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48
README.md
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@ -1,11 +1,18 @@
# Enumer
Enumer generates Go code to get string names from enum values and viceversa.
It is a fork of [Rob Pikes Stringer tool](https://godoc.org/golang.org/x/tools/cmd/stringer)
but adding a *"string to enum value"* method to the generated code.
#Enumer
Enumer is a tool to generate Go code that adds useful methods to Go enums (constants with a specific type).
It started as a fork of [Rob Pikes Stringer tool](https://godoc.org/golang.org/x/tools/cmd/stringer).
This is useful when you need to read enum values from the command line arguments, from a configuration file,
##Generated functions and methods
When Enumer is applied to a type, it will generate three methods and one function:
* A method `String()` that returns the string representation of the enum value. This makes the enum conform
the `Stringer` interface, so whenever you print an enum value, you'll get the string name instead of a number.
* A function `<Type>String(s string)` to get the enum value from its string representation. This is useful
when you need to read enum values from the command line arguments, from a configuration file,
from a REST API request... In short, from those places where using the real enum value (an integer) would
be almost meaningless or hard to trace or use by a human
be almost meaningless or hard to trace or use by a human.
* And two more methods, `MarshalJSON()` and `UnmarshalJSON()`, that makes the enum conform
the `json.Marshaler` and `json.Unmarshaler` interfaces. Very useful to use it in JSON APIs.
For example, if we have an enum type called `Pill`,
```go
@ -19,7 +26,7 @@ const (
Acetaminophen = Paracetamol
)
```
executing `enumer -type=Pill` will generate a new file with two methods:
executing `enumer -type=Pill` will generate a new file with four methods:
```go
func (i Pill) String() string {
//...
@ -28,6 +35,14 @@ func (i Pill) String() string {
func PillString(s string) (Pill, error) {
//...
}
func (i Pill) MarshalJSON() ([]byte, error) {
//...
}
func (i *Pill) UnmarshalJSON(data []byte) error {
//...
}
```
From now on, we can:
```go
@ -43,17 +58,26 @@ if err != nil {
return
}
// Now pill == Ibuprofen
// Marshal/unmarshal to/from json strings, either directly or automatically when
// the enum is a field of a struct
pillJSON := Aspirin.MarshalJSON()
// Now pillJSON == `"Aspirin"`
```
The generated code is exactly the same as the Stringer tool plus the `<Type>String` method, so you can use
The generated code is exactly the same as the Stringer tool plus the mentioned additions, so you can use
**Enumer** where you are already using **Stringer** without any code change.
## How to use
The usage of Enumer is the same as Stringer, no changes were introduced.
For more information please refer to the [Stringer docs](https://godoc.org/golang.org/x/tools/cmd/stringer)
The usage of Enumer is the same as Stringer, so you can refer to the [Stringer docs](https://godoc.org/golang.org/x/tools/cmd/stringer)
for more information.
There is only one flag added: `noJSON`. If this flag is set to true (i.e. `enumer -type=Pill -noJSON`),
the JSON related methods won't be generated.
## Additional functions of this fork
This fork additionally implements the Scanner and Valuer interface to use a enum seamlessly in a database model.
## TODO
- Add a flag to optionally generate implementation of Scanner und Valuer interface
## Inspiring projects
* [Stringer](https://godoc.org/golang.org/x/tools/cmd/stringer)
* [jsonenums](https://github.com/campoy/jsonenums)

26
enumer.go
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@ -1,4 +1,5 @@
package main
import "fmt"
// Arguments to format are:
@ -19,7 +20,7 @@ func (g *Generator) buildValueToNameMap(runs [][]Value, typeName string, runsThr
var runID string
for i, values := range runs {
if thereAreRuns {
runID = "_" + fmt.Sprintf("%d",i)
runID = "_" + fmt.Sprintf("%d", i)
n = 0
} else {
runID = ""
@ -33,3 +34,26 @@ func (g *Generator) buildValueToNameMap(runs [][]Value, typeName string, runsThr
g.Printf("}\n\n")
g.Printf(stringValueToNameMap, typeName)
}
// Arguments to format are:
// [1]: type name
const jsonMethods = `
func (i %[1]s) MarshalJSON() ([]byte, error) {
return json.Marshal(i.String())
}
func (i *%[1]s) UnmarshalJSON(data []byte) error {
var s string
if err := json.Unmarshal(data, &s); err != nil {
return fmt.Errorf("%[1]s should be a string, got %%s", data)
}
var err error
*i, err = %[1]sString(s)
return err
}
`
func (g *Generator) buildJSONMethods(runs [][]Value, typeName string, runsThreshold int) {
g.Printf(jsonMethods, typeName)
}

