func pinyinifyLookupHandler(writer http.ResponseWriter, request *http.Request) {
text := getLastPathComponent(request)
charSet := cedict.DetermineCharSet(text)
splitText, err := chinese.SplitChineseTextIntoWords(text, charSet)
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`}`)
return
}
output := ""
for _, word := range splitText {
records, _ := cedict.FindRecords(word, charSet)
if len(records) > 0 {
output += records[0].Pinyin
} else {
output += word
}
output += " "
}
j, err := json.Marshal(map[string]interface{}{
"error": "nil",
"result": output,
})
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`}`)
return
}
fmt.Fprint(writer, string(j))
}
func mcdsLookupHandler(writer http.ResponseWriter, request *http.Request) {
text := getLastPathComponent(request)
text = strings.Replace(text, "@SLASH@", "/", -1)
text = strings.Replace(text, "\n", "<br />", -1)
text = strings.Replace(text, "\t", " ", -1)
notes := request.FormValue("notes")
notes = strings.Replace(notes, "@SLASH@", "/", -1)
notes = strings.Replace(notes, "\n", "<br />", -1)
notes = strings.Replace(notes, "\t", " ", -1)
charsRaw := request.FormValue("chars")
charsArrayRaw := strings.Split(charsRaw, " ")
// Construct new slice without empty strings
chars := make([]string, 0)
for _, char := range charsArrayRaw {
if char != "" {
chars = append(chars, char)
}
}
colors := getColors(request)
charSet := cedict.DetermineCharSet(text)
splitText, err := chinese.SplitChineseTextIntoWords(text, charSet)
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`}`)
return
}
var output string
// Go through all chars to be clozed. Every iteration adds one line to the output var (i.e. one card)
for _, char := range chars {
var front, back string
wordsToBeLookedUp := make([]string, 0)
// This loop goes through all words in the text. This could be optimised by only going
// through the text once and constructing all cards simultaneously
for _, wordInText := range splitText {
indexOfChar := strings.Index(wordInText, char)
if indexOfChar == -1 {
front += wordInText
back += wordInText
} else {
front += strings.Replace(wordInText, char, clozeBegin+clozeChar+clozeEnd, -1)
back += strings.Replace(wordInText, char, clozeBegin+char+clozeEnd, -1)
wordsToBeLookedUp = append(wordsToBeLookedUp, wordInText)
}
}
// Fine unique words to be looked up in moedict
wordsToBeLookedUnique := make([]string, 0)
for _, word := range wordsToBeLookedUp {
alreadyInWordsToBeLookedUpUnique := false
for _, wordUnique := range wordsToBeLookedUnique {
if word == wordUnique {
alreadyInWordsToBeLookedUpUnique = true
}
}
if !alreadyInWordsToBeLookedUpUnique {
wordsToBeLookedUnique = append(wordsToBeLookedUnique, word)
}
}
cedictRecords := make([]cedict.Record, 0)
for _, wordToBeLookedUpInCedict := range wordsToBeLookedUnique {
records, _ := cedict.FindRecords(wordToBeLookedUpInCedict, charSet)
for _, record := range records {
cedictRecords = append(cedictRecords, record)
}
}
moeEntries, err := findMoeEntriesForWords(wordsToBeLookedUnique, charSet)
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`}`)
return
}
output += front
output += "\t"
output += back
output += "\t"
output += notes
output += "\t"
for _, moeEntry := range moeEntries {
output += moeEntry.ToHTML(colors)
output += "<br>"
}
output += "\t"
for _, cr := range cedictRecords {
output += cr.ToHTML(colors)
output += "<br>"
}
output += "\n"
}
// TODO turn this into a function
// use json.Marshal with an anonymous variable to escape the \t and " characters
// in the response
j, err := json.Marshal(map[string]interface{}{
"error": "nil",
"result": output,
})
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`}`)
return
}
fmt.Fprint(writer, string(j))
}
func sentencesLookupHandler(writer http.ResponseWriter, request *http.Request) {
sentence := getLastPathComponent(request)
colors := getColors(request)
fmt.Println("sentencesLookupHandler: " + string([]rune(sentence)[0:10]) + "。。。")
// get words in sentence
wordsRaw := findWordsInSentencesRegexp.FindAllStringSubmatch(sentence, -1)
words := make([]string, len(wordsRaw))
for i, w := range wordsRaw {
words[i] = w[1]
}
charSet := cedict.DetermineCharSet(sentence)
moeEntries, err := findMoeEntriesForWords(words, charSet)
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`", "sentence": "`+sentence+`"}`)
return
}
cedictRecords := make([]cedict.Record, 0)
for _, word := range words {
records, err := cedict.FindRecords(word, charSet)
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`", "sentence": "`+sentence+`"}`)
return
}
for _, record := range records {
cedictRecords = append(cedictRecords, record)
}
}
// construct csv row
var output string
var outputSentence string
outputSentence = strings.Replace(sentence, "[", "", -1)
outputSentence = strings.Replace(outputSentence, "]", "", -1)
output += outputSentence
output += "\t"
for _, moeEntry := range moeEntries {
output += moeEntry.ToHTML(colors)
output += "<br>"
}
output += "\t"
for _, cedictRecord := range cedictRecords {
output += cedictRecord.ToHTML(colors)
output += "<br>"
}
// This adds an additional field for the audio file
output += "\t"
// This is necessary for Anki to recognise all fields
output += " "
// TODO turn this into a function
// use json.Marshal with an anonymous variable to escape the \t and " characters
// in the response
j, err := json.Marshal(map[string]interface{}{
"error": "nil",
"csv": output,
})
if err != nil {
fmt.Fprint(writer, `{"error": "`+err.Error()+`", "sentence": "`+sentence+`"}`)
return
}
fmt.Fprint(writer, string(j))
}