void GenerateStationFrequencyTable (CUniverse &Universe, CXMLElement *pCmdLine) { int i, j; printf("STATION FREQUENCY TABLE\n\n"); // Figure out which columns to show TArray<CString> Cols; Cols.Insert(CONSTLIT("Level")); Cols.Insert(CONSTLIT("Freq")); Cols.Insert(CONSTLIT("Name")); Cols.Insert(CONSTLIT("Type")); Cols.Insert(CONSTLIT("Environment")); // Print the header for (i = 0; i < Cols.GetCount(); i++) { if (i != 0) printf("\t"); printf("%s", (LPSTR)Cols[i]); } printf("\n"); // For all levels, 1-25 int iLevel; for (iLevel = 1; iLevel <= MAX_ITEM_LEVEL; iLevel++) { CSymbolTable Sort(FALSE, TRUE); // Find all stations for this level and add them to // a sorting table for (i = 0; i < Universe.GetStationTypeCount(); i++) { CStationType *pType = Universe.GetStationType(i); if (pType->GetFrequencyByLevel(iLevel) > 0) { char szBuffer[256]; wsprintf(szBuffer, "%02d %s", ftCommon - pType->GetFrequencyByLevel(iLevel), pType->GetName().GetASCIIZPointer()); Sort.AddEntry(CString(szBuffer), (CObject *)pType); } } // Print out the stations for this level if (Sort.GetCount() > 0) { for (i = 0; i < Sort.GetCount(); i++) { CStationType *pType = (CStationType *)Sort.GetValue(i); for (j = 0; j < Cols.GetCount(); j++) { if (j != 0) printf("\t"); if (strEquals(Cols[j], CONSTLIT("Level"))) printf("%d", iLevel); else if (strEquals(Cols[j], CONSTLIT("Freq"))) printf((LPSTR)FrequencyChar(pType->GetFrequencyByLevel(iLevel))); else if (strEquals(Cols[j], CONSTLIT("Name"))) printf((LPSTR)pType->GetName()); else if (strEquals(Cols[j], CONSTLIT("Type"))) { if (pType->HasAttribute(CONSTLIT("enemy"))) printf("Enemy"); else if (pType->HasAttribute(CONSTLIT("debris"))) printf("Debris"); else printf("Friend"); } else if (strEquals(Cols[j], CONSTLIT("Environment"))) { bool bElements = false; if (pType->HasAttribute(CONSTLIT("envAir"))) { if (bElements) printf(", "); printf("envAir"); bElements = true; } if (pType->HasAttribute(CONSTLIT("envEarth"))) { if (bElements) printf(", "); printf("envEarth"); bElements = true; } if (pType->HasAttribute(CONSTLIT("envFire"))) { if (bElements) printf(", "); printf("envFire"); bElements = true; } if (pType->HasAttribute(CONSTLIT("envWater"))) { if (bElements) printf(", "); printf("envWater"); bElements = true; } if (!bElements) printf("None"); } } printf("\n"); } } } }
void GenerateEncounterCount (CUniverse &Universe, CXMLElement *pCmdLine) { int i, j, k, l; // Options int iSystemSample = pCmdLine->GetAttributeIntegerBounded(CONSTLIT("count"), 1, -1, 1); bool bLogo = !pCmdLine->GetAttributeBool(CONSTLIT("noLogo")); bool bAll = pCmdLine->GetAttributeBool(CONSTLIT("all")); // Additional columns TArray<CString> Cols; for (i = 0; i < pCmdLine->GetAttributeCount(); i++) { CString sAttrib = pCmdLine->GetAttributeName(i); if (!IsMainCommandParam(sAttrib) && !strEquals(sAttrib, CONSTLIT("count")) && !strEquals(sAttrib, CONSTLIT("encountercount"))) { CString sValue = pCmdLine->GetAttribute(i); if (!strEquals(sValue, CONSTLIT("true"))) Cols.Insert(strPatternSubst(CONSTLIT("%s:%s"), sAttrib, sValue)); else Cols.Insert(sAttrib); } } // Generate systems for multiple games TSortMap<CString, SNodeDesc> NodeTable; for (i = 0; i < iSystemSample; i++) { if (bLogo) printf("pass %d...\n", i+1); // Initialize the game CString sError; if (Universe.InitGame(0, &sError) != NOERROR) { printf("%s\n", sError.GetASCIIZPointer()); return; } for (j = 0; j < Universe.GetTopologyNodeCount(); j++) { CTopologyNode *pNode = Universe.GetTopologyNode(j); if (pNode->IsEndGame()) continue; // Create the system CSystem *pSystem; if (Universe.CreateStarSystem(pNode, &pSystem) != NOERROR) { printf("ERROR: Unable to create star system.