package fleprocess /* Copyright © 2020 Jean-Marc Meessen, ON4KJM Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ import ( "fmt" "strings" "time" ) // OutputAdif generates and writes data in ADIF format func OutputAdif(outputFile string, fullLog []LogLine, adifParams AdifParams) { //convert the log data to an in-memory ADIF file adifData := buildAdif(fullLog, adifParams) //write to a file writeFile(outputFile, adifData) } // buildAdif creates the adif file in memory ready to be printed func buildAdif(fullLog []LogLine, adifParams AdifParams) (adifList []string) { //Print the fixed header adifList = append(adifList, "ADIF Export for Fast Log Entry by DF3CB") adifList = append(adifList, "FLE") adifList = append(adifList, "3.1.0") adifList = append(adifList, "") for _, logLine := range fullLog { var adifLine strings.Builder adifLine.WriteString(adifElement("STATION_CALLSIGN", logLine.MyCall)) adifLine.WriteString(adifElement("CALL", logLine.Call)) adifLine.WriteString(adifElement("QSO_DATE", adifDate(logLine.Date))) adifLine.WriteString(adifElement("TIME_ON", logLine.Time)) adifLine.WriteString(adifElement("BAND", logLine.Band)) adifLine.WriteString(adifElement("MODE", logLine.Mode)) if logLine.Frequency != "" { adifLine.WriteString(adifElement("FREQ", logLine.Frequency)) } adifLine.WriteString(adifElement("RST_SENT", logLine.RSTsent)) adifLine.WriteString(adifElement("RST_RCVD", logLine.RSTrcvd)) if logLine.Comment != "" { adifLine.WriteString(adifElement("COMMENT", logLine.Comment)) } if logLine.OMname != "" { adifLine.WriteString(adifElement("NAME", logLine.OMname)) } if logLine.GridLoc != "" { adifLine.WriteString(adifElement("GRIDSQUARE", logLine.GridLoc)) } if logLine.QSLmsg != "" { adifLine.WriteString(adifElement("QSLMSG", logLine.QSLmsg)) } if adifParams.IsWWFF { adifLine.WriteString(adifElement("MY_SIG", "WWFF")) adifLine.WriteString(adifElement("MY_SIG_INFO", logLine.MyWWFF)) if logLine.WWFF != "" { adifLine.WriteString(adifElement("SIG", "WWFF")) adifLine.WriteString(adifElement("SIG_INFO", logLine.WWFF)) } } if adifParams.IsPOTA { adifLine.WriteString(adifElement("MY_SIG", "POTA")) adifLine.WriteString(adifElement("MY_SIG_INFO", logLine.MyPOTA)) if logLine.POTA != "" { adifLine.WriteString(adifElement("SIG", "POTA")) adifLine.WriteString(adifElement("SIG_INFO", logLine.POTA)) } } if adifParams.IsSOTA { adifLine.WriteString(adifElement("MY_SOTA_REF", logLine.MySOTA)) if logLine.SOTA != "" { adifLine.WriteString(adifElement("SOTA_REF", logLine.SOTA)) } } if logLine.Operator != "" { adifLine.WriteString(adifElement("OPERATOR", logLine.Operator)) } if logLine.MyGrid != "" { adifLine.WriteString(adifElement("MY_GRIDSQUARE", logLine.MyGrid)) } if logLine.Nickname != "" { adifLine.WriteString(adifElement("APP_EQSL_QTH_NICKNAME", logLine.Nickname)) } adifLine.WriteString("") adifList = append(adifList, adifLine.String()) } return adifList } // adifElement generated the ADIF sub-element func adifElement(elementName, elementValue string) (element string) { return fmt.Sprintf("<%s:%d>%s ", strings.ToUpper(elementName), len(elementValue), elementValue) } // adifDate converts a date in YYYY-MM-DD format to YYYYMMDD func adifDate(inputDate string) (outputDate string) { const FLEdateFormat = "2006-01-02" date, err := time.Parse(FLEdateFormat, inputDate) //error should never happen if err != nil { panic(err) } const ADIFdateFormat = "20060102" return date.Format(ADIFdateFormat) }