<int32_t>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "depth", offsetof(blueprint_options, depth), &df::identity_traits<int32_t>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "name", offsetof(blueprint_options, name), df::identity_traits<string>::get(), 0, 0 },
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{ struct_field_info::PRIMITIVE, "smooth", offsetof(blueprint_options, smooth), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "engrave", offsetof(blueprint_options, engrave), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "auto_phase", offsetof(blueprint_options, auto_phase), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "dig", offsetof(blueprint_options, dig), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "carve", offsetof(blueprint_options, carve), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "construct", offsetof(blueprint_options, construct), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "build", offsetof(blueprint_options, build), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "place", offsetof(blueprint_options, place), &df::identity_traits<bool>::identity, 0, 0 },
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{ struct_field_info::PRIMITIVE, "zone", offsetof(blueprint_options, zone), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "query", offsetof(blueprint_options, query), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::PRIMITIVE, "rooms", offsetof(blueprint_options, rooms), &df::identity_traits<bool>::identity, 0, 0 },
{ struct_field_info::END }
};
struct_identity blueprint_options::_identity(sizeof(blueprint_options), &df::allocator_fn<blueprint_options>, NULL, "blueprint_options", NULL, blueprint_options_fields);
command_result blueprint(color_ostream &, vector<string> &);
DFhackCExport command_result plugin_init(color_ostream &, vector<PluginCommand> &commands) {
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commands.push_back(
PluginCommand("blueprint",
"Record a live game map in a quickfort blueprint.",
blueprint));
return CR_OK;
}
DFhackCExport command_result plugin_shutdown(color_ostream &) {
return CR_OK;
}
struct blueprint_processor;
struct tile_context {
blueprint_processor *processor;
bool pretty = false;
df::building* b = NULL;
};
typedef vector<const char *> bp_row; // index is x coordinate
typedef map<int16_t, bp_row> bp_area; // key is y coordinate
typedef map<int16_t, bp_area> bp_volume; // key is z coordinate
typedef const char * (get_tile_fn)(const df::coord &pos,
const tile_context &ctx);
typedef void (init_ctx_fn)(const df::coord &pos, tile_context &ctx);
struct blueprint_processor {
bp_volume mapdata;
const string mode;
const string phase;
const bool force_create;
get_tile_fn * const get_tile;
init_ctx_fn * const init_ctx;
std::set<df::building *> seen;
blueprint_processor(const string &mode, const string &phase,
bool force_create, get_tile_fn *get_tile,
init_ctx_fn *init_ctx)
: mode(mode), phase(phase), force_create(force_create),
get_tile(get_tile), init_ctx(init_ctx) { }
};
// global engravings cache, cleared when the string cache is cleared
struct PosHash {
size_t operator()(const df::coord &c) const {
return c.x * 65537 + c.y * 513 + c.z;
}
};
static std::unordered_map<df::coord, df::engraving *, PosHash> engravings_cache;
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// We use const char * throughout this code instead of std::string to avoid
// having to allocate memory for all the small string literals. This
// significantly speeds up processing and allows us to handle very large maps
// (e.g. 16x16 embarks) without running out of memory. This cache provides a
// mechanism for storing dynamically created strings so their memory stays
// allocated until we write out the blueprints at the end.
// If NULL is passed as the str, the cache is cleared.
static const char * cache(const char *str) {
// this local static assumes that no two blueprints are being generated at
// the same time, which is currently ensured by the higher-level DFHack
// command handling code. if this assumption ever becomes untrue, we'll
// need to protect the cache with thread synchronization primitives.
static std::set<string> _cache;
if (!str) {
_cache.clear();
engravings_cache.clear();
return NULL;
}
return _cache.emplace(str).first->c_str();
}
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// Convenience wrapper for std::string.
static const char * cache(const string &str) {
return cache(str.c_str());
}
// Convenience wrapper for std::ostringstream.
static const char * cache(std::ostringstream &str) {
return cache(str.str());
}
static const char * get_tile_dig(const df::coord &pos, const tile_context &) {
df::tiletype *tt = Maps::getTileType(pos);
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if (!tt)
return NULL;
switch (tileShape(*tt))
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{
case tiletype_shape::EMPTY:
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case tiletype_shape::RAMP_TOP:
return "h";
case tiletype_shape::FLOOR:
case tiletype_shape::BOULDER:
case tiletype_shape::PEBBLES:
case tiletype_shape::BROOK_TOP:
case tiletype_shape::SAPLING:
case tiletype_shape::SHRUB:
case tiletype_shape::TWIG:
return "d";
case tiletype_shape::STAIR_UP:
return "u";
case tiletype_shape::STAIR_DOWN:
return "j";
case tiletype_shape::STAIR_UPDOWN:
return "i";
case tiletype_shape::RAMP:
return "r";
case tiletype_shape::WALL:
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default:
return NULL;
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}
}
static const char * get_tile_smooth_minimal(const df::coord &pos,
const tile_context &) {
df::tiletype *tt = Maps::getTileType(pos);
if (!tt)
return NULL;
switch (tileShape(*tt))
{
case tiletype_shape::FORTIFICATION:
return "s";
default:
break;
}
return NULL;
}
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static const char * get_tile_smooth_with_engravings(const df::coord &pos,
const tile_context &tc) {
const char * smooth_minimal = get_tile_smooth_minimal(pos, tc);
if (smooth_minimal)
return smooth_minimal;
df::tiletype *tt = Maps::getTileType(pos);
if (!tt)
return NULL;
switch (tileShape(*tt))
{
case tiletype_shape::FLOOR:
case tiletype_shape::WALL:
if (tileSpecial(*tt) == tiletype_special::SMOOTH &&
engravings_cache.count(pos))
return "s";
break;
default:
break;
}
return NULL;
}
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static const char * get_tile_smooth_all(const df::coord &pos,
const tile_context &tc) {
const char * smooth_minimal = get_tile_smooth_minimal(pos, tc);
if (smooth_minimal)
return smooth_minimal;
df::tiletype *tt = Maps::getTileType(pos);
if (!tt)
return NULL;
switch (tileShape(*tt))
{
case tiletype_shape::FLOOR:
case tiletype_shape::WALL:
if (tileSpecial(*tt) == tiletype_special::SMOOTH)
return "s";
break;
default:
break;
}
return NULL;
}
static const char * get_track_str(const char *prefix, df::tiletype tt) {
TileDirection tdir = tileDirection(tt);
string dir;
if (tdir.north) dir += "N";
if (tdir.south) dir += "S";
if (tdir.east) dir += "E";
if (tdir.west) dir += "W";
return cache(prefix + dir);
}
static const char * get_tile_carve_minimal(const df::coord &pos,
const tile_context &) {
df::tiletype *tt = Maps::getTileType(pos);
if (!tt)
return NULL;
switch (tileShape(*tt))
{
case tiletype_shape::FLOOR:
if (tileSpecial(*tt) == tiletype_special::TRACK)
return get_track_str("track", *tt);
break;
case tiletype_shape::RAMP:
if (tileSpecial(*tt) == tiletype_special::TRACK)
return get_track_str("trackramp", *tt);
break;
case tiletype_shape::FORTIFICATION:
return "F";
default:
break;
}
return NULL;
}
static const char * get_tile_carve(const df::coord &pos, const tile_context &tc) {
const char * tile_carve_minimal = get_tile_carve_minimal(pos, tc);
if (tile_carve_minimal)
return tile_carve_minimal;
df::tiletype *tt = Maps::getTileType(pos);
if (!tt)
return NULL;
switch (tileShape(*tt))
{
case tiletype_shape::FLOOR:
case tiletype_shape::WALL:
if (tileSpecial(*tt) == tiletype_special::SMOOTH &&
engravings_cache.count(pos))
return "e";
break;
default:
break;
}
return NULL;
}
static const char * get_construction_str(df::building *b) {
df::building_constructionst *cons =
virtual_cast<df::building_constructionst>(b);
if (!cons)
return "~";
switch (cons->type) {
case construction_type::Fortification: return "CF";
case construction_type::Wall: return "Cw";
case construction_type::Floor: return "Cf";
case construction_type::UpStair: return "Cu";
case construction_type::DownStair: return "Cd";
case construction_type::UpDownStair: return "Cx";
case construction_type::Ramp: return "Cr";
case construction_type::TrackN: return "trackN";
case construction_type::TrackS: return "trackS";
case construction_type::TrackE: return "trackE";
case construction_type::TrackW: return "trackW";
case construction_type::TrackNS: return "trackNS";
case construction_type::TrackNE: return "trackNE";
case construction_type::TrackNW: return "trackNW";
case construction_type::TrackSE: return "trackSE";
case construction_type::TrackSW: return "trackSW";
case construction_type::TrackEW: return "trackEW";
case construction_type::TrackNSE: return "trackNSE";
case construction_type::TrackNSW: return "trackNSW";
case construction_type::TrackNEW: return "trackNEW";
case construction_type::TrackSEW: return "trackSEW";
case construction_type::TrackNSEW: return "trackNSEW";
case construction_type::TrackRampN: return "trackrampN";
case construction_type::TrackRampS: return "trackrampS";
case construction_type::TrackRampE: return "trackrampE";
case construction_type::TrackRampW: return "trackrampW";
case construction_type::TrackRampNS: return "trackrampNS";
case construction_type::TrackRampNE: return "trackrampNE";
case construction_type::TrackRampNW: return "trackrampNW";
case construction_type::TrackRampSE: return "trackrampSE";
case construction_type::TrackRampSW: return "trackrampSW";
case construction_type::TrackRampEW: return "trackrampEW";
case construction_type::TrackRampNSE: return "trackrampNSE";
case construction_type::TrackRampNSW: return "trackrampNSW";
case construction_type::TrackRampNEW: return "trackrampNEW";
case construction_type::TrackRampSEW: return "trackrampSEW";
case construction_type::TrackRampNSEW: return "trackrampNSEW";
case construction_type::NONE:
default:
return "~";
}
}
static const char * get_constructed_track_str(df::tiletype *tt,
const char * base) {
TileDirection dir = tileDirection(*tt);
if (!dir.whole)
return "~";
std::ostringstream str;
str << base;
if (dir.north) str << "N";
if (dir.south) str << "S";
if (dir.east) str << "E";
if (dir.west) str << "W";
return cache(str);
}
static const char * get_constructed_floor_str(df::tiletype *tt) {
if (tileSpecial(*tt) != df::tiletype_special::TRACK)
return "Cf";
return get_constructed_track_str(tt, "track");
}
static const char * get_constructed_ramp_str(df::tiletype *tt) {
if (tileSpecial(*tt) != df::tiletype_special::TRACK)
return "Cr";
