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420 lines
13 KiB
420 lines
13 KiB
package fleprocess
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/*
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Copyright © 2020 Jean-Marc Meessen, ON4KJM <on4kjm@gmail.com>
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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import (
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"bufio"
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"fmt"
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"log"
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"os"
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"regexp"
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"strings"
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"time"
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)
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// LoadFile FIXME:
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// returns nill if failure to process
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func LoadFile(inputFilename string, isInterpolateTime bool) (filleFullLog []LogLine, isProcessedOK bool) {
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file, err := os.Open(inputFilename)
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if err != nil {
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log.Fatalf("failed opening file: %s", err)
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}
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scanner := bufio.NewScanner(file)
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scanner.Split(bufio.ScanLines)
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var txtlines []string
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for scanner.Scan() {
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txtlines = append(txtlines, scanner.Text())
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}
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if error := scanner.Err(); error != nil {
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log.Fatal(error)
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}
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file.Close()
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//isInferTimeFatalError is set to true is something bad happened while storing time gaps.
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isInferTimeFatalError := false
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regexpLineComment := regexp.MustCompile(`^[[:blank:]]*#`)
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regexpOnlySpaces := regexp.MustCompile(`^\s+$`)
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regexpSingleMultiLineComment := regexp.MustCompile(`^[[:blank:]]*{.+}$`)
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regexpStartMultiLineComment := regexp.MustCompile(`^[[:blank:]]*{`)
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regexpEndMultiLineComment := regexp.MustCompile(`}$`)
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//FIXME: fields can delimited with space or TAB ("(?i)^mywwff\s+")
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regexpHeaderMyCall := regexp.MustCompile(`(?i)^mycall\s+`)
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regexpHeaderOperator := regexp.MustCompile(`(?i)^operator\s+`)
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regexpHeaderMyWwff := regexp.MustCompile(`(?i)^mywwff\s+`)
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regexpHeaderMySota := regexp.MustCompile(`(?i)^mysota\s+`)
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regexpHeaderMyPota := regexp.MustCompile(`(?i)^mypota\s+`)
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regexpHeaderMyGrid := regexp.MustCompile(`(?i)^mygrid\s+`)
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regexpHeaderMyCounty := regexp.MustCompile(`(?i)^mycounty\s+`)
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regexpHeaderQslMsg := regexp.MustCompile(`(?i)^qslmsg\s+`)
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regexpHeaderNickname := regexp.MustCompile(`(?i)^nickname\s+`)
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headerMyCall := ""
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headerOperator := ""
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headerMyWWFF := ""
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headerMySOTA := ""
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headerMyPOTA := ""
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headerMyGrid := ""
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headerMyCounty := ""
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headerQslMsg := ""
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headerNickname := ""
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headerIsFirstLine := true
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//headerDate := ""
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lineCount := 0
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wrkTimeBlock := InferTimeBlock{}
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missingTimeBlockList := []InferTimeBlock{}
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var isInMultiLine = false
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// var cleanedInput []string
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var errorLog []string
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var previousLogLine LogLine
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fullLog := []LogLine{}
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//Loop through all the stored lined
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for _, eachline := range txtlines {
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lineCount++
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// ****
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// ** Lets do some house keeping first by dropping the unnecessary lines
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// ****
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//Skip the line if it starts with "#"
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if regexpLineComment.MatchString(eachline) {
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continue
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}
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//Skip if line is empty or blank
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if (len(eachline) == 0) || (regexpOnlySpaces.MatchString(eachline)) {
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continue
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}
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// Process multi-line comments
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if regexpStartMultiLineComment.MatchString(eachline) {
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//Single-line "multi-line" comment
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if regexpSingleMultiLineComment.MatchString(eachline) {
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continue
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}
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isInMultiLine = true
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continue
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}
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if isInMultiLine {
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if regexpEndMultiLineComment.MatchString(eachline) {
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isInMultiLine = false
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}
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continue
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}
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// ****
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// ** Process the Header block
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// ****
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//My Call
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if regexpHeaderMyCall.MatchString(eachline) {
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//Attempt to redefine value
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if headerMyCall != "" {
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errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyCall at line %d", lineCount))
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continue
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}
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errorMsg := ""
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myCallList := regexpHeaderMyCall.Split(eachline, -1)
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if len(strings.TrimSpace(myCallList[1])) > 0 {
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headerMyCall, errorMsg = ValidateCall(strings.TrimSpace(myCallList[1]))
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// cleanedInput = append(cleanedInput, fmt.Sprintf("My call: %s", headerMyCall))
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if len(errorMsg) != 0 {
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errorLog = append(errorLog, fmt.Sprintf("Invalid myCall at line %d: %s (%s)", lineCount, myCallList[1], errorMsg))
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}