122
golden_test.go
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@ -30,6 +30,10 @@ var golden = []Golden{
{"prime", prime_in, prime_out},
}
var goldenJSON = []Golden {
{"prime", prime_json_in, prime_json_out},
}
// Each example starts with "type XXX [u]int", with a single space separating them.
// Simple test: enumeration of type int starting at 0.
@ -338,22 +342,112 @@ func PrimeString(s string) (Prime, error) {
return 0, fmt.Errorf("%s does not belong to Prime values", s)
}
`
const prime_json_in = `type Prime int
const (
p2 Prime = 2
p3 Prime = 3
p5 Prime = 5
p7 Prime = 7
p77 Prime = 7 // Duplicate; note that p77 doesn't appear below.
p11 Prime = 11
p13 Prime = 13
p17 Prime = 17
p19 Prime = 19
p23 Prime = 23
p29 Prime = 29
p37 Prime = 31
p41 Prime = 41
p43 Prime = 43
)
`
const prime_json_out = `
const _Prime_name = "p2p3p5p7p11p13p17p19p23p29p37p41p43"
var _Prime_map = map[Prime]string{
2: _Prime_name[0:2],
3: _Prime_name[2:4],
5: _Prime_name[4:6],
7: _Prime_name[6:8],
11: _Prime_name[8:11],
13: _Prime_name[11:14],
17: _Prime_name[14:17],
19: _Prime_name[17:20],
23: _Prime_name[20:23],
29: _Prime_name[23:26],
31: _Prime_name[26:29],
41: _Prime_name[29:32],
43: _Prime_name[32:35],
}
func (i Prime) String() string {
if str, ok := _Prime_map[i]; ok {
return str
}
return fmt.Sprintf("Prime(%d)", i)
}
var _PrimeNameToValue_map = map[string]Prime{
_Prime_name[0:2]: 2,
_Prime_name[2:4]: 3,
_Prime_name[4:6]: 5,
_Prime_name[6:8]: 7,
_Prime_name[8:11]: 11,
_Prime_name[11:14]: 13,
_Prime_name[14:17]: 17,
_Prime_name[17:20]: 19,
_Prime_name[20:23]: 23,
_Prime_name[23:26]: 29,
_Prime_name[26:29]: 31,
_Prime_name[29:32]: 41,
_Prime_name[32:35]: 43,
}
func PrimeString(s string) (Prime, error) {
if val, ok := _PrimeNameToValue_map[s]; ok {
return val, nil
}
return 0, fmt.Errorf("%s does not belong to Prime values", s)
}
func (i Prime) MarshalJSON() ([]byte, error) {
return json.Marshal(i.String())
}
func (i *Prime) UnmarshalJSON(data []byte) error {
var s string
if err := json.Unmarshal(data, &s); err != nil {
return fmt.Errorf("Prime should be a string, got %s", data)
}
var err error
*i, err = PrimeString(s)
return err
}
`
func TestGolden(t *testing.T) {
for _, test := range golden {
var g Generator
input := "package test\n" + test.input
file := test.name + ".go"
g.parsePackage(".", []string{file}, input)
// Extract the name and type of the constant from the first line.
tokens := strings.SplitN(test.input, " ", 3)
if len(tokens) != 3 {
t.Fatalf("%s: need type declaration on first line", test.name)
}
g.generate(tokens[1])
got := string(g.format())
if got != test.output {
t.Errorf("%s: got\n====\n%s====\nexpected\n====%s", test.name, got, test.output)
}
runGoldenTest(t, test, false)
}
for _, test := range goldenJSON {
runGoldenTest(t, test, true)
}
}
func runGoldenTest(t *testing.T, test Golden, generateJSON bool) {
var g Generator
input := "package test\n" + test.input
file := test.name + ".go"
g.parsePackage(".", []string{file}, input)
// Extract the name and type of the constant from the first line.
tokens := strings.SplitN(test.input, " ", 3)
if len(tokens) != 3 {
t.Fatalf("%s: need type declaration on first line", test.name)
}
g.generate(tokens[1], generateJSON)
got := string(g.format())
if got != test.output {
t.Errorf("%s: got\n====\n%s====\nexpected\n====%s", test.name, got, test.output)
}
}

21
stringer.go
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@ -82,6 +82,7 @@ import (
var (
typeNames = flag.String("type", "", "comma-separated list of type names; must be set")
noJSON = flag.Bool("noJSON", false, "if true, json marshaling methods will NOT be included. Default: false")
output = flag.String("output", "", "output file name; default srcdir/<type>_string.go")
)
@ -98,7 +99,7 @@ func Usage() {
func main() {
log.SetFlags(0)
log.SetPrefix("stringer: ")
log.SetPrefix("enumer: ")
flag.Usage = Usage
flag.Parse()
if len(*typeNames) == 0 {
@ -135,11 +136,14 @@ func main() {
g.Printf("import (\n")
g.Printf("\t\"fmt\"\n")
g.Printf("\t\"database/sql/driver\"\n")
if !*noJSON {
g.Printf("\t\"encoding/json\"\n")
}
g.Printf(")\n")
// Run generate for each type.
for _, typeName := range types {
g.generate(typeName)
g.generate(typeName, !*noJSON)
}
// Format the output.
@ -275,7 +279,7 @@ func (pkg *Package) check(fs *token.FileSet, astFiles []*ast.File) {
}
// generate produces the String method for the named type.
func (g *Generator) generate(typeName string) {
func (g *Generator) generate(typeName string, includeJSON bool) {
values := make([]Value, 0, 100)
for _, file := range g.pkg.files {
// Set the state for this run of the walker.
@ -303,16 +307,21 @@ func (g *Generator) generate(typeName string) {
// being necessary for any realistic example other than bitmasks
// is very low. And bitmasks probably deserve their own analysis,
// to be done some other day.
const runsThreshold = 10
switch {
case len(runs) == 1:
g.buildOneRun(runs, typeName)
case len(runs) <= 10:
case len(runs) <= runsThreshold:
g.buildMultipleRuns(runs, typeName)
default:
g.buildMap(runs, typeName)
}
// ENUMER: This is the only addition over the original stringer code. Everything else is in enumer.go
g.buildValueToNameMap(runs, typeName, 10)
// ENUMER part
g.buildValueToNameMap(runs, typeName, runsThreshold)
if includeJSON {
g.buildJSONMethods(runs, typeName, runsThreshold)
}
// SQL
g.addValueAndScanMethod(typeName)