return get_constructed_track_str(tt, "trackramp");
}
static const char * get_tile_construct(const df::coord &pos,
const tile_context &ctx) {
if (ctx.b && ctx.b->getType() == building_type::Construction)
return get_construction_str(ctx.b);
df::tiletype *tt = Maps::getTileType(pos);
if (!tt || tileMaterial(*tt) != df::tiletype_material::CONSTRUCTION)
return NULL;
switch (tileShape(*tt)) {
case tiletype_shape::WALL: return "Cw";
case tiletype_shape::FLOOR: return get_constructed_floor_str(tt);
case tiletype_shape::RAMP: return get_constructed_ramp_str(tt);
case tiletype_shape::FORTIFICATION: return "CF";
case tiletype_shape::STAIR_UP: return "Cu";
case tiletype_shape::STAIR_DOWN: return "Cd";
case tiletype_shape::STAIR_UPDOWN: return "Cx";
default:
return "~";
}
return NULL;
}
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static pair<uint32_t, uint32_t> get_building_size(const df::building *b) {
return pair<uint32_t, uint32_t>(b->x2 - b->x1 + 1, b->y2 - b->y1 + 1);
}
static const char * if_pretty(const tile_context &ctx, const char *c) {
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return ctx.pretty ? c : NULL;
}
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static bool is_rectangular(const df::building *bld) {
const df::building_extents &room = bld->room;
if (!room.extents)
return true;
for (int32_t y = 0; y < room.height; ++y) {
for (int32_t x = 0; x < room.width; ++x) {
if (!room.extents[y * room.width + x])
return false;
}
}
return true;
}
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static bool is_rectangular(const tile_context &ctx) {
return is_rectangular(ctx.b);
}
static const char * do_block_building(const tile_context &ctx, const char *s,
bool at_target_pos,
bool *add_size = NULL) {
if(!at_target_pos) {
return if_pretty(ctx, "`");
}
if (add_size)
*add_size = true;
return s;
}
static const char * do_extent_building(const tile_context &ctx, const char *s,
bool at_target_pos,
bool *add_size = NULL) {
// use expansion syntax for rectangular or one-tile buildings
if (is_rectangular(ctx))
return do_block_building(ctx, s, at_target_pos, add_size);
return s;
}
static const char * get_bridge_str(df::building *b) {
df::building_bridgest *bridge = virtual_cast<df::building_bridgest>(b);
if (!bridge)
return "g";
switch(bridge->direction) {
case df::building_bridgest::T_direction::Retracting: return "gs";
case df::building_bridgest::T_direction::Left: return "ga";
case df::building_bridgest::T_direction::Right: return "gd";
case df::building_bridgest::T_direction::Up: return "gw";
case df::building_bridgest::T_direction::Down: return "gx";
default:
return "g";
}
}
static const char * get_siege_str(df::building *b) {
df::building_siegeenginest *se =
virtual_cast<df::building_siegeenginest>(b);
return !se || se->type == df::siegeengine_type::Catapult ? "ic" : "ib";
}
static const char * get_workshop_str(df::building *b) {
df::building_workshopst *ws = virtual_cast<df::building_workshopst>(b);
if (!ws)
return "~";
switch (ws->type) {
case workshop_type::Leatherworks: return "we";
case workshop_type::Quern: return "wq";
case workshop_type::Millstone: return "wM";
case workshop_type::Loom: return "wo";
case workshop_type::Clothiers: return "wk";
case workshop_type::Bowyers: return "wb";
case workshop_type::Carpenters: return "wc";
case workshop_type::MetalsmithsForge: return "wf";
case workshop_type::MagmaForge: return "wv";
case workshop_type::Jewelers: return "wj";
case workshop_type::Masons: return "wm";
case workshop_type::Butchers: return "wu";
case workshop_type::Tanners: return "wn";
case workshop_type::Craftsdwarfs: return "wr";
case workshop_type::Siege: return "ws";
case workshop_type::Mechanics: return "wt";
case workshop_type::Still: return "wl";
case workshop_type::Farmers: return "ww";
case workshop_type::Kitchen: return "wz";
case workshop_type::Fishery: return "wh";
case workshop_type::Ashery: return "wy";
case workshop_type::Dyers: return "wd";
case workshop_type::Kennels: return "k";
case workshop_type::Custom:
{
int32_t custom = b->getCustomType();
if (custom == 0) return "wS";
if (custom == 1) return "wp";
}
// fallthrough
case workshop_type::Tool:
default:
return "~";
}
}
static const char * get_furnace_str(df::building *b) {
df::building_furnacest *furnace = virtual_cast<df::building_furnacest>(b);
if (!furnace)
return "~";
switch (furnace->type) {
case furnace_type::WoodFurnace: return "ew";
case furnace_type::Smelter: return "es";
case furnace_type::GlassFurnace: return "eg";
case furnace_type::Kiln: return "ek";
case furnace_type::MagmaSmelter: return "el";
case furnace_type::MagmaGlassFurnace: return "ea";
case furnace_type::MagmaKiln: return "en";
case furnace_type::Custom:
default:
return "~";
}
}
static const char * get_trap_str(df::building *b) {
df::building_trapst *trap = virtual_cast<df::building_trapst>(b);
if (!trap)
return "~";
switch (trap->trap_type) {
case trap_type::StoneFallTrap: return "Ts";
case trap_type::WeaponTrap: return "Tw";
case trap_type::Lever: return "Tl";
case trap_type::PressurePlate: return "Tp";
case trap_type::CageTrap: return "Tc";
case trap_type::TrackStop:
{
std::ostringstream buf;
buf << "CS";
if (trap->use_dump) {
if (trap->dump_x_shift == 0) {
buf << "d";
if (trap->dump_y_shift > 0)
buf << "d";
} else {
buf << "ddd";
if (trap->dump_x_shift < 0)
buf << "d";
}
}
// each case falls through and is additive
switch (trap->friction) {
case 10: buf << "a";
case 50: buf << "a";
case 500: buf << "a";
