FLEcli/cmd/parse_line.go

package cmd

/*
Copyright © 2020 Jean-Marc Meessen, ON4KJM <on4kjm@gmail.com>

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"
	"regexp"
	"strconv"
	"strings"
	//"fmt"
)

//TODO: validate a record for minimal values

// LogLine is used to store all the data of a single log line
type LogLine struct {
	Date             string
	MyCall           string
	Operator         string
	MyWWFF           string
	MySOTA           string
	QslMsgFromHeader string
	Nickname         string
	Mode             string
	ModeType         string
	Band             string
	BandLowerLimit   float64
	BandUpperLimit   float64
	Frequency        string
	Time             string
	ActualTime       string //time actually recorded in FLE
	Call             string
	Comment          string
	QSLmsg           string
	OMname           string
	GridLoc          string
	RSTsent          string
	RSTrcvd          string
	WWFF             string
	SOTA             string
}

var regexpIsFullTime = regexp.MustCompile("^[0-2]{1}[0-9]{3}$")
var regexpIsTimePart = regexp.MustCompile("^[0-5]{1}[0-9]{1}$|^[1-9]{1}$")
var regexpIsOMname = regexp.MustCompile("^@")
var regexpIsGridLoc = regexp.MustCompile("^#")
var regexpIsRst = regexp.MustCompile("^[\\d]{1,3}$")
var regexpIsFreq = regexp.MustCompile("^[\\d]+\\.[\\d]+$")

// ParseLine cuts a FLE line into useful bits
func ParseLine(inputStr string, previousLine LogLine) (logLine LogLine, errorMsg string) {
	//TODO: input null protection?

	//Flag telling that we are processing data to the right of the callsign
	isRightOfCall := false

	//Flag used to know if we are parsing the Sent RST (first) or received RST (second)
	haveSentRST := false

	//TODO: Make something more intelligent
	//TODO: What happens if we have partial lines
	previousLine.Call = ""
	previousLine.RSTsent = ""
	previousLine.RSTrcvd = ""
	previousLine.SOTA = ""
	previousLine.WWFF = ""
	previousLine.OMname = ""
	previousLine.GridLoc = ""
	previousLine.Comment = ""
	previousLine.ActualTime = ""
	logLine = previousLine

	//TODO: what happens when we have <> or when there are multiple comments
	//TODO: Refactor this! it is ugly
	comment, inputStr := getBraketedData(inputStr, COMMENT)
	if comment != "" {
		logLine.Comment = comment
	}

	QSLmsg, inputStr := getBraketedData(inputStr, QSL)
	if QSLmsg != "" {
		logLine.QSLmsg = QSLmsg
	}

	elements := strings.Fields(inputStr)

	for _, element := range elements {

		//  Is it a mode?
		if lookupMode(strings.ToUpper(element)) {
			logLine.Mode = strings.ToUpper(element)
			//TODO: improve this: what if the band is at the end of the line
			// Set the default RST depending of the mode
			if (logLine.RSTsent == "") || (logLine.RSTrcvd == "") {
				// get default RST and Mode category
				modeType, defaultReport := getDefaultReport(logLine.Mode)
				logLine.ModeType = modeType
				logLine.RSTsent = defaultReport
				logLine.RSTrcvd = defaultReport

			} else {
				errorMsg = errorMsg + "Double definitiion of RST"
			}
			continue
		}

		// Is it a band?
		isBandElement, bandLowerLimit, bandUpperLimit, _ := IsBand(element)
		if isBandElement {
			logLine.Band = strings.ToLower(element)
			logLine.BandLowerLimit = bandLowerLimit
			logLine.BandUpperLimit = bandUpperLimit
			continue
		}

		// Is it a Frequency?
		if regexpIsFreq.MatchString(element) {
			var qrg float64
			qrg, _ = strconv.ParseFloat(element, 32)
			if (logLine.BandLowerLimit != 0.0) && (logLine.BandUpperLimit != 0.0) {
				if (qrg >= logLine.BandLowerLimit) && (qrg <= logLine.BandUpperLimit) {
					logLine.Frequency = fmt.Sprintf("%.3f", qrg)
				} else {
					logLine.Frequency = ""
					errorMsg = errorMsg + " Frequency " + element + " is invalid for " + logLine.Band + " band"
				}
			} else {
				errorMsg = errorMsg + " Unable to load frequency " + element + ": no band defined."
			}
			continue
		}

