gboolean moo_plugin_set_enabled (MooPlugin *plugin, gboolean enabled) { g_return_val_if_fail (MOO_IS_PLUGIN (plugin), FALSE); if (enabled) { return plugin_enable (plugin); } else { plugin_disable (plugin); return TRUE; } }
command_result fortplan(color_ostream &out, vector<string> & params) { auto & con = out; std::vector<std::vector<std::string>> layout(128, std::vector<std::string>(128)); if (params.size()) { coord32_t cursor; coord32_t userCursor; coord32_t startCursor; if (!DFHack::Gui::getCursorCoords(cursor.x, cursor.y, cursor.z)) { con.print("You must have an active in-game cursor.\n"); return CR_FAILURE; } DFHack::Gui::getCursorCoords(startCursor.x, startCursor.y, startCursor.z); userCursor = startCursor; std::string cwd = Filesystem::getcwd(); std::string filename = cwd+"/"+params[0]; con.print("Loading file '%s'...\n",filename.c_str()); try { layout = tokenizeFile(filename); } catch (int e) { con.print("Could not open the file.\n"); return CR_FAILURE; } if (!is_enabled) { plugin_enable(out, true); } con.print("Loaded.\n"); std::vector<std::vector<std::string>>::size_type x, y; bool started = false; for (y = 0; y < layout.size(); y++) { x = 0; auto hashBuild = layout[y][x].find("#build"); if (hashBuild != layout[y][x].npos) { auto startLoc = layout[y][x].find("start("); if (startLoc != layout[y][x].npos) { startLoc += 6; auto nextDelimiter = layout[y][x].find(";",startLoc); std::string startXStr = layout[y][x].substr(startLoc,nextDelimiter-startLoc); int startXOffset = std::stoi(startXStr); startLoc = nextDelimiter+1; nextDelimiter = layout[y][x].find(";",startLoc); std::string startYStr = layout[y][x].substr(startLoc,nextDelimiter-startLoc); int startYOffset = std::stoi(startYStr); startCursor.x -= startXOffset; startCursor.y -= startYOffset; DFHack::Gui::setCursorCoords(startCursor.x,startCursor.y,startCursor.z); started = true; auto startEnd = layout[y][x].find(")",nextDelimiter); con.print("Starting at (%d,%d,%d) which is described as: %s\n",startCursor.x,startCursor.y,startCursor.z,layout[y][x].substr(nextDelimiter+1,startEnd-nextDelimiter).c_str()); std::string desc = layout[y][x].substr(startEnd+1); if (desc.size()>0) { con.print("Description of this plan: %s\n",desc.c_str()); } continue; } else { con.print("No start location found for this block\n"); } } else if (!started) { con.print("Not a build file: %s\n",layout[y][x].c_str()); break; } for (x = 0; x < layout[y].size(); x++) { if (strcmp(layout[y][x].substr(0,1).c_str(),"#")==0) { continue; } if (strcmp(layout[y][x].c_str(),"`")!=0) { auto dataIndex = layout[y][x].find("("); std::string curCode; std::vector<std::string> curData; if (dataIndex != layout[y][x].npos) { curCode = layout[y][x].substr(0,dataIndex); int dataStart = dataIndex+1; auto nextDataStart = layout[y][x].find(",",dataStart); while (nextDataStart!=layout[y][x].npos) { std::string nextData = layout[y][x].substr(dataStart,nextDataStart); if (strcmp(nextData.substr(nextData.size()-1,1).c_str(),")")==0) { nextData = nextData.substr(0,nextData.size()-1); } curData.push_back(nextData); dataStart = nextDataStart+1; nextDataStart = layout[y][x].find(",",dataStart); } } else { curCode = layout[y][x]; } //con.print("Found a cell with '%s' in it (layout[y][x] %d:%d-%d)\n",layout[y][x].c_str(),lineNum,start,nextInd); auto buildingIndex = std::find_if(buildings.begin(), buildings.end(), MatchesCode(curCode.c_str())); // = std::find(validInstructions.begin(), validInstructions.end(), layout[y][x]); if(buildingIndex == buildings.end()) { //con.print("That is not a valid code.\n"); } else { //con.print("I can build that!\n"); BuildingInfo buildingInfo = *buildingIndex; if (buildingInfo.variableSize || buildingInfo.defaultHeight > 1 || buildingInfo.defaultWidth > 1) { //con.print("Found a building at (%d,%d) called %s, which has a size %dx%d or variable size\n",x,y,buildingInfo.name.c_str(),buildingInfo.defaultWidth, buildingInfo.defaultHeight); // TODO: Make this function smarter, able to determine the exact shape // and location of the building // For now, we just assume that we are always looking at the top left // corner of where it is located in the input file coord32_t buildingSize; if (!buildingInfo.variableSize) { bool single = true; bool block = true; std::vector<std::vector<std::string>>::size_type checkX, checkY; int yOffset = ((buildingInfo.defaultHeight-1)/2); int xOffset = ((buildingInfo.defaultWidth-1)/2); //con.print(" - Checking to see if it's a single, with %d<=x<%d and %d<=y<%d...