case 10000: buf << "a";
}
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return cache(buf);
}
default:
return "~";
}
}
static const char * get_screw_pump_str(df::building *b) {
df::building_screw_pumpst *sp = virtual_cast<df::building_screw_pumpst>(b);
if (!sp)
return "~";
switch (sp->direction)
{
case screw_pump_direction::FromNorth: return "Msu";
case screw_pump_direction::FromEast: return "Msk";
case screw_pump_direction::FromSouth: return "Msm";
case screw_pump_direction::FromWest: return "Msh";
default:
return "~";
}
}
static const char * get_water_wheel_str(df::building *b) {
df::building_water_wheelst *ww =
virtual_cast<df::building_water_wheelst>(b);
if (!ww)
return "~";
return ww->is_vertical ? "Mw" : "Mws";
}
static const char * get_axle_str(df::building *b) {
df::building_axle_horizontalst *ah =
virtual_cast<df::building_axle_horizontalst>(b);
if (!ah)
return "~";
return ah->is_vertical ? "Mhs" : "Mh";
}
static const char * add_speed_suffix(df::building_rollersst *r,
const char *prefix) {
int32_t speed = r->speed;
if (speed >= 50000) return prefix;
string sprefix(prefix);
if (speed >= 40000) return cache(sprefix + "q");
if (speed >= 30000) return cache(sprefix + "qq");
if (speed >= 20000) return cache(sprefix + "qqq");
return cache(sprefix + "qqqq");
}
static const char * get_roller_str(df::building *b) {
df::building_rollersst *r = virtual_cast<df::building_rollersst>(b);
if (!r)
return "~";
switch (r->direction) {
case screw_pump_direction::FromNorth: return add_speed_suffix(r, "Mr");
case screw_pump_direction::FromEast: return add_speed_suffix(r, "Mrs");
case screw_pump_direction::FromSouth: return add_speed_suffix(r, "Mrss");
case screw_pump_direction::FromWest: return add_speed_suffix(r, "Mrsss");
default:
return "~";
}
}
static const char * get_build_keys(const df::coord &pos,
const tile_context &ctx,
bool &add_size) {
bool at_nw_corner = static_cast<int32_t>(pos.x) == ctx.b->x1
&& static_cast<int32_t>(pos.y) == ctx.b->y1;
bool at_se_corner = static_cast<int32_t>(pos.x) == ctx.b->x2
&& static_cast<int32_t>(pos.y) == ctx.b->y2;
bool at_center = static_cast<int32_t>(pos.x) == ctx.b->centerx
&& static_cast<int32_t>(pos.y) == ctx.b->centery;
// building_type::Construction is handled by the construction phase
switch(ctx.b->getType()) {
case building_type::Armorstand:
return "a";
case building_type::Bed:
return "b";
case building_type::Chair:
return "c";
case building_type::Door:
return "d";
case building_type::Floodgate:
return "x";
case building_type::Cabinet:
return "f";
case building_type::Box:
return "h";
case building_type::FarmPlot:
return do_extent_building(ctx, "p", at_nw_corner, &add_size);
case building_type::Weaponrack:
return "r";
case building_type::Statue:
return "s";
case building_type::Table:
return "t";
case building_type::Coffin:
return "n";
case building_type::RoadPaved:
return do_extent_building(ctx, "o", at_nw_corner, &add_size);
case building_type::RoadDirt:
return do_extent_building(ctx, "O", at_nw_corner, &add_size);
case building_type::Bridge:
return do_block_building(ctx, get_bridge_str(ctx.b), at_nw_corner,
&add_size);
case building_type::Well:
return "l";
case building_type::SiegeEngine:
return do_block_building(ctx, get_siege_str(ctx.b), at_center);
case building_type::Workshop:
return do_block_building(ctx, get_workshop_str(ctx.b), at_center);
case building_type::Furnace:
return do_block_building(ctx, get_furnace_str(ctx.b), at_center);
case building_type::WindowGlass:
return "y";
case building_type::WindowGem:
return "Y";
case building_type::Shop:
return do_block_building(ctx, "z", at_center);
case building_type::AnimalTrap:
return "m";
case building_type::Chain:
return "v";
case building_type::Cage:
return "j";
case building_type::TradeDepot:
return do_block_building(ctx, "D", at_center);
case building_type::Trap:
return get_trap_str(ctx.b);
case building_type::Weapon:
return "TS";
case building_type::ScrewPump:
return do_block_building(ctx, get_screw_pump_str(ctx.b), at_se_corner);
case building_type::WaterWheel:
return do_block_building(ctx, get_water_wheel_str(ctx.b), at_center);
case building_type::Windmill:
return do_block_building(ctx, "Mm", at_center);
case building_type::GearAssembly:
return "Mg";
case building_type::AxleHorizontal:
return do_block_building(ctx, get_axle_str(ctx.b), at_nw_corner,
&add_size);
case building_type::AxleVertical:
return "Mv";
case building_type::Rollers:
return do_block_building(ctx, get_roller_str(ctx.b), at_nw_corner,
&add_size);
case building_type::Support:
return "S";
case building_type::ArcheryTarget:
return "A";
case building_type::TractionBench:
return "R";
case building_type::Hatch:
return "H";
case building_type::Slab:
return "~s";
case building_type::NestBox:
return "N";
case building_type::Hive:
return "~h";
case building_type::GrateWall:
return "W";
case building_type::GrateFloor:
return "G";
case building_type::BarsVertical:
return "B";
case building_type::BarsFloor:
return "~b";
case building_type::Bookcase:
return "~c";
case building_type::DisplayFurniture:
return "F";
case building_type::OfferingPlace:
return "~a";
default:
return "~";
}
}
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// returns "~" if keys is NULL; otherwise returns the keys with the building
// dimensions in the expansion syntax
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static const char * add_expansion_syntax(const df::building *bld,
const char *keys) {
if (!keys)
return "~";
std::ostringstream s;