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//Operator
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if regexpHeaderOperator.MatchString(eachline) {
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//Attempt to redefine value
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if headerOperator != "" {
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errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine Operator at line %d", lineCount))
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continue
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}
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errorMsg := ""
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myOperatorList := regexpHeaderOperator.Split(eachline, -1)
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if len(strings.TrimSpace(myOperatorList[1])) > 0 {
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headerOperator, errorMsg = ValidateCall(strings.TrimSpace(myOperatorList[1]))
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// cleanedInput = append(cleanedInput, fmt.Sprintf("Operator: %s", headerOperator))
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if len(errorMsg) != 0 {
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errorLog = append(errorLog, fmt.Sprintf("Invalid Operator at line %d: %s (%s)", lineCount, myOperatorList[1], errorMsg))
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}
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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// My WWFF
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if regexpHeaderMyWwff.MatchString(eachline) {
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//Attempt to redefine value
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if headerMyWWFF != "" {
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errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyWWFF at line %d", lineCount))
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continue
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}
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errorMsg := ""
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myWwffList := regexpHeaderMyWwff.Split(eachline, -1)
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if len(strings.TrimSpace(myWwffList[1])) > 0 {
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headerMyWWFF, errorMsg = ValidateWwff(strings.TrimSpace(myWwffList[1]))
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// cleanedInput = append(cleanedInput, fmt.Sprintf("My WWFF: %s", headerMyWWFF))
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if len(errorMsg) != 0 {
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errorLog = append(errorLog, fmt.Sprintf("Invalid \"My WWFF\" at line %d: %s (%s)", lineCount, myWwffList[1], errorMsg))
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}
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//My Pota
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if regexpHeaderMyPota.MatchString(eachline) {
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//Attempt to redefine value
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if headerMyPOTA != "" {
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errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyPOTA at line %d", lineCount))
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continue
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}
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errorMsg := ""
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myPotaList := regexpHeaderMyPota.Split(eachline, -1)
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if len(strings.TrimSpace(myPotaList[1])) > 0 {
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headerMyPOTA, errorMsg = ValidatePota(strings.TrimSpace(myPotaList[1]))
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// cleanedInput = append(cleanedInput, fmt.Sprintf("My Pota: %s", headerMyPOTA))
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if len(errorMsg) != 0 {
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errorLog = append(errorLog, fmt.Sprintf("Invalid \"My POTA\" at line %d: %s (%s)", lineCount, myPotaList[1], errorMsg))
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}
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//My Sota
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if regexpHeaderMySota.MatchString(eachline) {
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oldHeaderMySOTA := headerMySOTA
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errorMsg := ""
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mySotaList := regexpHeaderMySota.Split(eachline, -1)
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if len(strings.TrimSpace(mySotaList[1])) > 0 {
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headerMySOTA, errorMsg = ValidateSota(strings.TrimSpace(mySotaList[1]))
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// cleanedInput = append(cleanedInput, fmt.Sprintf("My Sota: %s", headerMySOTA))
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if len(errorMsg) != 0 {
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errorLog = append(errorLog, fmt.Sprintf("Invalid \"My SOTA\" at line %d: %s (%s)", lineCount, mySotaList[1], errorMsg))
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}
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}
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if oldHeaderMySOTA != headerMySOTA {
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// New SOTA reference defined
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headerIsFirstLine = true
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//My Grid
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if regexpHeaderMyGrid.MatchString(eachline) {
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//Attempt to redefine value
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if headerMyGrid != "" {
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errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyGrid at line %d", lineCount))
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continue
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}
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errorMsg := ""
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myGridList := regexpHeaderMyGrid.Split(eachline, -1)
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if len(strings.TrimSpace(myGridList[1])) > 0 {
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headerMyGrid, errorMsg = ValidateGridLocator(strings.TrimSpace(myGridList[1]))
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// cleanedInput = append(cleanedInput, fmt.Sprintf("My Grid: %s", headerMyGrid))
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if len(errorMsg) != 0 {
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errorLog = append(errorLog, fmt.Sprintf("Invalid \"My Grid\" at line %d: %s (%s)", lineCount, myGridList[1], errorMsg))
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}
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//My County
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if regexpHeaderMyCounty.MatchString(eachline) {
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myMyCountyList := regexpHeaderMyCounty.Split(eachline, -1)
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if len(myMyCountyList[1]) > 0 {
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headerMyCounty = myMyCountyList[1]
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//QSL Message
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if regexpHeaderQslMsg.MatchString(eachline) {
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myQslMsgList := regexpHeaderQslMsg.Split(eachline, -1)
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if len(myQslMsgList[1]) > 0 {
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headerQslMsg = myQslMsgList[1]
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// cleanedInput = append(cleanedInput, fmt.Sprintf("QSL Message: %s", headerQslMsg))
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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//Nickname
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if regexpHeaderNickname.MatchString(eachline) {
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//Attempt to redefine value
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if headerNickname != "" {
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errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine eQSL Nickname at line %d", lineCount))
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continue
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}
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myNicknameList := regexpHeaderNickname.Split(eachline, -1)
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if len(strings.TrimSpace(myNicknameList[1])) > 0 {
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headerNickname = strings.TrimSpace(myNicknameList[1])
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// cleanedInput = append(cleanedInput, fmt.Sprintf("eQSL Nickmane: %s", headerNickname))
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}
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//If there is no data after the marker, we just skip the data.