\n",x-xOffset,x+xOffset,y-yOffset,y+yOffset); // First, check to see if this is in the center of an empty square of its default size for (checkY = y-yOffset; checkY <= (y+yOffset); checkY++) { for (checkX = x-xOffset; checkX <= (x+xOffset); checkX++) { if (checkX==x && checkY==y) { continue; } auto checkDataIndex = layout[checkY][checkX].find("("); std::string checkCode; if (checkDataIndex != layout[checkY][checkX].npos) { checkCode = layout[checkY][checkX].substr(0,checkDataIndex); } else { checkCode = layout[checkY][checkX]; } con.print(" - Code at (%d,%d) is '%s': ",checkX,checkY,checkCode.c_str()); auto checkIndex = std::find_if(buildings.begin(), buildings.end(), MatchesCode(checkCode.c_str())); //if (checkIndex == buildings.end()) { // con.print("this is not a valid code, so we keep going.\n"); // continue; //} //if (curCode.compare(layout[checkY][checkX]) != 0) { if (checkIndex != buildings.end()) { //con.print("this is a building, so we break.\n"); single = false; break; } else { //con.print("this is not a building, so we keep going.\n"); } } if (!single) { //con.print("Not a single. Moving forward.\n"); break; } } if (!single) { // If that's not the case, check to see if this is the top-left corner of // a square of its default size //con.print(" - It's not single; checking to see if it's a block...\n"); for (checkY = y; checkY < (y+buildingInfo.defaultHeight); checkY++) { for (checkX = x; checkX < (x+buildingInfo.defaultWidth); checkX++) { if (checkX==x && checkY==y) { continue; } auto checkDataIndex = layout[checkY][checkX].find("("); std::string checkCode; if (checkDataIndex != layout[checkY][checkX].npos) { checkCode = layout[checkY][checkX].substr(0,checkDataIndex); } else { checkCode = layout[checkY][checkX]; } //con.print(" - Code at (%d,%d) is '%s': ",checkX,checkY,checkCode.c_str()); if (curCode.compare(checkCode) != 0) { //con.print("this is not the same as '%s', so we break.\n",curCode.c_str()); block = false; break; } else { //con.print("this is the same as '%s', so we erase it and move on.\n",curCode.c_str()); layout[checkY][checkX] = "``"; } } if (!block) { //con.print("Not a block. Moving forward.\n"); break; } } } if (single) { //con.print("Placing a building with code '%s' centered at (%d,%d) and default size %dx%d.\n",curCode.c_str(),x,y,buildingInfo.defaultWidth,buildingInfo.defaultHeight); coord32_t offsetCursor = cursor; offsetCursor.x -= xOffset; offsetCursor.y -= yOffset; DFHack::Gui::setCursorCoords(offsetCursor.x, offsetCursor.y, offsetCursor.z); if (!buildingInfo.allocate()) { con.print("*** There was an error placing building with code '%s' centered at (%d,%d).\n",curCode.c_str(),x,y); } DFHack::Gui::setCursorCoords(cursor.x, cursor.y, cursor.z); } else if (block) { //con.print("Placing a building with code '%s' with corner at (%d,%d) and default size %dx%d.\n",curCode.c_str(),x,y,buildingInfo.defaultWidth,buildingInfo.defaultHeight); if (!buildingInfo.allocate()) { con.print("*** There was an error placing building with code '%s' with corner at (%d,%d).\n",curCode.c_str(),x,y); } } else { con.print("*** Found a code '%s' at (%d,%d) for a building with default size %dx%d with an invalid size designation.\n",curCode.c_str(),x,y,buildingInfo.defaultWidth,buildingInfo.defaultHeight); } } else { //buildingSize = findBuildingExtent(layout, x, y, -1, -1, out); //con.print(" - The building has variable size %dx%d\n",buildingSize.x, buildingSize.y); //con.print(" - The building has a variable size, which is not yet handled.\n"); } } else { //con.print("Building a(n) %s.\n",buildingInfo.name.c_str()); if (!buildingInfo.allocate()) { con.print("*** There was an error placing the %s at (%d,%d).\n",buildingInfo.name.c_str(),x,y); } } } } cursor.x++; DFHack::Gui::setCursorCoords(cursor.x, cursor.y, cursor.z); } cursor.y++; cursor.x = startCursor.x; } DFHack::Gui::setCursorCoords(userCursor.x, userCursor.y, userCursor.z); con.print("Done with file.\n"); } else { con.print("You must supply a filename to read.\n"); } return CR_OK; }
static bool_t delete_cb (GtkWidget * window, GdkEvent * event, PluginHandle * plugin) { plugin_enable (plugin, FALSE); return TRUE; }