package _generated import ( "github.com/tinylib/msgp/msgp" "os" "time" ) //go:generate msgp -o generated.go // All of the struct // definitions in this // file are fed to the code // generator when `make test` is // called, followed by an // invocation of `go test -v` in this // directory. A simple way of testing // a struct definition is // by adding it to this file. type Block [32]byte // tests edge-cases with // compiling size compilation. type X struct { Values [32]byte // should compile to 32*msgp.ByteSize; encoded as Bin ValuesPtr *[32]byte // check (*)[:] deref More Block // should be identical to the above Others [][32]int32 // should compile to len(x.Others)*32*msgp.Int32Size Matrix [][]int32 // should not optimize ManyFixed []Fixed } // test fixed-size struct // size compilation type Fixed struct { A float64 B bool } type TestType struct { F *float64 `msg:"float"` Els map[string]string `msg:"elements"` Obj struct { // test anonymous struct ValueA string `msg:"value_a"` ValueB []byte `msg:"value_b"` } `msg:"object"` Child *TestType `msg:"child"` Time time.Time `msg:"time"` Any interface{} `msg:"any"` Appended msgp.Raw `msg:"appended"` Num msgp.Number `msg:"num"` Slice1 []string Slice2 []string SlicePtr *[]string } //msgp:tuple Object type Object struct { ObjectNo string `msg:"objno"` Slice1 []string `msg:"slice1"` Slice2 []string `msg:"slice2"` MapMap map[string]map[string]string } //msgp:tuple TestBench type TestBench struct { Name string BirthDay time.Time Phone string Siblings int Spouse bool Money float64 } //msgp:tuple TestFast type TestFast struct { Lat, Long, Alt float64 // test inline decl Data []byte } // Test nested aliases type FastAlias TestFast type AliasContainer struct { Fast FastAlias } // Test dependency resolution type IntA int type IntB IntA type IntC IntB type TestHidden struct { A string B []float64 Bad func(string) bool // This results in a warning: field "Bad" unsupported } type Embedded struct { *Embedded // test embedded field Children []Embedded PtrChildren []*Embedded Other string } const eight = 8 type Things struct { Cmplx complex64 `msg:"complex"` // test slices Vals []int32 `msg:"values"` Arr [msgp.ExtensionPrefixSize]float64 `msg:"arr"` // test const array and *ast.SelectorExpr as array size Arr2 [4]float64 `msg:"arr2"` // test basic lit array Ext *msgp.RawExtension `msg:"ext,extension"` // test extension Oext msgp.RawExtension `msg:"oext,extension"` // test extension reference } //msgp:shim SpecialID as:[]byte using:toBytes/fromBytes type SpecialID string type TestObj struct{ ID1, ID2 SpecialID } func toBytes(id SpecialID) []byte { return []byte(string(id)) } func fromBytes(id []byte) SpecialID { return SpecialID(string(id)) } type MyEnum byte const ( A MyEnum = iota B C D invalid ) // test shim directive (below) //msgp:shim MyEnum as:string using:(MyEnum).String/myenumStr //msgp:shim *os.File as:string using:filetostr/filefromstr func filetostr(f *os.File) string { return f.Name() } func filefromstr(s string) *os.File { f, _ := os.Open(s) return f } func (m MyEnum) String() string { switch m { case A: return "A" case B: return "B" case C: return "C" case D: return "D" default: return "" } } func myenumStr(s string) MyEnum { switch s { case "A": return A case "B": return B case "C": return C case "D": return D default: return invalid } } // test pass-specific directive //msgp:decode ignore Insane type Insane [3]map[string]struct{ A, B CustomInt } type Custom struct { Bts CustomBytes `msg:"bts"` Mp map[string]*Embedded `msg:"mp"` Enums []MyEnum `msg:"enums"` // test explicit enum shim Some FileHandle `msg:file_handle` } type Files []*os.File type FileHandle struct { Relevent Files `msg:"files"` Name string `msg:"name"` } type CustomInt int type CustomBytes []byte type Wrapper struct { Tree *Tree } type Tree struct { Children []Tree Element int Parent *Wrapper }