dorfylegends/analyze/df/analyze.go

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package df
import (
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"fmt"
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"sort"
"strings"
"github.com/iancoleman/strcase"
"github.com/robertjanetzko/LegendsBrowser2/backend/util"
)
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func Generate() error {
a, err := LoadAnalyzeData()
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if err != nil {
return err
}
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listEnumCandidates(a)
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m, err := createMetadata(a)
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if err != nil {
return err
}
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if err := generateBackendCode(m); err != nil {
return err
}
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if err := generateEventsCode(m); err != nil {
return err
}
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if err := generateFrontendCode(m); err != nil {
return err
}
return nil
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}
var allowedTyped = map[string]bool{
"df_world|historical_events|historical_event": true,
"df_world|historical_event_collections|historical_event_collection": true,
}
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func typeName(k string) string {
if strings.Contains(k, PATH_SEPARATOR) {
return k[strings.LastIndex(k, PATH_SEPARATOR)+1:]
}
return k
}
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type Metadata map[string]Object
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func createMetadata(a *AnalyzeData) (*Metadata, error) {
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fs := filterSubtypes(&a.Fields)
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// unique type names
names := make(map[string]bool)
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for k := range a.Fields {
path := strings.Split(k, PATH_SEPARATOR)
if len(path) >= 2 {
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names[strings.Join(path[:len(path)-1], PATH_SEPARATOR)] = true
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}
}
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objectTypes := util.Keys(names)
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objects := make(Metadata, 0)
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names = make(map[string]bool)
double := make(map[string]bool)
typeNames := make(map[string]string)
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// check object type names
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for _, k := range objectTypes {
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n := typeName(k)
if _, ok := names[n]; ok {
double[n] = true
}
names[n] = true
}
for _, k := range objectTypes {
typeNames[k] = strcase.ToCamel(typeName(k))
}
for _, n := range util.Keys(double) {
fmt.Println(n)
for _, k := range objectTypes {
if strings.HasSuffix(k, PATH_SEPARATOR+n) {
fmt.Println(" ", k)
path := strings.Split(k, PATH_SEPARATOR)
for i := len(path) - 1; i > 0; i-- {
sub := strings.Join(path[:i], PATH_SEPARATOR)
if ok, _ := isArray(sub, fs); !ok {
typeNames[k] = strcase.ToCamel(typeName(sub) + "_" + typeName(k))
fmt.Println(" ", typeNames[k])
break
}
}
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}
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}
}
// build metadata
for _, k := range objectTypes {
if ok, _ := isArray(k, fs); !ok {
n := typeName(k)
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if n == "" {
continue
}
objFields := make(map[string]Field, 0)
for _, f := range fs {
if strings.HasPrefix(f, k+PATH_SEPARATOR) {
fn := f[len(k)+1:]
if !strings.Contains(fn, PATH_SEPARATOR) {
legend := ""
if a.Fields[f].Base && a.Fields[f].Plus {
legend = "both"
} else if a.Fields[f].Base {
legend = "base"
} else if a.Fields[f].Plus {
legend = "plus"
}
field := Field{
Name: strcase.ToCamel(fn),
Type: "int",
Multiple: a.Fields[f].Multiple,
Legend: legend,
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Base: a.Fields[f].Base,
Plus: a.Fields[f].Plus,
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}
if ok, elements := isArray(f, fs); ok {
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el := typeNames[elements]
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if _, ok := a.Fields[elements+PATH_SEPARATOR+"id"]; ok {
field.Type = "map"
} else {
field.Type = "array"
}
field.ElementType = &(el)
} else if ok, _ := isObject(f, fs); ok {
field.Type = "object"
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el := typeNames[f]
field.ElementType = &el
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} else if !a.Fields[f].NoBool {
field.Type = "bool"
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} else if a.Fields[f].IsString {
field.Type = "string"
}
objFields[fn] = field
}
}
}
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objects[typeNames[k]] = Object{
Name: typeNames[k],
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Id: a.Fields[k+PATH_SEPARATOR+"id"] != nil,
Named: a.Fields[k+PATH_SEPARATOR+"name"] != nil,
Typed: a.Fields[k+PATH_SEPARATOR+"type"] != nil,
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SubTypes: getSubtypes(a, k),
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SubTypeOf: getSubtypeOf(k),
Fields: objFields,
}
}
}
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return &objects, nil
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}
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func filterSubtypes(data *map[string]*FieldData) []string {
filtered := make(map[string]*FieldData)
for k, v := range *data {
path := strings.Split(k, PATH_SEPARATOR)
for index, seg := range path {
if strings.Contains(seg, "+") {
base := seg[:strings.Index(seg, "+")]
basePath := strings.Join(append(path[:index], base), PATH_SEPARATOR)
if allowedTyped[basePath] {
path[index] = seg
}
}
}
filtered[strings.Join(path, PATH_SEPARATOR)] = v
}
*data = filtered
list := util.Keys(filtered)
sort.Strings(list)
return list
}
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func getSubtypes(a *AnalyzeData, k string) *[]Subtype {
if allowedTyped[k] {
if st, ok := a.SubTypes[k]; ok {
var list []Subtype
for _, v := range *st {
list = append(list, *v)
}
return &list
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}
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}
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return nil
}
func getSubtypeOf(k string) *string {
if strings.Contains(k, PATH_SEPARATOR) {
last := k[strings.LastIndex(k, PATH_SEPARATOR)+1:]
if strings.Contains(last, "+") {
base := strcase.ToCamel(last[:strings.Index(last, "+")])
return &base
}
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}
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return nil
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}
func isArray(typ string, types []string) (bool, string) {
fc := 0
elements := ""
if !strings.Contains(typ, PATH_SEPARATOR) || strings.Contains(typ[strings.LastIndex(typ, PATH_SEPARATOR):], "+") {
return false, ""
}
for _, t := range types {
if !strings.HasPrefix(t, typ+PATH_SEPARATOR) {
continue
}
if strings.Contains(t[len(typ)+1:], PATH_SEPARATOR) {
continue
}
fc++
elements = t
}
return fc == 1, elements
}
func isObject(typ string, types []string) (bool, string) {
fc := 0
for _, t := range types {
if !strings.HasPrefix(t, typ+PATH_SEPARATOR) {
continue
}
fc++
}
return fc > 0, typ
}
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func listEnumCandidates(a *AnalyzeData) {
keys := util.Keys(a.Fields)
sort.Strings(keys)
for _, k := range keys {
f := a.Fields[k]
if !f.Enum {
continue
}
f.Enum = false
n := k[strings.LastIndex(k, PATH_SEPARATOR)+1:]
if n == "name" || n == "altname" || strings.Contains(n, "name_") || strings.Contains(n, "spouse") || n == "coords" || n == "rectangle" || n == "interaction_action" || strings.Contains(n, "race") || strings.Contains(n, "caste") || strings.Contains(n, "_mat") {
continue
}
if f.IsString {
v := util.Keys(f.Values)
sort.Strings(v)
if len(v) == 0 {
continue
}
fmt.Println(k, ":", strings.Join(v, ", "))
f.Enum = true
}
}
}