package queries import ( "database/sql" "fmt" "reflect" "strings" "sync" "github.com/pkg/errors" "github.com/lbryio/sqlboiler/boil" "github.com/lbryio/sqlboiler/strmangle" ) var ( bindAccepts = []reflect.Kind{reflect.Ptr, reflect.Slice, reflect.Ptr, reflect.Struct} mut sync.RWMutex bindingMaps = make(map[string][]uint64) structMaps = make(map[string]map[string]uint64) ) // Identifies what kind of object we're binding to type bindKind int const ( kindStruct bindKind = iota kindSliceStruct kindPtrSliceStruct ) const ( loadMethodPrefix = "Load" relationshipStructName = "R" loaderStructName = "L" sentinel = uint64(255) ) // BindP executes the query and inserts the // result into the passed in object pointer. // It panics on error. See boil.Bind() documentation. func (q *Query) BindP(obj interface{}) { if err := q.Bind(obj); err != nil { panic(boil.WrapErr(err)) } } // Bind executes the query and inserts the // result into the passed in object pointer // // Bind rules: // - Struct tags control bind, in the form of: `boil:"name,bind"` // - If "name" is omitted the sql column names that come back are TitleCased // and matched against the field name. // - If the "name" part of the struct tag is specified, the given name will // be used instead of the struct field name for binding. // - If the "name" of the struct tag is "-", this field will not be bound to. // - If the ",bind" option is specified on a struct field and that field // is a struct itself, it will be recursed into to look for fields for binding. // // Example Query: // // type JoinStruct struct { // // User1 can have it's struct fields bound to since it specifies // // ,bind in the struct tag, it will look specifically for // // fields that are prefixed with "user." returning from the query. // // For example "user.id" column name will bind to User1.ID // User1 *models.User `boil:"user,bind"` // // User2 will follow the same rules as noted above except it will use // // "friend." as the prefix it's looking for. // User2 *models.User `boil:"friend,bind"` // // RandomData will not be recursed into to look for fields to // // bind and will not be bound to because of the - for the name. // RandomData myStruct `boil:"-"` // // Date will not be recursed into to look for fields to bind because // // it does not specify ,bind in the struct tag. But it can be bound to // // as it does not specify a - for the name. // Date time.Time // } // // models.Users(qm.InnerJoin("users as friend on users.friend_id = friend.id")).Bind(&joinStruct) // // For custom objects that want to use eager loading, please see the // loadRelationships function. func Bind(rows *sql.Rows, obj interface{}) error { structType, sliceType, singular, err := bindChecks(obj) if err != nil { return err } return bind(rows, obj, structType, sliceType, singular) } // Bind executes the query and inserts the // result into the passed in object pointer // // See documentation for boil.Bind() func (q *Query) Bind(obj interface{}) error { structType, sliceType, bkind, err := bindChecks(obj) if err != nil { return err } rows, err := q.Query() if err != nil { return errors.Wrap(err, "bind failed to execute query") } defer rows.Close() if res := bind(rows, obj, structType, sliceType, bkind); res != nil { return res } if len(q.load) != 0 { return eagerLoad(q.executor, q.load, obj, bkind) } return nil } // bindChecks resolves information about the bind target, and errors if it's not an object // we can bind to. func bindChecks(obj interface{}) (structType reflect.Type, sliceType reflect.Type, bkind bindKind, err error) { typ := reflect.TypeOf(obj) kind := typ.Kind() setErr := func() { err = errors.Errorf("obj type should be *Type, *[]Type, or *[]*Type but was %q", reflect.TypeOf(obj).String()) } for i := 0; ; i++ { switch i { case 0: if kind != reflect.Ptr { setErr() return } case 1: switch kind { case reflect.Struct: structType = typ bkind = kindStruct return case reflect.Slice: sliceType = typ default: setErr() return } case 2: switch kind { case reflect.Struct: structType = typ bkind = kindSliceStruct return case reflect.Ptr: default: setErr() return } case 3: if kind != reflect.Struct { setErr() return } structType = typ bkind = kindPtrSliceStruct return } typ = typ.Elem() kind = typ.Kind() } } func bind(rows *sql.Rows, obj interface{}, structType, sliceType