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query_control.go
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query_control.go
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package gorethink
import (
"encoding/base64"
"reflect"
p "github.com/dancannon/gorethink/ql2"
)
// Expr converts any value to an expression and is also used by many other terms
// such as Insert and Update. This function can convert the following basic Go
// types (bool, int, uint, string, float) and even pointers, maps and structs.
//
// When evaluating structs they are encoded into a map before being sent to the
// server. Each exported field is added to the map unless
//
// - the field's tag is "-", or
// - the field is empty and its tag specifies the "omitempty" option.
//
// Each fields default name in the map is the field name but can be specified
// in the struct field's tag value. The "gorethink" key in the struct field's
// tag value is the key name, followed by an optional comma and options. Examples:
//
// // Field is ignored by this package.
// Field int `gorethink:"-"`
// // Field appears as key "myName".
// Field int `gorethink:"myName"`
// // Field appears as key "myName" and
// // the field is omitted from the object if its value is empty,
// // as defined above.
// Field int `gorethink:"myName,omitempty"`
// // Field appears as key "Field" (the default), but
// // the field is skipped if empty.
// // Note the leading comma.
// Field int `gorethink:",omitempty"`
func Expr(val interface{}) Term {
if val == nil {
return Term{
termType: p.Term_DATUM,
data: nil,
}
}
switch val := val.(type) {
case Term:
return val
case []interface{}:
vals := make([]Term, len(val))
for i, v := range val {
vals[i] = Expr(v)
}
return makeArray(vals)
case map[string]interface{}:
vals := make(map[string]Term, len(val))
for k, v := range val {
vals[k] = Expr(v)
}
return makeObject(vals)
default:
// Use reflection to check for other types
valType := reflect.TypeOf(val)
valValue := reflect.ValueOf(val)
switch valType.Kind() {
case reflect.Func:
return makeFunc(val)
case reflect.Struct, reflect.Ptr:
data, err := encode(val)
if err != nil || data == nil {
return Term{
termType: p.Term_DATUM,
data: nil,
}
}
return Expr(data)
case reflect.Slice, reflect.Array:
// Check if slice is a byte slice
if valType.Elem().Kind() == reflect.Uint8 {
data, err := encode(val)
if err != nil || data == nil {
return Term{
termType: p.Term_DATUM,
data: nil,
}
}
return Expr(data)
}
vals := make([]Term, valValue.Len())
for i := 0; i < valValue.Len(); i++ {
vals[i] = Expr(valValue.Index(i).Interface())
}
return makeArray(vals)
case reflect.Map:
vals := make(map[string]Term, len(valValue.MapKeys()))
for _, k := range valValue.MapKeys() {
vals[k.String()] = Expr(valValue.MapIndex(k).Interface())
}
return makeObject(vals)
default:
return Term{
termType: p.Term_DATUM,
data: val,
}
}
}
}
// JS creates a JavaScript expression which is evaluated by the database when
// running the query.
func JS(jssrc interface{}) Term {
return constructRootTerm("Js", p.Term_JAVASCRIPT, []interface{}{jssrc}, map[string]interface{}{})
}
// HTTPOpts contains the optional arguments for the HTTP term
type HTTPOpts struct {
// General Options
Timeout interface{} `gorethink:"timeout,omitempty"`
Reattempts interface{} `gorethink:"reattempts,omitempty"`
Redirects interface{} `gorethink:"redirect,omitempty"`
Verify interface{} `gorethink:"verify,omitempty"`
ResultFormat interface{} `gorethink:"resul_format,omitempty"`
// Request Options
Method interface{} `gorethink:"method,omitempty"`
Auth interface{} `gorethink:"auth,omitempty"`
Params interface{} `gorethink:"params,omitempty"`
Header interface{} `gorethink:"header,omitempty"`
Data interface{} `gorethink:"data,omitempty"`
// Pagination
Page interface{} `gorethink:"page,omitempty"`
PageLimit interface{} `gorethink:"page_limit,omitempty"`
}
func (o *HTTPOpts) toMap() map[string]interface{} {
return optArgsToMap(o)
}
// HTTP retrieves data from the specified URL over HTTP. The return type depends
// on the resultFormat option, which checks the Content-Type of the response by
// default.
func HTTP(url interface{}, optArgs ...HTTPOpts) Term {
opts := map[string]interface{}{}
if len(optArgs) >= 1 {
opts = optArgs[0].toMap()
}
return constructRootTerm("Http", p.Term_HTTP, []interface{}{url}, opts)
}
// JSON parses a JSON string on the server.
func JSON(args ...interface{}) Term {
return constructRootTerm("Json", p.Term_JSON, args, map[string]interface{}{})
}
// Error throws a runtime error. If called with no arguments inside the second argument
// to `default`, re-throw the current error.
func Error(args ...interface{}) Term {
return constructRootTerm("Error", p.Term_ERROR, args, map[string]interface{}{})
}
// Args is a special term usd to splice an array of arguments into another term.
