66b77acb1c
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> |
||
---|---|---|
.. | ||
internal | ||
unstable | ||
.dockerignore | ||
.gitattributes | ||
.gitignore | ||
.golangci.toml | ||
.goreleaser.yaml | ||
CONTRIBUTING.md | ||
Dockerfile | ||
LICENSE | ||
README.md | ||
SECURITY.md | ||
ci.sh | ||
decode.go | ||
doc.go | ||
errors.go | ||
localtime.go | ||
marshaler.go | ||
strict.go | ||
toml.abnf | ||
types.go | ||
unmarshaler.go |
README.md
go-toml v2
Go library for the TOML format.
This library supports TOML v1.0.0.
Documentation
Full API, examples, and implementation notes are available in the Go documentation.
Import
import "github.com/pelletier/go-toml/v2"
See Modules.
Features
Stdlib behavior
As much as possible, this library is designed to behave similarly as the
standard library's encoding/json
.
Performance
While go-toml favors usability, it is written with performance in mind. Most operations should not be shockingly slow. See benchmarks.
Strict mode
Decoder
can be set to "strict mode", which makes it error when some parts of
the TOML document was not present in the target structure. This is a great way
to check for typos. See example in the documentation.
Contextualized errors
When most decoding errors occur, go-toml returns DecodeError
,
which contains a human readable contextualized version of the error. For
example:
1| [server]
2| path = 100
| ~~~ cannot decode TOML integer into struct field toml_test.Server.Path of type string
3| port = 50
Local date and time support
TOML supports native local date/times. It allows to represent a given
date, time, or date-time without relation to a timezone or offset. To support
this use-case, go-toml provides LocalDate
, LocalTime
, and
LocalDateTime
. Those types can be transformed to and from time.Time
,
making them convenient yet unambiguous structures for their respective TOML
representation.
Commented config
Since TOML is often used for configuration files, go-toml can emit documents annotated with comments and commented-out values. For example, it can generate the following file:
# Host IP to connect to.
host = '127.0.0.1'
# Port of the remote server.
port = 4242
# Encryption parameters (optional)
# [TLS]
# cipher = 'AEAD-AES128-GCM-SHA256'
# version = 'TLS 1.3'
Getting started
Given the following struct, let's see how to read it and write it as TOML:
type MyConfig struct {
Version int
Name string
Tags []string
}
Unmarshaling
Unmarshal
reads a TOML document and fills a Go structure with its
content. For example:
doc := `
version = 2
name = "go-toml"
tags = ["go", "toml"]
`
var cfg MyConfig
err := toml.Unmarshal([]byte(doc), &cfg)
if err != nil {
panic(err)
}
fmt.Println("version:", cfg.Version)
fmt.Println("name:", cfg.Name)
fmt.Println("tags:", cfg.Tags)
// Output:
// version: 2
// name: go-toml
// tags: [go toml]
Marshaling
Marshal
is the opposite of Unmarshal: it represents a Go structure
as a TOML document:
cfg := MyConfig{
Version: 2,
Name: "go-toml",
Tags: []string{"go", "toml"},
}
b, err := toml.Marshal(cfg)
if err != nil {
panic(err)
}
fmt.Println(string(b))
// Output:
// Version = 2
// Name = 'go-toml'
// Tags = ['go', 'toml']
Unstable API
This API does not yet follow the backward compatibility guarantees of this library. They provide early access to features that may have rough edges or an API subject to change.
Parser
Parser is the unstable API that allows iterative parsing of a TOML document at the AST level. See https://pkg.go.dev/github.com/pelletier/go-toml/v2/unstable.
Benchmarks
Execution time speedup compared to other Go TOML libraries:
Benchmark | go-toml v1 | BurntSushi/toml |
---|---|---|
Marshal/HugoFrontMatter-2 | 1.9x | 1.9x |
Marshal/ReferenceFile/map-2 | 1.7x | 1.8x |
Marshal/ReferenceFile/struct-2 | 2.2x | 2.5x |
Unmarshal/HugoFrontMatter-2 | 2.9x | 2.9x |
Unmarshal/ReferenceFile/map-2 | 2.6x | 2.9x |
Unmarshal/ReferenceFile/struct-2 | 4.4x | 5.3x |
See more
The table above has the results of the most common use-cases. The table below contains the results of all benchmarks, including unrealistic ones. It is provided for completeness.
