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arikawa/bot/subcommand.go

299 lines
6.1 KiB
Go

package bot
import (
"reflect"
"strings"
"github.com/diamondburned/arikawa/gateway"
"github.com/pkg/errors"
)
var (
typeMessageCreate = reflect.TypeOf((*gateway.MessageCreateEvent)(nil))
// typeof.Implements(typeI*)
typeIError = reflect.TypeOf((*error)(nil)).Elem()
typeIManP = reflect.TypeOf((*ManualParseable)(nil)).Elem()
typeIParser = reflect.TypeOf((*Parseable)(nil)).Elem()
typeIUsager = reflect.TypeOf((*Usager)(nil)).Elem()
)
type Subcommand struct {
Description string
// Commands contains all the registered command contexts.
Commands []*CommandContext
// struct name
name string
// struct flags
Flag NameFlag
// Directly to struct
cmdValue reflect.Value
cmdType reflect.Type
// Pointer value
ptrValue reflect.Value
ptrType reflect.Type
// command interface as reference
command interface{}
}
// CommandContext is an internal struct containing fields to make this library
// work. As such, they're all unexported. Description, however, is exported for
// editing, and may be used to generate more informative help messages.
type CommandContext struct {
Description string
Flag NameFlag
name string // all lower-case
value reflect.Value // Func
event reflect.Type // gateway.*Event
method reflect.Method
// equal slices
argStrings []string
arguments []argumentValueFn
// only for ParseContent interface
parseMethod reflect.Method
parseType reflect.Type
parseUsage string
}
// Descriptor is optionally used to set the Description of a command context.
type Descriptor interface {
Description() string
}
// Namer is optionally used to override the command context's name.
type Namer interface {
Name() string
}
// Usager is optionally used to override the generated usage for either an
// argument, or multiple (using ManualParseable).
type Usager interface {
Usage() string
}
func (cctx *CommandContext) Name() string {
return cctx.name
}
func (cctx *CommandContext) Usage() []string {
if cctx.parseType != nil {
return []string{cctx.parseUsage}
}
if len(cctx.arguments) == 0 {
return nil
}
return cctx.argStrings
}
func NewSubcommand(cmd interface{}) (*Subcommand, error) {
var sub = Subcommand{
command: cmd,
}
// Set description
if d, ok := cmd.(Descriptor); ok {
sub.Description = d.Description()
}
if err := sub.reflectCommands(); err != nil {
return nil, errors.Wrap(err, "Failed to reflect commands")
}
if err := sub.parseCommands(); err != nil {
return nil, errors.Wrap(err, "Failed to parse commands")
}
return &sub, nil
}
// Name returns the command name in lower case. This only returns non-zero for
// subcommands.
func (sub *Subcommand) Name() string {
return sub.name
}
// NeedsName sets the name for this subcommand. Like InitCommands, this
// shouldn't be called at all, rather you should use RegisterSubcommand.
func (sub *Subcommand) NeedsName() {
flag, name := ParseFlag(sub.cmdType.Name())
// Check for interface
if n, ok := sub.command.(Namer); ok {
name = n.Name()
}
if !flag.Is(Raw) {
name = strings.ToLower(name)
}
sub.name = name
sub.Flag = flag
}
func (sub *Subcommand) reflectCommands() error {
t := reflect.TypeOf(sub.command)
v := reflect.ValueOf(sub.command)
if t.Kind() != reflect.Ptr {
return errors.New("sub is not a pointer")
}
// Set the pointer fields
sub.ptrValue = v
sub.ptrType = t
ts := t.Elem()
vs := v.Elem()
if ts.Kind() != reflect.Struct {
return errors.New("sub is not pointer to struct")
}
// Set the struct fields
sub.cmdValue = vs
sub.cmdType = ts
return nil
}
// InitCommands fills a Subcommand with a context. This shouldn't be called at
// all, rather you should use the RegisterSubcommand method of a Context.
func (sub *Subcommand) InitCommands(ctx *Context) error {
// Start filling up a *Context field
for i := 0; i < sub.cmdValue.NumField(); i++ {
field := sub.cmdValue.Field(i)
if !field.CanSet() || !field.CanInterface() {
continue
}
if _, ok := field.Interface().(*Context); !ok {
continue
}
field.Set(reflect.ValueOf(ctx))
return nil
}
return errors.New("No fields with *Command found")
}
func (sub *Subcommand) parseCommands() error {
var numMethods = sub.ptrValue.NumMethod()
var commands = make([]*CommandContext, 0, numMethods)
for i := 0; i < numMethods; i++ {
method := sub.ptrValue.Method(i)
if !method.CanInterface() {
continue
}
methodT := method.Type()
numArgs := methodT.NumIn()
// Doesn't meet requirement for an event
if numArgs == 0 {
continue
}
// Check return type
if err := methodT.Out(0); err == nil || !err.Implements(typeIError) {
// Invalid, skip
continue
}
var command = CommandContext{
method: sub.ptrType.Method(i),
value: method,
event: methodT.In(0), // parse event
}
// Parse the method name
flag, name := ParseFlag(command.method.Name)
if !flag.Is(Raw) {
name = strings.ToLower(name)
}
// Set the method name and flag
command.name = name
command.Flag = flag
// TODO: allow more flexibility
if command.event != typeMessageCreate {
goto Done
}
if numArgs == 1 {
// done
goto Done
}
// If the second argument implements ParseContent()
if t := methodT.In(1); t.Implements(typeIManP) {
mt, _ := t.MethodByName("ParseContent")
command.parseMethod = mt
command.parseType = t.Elem()
command.parseUsage = usager(t)
if command.parseUsage == "" {
command.parseUsage = t.String()
}
goto Done
}
command.arguments = make([]argumentValueFn, 0, numArgs)
// Fill up arguments
for i := 1; i < numArgs; i++ {
t := methodT.In(i)
avfs, err := getArgumentValueFn(t)
if err != nil {
return errors.Wrap(err, "Error parsing argument "+t.String())
}
command.arguments = append(command.arguments, avfs)
var usage = usager(t)
if usage == "" {
usage = t.String()
}
command.argStrings = append(command.argStrings, usage)
}
Done:
// Append
commands = append(commands, &command)
}
sub.Commands = commands
return nil
}
func usager(t reflect.Type) string {
if !t.Implements(typeIUsager) {
return ""
}
usageFn, _ := t.MethodByName("Usage")
v := usageFn.Func.Call([]reflect.Value{
reflect.New(t.Elem()),
})
return v[0].String()
}