package hacker import ( "encoding/json" "fmt" "io/ioutil" "math/rand" "strings" "github.com/zorchenhimer/hacker-quotes/database" "github.com/zorchenhimer/hacker-quotes/models" ) type InitialData struct { Adjectives [][]string Nouns [][]string Verbs [][]string Pronouns [][]string Sentences []string } type english struct { db database.DB currentPronoun string } func NewEnglish(db database.DB) (HackerQuotes, error) { return &english{db: db}, nil } /* Sentence format {word_type:options} {{word_type:new word:properties}} {pronoun} can't {verb:i,present} {noun_phrase}, it {verb:it,future} {noun_phrase}! {verb:you,present} {noun_phrase:indefinite}, then you can {verb:you,present} {noun_phrase:definite}! {noun_phrase} {verb}. With {noun_phrase:indifinite,noadj,compound}! {pronoun} {{verb:need:from_pronoun,present}} to {verb:i,present} {noun_phrase:definite}! */ func (g *english) Hack() (string, error) { //var fmtString string = `{verb:you,present} {noun_phrase:definite} then you can {verb:you,present} {noun_phrase:definite}!` //var str string = `{pronoun} {{verb:need:from_pronoun,present}} to {verb:i,present} {noun_phrase:definite}!` str, err := g.randomSentence() if err != nil { return "", err } return g.HackThis(str) } func (g *english) HackThis(fmtString string) (string, error) { var idx int var err error var nidx int output := &strings.Builder{} g.currentPronoun = "" for idx < len(fmtString) { if fmtString[idx] == '{' { if fmtString[idx+1] == '{' { nidx, err = g.consumeNewWord(fmtString, idx, output) if err != nil { return "", err } idx = nidx continue } nidx, err = g.consumeWord(fmtString, idx, output) if err != nil { return "", err } idx = nidx continue } nidx, err = g.consumeRaw(fmtString, idx, output) if err != nil { return "", err } idx = nidx } return toCap(output.String()), nil } func (g *english) consumeRaw(fmtString string, idx int, output *strings.Builder) (int, error) { end := strings.Index(fmtString[idx:], "{") if end == -1 { output.WriteString(fmtString[idx:len(fmtString)]) return len(fmtString), nil } output.WriteString(fmtString[idx:end+idx]) return idx+end, nil } func (g *english) parseVerbOptions(optlist []string) (models.ConjugationType, models.ConjugationTime, bool) { var ct models.ConjugationType = models.ConjugationType(rand.Intn(5) + 1) if sliceContains(optlist, "i") { ct = models.CT_I } else if sliceContains(optlist, "you") { ct = models.CT_You } else if sliceContains(optlist, "it") { ct = models.CT_It } else if sliceContains(optlist, "we") { ct = models.CT_We } else if sliceContains(optlist, "they") { ct = models.CT_They } var cm models.ConjugationTime = models.ConjugationTime(rand.Intn(3) + 1) if sliceContains(optlist, "present") { cm = models.CM_Present } else if sliceContains(optlist, "past") { cm = models.CM_Past } else if sliceContains(optlist, "future") { cm = models.CM_Future } var invert bool = rand.Int() % 2 == 0 if sliceContains(optlist, "invert") { invert = true } //var regular bool = true //if sliceContains(optlist, "irregular") { // regular = false //} if sliceContains(optlist, "from_pronoun") { switch g.currentPronoun { case "he", "she", "it": ct = models.CT_It case "i": ct = models.CT_I case "you": ct = models.CT_You case "we": ct = models.CT_We case "they": ct = models.CT_They } } return ct, cm, invert } func (g *english) parseNounOptions(optlist []string) (bool, bool) { var plural bool = rand.Int() % 2 == 0 if sliceContains(optlist, "plural") { plural = true } else if sliceContains(optlist, "singular") { plural = false } var compound bool = rand.Int() % 2 == 0 if sliceContains(optlist, "compound") { compound = true } else if sliceContains(optlist, "simple") { compound = false } return plural, compound } func (g *english) consumeNewWord(fmtString string, idx int, output *strings.Builder) (int, error) { idx += 2 var wordtype string var word string var options string end := strings.Index(fmtString[idx:], "}") if end == -1 { return 0, fmt.Errorf("[consumeNewWord] Unclosed definition starting at %d", idx) } end += idx // Find the start of the new word def := strings.Index(fmtString[idx:], ":") if def == -1 { return 0, fmt.Errorf("[consumeNewWord] Word definition missing word") } def += idx wordtype = fmtString[idx:def] // Find the start of the options opts := strings.Index(fmtString[def+1:], ":") if opts > -1 { opts += def+2 options = fmtString[opts:end] word = fmtString[def+1:opts-1] } else { word = fmtString[def+1:end] } //fmt.Printf("idx:%d def:%d opts:%d end:%d type:%q word:%q opts:%q\n", // idx, def, opts, end, // wordtype, // word, // options) optlist := strings.Split(options, ",") var formatted string switch wordtype { case "verb": ct, cm, invert := g.parseVerbOptions(optlist) v := models.Verb{ Regular: true, Word: word, } formatted = v.Conjugate(ct, cm, invert) case "noun": plural, _ := g.parseNounOptions(optlist) if plural { n := models.Noun{ Regular: true, Word: word, } formatted = n.Plural() } else { formatted = word } default: // Pronouns and adjectives aren't implemented because they have no modifications to apply. return 0, fmt.Errorf("Word type %q not implemented creating in-sentence", wordtype) } output.WriteString(formatted) return end+2, nil } func (g *english) consumeWord(fmtString string, idx int, output *strings.Builder) (int, error) { idx++ var wordtype string var options string end := strings.Index(fmtString[idx:], "}") if end == -1 { return 0, fmt.Errorf("[consumeWord] Unclosed definition starting at %d", idx) } end += idx optsStart := strings.Index(fmtString[idx:end], ":") if optsStart != -1 { options = fmtString[optsStart+idx+1:end] wordtype = fmtString[idx:optsStart+idx] } else { wordtype = fmtString[idx:end] } if wordtype == "" { return 0, fmt.Errorf("[consumeWord] Missing word type at idx: %d", idx) } opts := strings.Split(options, ",") var word string var err error switch wordtype { case "pronoun": var plural bool if sliceContains(opts, "plural") { plural = true } word, err = g.randomPronoun(plural) if err != nil { return 0, err } g.currentPronoun = word case "verb": ct, cm, invert := g.parseVerbOptions(opts) word, err = g.randomVerb(ct, cm, invert) if err != nil { return 0, err } case "noun": plural, compound := g.parseNounOptions(opts) word, err = g.randomNoun(plural, compound) if err != nil { return 0, err } case "noun_phrase": var definite bool = true var hasAdj bool = true var plural bool = false var compound bool = false if sliceContains(opts, "indefinite") { definite = false } if sliceContains(opts, "noadj") { hasAdj = false } if sliceContains(opts, "plural") { plural = true } if sliceContains(opts, "compound") { compound = true } word, err = g.nounPhrase(definite, hasAdj, plural, compound) if err != nil { return 0, err } case "adjective": word, err = g.randomAdjective() if err != nil { return 0, err } default: return 0, fmt.Errorf("[consumeWord] Invalid word type %s at %d", wordtype, idx) } output.WriteString(word) return end+1, nil } func (g *english) nounPhrase(definite, hasAdj, plural, compound bool) (string, error){ adj := "" var err error if hasAdj { adj, err = g.randomAdjective() if err != nil { return "", err } } noun, err := g.randomNoun(plural, compound) if err != nil { return "", err } phrase := adj if phrase != "" { phrase += " " + noun } else { phrase = noun } if definite && !plural { //fmt.Println("[nounPhrase] definite && !plural") return "the " + phrase, nil } if !plural { //fmt.Println("[nounPhrase] !plural") return g.ana(phrase), nil } return phrase, nil } func (g *english) randomAdjective() (string, error) { ids, err := g.db.GetAdjectiveIds() if err != nil { return "", fmt.Errorf("[adj] get IDs error: %v", err) } if len(ids) <= 0 { return "", fmt.Errorf("No adjective IDs returned from database") } rid := int(rand.Int63n(int64(len(ids)))) //fmt.Printf("[adj] len(ids): %d; rid: %d; %d\n", len(ids), rid, ids[rid]) adj, err := g.db.GetAdjective(ids[rid]) if err != nil { return "", fmt.Errorf("[adj] ID: %d; %v", ids[rid], err) } return adj.Word, nil } func (g *english) randomNoun(plural, compound bool) (string, error) { var ids []int var err error if compound { ids, err = g.db.GetNounIds(true, true, true) if err != nil { return "", fmt.Errorf("[noun] get IDs error: %v", err) } } else { ids, err = g.db.GetNounIds(true, false, false) if err != nil { return "", fmt.Errorf("[noun] get IDs error: %v", err) } } if len(ids) <= 0 { return "", fmt.Errorf("No noun IDs returned from database") } rid := int(rand.Int63n(int64(len(ids)))) //fmt.Printf("[noun] len(ids): %d; rid: %d; ID: %d\n", len(ids), rid, ids[rid]) noun, err := g.db.GetNoun(ids[rid]) if err != nil { return "", fmt.Errorf("[noun] ID: %d; %v", ids[rid], err) } if plural { return