Benchmark | go-toml v1 | BurntSushi/toml |
---|---|---|
Marshal/SimpleDocument/map-2 | 1.8x | 2.9x |
Marshal/SimpleDocument/struct-2 | 2.7x | 4.2x |
Unmarshal/SimpleDocument/map-2 | 4.5x | 3.1x |
Unmarshal/SimpleDocument/struct-2 | 6.2x | 3.9x |
UnmarshalDataset/example-2 | 3.1x | 3.5x |
UnmarshalDataset/code-2 | 2.3x | 3.1x |
UnmarshalDataset/twitter-2 | 2.5x | 2.6x |
UnmarshalDataset/citm_catalog-2 | 2.1x | 2.2x |
UnmarshalDataset/canada-2 | 1.6x | 1.3x |
UnmarshalDataset/config-2 | 4.3x | 3.2x |
[Geo mean] | 2.7x | 2.8x |
This table can be generated with ./ci.sh benchmark -a -html
.
Modules
go-toml uses Go's standard modules system.
Installation instructions:
- Go ≥ 1.16: Nothing to do. Use the import in your code. The
go
command deals with it automatically. - Go ≥ 1.13:
GO111MODULE=on go get github.com/pelletier/go-toml/v2
.
In case of trouble: Go Modules FAQ.
Tools
Go-toml provides three handy command line tools:
-
tomljson
: Reads a TOML file and outputs its JSON representation.$ go install github.com/pelletier/go-toml/v2/cmd/tomljson@latest $ tomljson --help
-
jsontoml
: Reads a JSON file and outputs a TOML representation.$ go install github.com/pelletier/go-toml/v2/cmd/jsontoml@latest $ jsontoml --help
-
tomll
: Lints and reformats a TOML file.$ go install github.com/pelletier/go-toml/v2/cmd/tomll@latest $ tomll --help
Docker image
Those tools are also available as a Docker image. For example, to use
tomljson
:
docker run -i ghcr.io/pelletier/go-toml:v2 tomljson < example.toml
Multiple versions are availble on ghcr.io.
Migrating from v1
This section describes the differences between v1 and v2, with some pointers on how to get the original behavior when possible.
Decoding / Unmarshal
Automatic field name guessing
When unmarshaling to a struct, if a key in the TOML document does not exactly
match the name of a struct field or any of the toml
-tagged field, v1 tries
multiple variations of the key (code).
V2 instead does a case-insensitive matching, like encoding/json
.
This could impact you if you are relying on casing to differentiate two fields,
and one of them is a not using the toml
struct tag. The recommended solution
is to be specific about tag names for those fields using the toml
struct tag.
Ignore preexisting value in interface
When decoding into a non-nil interface{}
, go-toml v1 uses the type of the
element in the interface to decode the object. For example:
type inner struct {
B interface{}
}
type doc struct {
A interface{}
}
d := doc{
A: inner{
B: "Before",
},
}
data := `
[A]
B = "After"
`
toml.Unmarshal([]byte(data), &d)
fmt.Printf("toml v1: %#v\n", d)
// toml v1: main.doc{A:main.inner{B:"After"}}
In this case, field A
is of type interface{}
, containing a inner
struct.
V1 sees that type and uses it when decoding the object.
When decoding an object into an interface{}
, V2 instead disregards whatever
value the interface{}
may contain and replaces it with a
map[string]interface{}
. With the same data structure as above, here is what
the result looks like:
toml.Unmarshal([]byte(data), &d)
fmt.Printf("toml v2: %#v\n", d)
// toml v2: main.doc{A:map[string]interface {}{"B":"After"}}
This is to match encoding/json
's behavior. There is no way to make the v2
decoder behave like v1.
Values out of array bounds ignored
When decoding into an array, v1 returns an error when the number of elements contained in the doc is superior to the capacity of the array. For example:
type doc struct {
A [2]string
}
d := doc{}
err := toml.Unmarshal([]byte(`A = ["one", "two", "many"]`), &d)
fmt.Println(err)
// (1, 1): unmarshal: TOML array length (3) exceeds destination array length (2)
In the same situation, v2 ignores the last value:
err := toml.Unmarshal([]byte(`A = ["one", "two", "many"]`), &d)
fmt.Println("err:", err, "d:", d)
// err: <nil> d: {[one two]}
This is to match encoding/json
's behavior. There is no way to make the v2
decoder behave like v1.
Support for toml.Unmarshaler
has been dropped
This method was not widely used, poorly defined, and added a lot of complexity.
A similar effect can be achieved by implementing the encoding.TextUnmarshaler
interface and use strings.
Support for default
struct tag has been dropped
This feature adds complexity and a poorly defined API for an effect that can be accomplished outside of the library.
It does not seem like other format parsers in Go support that feature (the project referenced in the original ticket #202 has not been updated since 2017). Given that go-toml v2 should not touch values not in the document, the same effect can be achieved by pre-filling the struct with defaults (libraries like go-defaults can help). Also, string representation is not well defined for all types: it creates issues like #278.