\n"); return; } // Create a sort string for this system CString sSort = strPatternSubst(CONSTLIT("%02d-%s"), pSystem->GetLevel(), pNode->GetID()); // Get the table bool bNew; SNodeDesc *pResult = NodeTable.SetAt(sSort, &bNew); if (bNew) { pResult->iLevel = pNode->GetLevel(); pResult->sNodeID = pNode->GetID(); } // Accumulate data AddSystemData(pSystem, bAll, pResult); // Done with old system Universe.DestroySystem(pSystem); } Universe.Reinit(); } // Header printf("Level\tNode\tSystemType\tCategory\tSovereign\tEncounter\tCount"); for (i = 0; i < Cols.GetCount(); i++) printf("\t%s", Cols[i].GetASCIIZPointer()); printf("\n"); // Output all rows for (i = 0; i < NodeTable.GetCount(); i++) { for (j = 0; j < NodeTable[i].Table.GetCount(); j++) { CCountTable &Encounters = NodeTable[i].Table[j]; for (k = 0; k < Encounters.GetCount(); k++) { int iCount = Encounters[k] / iSystemSample; int iCountFrac = 1000 * (Encounters[k] % iSystemSample) / iSystemSample; CStationType *pEncounterType = Universe.FindStationType(Encounters.GetKey(k)); if (pEncounterType == NULL) continue; CSovereign *pSovereign = pEncounterType->GetControllingSovereign(); CString sSovereign = (pSovereign ? pSovereign->GetTypeName() : CONSTLIT("(Unknown)")); printf("%d\t%s\t0x%08x\t%s\t%s\t%s\t%d.%03d", NodeTable[i].iLevel, NodeTable[i].sNodeID.GetASCIIZPointer(), NodeTable[i].Table.GetKey(j), pEncounterType->GetDataField(CONSTLIT("category")).GetASCIIZPointer(), sSovereign.GetASCIIZPointer(), pEncounterType->GetName().GetASCIIZPointer(), iCount, iCountFrac); for (l = 0; l < Cols.GetCount(); l++) { CString sValue = pEncounterType->GetDataField(Cols[l]); printf("\t%s", sValue.GetASCIIZPointer()); } printf("\n"); } } } }
void GenerateEncounterFrequency (CUniverse &Universe, CXMLElement *pCmdLine) { enum ETypes { outputFreq, outputFillLocations, }; int i, j; // Options int iSystemSample = pCmdLine->GetAttributeIntegerBounded(CONSTLIT("count"), 1, -1, 1); bool bLogo = !pCmdLine->GetAttributeBool(CONSTLIT("noLogo")); bool bAll = pCmdLine->GetAttributeBool(CONSTLIT("all")); bool bRawData = pCmdLine->GetAttributeBool(CONSTLIT("rawData")); ETypes iType; if (pCmdLine->GetAttributeBool(CONSTLIT("fillLocations"))) iType = outputFillLocations; else iType = outputFreq; // Additional columns TArray<CString> Cols; for (i = 0; i < pCmdLine->GetAttributeCount(); i++) { CString sAttrib = pCmdLine->GetAttributeName(i); if (!IsMainCommandParam(sAttrib) && !strEquals(sAttrib, CONSTLIT("count")) && !strEquals(sAttrib, CONSTLIT("fillLocations")) && !strEquals(sAttrib, CONSTLIT("rawData")) && !strEquals(sAttrib, CONSTLIT("encounterfreq"))) { CString sValue = pCmdLine->GetAttribute(i); if (!strEquals(sValue, CONSTLIT("true"))) Cols.Insert(strPatternSubst(CONSTLIT("%s:%s"), sAttrib, sValue)); else Cols.Insert(sAttrib); } } // Generate systems for multiple games CSystemCreateStats Stats; for (i = 0; i < iSystemSample; i++) { if (bLogo) printf("pass %d...\n", i+1); // Initialize the game CString sError; if (Universe.InitGame(0, &sError) != NOERROR) { printf("%s\n", sError.GetASCIIZPointer()); return; } for (j = 0; j < Universe.GetTopologyNodeCount(); j++) { CTopologyNode *pNode = Universe.GetTopologyNode(j); if (pNode->IsEndGame()) continue; // Create the system CSystem *pSystem; if (Universe.CreateStarSystem(pNode, &pSystem, NULL, &Stats) != NOERROR) { printf("ERROR: Unable to create star system.