/* * show what options the user has for fields for display and filtering */ static err_code listOptions( void) { int i, j; checkErr((!isROA) && (!isCRL) && (!isCert) && (!isManifest) && (!isGBR), BAD_OBJECT_TYPE); printf("\nPossible fields to display or use in clauses for a %s:\n", objectType); for (i = 0; i < getNumFields(); i++) { if (getFields()[i].description == NULL) continue; if (((getFields()[i].flags & Q_FOR_ROA) && isROA) || ((getFields()[i].flags & Q_FOR_CRL) && isCRL) || ((getFields()[i].flags & Q_FOR_CERT) && isCert) || ((getFields()[i].flags & Q_FOR_MAN) && isManifest) || ((getFields()[i].flags & Q_FOR_GBR) && isGBR)) { printf(" %s: %s\n", getFields()[i].name, getFields()[i].description); if (getFields()[i].flags & Q_JUST_DISPLAY) { for (j = 0; j < (int)strlen(getFields()[i].name) + 4; j++) printf(" "); printf("(Note: This can be used only for display.)\n"); } } } printf("\n"); return 0; }
// reads PROTO interfaceElements up to ] GvBool GvFieldData::readProtoInterface(GvInput *in, GvNode *object,GvBool externProto) { GvBool gotChar; char c; if (! ((gotChar = in->read(c)) || c != OPEN_BRACE_CHAR)) return FALSE; if (in->read(c) && c == CLOSE_BRACE_CHAR) { return TRUE; } in->putBack(c); GvBool alreadyHasFields = (object->isBuiltIn || getNumFields() != 0); // read all field / eventIn / eventOut while (TRUE) { if (!readInterfaceElement(in,alreadyHasFields,object,!externProto)) return(FALSE); if (!in->read(c)) return FALSE; if (c == CLOSE_BRACE_CHAR) break; in->putBack(c); } // while return TRUE; }
const QuickString &Record::getField(int fieldNum) const { cerr << endl << "*****" << endl << "*****ERROR: requested column " << fieldNum << " , but record only has fields 1 - " << getNumFields() << ". Exiting." << endl << endl << "*****" << endl; exit(1); }
/** Implementation of Lookup:: method */ const int* getFieldIDsPtr() { int len = getNumFields(); if (len < 1) return(NULL); vspace_->getFields(fieldIDs_); return(&fieldIDs_[0]); }
GvBool GvFieldData::readFieldTypes(GvInput *in, GvNode *object) { GvBool gotChar; GvName fieldType, fieldName; char c; if (! ((gotChar = in->read(c)) || c != OPEN_BRACE_CHAR)) return FALSE; if (in->read(c) && c == CLOSE_BRACE_CHAR) return TRUE; in->putBack(c); GvBool alreadyHasFields = (object->isBuiltIn || getNumFields() != 0); while (TRUE) { if (! in->read(fieldType, TRUE) || ! in->read(fieldName, TRUE)) return FALSE; if (! alreadyHasFields) { GvField *fld = GvField::createInstanceFromName(fieldType); if (fld == NULL) { GvReadError::post(in,GV_RE_UNKNOWN_FIELD, "%s No such field type \"%s\" ",fieldName.getString(), fieldType.getString()); return FALSE; // hg 16.11.99 } else { fld->setContainer(object); addField(object, fieldName.getString(), fld); delete fld; fld = NULL; } } if (! in->read(c)) return FALSE; if (c == VALUE_SEPARATOR_CHAR) { if (in->read(c)) { if (c == CLOSE_BRACE_CHAR) return TRUE; else in->putBack(c); } } else if (c == CLOSE_BRACE_CHAR) return TRUE; else return FALSE; } }
void CouchbaseRowBuilder::processBeginDataset(const RtlFieldInfo * field) { /* * *childRec := RECORD real x; real y; END; *parentRec := RECORD * childRec child1, <-- flatens out the childrec, this function would receive a field of name x * dataset(childRec) child2; <-- keeps nested structure, this funciton would receive a field of name child2 *END; */ if (getNumFields(field->type->queryChildType()) > 0) m_oNestedField.set(m_oResultRow->queryBranch(field->name->queryStr())); }
GvBool GvFieldData::readScriptInterface(GvInput *in, GvNode *object) { char c; if (in->read(c) && c == CLOSE_BRACE) { return TRUE; } in->putBack(c); GvBool alreadyHasFields = (object->isBuiltIn || getNumFields() != 0); // read all field / eventIn / eventOut while (TRUE) { GvName fieldName; GvBool foundName=FALSE; // read a name if (!in->read(fieldName, TRUE) || ! fieldName) return(FALSE); // check if built in field if (! read(in, object, fieldName, foundName)) { if (foundName) return FALSE; // couldn´t read value } if (!foundName) // a field with name not found, { in->putBack(fieldName.getString()); if (!readInterfaceElement(in,FALSE,object,TRUE)) return(FALSE); } // check for terminator if (!in->read(c)) return FALSE; if (c == CLOSE_BRACE) { in->putBack(c); return TRUE; } else if (c == VALUE_SEPARATOR_CHAR) ; else in->putBack(c); } // while return TRUE; }
StoreQueryResult::StoreQueryResult(MYSQL_RES * res_, Connection * conn_, const Query * query_) : ResultBase(res_, conn_, query_) { UInt64 rows = mysql_num_rows(res); UInt32 fields = getNumFields(); reserve(rows); lengths.resize(rows * fields); for (UInt64 i = 0; MYSQL_ROW row = mysql_fetch_row(res); ++i) { MYSQL_LENGTHS lengths_for_row = mysql_fetch_lengths(res); memcpy(&lengths[i * fields], lengths_for_row, sizeof(lengths[0]) * fields); push_back(Row(row, this, &lengths[i * fields])); } checkError(conn->getDriver()); }
/* * add all fields appropriate for this type (user sent '-d all') */ static int addAllFields( char *displays[], int numDisplays) { int i; for (i = 0; i < getNumFields(); ++i) { if (getFields()[i].description == NULL) continue; if (((getFields()[i].flags & Q_FOR_ROA) && isROA) || ((getFields()[i].flags & Q_FOR_CRL) && isCRL) || ((getFields()[i].flags & Q_FOR_MAN) && isManifest) || ((getFields()[i].flags & Q_FOR_CERT) && isCert) || ((getFields()[i].flags & Q_FOR_GBR) && isGBR)) { displays[numDisplays++] = getFields()[i].name; } } return numDisplays; }
bool lua_details::listTable(lua_State* L, int idx, TableInfo& out, int recursive) { out.clear(); if (lua_type(L, idx) != LUA_TTABLE) return false; UInt32 size= getNumFields(L, idx); out.reserve(size); // table to traverse lua_pushvalue(L, idx); // push a key lua_pushnil(L); popStackElements pop(L, 2); // remove key & table off the stack at the end of this fn // popStackElements pop(L, 1); // remove table off the stack at the end of this fn int table= lua_gettop(L) - 1; // traverse a table while (lua_next(L, table)) { popStackElements pop(L, 1); Value Key(L, -2); Value Val(L, -1, recursive); LuaField field(Key,Val); out.push_back(field); } pop.dec(); // final lua_next call removed key return true; }
void CouchbaseRowBuilder::processBeginRow(const RtlFieldInfo * field) { m_fieldsProcessedCount = 0; m_rowFieldCount = getNumFields(field->type); }