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continue
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}
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// ****
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// ** Process the data block
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// ****
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// Load the header values in the previousLogLine
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previousLogLine.MyCall = headerMyCall
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previousLogLine.Operator = headerOperator
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previousLogLine.isFirstLine = headerIsFirstLine
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previousLogLine.MyWWFF = headerMyWWFF
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previousLogLine.MyPOTA = headerMyPOTA
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previousLogLine.MySOTA = headerMySOTA
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previousLogLine.MyGrid = headerMyGrid
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previousLogLine.MyCounty = headerMyCounty
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previousLogLine.QSLmsg = headerQslMsg //previousLogLine.QslMsg is redundant
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previousLogLine.Nickname = headerNickname
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//parse a line
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logline, errorLine := ParseLine(eachline, previousLogLine)
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//we have a valid line (contains a call)
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if logline.Call != "" {
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fullLog = append(fullLog, logline)
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//store time inference data
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if isInterpolateTime && !isInferTimeFatalError {
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var isEndOfGap bool
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if isEndOfGap, err = wrkTimeBlock.storeTimeGap(logline, len(fullLog)); err != nil {
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errorLog = append(errorLog, fmt.Sprintf("Fatal error at line %d: %s", lineCount, err))
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isInferTimeFatalError = true
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}
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//If we reached the end of the time gap, we make the necessary checks and make our gap calculation
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if isEndOfGap {
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if err := wrkTimeBlock.finalizeTimeGap(); err != nil {
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//If an error occurred it is a fatal error
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errorLog = append(errorLog, fmt.Sprintf("Fatal error at line %d: %s", lineCount, err))
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isInferTimeFatalError = true
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}
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if isInferTimeFatalError {
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break
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}
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//add it to the gap collection
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missingTimeBlockList = append(missingTimeBlockList, wrkTimeBlock)
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//create a new block
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wrkTimeBlock = InferTimeBlock{}
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//Store this record in the new block as a new gap might be following
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_, err := wrkTimeBlock.storeTimeGap(logline, len(fullLog))
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//no real error or endOfGap processing as it has already been successfully processed
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if err != nil {
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errorLog = append(errorLog, fmt.Sprintf("Fatal error at line %d: %s", lineCount, err))
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isInferTimeFatalError = true
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}
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}
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}
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}
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//Store append the accumulated soft parsing errors into the global parsing error log file
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if errorLine != "" {
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errorLog = append(errorLog, fmt.Sprintf("Parsing error at line %d: %s ", lineCount, errorLine))
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}
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//store the current logline so that it can be used as a model when parsing the next line
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// and reset the FirstLine flag
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previousLogLine = logline
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headerIsFirstLine = false
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//We go back to the top to process the next loaded log line (Continue not necessary here)
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}
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//***
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//*** We have done processing the log file, so let's post process it
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//***
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//if asked to infer the date, lets update the loaded logfile accordingly
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if isInterpolateTime {
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//Do we have an open timeBlok that has not been closed.
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if (wrkTimeBlock.noTimeCount > 0) && (wrkTimeBlock.nextValidTime.IsZero()) {
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errorLog = append(errorLog, "Fatal error: missing new time to infer time")
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} else {
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for _, timeBlock := range missingTimeBlockList {
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if err := timeBlock.validateTimeGap(); err != nil {
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errorLog = append(errorLog, fmt.Sprintf("Fatal error: %s", err))
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break
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}
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for i := 0; i < timeBlock.noTimeCount; i++ {
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position := timeBlock.logFilePosition + i
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pLogLine := &fullLog[position]
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durationOffset := timeBlock.deltatime * time.Duration(i+1)
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newTime := timeBlock.lastRecordedTime.Add(durationOffset)
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updatedTimeString := newTime.Format("1504")
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pLogLine.Time = updatedTimeString
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}
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}
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}
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}
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displayLogSimple(fullLog)
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//Display parsing errors, if any
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if len(errorLog) != 0 {
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fmt.Println("\nProcessing errors:")
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for _, errorLogLine := range errorLog {
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fmt.Println(errorLogLine)
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}
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isProcessedOK = false
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} else {
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fmt.Println("\nSuccessfully parsed ", lineCount, " lines.")
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isProcessedOK = true
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}
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return fullLog, isProcessedOK
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}
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// displayLogSimple will print to stdout a simplified dump of a full log
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func displayLogSimple(fullLog []LogLine) {
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isFirstLogLine := true
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for _, filledLogLine := range fullLog {
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if (filledLogLine.isFirstLine || isFirstLogLine) {
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fmt.Print("\n\n")
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fmt.Println(SprintHeaderValues(filledLogLine))
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fmt.Print(SprintColumnTitles())
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isFirstLogLine = false
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}
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fmt.Print(SprintLogInColumn(filledLogLine))
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}
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}
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