		// Is it a call sign ?
		if validCallRegexp.MatchString(strings.ToUpper(element)) {
			callErrorMsg := ""
			logLine.Call, callErrorMsg = ValidateCall(element)
			errorMsg = errorMsg + callErrorMsg
			isRightOfCall = true
			continue
		}

		// Is it a "full" time ?
		if isRightOfCall == false {
			if regexpIsFullTime.MatchString(element) {
				logLine.Time = element
				logLine.ActualTime = element
				continue
			}

			// Is it a partial time ?
			if regexpIsTimePart.MatchString(element) {
				if logLine.Time == "" {
					logLine.Time = element
					logLine.ActualTime = element
				} else {
					goodPart := logLine.Time[:len(logLine.Time)-len(element)]
					logLine.Time = goodPart + element
					logLine.ActualTime = goodPart + element
				}
				continue
			}
		}

		// Is it the OM's name (starting with "@")
		if regexpIsOMname.MatchString(element) {
			logLine.OMname = strings.TrimLeft(element, "@")
			continue
		}

		// Is it the Grid Locator (starting with "#")
		if regexpIsGridLoc.MatchString(element) {
			logLine.GridLoc = strings.TrimLeft(element, "#")
			continue
		}

		if isRightOfCall {
			//This is probably a RST
			if regexpIsRst.MatchString(element) {
				workRST := ""
				switch len(element) {
				case 1:
					if logLine.ModeType == "CW" {
						workRST = "5" + element + "9"
					} else {
						if logLine.ModeType == "PHONE" {
							workRST = "5" + element
						}
					}
				case 2:
					if logLine.ModeType == "CW" {
						workRST = element + "9"
					} else {
						if logLine.ModeType == "PHONE" {
							workRST = element
						}
					}
				case 3:
					if logLine.ModeType == "CW" {
						workRST = element
					} else {
						workRST = "*" + element
						errorMsg = errorMsg + "Invalid report (" + element + ") for " + logLine.ModeType + " mode "
					}
				}
				if haveSentRST {
					logLine.RSTrcvd = workRST
				} else {
					logLine.RSTsent = workRST
					haveSentRST = true
				}
				continue
			}

			// Is it a WWFF to WWFF reference?
			workRef, wwffErr := ValidateWwff(element)
			if wwffErr == "" {
				logLine.WWFF = workRef
				continue
			}

			// Is it a WWFF to WWFF reference?
			workRef, sotaErr := ValidateSota(element)
			if sotaErr == "" {
				logLine.SOTA = workRef
				continue
			}
		}

		//If we come here, we could not make sense of what we found
		errorMsg = errorMsg + "Unable to parse " + element + " "

	}

	//If no report is present, let's fill it with mode default
	if logLine.RSTsent == "" {
		_, logLine.RSTsent = getDefaultReport(logLine.Mode)
	}
	if logLine.RSTrcvd == "" {
		_, logLine.RSTrcvd = getDefaultReport(logLine.Mode)
	}

	//For debug purposes
	//fmt.Println("\n", SprintLogRecord(logLine))

	return logLine, errorMsg
}

func lookupMode(lookup string) bool {
	switch lookup {
	case
		"CW",
		"SSB",
		"AM",
		"FM",
		"RTTY",
		"FT8",
		"PSK",
		"JT65",
		"JT9",
		"FT4",
		"JS8",
		"ARDOP",
		"ATV",
		"C4FM",
		"CHIP",
		"CLO",
		"CONTESTI",
		"DIGITALVOICE",
		"DOMINO",
		"DSTAR",
		"FAX",
		"FSK441",
		"HELL",
		"ISCAT",
		"JT4",
		"JT6M",
		"JT44",
		"MFSK",
		"MSK144",
		"MT63",
		"OLIVIA",
		"OPERA",
		"PAC",
		"PAX",
		"PKT",
		"PSK2K",
		"Q15",
		"QRA64",
		"ROS",
		"RTTYM",
		"SSTV",
		"T10",
		"THOR",
		"THRB",
		"TOR",
		"V4",
		"VOI",
		"WINMOR",
		"WSPR":
		return true
	}
	return false
}