// This is useful when you want to call a varadic term such as GetAll with a set
// of arguments provided at runtime.
func Args(args ...interface{}) Term {
return constructRootTerm("Args", p.Term_ARGS, args, map[string]interface{}{})
}
// Binary encapsulates binary data within a query.
//
// The type of data binary accepts depends on the client language. In Go, it
// expects either a byte array/slice or a bytes.Buffer.
//
// Only a limited subset of ReQL commands may be chained after binary:
// - coerceTo can coerce binary objects to string types
// - count will return the number of bytes in the object
// - slice will treat bytes like array indexes (i.e., slice(10,20) will return bytes 10–19)
// - typeOf returns PTYPE<BINARY>
// - info will return information on a binary object.
func Binary(data interface{}) Term {
var b []byte
switch data := data.(type) {
case Term:
return constructRootTerm("Binary", p.Term_BINARY, []interface{}{data}, map[string]interface{}{})
case []byte:
b = data
default:
typ := reflect.TypeOf(data)
if (typ.Kind() == reflect.Slice || typ.Kind() == reflect.Array) &&
typ.Elem().Kind() == reflect.Uint8 {
return Binary(reflect.ValueOf(data).Bytes())
}
panic("Unsupported binary type")
}
return binaryTerm(base64.StdEncoding.EncodeToString(b))
}
func binaryTerm(data string) Term {
t := constructRootTerm("Binary", p.Term_BINARY, []interface{}{}, map[string]interface{}{})
t.data = data
return t
}
// Do evaluates the expr in the context of one or more value bindings. The type of
// the result is the type of the value returned from expr.
func (t Term) Do(args ...interface{}) Term {
newArgs := []interface{}{}
newArgs = append(newArgs, funcWrap(args[len(args)-1]))
newArgs = append(newArgs, t)
newArgs = append(newArgs, args[:len(args)-1]...)
return constructRootTerm("Do", p.Term_FUNCALL, newArgs, map[string]interface{}{})
}
// Do evaluates the expr in the context of one or more value bindings. The type of
// the result is the type of the value returned from expr.
func Do(args ...interface{}) Term {
newArgs := []interface{}{}
newArgs = append(newArgs, funcWrap(args[len(args)-1]))
newArgs = append(newArgs, args[:len(args)-1]...)
return constructRootTerm("Do", p.Term_FUNCALL, newArgs, map[string]interface{}{})
}
// Branch evaluates one of two control paths based on the value of an expression.
// branch is effectively an if renamed due to language constraints.
//
// The type of the result is determined by the type of the branch that gets executed.
func Branch(args ...interface{}) Term {
return constructRootTerm("Branch", p.Term_BRANCH, args, map[string]interface{}{})
}
// ForEach loops over a sequence, evaluating the given write query for each element.
//
// It takes one argument of type `func (r.Term) interface{}`, for
// example clones a table:
//
// r.Table("table").ForEach(func (row r.Term) interface{} {
// return r.Table("new_table").Insert(row)
// })
func (t Term) ForEach(args ...interface{}) Term {
return constructMethodTerm(t, "Foreach", p.Term_FOR_EACH, funcWrapArgs(args), map[string]interface{}{})
}
// Range generates a stream of sequential integers in a specified range. It
// accepts 0, 1, or 2 arguments, all of which should be numbers.
func Range(args ...interface{}) Term {
return constructRootTerm("Range", p.Term_RANGE, args, map[string]interface{}{})
}
// Default handles non-existence errors. Tries to evaluate and return its first argument.
// If an error related to the absence of a value is thrown in the process, or if
// its first argument returns null, returns its second argument. (Alternatively,
// the second argument may be a function which will be called with either the
// text of the non-existence error or null.)
func (t Term) Default(args ...interface{}) Term {
return constructMethodTerm(t, "Default", p.Term_DEFAULT, args, map[string]interface{}{})
}
// CoerceTo converts a value of one type into another.
//
// You can convert: a selection, sequence, or object into an ARRAY, an array of
// pairs into an OBJECT, and any DATUM into a STRING.
func (t Term) CoerceTo(args ...interface{}) Term {
return constructMethodTerm(t, "CoerceTo", p.Term_COERCE_TO, args, map[string]interface{}{})
}
// TypeOf gets the type of a value.
func (t Term) TypeOf(args ...interface{}) Term {
return constructMethodTerm(t, "TypeOf", p.Term_TYPE_OF, args, map[string]interface{}{})
}
// ToJSON converts a ReQL value or object to a JSON string.
func (t Term) ToJSON() Term {
return constructMethodTerm(t, "ToJSON", p.Term_TO_JSON_STRING, []interface{}{}, map[string]interface{}{})
}
// Info gets information about a RQL value.
func (t Term) Info(args ...interface{}) Term {
return constructMethodTerm(t, "Info", p.Term_INFO, args, map[string]interface{}{})
}
// UUID returns a UUID (universally unique identifier), a string that can be used as a unique ID.
func UUID(args ...interface{}) Term {
return constructRootTerm("UUID", p.Term_UUID, []interface{}{}, map[string]interface{}{})
}