\n"); return; } // Done with old system Universe.DestroySystem(pSystem); } Universe.Reinit(); } // Output based on type if (iType == outputFreq) { // Generate a table for each encounter TSortMap<CStationType *, SEncounterFreqEntry> EncounterFreq; for (i = 0; i < Stats.GetEncounterTableCount(); i++) { const CSystemCreateStats::SEncounterTable &Table = Stats.GetEncounterTable(i); // Skip if only planets and asteroids if (!Table.bHasStation && !bAll) continue; // For each entry in the table, add to the frequency table for (j = 0; j < Table.Table.GetCount(); j++) { CStationType *pEncounterType = Table.Table.GetAt(j); int iChance = Table.Table.GetChance(j); SEncounterFreqEntry *pEntry = EncounterFreq.SetAt(pEncounterType); pEntry->iCount += Table.iCount; pEntry->iTotalChance += Table.iCount * iChance; if (pEntry->pMaxTable == NULL || iChance > pEntry->iMaxChance) { pEntry->pMaxTable = &Table; pEntry->iMaxChance = iChance; } if (pEntry->pMinTable == NULL || iChance < pEntry->iMinChance) { pEntry->pMinTable = &Table; pEntry->iMinChance = iChance; } } } // Output encounter frequency distribution printf("Level\tCategory\tEncounter\tTotal Chances\tAverage Chance\tMin Chance\tMax Chance"); for (i = 0; i < Cols.GetCount(); i++) printf("\t%s", Cols[i].GetASCIIZPointer()); printf("\n"); for (i = 0; i < EncounterFreq.GetCount(); i++) { CStationType *pEncounterType = EncounterFreq.GetKey(i); int iAveWhole = EncounterFreq[i].iTotalChance / EncounterFreq[i].iCount; int iAveFrac = 1000 * (EncounterFreq[i].iTotalChance % EncounterFreq[i].iCount) / EncounterFreq[i].iCount; printf("%d\t%s\t%s\t%d\t%d.%03d\t%d\t%d", pEncounterType->GetLevel(), pEncounterType->GetDataField(CONSTLIT("category")).GetASCIIZPointer(), pEncounterType->GetName().GetASCIIZPointer(), EncounterFreq[i].iCount, iAveWhole, iAveFrac, EncounterFreq[i].iMinChance, EncounterFreq[i].iMaxChance); for (j = 0; j < Cols.GetCount(); j++) { CString sValue = pEncounterType->GetDataField(Cols[j]); printf("\t%s", sValue.GetASCIIZPointer()); } printf("\n"); } // Output raw data if (bRawData) { // Loop over stats and output tables for (i = 0; i < Stats.GetEncounterTableCount(); i++) { const CSystemCreateStats::SEncounterTable &Table = Stats.GetEncounterTable(i); // Skip if only planets and asteroids if (!Table.bHasStation && !bAll) continue; // Header printf("LEVEL %d (%d location%s)\nSystem Type: %08x\nStations: %s\n", Table.iLevel, Table.iCount, (Table.iCount == 1 ? "" : "s"), Table.pSystemType->GetUNID(), Table.sStationCriteria.GetASCIIZPointer()); // Location attributes printf("Location: "); for (j = 0; j < Table.LabelAttribs.GetCount(); j++) { if (j != 0) printf(", "); printf(Table.LabelAttribs[j].GetASCIIZPointer()); } printf("\n"); // Entries for (j = 0; j < Table.Table.GetCount(); j++) printf("%s\t%d\n", Table.Table.GetAt(j)->GetName().GetASCIIZPointer(), Table.Table.GetChance(j)); printf("\n"); } } } else if (iType == outputFillLocations) { printf("Level\tSystem\tEncounter\tChance\n"); for (i = 0; i < Stats.GetFillLocationsTableCount(); i++) { const CSystemCreateStats::SFillLocationsTable &Entry = Stats.GetFillLocationsTable(i); for (j = 0; j < Entry.Table.GetCount(); j++) { int iPercent = (int)(1000.0 * Entry.Table.GetChance(j) / (Metric)Entry.Table.GetTotalChance()); printf("%d\t%s\t%s\t%d.%d\n", Entry.iLevel, Entry.sSystemName.GetASCIIZPointer(), Entry.Table[j]->GetName().GetASCIIZPointer(), iPercent / 10, iPercent % 10); } } } }