noun.Plural(), nil } return noun.Word, nil } func (g *english) randomVerb(ctype models.ConjugationType, ctime models.ConjugationTime, invert bool) (string, error) { ids, err := g.db.GetVerbIds() if err != nil { return "", fmt.Errorf("[verb] get IDs error: %v", err) } if len(ids) <= 0 { return "", fmt.Errorf("No verb IDs returned from database") } rid := int(rand.Int63n(int64(len(ids)))) verb, err := g.db.GetVerb(ids[rid]) if err != nil { return "", fmt.Errorf("[verb] ID: %d; %v", ids[rid], err) } return verb.Conjugate(ctype, ctime, invert), nil } func (g *english) randomPronoun(plural bool) (string, error) { ids, err := g.db.GetPronounIds(plural) if err != nil { return "", fmt.Errorf("[pronoun] get IDs error: %v", err) } if len(ids) <= 0 { return "", fmt.Errorf("No pronoun IDs returned from database") } rid := int(rand.Int63n(int64(len(ids)))) pronoun, err := g.db.GetPronoun(ids[rid]) if err != nil { return "", fmt.Errorf("[pronoun] ID: %d; %v", ids[rid], err) } return pronoun.Word, nil } func (g *english) randomSentence() (string, error) { ids, err := g.db.GetSentenceIds() if err != nil { return "", fmt.Errorf("[sentence] get IDs error: %v", err) } if len(ids) <= 0 { return "", fmt.Errorf("[sentence] No sentence IDs returned from database") } rid := int(rand.Int63n(int64(len(ids)))) sentence, err := g.db.GetSentence(ids[rid]) if err != nil { return "", fmt.Errorf("[sentence] ID: %d, %v", ids[rid], err) } return sentence, nil } func (g *english) InitData(filename string) error { fmt.Printf("Initializing database with data in %q\n", filename) if g.db == nil { return fmt.Errorf("databse is nil!") } raw, err := ioutil.ReadFile(filename) if err != nil { return err } //data := map[string][]interface{}{} data := InitialData{} if err = json.Unmarshal(raw, &data); err != nil { return err } if data.Adjectives == nil || len(data.Adjectives) == 0 { return fmt.Errorf("Missing Adjectives in input data") } adjectives := []models.Adjective{} for _, adj := range data.Adjectives { t, word := adj[0], adj[1] a := models.Adjective{Word: word} if strings.Contains(t, "a") { a.Absolute = true } if strings.Contains(t, "e") { a.AppendEst = true } if strings.Contains(t, "m") { a.AppendMore = true } adjectives = append(adjectives, a) } if data.Nouns == nil || len(data.Nouns) == 0 { return fmt.Errorf("Missing nouns key in data") } nouns := []models.Noun{} for _, noun := range data.Nouns { t, word := noun[0], noun[1] n := models.Noun{Word: word} if strings.Contains(t, "m") { n.Multiple = true } if strings.Contains(t, "b") { n.Begin = true } if strings.Contains(t, "e") { n.End = true } if strings.Contains(t, "a") { n.Alone = true } if strings.Contains(t, "r") { n.Regular = true } nouns = append(nouns, n) } if data.Verbs == nil || len(data.Verbs) == 0 { return fmt.Errorf("Missing verbs key in data") } verbs := []models.Verb{} for _, verb := range data.Verbs { v := models.Verb{Word: verb[1]} if strings.Contains(verb[0], "r") { v.Regular = true } verbs = append(verbs, v) } if data.Pronouns == nil || len(data.Pronouns) == 0 { return fmt.Errorf("Missing pronouns key in data") } pronouns := []models.Pronoun{} for _, pro := range data.Pronouns { p := models.Pronoun{Word: pro[1]} if strings.Contains(pro[0], "p") { p.Plural = true } pronouns = append(pronouns, p) } if data.Sentences == nil || len(data.Sentences) == 0 { return fmt.Errorf("Missing sentences key in data") } return g.db.InitData(adjectives, nouns, verbs, pronouns, data.Sentences) } // Prepend "a", "an" or nothing to a phrase func (g *english) ana(phrase string) string { //fmt.Printf("[ana] phrase[0]: %s; %q\n", string(phrase[0]), phrase) if strings.ContainsAny(string(phrase[0]), "aeiou") { return "an " + phrase } return "a " + phrase } // toCap capitalizes the first word of each sentence in the input string. func toCap(words string) string { ret := strings.ToUpper(string(words[0])) + words[1:] next := strings.Index(words, ". ") if next == -1 { return ret } for next+3 < len(words) { newnext := strings.Index(words[next+1:], ". ") ret = ret[0:next+2] + strings.ToUpper(string(ret[next+2])) + ret[next+3:] if newnext == -1 { break } next = newnext + next+1 } return ret } func sliceContains(haystack []string, needle string) bool { if len(haystack) == 0 { return false } for _, item := range haystack { if item == needle { return true } } return false }