reflect.Type, bkind bindKind) error { cols, err := rows.Columns() if err != nil { return errors.Wrap(err, "bind failed to get column names") } var ptrSlice reflect.Value switch bkind { case kindSliceStruct, kindPtrSliceStruct: ptrSlice = reflect.Indirect(reflect.ValueOf(obj)) } var strMapping map[string]uint64 var sok bool var mapping []uint64 var ok bool typStr := structType.String() mapKey := makeCacheKey(typStr, cols) mut.RLock() mapping, ok = bindingMaps[mapKey] if !ok { if strMapping, sok = structMaps[typStr]; !sok { strMapping = MakeStructMapping(structType) } } mut.RUnlock() if !ok { mapping, err = BindMapping(structType, strMapping, cols) if err != nil { return err } mut.Lock() if !sok { structMaps[typStr] = strMapping } bindingMaps[mapKey] = mapping mut.Unlock() } var oneStruct reflect.Value if bkind == kindSliceStruct { oneStruct = reflect.Indirect(reflect.New(structType)) } foundOne := false for rows.Next() { foundOne = true var newStruct reflect.Value var pointers []interface{} switch bkind { case kindStruct: pointers = PtrsFromMapping(reflect.Indirect(reflect.ValueOf(obj)), mapping) case kindSliceStruct: pointers = PtrsFromMapping(oneStruct, mapping) case kindPtrSliceStruct: newStruct = reflect.New(structType) pointers = PtrsFromMapping(reflect.Indirect(newStruct), mapping) } if err != nil { return err } if err := rows.Scan(pointers...); err != nil { return errors.Wrap(err, "failed to bind pointers to obj") } switch bkind { case kindSliceStruct: ptrSlice.Set(reflect.Append(ptrSlice, oneStruct)) case kindPtrSliceStruct: ptrSlice.Set(reflect.Append(ptrSlice, newStruct)) } } if bkind == kindStruct && !foundOne { return sql.ErrNoRows } return nil } // BindMapping creates a mapping that helps look up the pointer for the // column given. func BindMapping(typ reflect.Type, mapping map[string]uint64, cols []string) ([]uint64, error) { ptrs := make([]uint64, len(cols)) ColLoop: for i, c := range cols { name := strmangle.TitleCaseIdentifier(c) ptrMap, ok := mapping[name] if ok { ptrs[i] = ptrMap continue } suffix := "." + name for maybeMatch, mapping := range mapping { if strings.HasSuffix(maybeMatch, suffix) { ptrs[i] = mapping continue ColLoop } } return nil, errors.Errorf("could not find struct field name in mapping: %s", name) } return ptrs, nil } // PtrsFromMapping expects to be passed an addressable struct and a mapping // of where to find things. It pulls the pointers out referred to by the mapping. func PtrsFromMapping(val reflect.Value, mapping []uint64) []interface{} { ptrs := make([]interface{}, len(mapping)) for i, m := range mapping { ptrs[i] = ptrFromMapping(val, m, true).Interface() } return ptrs } // ValuesFromMapping expects to be passed an addressable struct and a mapping // of where to find things. It pulls the pointers out referred to by the mapping. func ValuesFromMapping(val reflect.Value, mapping []uint64) []interface{} { ptrs := make([]interface{}, len(mapping)) for i, m := range mapping { ptrs[i] = ptrFromMapping(val, m, false).Interface() } return ptrs } // ptrFromMapping expects to be passed an addressable struct that it's looking // for things on. func ptrFromMapping(val reflect.Value, mapping uint64, addressOf bool) reflect.Value { for i := 0; i < 8; i++ { v := (mapping >> uint(i*8)) & sentinel if v == sentinel { if addressOf && val.Kind() != reflect.Ptr { return val.Addr() } else if !addressOf && val.Kind() == reflect.Ptr { return reflect.Indirect(val) } return val } val = val.Field(int(v)) if val.Kind() == reflect.Ptr { val = reflect.Indirect(val) } } panic("could not find pointer from mapping") } // MakeStructMapping creates a map of the struct to be able to quickly look // up its pointers and values by name. func MakeStructMapping(typ reflect.Type) map[string]uint64 { fieldMaps := make(map[string]uint64) makeStructMappingHelper(typ, "", 0, 0, fieldMaps) return fieldMaps } func makeStructMappingHelper(typ reflect.Type, prefix string, current uint64, depth uint, fieldMaps map[string]uint64) { if typ.Kind() == reflect.Ptr { typ = typ.Elem() } n := typ.NumField() for i := 0; i < n; i++ { f := typ.Field(i) tag, recurse := getBoilTag(f) if len(tag) == 0 { tag = f.Name } else if tag[0] == '-' { continue } if len(prefix) != 0 { tag = fmt.Sprintf("%s.%s", prefix, tag) } if recurse { makeStructMappingHelper(f.Type, tag, current|uint64(i)<