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pair<uint32_t, uint32_t> size = get_building_size(bld);
s << keys << "(" << size.first << "x" << size.second << ")";
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return cache(s);
}
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static const char * add_expansion_syntax(const tile_context &ctx,
const char *keys) {
return add_expansion_syntax(ctx.b, keys);
}
static const char * get_tile_build(const df::coord &pos,
const tile_context &ctx) {
if (!ctx.b || ctx.b->getType() == building_type::Stockpile) {
return NULL;
}
bool add_size = false;
const char *keys = get_build_keys(pos, ctx, add_size);
if (!add_size)
return keys;
return add_expansion_syntax(ctx, keys);
}
/* TODO: understand how this changes for v50
static const char * get_place_keys(const tile_context &ctx) {
df::building_stockpilest* sp =
virtual_cast<df::building_stockpilest>(ctx.b);
if (!sp) {
return NULL;
}
string keys;
df::stockpile_group_set &flags = sp->settings.flags;
if (flags.bits.animals) keys += 'a';
if (flags.bits.food) keys += 'f';
if (flags.bits.furniture) keys += 'u';
if (flags.bits.coins) keys += 'n';
if (flags.bits.corpses) keys += 'y';
if (flags.bits.refuse) keys += 'r';
if (flags.bits.stone) keys += 's';
if (flags.bits.wood) keys += 'w';
if (flags.bits.gems) keys += 'e';
if (flags.bits.bars_blocks) keys += 'b';
if (flags.bits.cloth) keys += 'h';
if (flags.bits.leather) keys += 'l';
if (flags.bits.ammo) keys += 'z';
if (flags.bits.sheet) keys += 'S';
if (flags.bits.finished_goods) keys += 'g';
if (flags.bits.weapons) keys += 'p';
if (flags.bits.armor) keys += 'd';
if (keys.empty())
return "c";
return cache(keys);
}
static bool is_single_tile(const tile_context &ctx) {
return ctx.b->x1 == ctx.b->x2 && ctx.b->y1 == ctx.b->y2;
}
static const char * get_tile_place(const df::coord &pos,
const tile_context &ctx) {
if (!ctx.b || ctx.b->getType() != building_type::Stockpile)
return NULL;
if (!is_rectangular(ctx) || is_single_tile(ctx))
return get_place_keys(ctx);
if (ctx.b->x1 != static_cast<int32_t>(pos.x)
|| ctx.b->y1 != static_cast<int32_t>(pos.y)) {
return if_pretty(ctx, "`");
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}
return add_expansion_syntax(ctx, get_place_keys(ctx));
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}
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static bool hospital_maximums_eq(const df::hospital_supplies &a,
const df::hospital_supplies &b) {
return a.max_thread == b.max_thread &&
a.max_cloth == b.max_cloth &&
a.max_splints == b.max_splints &&
a.max_crutches == b.max_crutches &&
a.max_plaster == b.max_plaster &&
a.max_buckets == b.max_buckets &&
a.max_soap == b.max_soap;
}
static const char * get_zone_keys(const df::building_civzonest *zone) {
static const uint32_t DEFAULT_GATHER_FLAGS =
df::building_civzonest::T_gather_flags::mask_pick_trees |
df::building_civzonest::T_gather_flags::mask_pick_shrubs |
df::building_civzonest::T_gather_flags::mask_gather_fallen;
static const df::hospital_supplies DEFAULT_HOSPITAL;
std::ostringstream keys;
const df::building_civzonest::T_zone_flags &flags = zone->zone_flags;
// inverted logic for Active since it's on by default
if (!flags.bits.active) keys << 'a';
// in UI order
if (flags.bits.water_source) keys << 'w';
if (flags.bits.fishing) keys << 'f';
if (flags.bits.gather) {
keys << 'g';
if (zone->gather_flags.whole != DEFAULT_GATHER_FLAGS) {
keys << 'G';
// logic is inverted since they're all on by default
if (!zone->gather_flags.bits.pick_trees) keys << 't';
if (!zone->gather_flags.bits.pick_shrubs) keys << 's';
if (!zone->gather_flags.bits.gather_fallen) keys << 'f';
keys << '^';
}
}
if (flags.bits.garbage_dump) keys << 'd';
if (flags.bits.pen_pasture) keys << 'n';
if (flags.bits.pit_pond) {
keys << 'p';
if (zone->pit_flags.bits.is_pond)
keys << "Pf^";
}
if (flags.bits.sand) keys << 's';
if (flags.bits.clay) keys << 'c';
if (flags.bits.meeting_area) keys << 'm';
if (flags.bits.hospital) {
keys << 'h';
const df::hospital_supplies &hospital = zone->hospital;
if (!hospital_maximums_eq(hospital, DEFAULT_HOSPITAL)) {
keys << "H{hospital";
if (hospital.max_thread != DEFAULT_HOSPITAL.max_thread)
keys << " thread=" << hospital.max_thread;
if (hospital.max_cloth != DEFAULT_HOSPITAL.max_cloth)
keys << " cloth=" << hospital.max_cloth;
if (hospital.max_splints != DEFAULT_HOSPITAL.max_splints)
keys << " splints=" << hospital.max_splints;
if (hospital.max_crutches != DEFAULT_HOSPITAL.max_crutches)
keys << " crutches=" << hospital.max_crutches;
if (hospital.max_plaster != DEFAULT_HOSPITAL.max_plaster)
keys << " plaster=" << hospital.max_plaster;
if (hospital.max_buckets != DEFAULT_HOSPITAL.max_buckets)
keys << " buckets=" << hospital.max_buckets;
if (hospital.max_soap != DEFAULT_HOSPITAL.max_soap)
keys << " soap=" << hospital.max_soap;
keys << "}^";
}
}
if (flags.bits.animal_training) keys << 't';
string keys_str = keys.str();
// there is no way to represent an active, but empty zone in quickfort
if (keys_str.empty())
return NULL;
// remove final '^' character if there is one
if (keys_str.back() == '^')
keys_str.pop_back();
return cache(keys_str);
}
static const char * get_tile_zone(const df::coord &pos,
const tile_context &ctx) {
vector<df::building_civzonest*> civzones;
if (!Buildings::findCivzonesAt(&civzones, pos))
return NULL;
// we only have one "zone" blueprint, so use the "topmost" zone (that is,
// the one that is highlighted when the cursor is over this tile).
