Package errors provides simple golang error and classification primitives.
The package defines blazingly fast classification system.
A Class
is an uint32 wrapper, composed of the Major
, Minor
and Index
subclassifications.
Each subclassifaction has different bitwise length.
A major is composed of 8, minor 10 and index of 14 bits - total 32bits.
Example:
00000010101000101000010011001111 which decomposes into:
00000010 - major (8 bit)
1010001010 - minor (10 bit)
00010011001111 - index (14 bit)
The class concept was inspired by the need of multiple errors with the same logic but different messages.
A class might be composed in three different ways:
- Major only - the class is Major singleton.
- Major, Minor only - classes that don't need triple subclassification divison.
- Major, Minor, Index - classes that decomposes
Use NewMajor
or MustNewMajor
functions to create Major
, NewMinor
or MustNewMinor
for new Minor
and NewIndex
or MustNewIndex
for new Index
.
The package provides simple error handling interfaces and functions. It allows to create simple and detailed classified errors.
A ClassError
is the interface that provides error classification with theClass
method.
DetailedError
is the interface used for errors that stores and handles human readable details, contains it's instance id and runtime call operation.
Implements ClassError
, Detailer
, Operationer
, Indexer
, error
interfaces.
Detailer
interface allows to set and get the human readable details - full sentences.
OperationError
is the interface used to get the runtime operation information.
Indexer
is the interface used to obtain 'ID' for each error instance.
This package contains two error structure implementations:
A simple error implements ClassError
interface. It is lightweight error that contains only a message and it's class.
Created by the New
and Newf
functions.
Example:
import "github.com/neuronlabs/errors"
// let's assume we have some ClassInvalidRequest already defined.
var ClassInvalidInput errors.Class
func createValue(input int) error {
if input < 0 {
return errors.New(ClassInvalidInput, "provided input lower than zero")
}
if input > 50 {
return errors.Newf(ClassInvalidInput, "provided input value: '%d' is not valid", input)
}
// do the logic here
return nil
}
The detailed error struct (detailedError
) implements DetailedError
.
It contains a lot of information about given error instance:
- Human readable
Details
- Runtime function call
Operations
- Unique error instance
ID
In order to create detailed error use the NewDet
or NewDetf
functions.
import (
"fmt"
"os"
"github.com/neuronlabs/errors"
)
var (
ClInputInvalidValue errors.Class
ClInputNotProvided errors.Class
)
func init() {
initClasses()
}
func initClasses() {
inputMjr := errors.MustNewMajor()
invalidValueMnr := errors.MustNewMinor(inputMjr)
ClInputInvalidValue = errors.MustNewMinorClass(inputMjr, invalidValueMnr)
inputNotProvidedMnr := errors.MustNewMinor(inputMjr)
ClInputNotProvided = errors.MustNewMinorClass(inputMjr, inputNotProvidedMnr)
}
func main() {
input, err := getInput()
if err == nil {
// Everything is fine.
os.Exit(0)
}
if classed, ok := err.(errors.ClassError); ok {
if classed.Class() == ClInputNotProvided {
fmt.Println("No required integer arguments provided.")
os.Exit(1)
}
}
var details string
detailed, ok := err.(errors.DetailedError)
if ok {
details = detailed.Details()
} else {
details = err.Error()
}
fmt.Printf("Invalid input value provided: '%s'\n", details)
os.Exit(1)
}
func checkInput(input int) error {
if input < 0 {
err := errors.NewDet(ClassInputInvalidValue, "provided input lower than zero")
err.SetDetailsf("The input value provided to the function is invalid. The value must be greater than zero.")
return err
}
if input > 50 {
err := errors.NewDetf(ClassInvalidInput, "provided input value: '%d' is not valid", input)
err.SetDetailsf("The input value: '%d' provided to the function is invalid. The value can't be greater than '50'.", input)
return err
}
// do the logic here
return nil
}
func getInput() (int, error) {
if len(os.Args) == 0 {
return errors.New(ClInputNotProvided, "no input provided")
}
input, err := strconv.Atoi(os.Args[0])
if err != nil {
err := errors.NewDetf(ClInputInvalidValue, "provided input is not an integer")
err.SetDetail(err.Error())
return 0, err
}
if err = checkInput(input); err != nil {
return 0, err
}
return input, nil
}