The recommended replacement is pre-filling the struct before unmarshaling.
toml.Tree
replacement
This structure was the initial attempt at providing a document model for
go-toml. It allows manipulating the structure of any document, encoding and
decoding from their TOML representation. While a more robust feature was
initially planned in go-toml v2, this has been ultimately removed from
scope of this library, with no plan to add it back at the moment. The
closest equivalent at the moment would be to unmarshal into an interface{}
and
use type assertions and/or reflection to manipulate the arbitrary
structure. However this would fall short of providing all of the TOML features
such as adding comments and be specific about whitespace.
toml.Position
are not retrievable anymore
The API for retrieving the position (line, column) of a specific TOML element do not exist anymore. This was done to minimize the amount of concepts introduced by the library (query path), and avoid the performance hit related to storing positions in the absence of a document model, for a feature that seemed to have little use. Errors however have gained more detailed position information. Position retrieval seems better fitted for a document model, which has been removed from the scope of go-toml v2 at the moment.
Encoding / Marshal
Default struct fields order
V1 emits struct fields order alphabetically by default. V2 struct fields are emitted in order they are defined. For example:
type S struct {
B string
A string
}
data := S{
B: "B",
A: "A",
}
b, _ := tomlv1.Marshal(data)
fmt.Println("v1:\n" + string(b))
b, _ = tomlv2.Marshal(data)
fmt.Println("v2:\n" + string(b))
// Output:
// v1:
// A = "A"
// B = "B"
// v2:
// B = 'B'
// A = 'A'
There is no way to make v2 encoder behave like v1. A workaround could be to
manually sort the fields alphabetically in the struct definition, or generate
struct types using reflect.StructOf
.
No indentation by default
V1 automatically indents content of tables by default. V2 does not. However the
same behavior can be obtained using Encoder.SetIndentTables
. For example:
data := map[string]interface{}{
"table": map[string]string{
"key": "value",
},
}
b, _ := tomlv1.Marshal(data)
fmt.Println("v1:\n" + string(b))
b, _ = tomlv2.Marshal(data)
fmt.Println("v2:\n" + string(b))
buf := bytes.Buffer{}
enc := tomlv2.NewEncoder(&buf)
enc.SetIndentTables(true)
enc.Encode(data)
fmt.Println("v2 Encoder:\n" + string(buf.Bytes()))
// Output:
// v1:
//
// [table]
// key = "value"
//
// v2:
// [table]
// key = 'value'
//
//
// v2 Encoder:
// [table]
// key = 'value'
Keys and strings are single quoted
V1 always uses double quotes ("
) around strings and keys that cannot be
represented bare (unquoted). V2 uses single quotes instead by default ('
),
unless a character cannot be represented, then falls back to double quotes. As a
result of this change, Encoder.QuoteMapKeys
has been removed, as it is not
useful anymore.
There is no way to make v2 encoder behave like v1.
TextMarshaler
emits as a string, not TOML
Types that implement encoding.TextMarshaler
can emit arbitrary TOML in
v1. The encoder would append the result to the output directly. In v2 the result
is wrapped in a string. As a result, this interface cannot be implemented by the
root object.
There is no way to make v2 encoder behave like v1.
Encoder.CompactComments
has been removed
Emitting compact comments is now the default behavior of go-toml. This option is not necessary anymore.
Struct tags have been merged
V1 used to provide multiple struct tags: comment
, commented
, multiline
,
toml
, and omitempty
. To behave more like the standard library, v2 has merged
toml
, multiline
, commented
, and omitempty
. For example:
type doc struct {
// v1
F string `toml:"field" multiline:"true" omitempty:"true" commented:"true"`
// v2
F string `toml:"field,multiline,omitempty,commented"`
}
Has a result, the Encoder.SetTag*
methods have been removed, as there is just
one tag now.
Encoder.ArraysWithOneElementPerLine
has been renamed
The new name is Encoder.SetArraysMultiline
. The behavior should be the same.
Encoder.Indentation
has been renamed
The new name is Encoder.SetIndentSymbol
. The behavior should be the same.
Embedded structs behave like stdlib
V1 defaults to merging embedded struct fields into the embedding struct. This
behavior was unexpected because it does not follow the standard library. To
avoid breaking backward compatibility, the Encoder.PromoteAnonymous
method was
added to make the encoder behave correctly. Given backward compatibility is not
a problem anymore, v2 does the right thing by default: it follows the behavior
of encoding/json
. Encoder.PromoteAnonymous
has been removed.
query
go-toml v1 provided the go-toml/query
package. It allowed to run
JSONPath-style queries on TOML files. This feature is not available in v2. For a
replacement, check out dasel.
This package has been removed because it was essentially not supported anymore (last commit May 2020), increased the complexity of the code base, and more complete solutions exist out there.
Versioning
Go-toml follows Semantic Versioning. The supported version of TOML is indicated at the beginning of this document. The last two major versions of Go are supported (see Go Release Policy).
License
The MIT License (MIT). Read LICENSE.