// overlapping zones are outside the scope of this plugin, I think.
df::building_civzonest *zone = civzones.back();
if (!is_rectangular(zone))
return get_zone_keys(zone);
if (zone->x1 != static_cast<int32_t>(pos.x)
|| zone->y1 != static_cast<int32_t>(pos.y)) {
return if_pretty(ctx, "`");
}
return add_expansion_syntax(zone, get_zone_keys(zone));
}
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// surrounds the given string in quotes and replaces internal double quotes (")
// with double double quotes ("") (as per the csv spec)
static string csv_quote(const string &str) {
std::ostringstream outstr;
outstr << "\"";
size_t start = 0;
auto end = str.find('"');
while (end != std::string::npos) {
outstr << str.substr(start, end - start);
outstr << "\"\"";
start = end + 1;
end = str.find('"', start);
}
outstr << str.substr(start, end) << "\"";
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return outstr.str();
}
static const char * get_tile_query(const df::coord &pos,
const tile_context &ctx) {
string bld_name, zone_name;
auto & seen = ctx.processor->seen;
if (ctx.b && !seen.count(ctx.b)) {
bld_name = ctx.b->name;
seen.emplace(ctx.b);
}
vector<df::building_civzonest*> civzones;
if (Buildings::findCivzonesAt(&civzones, pos)) {
auto civzone = civzones.back();
if (!seen.count(civzone)) {
zone_name = civzone->name;
seen.emplace(civzone);
}
}
if (!bld_name.size() && !zone_name.size())
return NULL;
std::ostringstream str;
if (bld_name.size())
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str << "{givename name=" + csv_quote(bld_name) + "}";
if (zone_name.size())
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str << "{namezone name=" + csv_quote(zone_name) + "}";
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return cache(csv_quote(str.str()));
}
static const char * get_tile_rooms(const df::coord &, const tile_context &ctx) {
if (!ctx.b || !ctx.b->is_room)
return NULL;
// get the maximum distance from the center of the building
df::building_extents &room = ctx.b->room;
int32_t x1 = room.x;
int32_t x2 = room.x + room.width - 1;
int32_t y1 = room.y;
int32_t y2 = room.y + room.height - 1;
int32_t dimx = std::max(ctx.b->centerx - x1, x2 - ctx.b->centerx);
int32_t dimy = std::max(ctx.b->centery - y1, y2 - ctx.b->centery);
int32_t max_dim = std::max(dimx, dimy);
switch (max_dim) {
case 0: return "r---&";
case 1: return "r--&";
case 2: return "r-&";
case 3: return "r&";
case 4: return "r+&";
}
std::ostringstream str;
str << "r{+ " << (max_dim - 3) << "}&";
return cache(str);
}
*/
static bool create_output_dir(color_ostream &out,
const blueprint_options &opts) {
string basename = BLUEPRINT_USER_DIR + opts.name;
size_t last_slash = basename.find_last_of("/");
string parent_path = basename.substr(0, last_slash);
// create output directory if it doesn't already exist
if (!Filesystem::mkdir_recursive(parent_path)) {
out.printerr("could not create output directory: '%s'\n",
parent_path.c_str());
return false;
}
return true;
}
static bool get_filename(string &fname,
color_ostream &out,
blueprint_options opts, // copy because we can't const
const string &phase,
int32_t ordinal) {
auto L = Lua::Core::State;
Lua::StackUnwinder top(L);
if (!lua_checkstack(L, 4) ||
!Lua::PushModulePublic(
out, L, "plugins.blueprint", "get_filename")) {
out.printerr("Failed to load blueprint Lua code\n");
return false;
}
Lua::Push(L, &opts);
Lua::Push(L, phase);
Lua::Push(L, ordinal);
if (!Lua::SafeCall(out, L, 3, 1)) {
out.printerr("Failed Lua call to get_filename\n");
return false;
}
const char *s = lua_tostring(L, -1);
if (!s) {
out.printerr("Failed to retrieve filename from get_filename\n");
return false;
}
fname = s;
return true;
}
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// returns true if we could interface with lua and could verify that the given
// phase is a meta phase
static bool is_meta_phase(color_ostream &out,
blueprint_options opts, // copy because we can't const
const string &phase) {
auto L = Lua::Core::State;
Lua::StackUnwinder top(L);
if (!lua_checkstack(L, 3) ||
!Lua::PushModulePublic(
out, L, "plugins.blueprint", "is_meta_phase")) {
out.printerr("Failed to load blueprint Lua code\n");
return false;
}
Lua::Push(L, &opts);
Lua::Push(L, phase);
if (!Lua::SafeCall(out, L, 2, 1)) {
out.printerr("Failed Lua call to is_meta_phase\n");
return false;
}
return lua_toboolean(L, -1);
}
static void write_minimal(ofstream &ofile, const blueprint_options &opts,
const bp_volume &mapdata) {
if (mapdata.begin() == mapdata.end())
return;
const string z_key = opts.depth > 0 ? "#<" : "#>";
int16_t zprev = 0;
for (auto area : mapdata) {
for ( ; zprev < area.first; ++zprev)
ofile << z_key << endl;
int16_t yprev = 0;
for (auto row : area.second) {
for ( ; yprev < row.first; ++yprev)
ofile << endl;
size_t xprev = 0;
auto &tiles = row.second;
size_t rowsize = tiles.size();
for (size_t x = 0; x < rowsize; ++x) {
if (!tiles[x])
continue;
for ( ; xprev < x; ++xprev)
ofile << ",";
ofile << tiles[x];
}
}
ofile << endl;
}
}
static void write_pretty(ofstream &ofile, const blueprint_options &opts,
const bp_volume &mapdata) {
const string z_key = opts.depth > 0 ? "#<" : "#>";
int16_t absdepth = abs(opts.depth);
for (int16_t z = 0; z < absdepth; ++z) {
const bp_area *area = NULL;
if (mapdata.count(z))
area = &mapdata.at(z);
for (int16_t y = 0; y < opts.height; ++y) {
const bp_row *row = NULL;
if (area && area->count(y))
row = &area->at(y);
for (int16_t x = 0; x < opts.width; ++x) {
const char *tile = NULL;
if (row)
tile = row->at(x);
ofile << (tile ? tile : " ") << ",";
}
ofile << "#" << endl;
}
if (z < absdepth - 1)
ofile << z_key << endl;
}
}
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static string get_modeline(color_ostream &out, const blueprint_options &opts,
const string &mode, const string &phase) {
std::ostringstream modeline;
modeline << "#" << mode << " label(" << phase << ")";
if (opts.playback_start.x > 0) {
modeline << " start(" << opts.playback_start.x
<< ";" << opts.playback_start.y;
if (!opts.playback_start_comment.empty()) {
modeline << ";" << opts.playback_start_comment;
}
modeline << ")";
}
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if (is_meta_phase(out, opts, phase))
modeline << " hidden()";
return modeline.str();
}
static bool write_blueprint(color_ostream &out,
std::map<string, ofstream*> &output_files,
const blueprint_options &opts,
const blueprint_processor &processor,
bool pretty, int32_t ordinal) {
string fname;
if (!get_filename(fname, out, opts, processor.phase, ordinal))
return false;
if (!output_files.count(fname))
output_files[fname] = new ofstream(fname, ofstream::trunc);
ofstream &ofile = *output_files[fname];
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ofile << get_modeline(out, opts, processor.mode, processor.phase) << endl;
if (pretty)
write_pretty(ofile, opts, processor.mapdata);
else
write_minimal(ofile, opts, processor.mapdata);
return true;
}
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static void write_meta_blueprint(color_ostream &out,
std::map<string, ofstream*> &output_files,
const blueprint_options &opts,
const std::vector<string> & meta_phases,
int32_t ordinal) {
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string fname;
get_filename(fname, out, opts, meta_phases.front(), ordinal);
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ofstream &ofile = *output_files[fname];
ofile << "#meta label(";
for (string phase : meta_phases) {
ofile << phase;
if (phase != meta_phases.back())
ofile << "_";
}
ofile << ")" << endl;
for (string phase : meta_phases) {
ofile << "/" << phase << endl;
}
}
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static void ensure_building(const df::coord &pos, tile_context &ctx) {
if (ctx.b)
return;
ctx.b = Buildings::findAtTile(pos);
}
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static void add_processor(vector<blueprint_processor> &processors,
const blueprint_options &opts, const char *mode,
const char *phase, bool require_phase,
get_tile_fn * const get_tile,
init_ctx_fn * const init_ctx = NULL) {
if (opts.auto_phase || require_phase)
processors.push_back(blueprint_processor(mode, phase, require_phase,
get_tile, init_ctx));
}
static bool do_transform(color_ostream &out,
const df::coord &start, const df::coord &end,
blueprint_options opts, // copy so we can munge it
vector<string> &filenames) {
// empty map instances to pass to emplace() below
static const bp_area EMPTY_AREA;
static const bp_row EMPTY_ROW;
if (opts.engrave) {
// initialize the engravings cache
for (auto engraving : world->engravings) {
engravings_cache.emplace(engraving->pos, engraving);
}
}
vector<blueprint_processor> processors;
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get_tile_fn* smooth_get_tile_fn = get_tile_smooth_minimal;
if (opts.engrave) smooth_get_tile_fn = get_tile_smooth_with_engravings;
if (opts.smooth) smooth_get_tile_fn = get_tile_smooth_all;
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add_processor(processors, opts, "dig", "dig", opts.dig, get_tile_dig);
add_processor(processors, opts, "dig", "smooth", opts.carve,
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smooth_get_tile_fn);
add_processor(processors, opts, "dig", "carve", opts.carve,
opts.engrave ? get_tile_carve : get_tile_carve_minimal);
add_processor(processors, opts, "build", "construct", opts.construct,
get_tile_construct, ensure_building);
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add_processor(processors, opts, "build", "build", opts.build,
get_tile_build, ensure_building);
/* TODO: understand how this changes for v50
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add_processor(processors, opts, "place", "place", opts.place,
get_tile_place, ensure_building);
add_processor(processors, opts, "zone", "zone", opts.zone, get_tile_zone);
add_processor(processors, opts, "query", "query", opts.query,
get_tile_query, ensure_building);
add_processor(processors, opts, "query", "rooms", opts.rooms,
get_tile_rooms, ensure_building);
*/ if (opts.place)
out.printerr("'place' blueprints are not yet supported for the current version of DF\n");
if (opts.zone)
out.printerr("'zone' blueprints are not yet supported for the current version of DF\n");
if (opts.query)
out.printerr("'query' blueprints are not yet supported for the current version of DF\n");
if (opts.rooms)
out.printerr("'rooms' blueprints are not yet supported for the current version of DF\n");
if (processors.empty()) {
out.printerr("no phases requested! nothing to do!\n");
return false;
}
if (!create_output_dir(out, opts))
return false;
const bool pretty = opts.format != "minimal";
const int32_t z_inc = start.z < end.z ? 1 : -1;
for (int32_t z = start.z; z != end.z; z += z_inc) {
for (int32_t y = start.y; y < end.y; y++) {
for (int32_t x = start.x; x < end.x; x++) {
df::coord pos(x, y, z);
tile_context ctx;
ctx.pretty = pretty;
for (blueprint_processor &processor : processors) {
ctx.processor = &processor;
if (processor.init_ctx)
processor.init_ctx(pos, ctx);
const char *tile_str = processor.get_tile(pos, ctx);
if (tile_str) {
// ensure our z-index is in the order we want to write
auto area = processor.mapdata.emplace(abs(z - start.z),
EMPTY_AREA);
auto row = area.first->second.emplace(y - start.y,
EMPTY_ROW);
auto &tiles = row.first->second;
if (row.second)
tiles.resize(opts.width);
tiles[x - start.x] = tile_str;
}
}
}
}
}
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std::vector<string> meta_phases;
for (blueprint_processor &processor : processors) {
if (processor.mapdata.empty() && !processor.force_create)
continue;
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if (is_meta_phase(out, opts, processor.phase))
meta_phases.push_back(processor.phase);
}
if (meta_phases.size() <= 1)
opts.nometa = true;
bool in_meta = false;
int32_t ordinal = 0;
std::map<string, ofstream*> output_files;
for (blueprint_processor &processor : processors) {
if (processor.mapdata.empty() && !processor.force_create)
continue;
bool meta_phase = is_meta_phase(out, opts, processor.phase);
if (!in_meta)
++ordinal;
if (in_meta && !meta_phase) {
write_meta_blueprint(out, output_files, opts, meta_phases, ordinal);
++ordinal;
}
in_meta = meta_phase;
if (!write_blueprint(out, output_files, opts, processor, pretty,
ordinal))
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break;
}
if (in_meta)
write_meta_blueprint(out, output_files, opts, meta_phases, ordinal);
for (auto &it : output_files) {
filenames.push_back(it.first);
it.second->close();
delete(it.second);
}
return true;
}
static bool get_options(color_ostream &out,
blueprint_options &opts,
const vector<string> &parameters)
{
auto L = Lua::Core::State;
Lua::StackUnwinder top(L);
if (!lua_checkstack(L, parameters.size() + 2) ||
!Lua::PushModulePublic(
out, L, "plugins.blueprint", "parse_commandline")) {
out.printerr("Failed to load blueprint Lua code\n");
return false;
}
Lua::Push(L, &opts);
for (const string &param : parameters)
Lua::Push(L, param);
if (!Lua::SafeCall(out, L, parameters.size() + 1, 0))
return false;
return true;
}
// returns whether blueprint generation was successful. populates files with the
// names of the files that were generated
static command_result do_blueprint(color_ostream &out,
const vector<string> &parameters,
vector<string> &files) {
CoreSuspender suspend;
if (parameters.size() >= 1 && parameters[0] == "gui") {
std::ostringstream command;
command << "gui/blueprint";
for (size_t i = 1; i < parameters.size(); ++i) {
command << " " << parameters[i];
}
string command_str = command.str();
out.print("launching %s\n", command_str.c_str());
Core::getInstance().setHotkeyCmd(command_str);
return CR_OK;
}
blueprint_options options;
if (!get_options(out, options, parameters) || options.help) {
return CR_WRONG_USAGE;
}
if (!Maps::IsValid()) {
out.printerr("Map is not available!\n");
return CR_FAILURE;
}
// start coordinates can come from either the commandline or the map cursor
df::coord start(options.start);
if (start.x == -30000) {
if (!Gui::getCursorCoords(start)) {
out.printerr("Can't get cursor coords! Make sure you specify the"
" --cursor parameter or have an active cursor in DF.\n");
return CR_FAILURE;
}
}
if (!Maps::isValidTilePos(start)) {
out.printerr("Invalid start position: %d,%d,%d\n",
start.x, start.y, start.z);
return CR_FAILURE;
}
// end coords are one beyond the last processed coordinate. note that
// options.depth can be negative.
df::coord end(start.x + options.width, start.y + options.height,
start.z + options.depth);
// crop end coordinate to map bounds. we've already verified that start is
// a valid coordinate, and width, height, and depth are non-zero, so our
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// final area is always going to be at least 1x1x1.
df::world::T_map &map = df::global::world->map;
if (end.x > map.x_count)
end.x = map.x_count;
if (end.y > map.y_count)
end.y = map.y_count;
if (end.z > map.z_count)
end.z = map.z_count;
if (end.z < -1)
end.z = -1;
bool ok = do_transform(out, start, end, options, files);
cache(NULL);
return ok ? CR_OK : CR_FAILURE;
}
// entrypoint when called from Lua. returns the names of the generated files
static int run(lua_State *L) {
int argc = lua_gettop(L);
vector<string> argv;
for (int i = 1; i <= argc; ++i) {
const char *s = lua_tostring(L, i);
if (s == NULL)
luaL_error(L, "all parameters must be strings");
argv.push_back(s);
}
vector<string> files;
color_ostream *out = Lua::GetOutput(L);
if (!out)
out = &Core::getInstance().getConsole();
if (CR_OK == do_blueprint(*out, argv, files)) {
Lua::PushVector(L, files);
return 1;
}
return 0;
}
command_result blueprint(color_ostream &out, vector<string> &parameters) {
vector<string> files;
command_result cr = do_blueprint(out, parameters, files);
if (cr == CR_OK) {
out.print("Generated blueprint file(s):\n");
for (string &fname : files)
out.print(" %s\n", fname.c_str());
}
return cr;
}
DFHACK_PLUGIN_LUA_COMMANDS {
DFHACK_LUA_COMMAND(run),
DFHACK_LUA_END
};