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fq/pkg/scalar/scalar_gen.go.tmpl

142 lines
4.0 KiB
Cheetah

// Code below generated from scalar_gen.go.tmpl
package scalar
import (
"fmt"
"math/big"
"github.com/wader/fq/pkg/bitio"
)
{{- range $name, $t := $.types }}
// Type {{$name}}
// does not use embedding for common fields as it works poorly with struct literals
type {{$name}} struct {
Sym any
Description string
Flags Flags
Actual {{$t.go_type}}
{{- if $t.display_format}}
DisplayFormat DisplayFormat
{{- end}}
}
// interp.Scalarable
func (s {{$name}}) ScalarActual() any { return s.Actual }
func (s {{$name}}) ScalarValue() any {
if s.Sym != nil {
return s.Sym
}
return s.Actual
}
func (s {{$name}}) ScalarSym() any { return s.Sym }
func (s {{$name}}) ScalarDescription() string { return s.Description }
func (s {{$name}}) ScalarFlags() Flags { return s.Flags }
{{- if $t.display_format}}
func (s {{$name}}) ScalarDisplayFormat() DisplayFormat { return s.DisplayFormat }
{{- else }}
func (s {{$name}}) ScalarDisplayFormat() DisplayFormat { return 0 }
{{- end}}
func {{$name}}Actual(v {{$t.go_type}}) {{$name}}Mapper {
return {{$name}}Fn(func(s {{$name}}) ({{$name}}, error) { s.Actual = v; return s, nil })
}
func {{$name}}Sym(v any) {{$name}}Mapper {
return {{$name}}Fn(func(s {{$name}}) ({{$name}}, error) { s.Sym = v; return s, nil })
}
func {{$name}}Description(v string) {{$name}}Mapper {
return {{$name}}Fn(func(s {{$name}}) ({{$name}}, error) { s.Description = v; return s, nil })
}
type {{$name}}Mapper interface {
Map{{$name}}({{$name}}) ({{$name}}, error)
}
// {{$name}}Fn map actual {{$name}} using f
type {{$name}}Fn func(s {{$name}}) ({{$name}}, error)
func (fn {{$name}}Fn) Map{{$name}}(s {{$name}}) ({{$name}}, error) {
return fn(s)
}
// {{$name}}ActualFn map actual {{$name}} using f
type {{$name}}ActualFn func(a {{$t.go_type}}) {{$t.go_type}}
// TODO: error?
func (fn {{$name}}ActualFn) Map{{$name}}(s {{$name}}) ({{$name}}, error) {
s.Actual = fn(s.Actual)
return s, nil
}
// {{$name}}SymFn map sym {{$name}} using f
type {{$name}}SymFn func(a any) any
func (f {{$name}}SymFn) Map{{$name}}(s {{$name}}) ({{$name}}, error) {
s.Sym = f(s.Sym)
return s, nil
}
// {{$name}}DescriptionFn map sym {{$name}} using f
type {{$name}}DescriptionFn func(a string) string
func (f {{$name}}DescriptionFn) Map{{$name}}(s {{$name}}) ({{$name}}, error) {
s.Description = f(s.Description)
return s, nil
}
{{- range $sym_name, $sym_t := $.types }}
// TrySym{{$sym_name}} try assert symbolic value is a {{$sym_name}} and return result
func (s {{$name}}) TrySym{{$sym_name}}() ({{$sym_t.go_type}}, bool) {
//nolint:gosimple,nolintlint
v, ok := s.Sym.({{$sym_t.go_type}})
return v, ok
}
// Sym{{$sym_name}} asserts symbolic value is a {{$sym_name}} and returns it
func (s {{$name}}) Sym{{$sym_name}}() {{$sym_t.go_type}} {
v, ok := s.TrySym{{$sym_name}}()
if !ok {
panic(fmt.Sprintf("failed to type assert s.Sym %v (%T) as {{$t.go_type}}", s.Sym, s.Sym))
}
return v
}
{{- end}}
{{end}}
{{- range $from_name, $from := $.types }}
{{- if $from.map_from}}
// Map {{$from_name}}
type {{$from_name}}Map map[{{$from.go_type}}]{{$from_name}}
func (m {{$from_name}}Map) Map{{$from_name}}(s {{$from_name}}) ({{$from_name}}, error) {
if ns, ok := m[s.Actual]; ok {
ns.Actual = s.Actual
return ns, nil
}
return s, nil
}
// Map {{$from_name}} description
type {{$from_name}}MapDescription map[{{$from.go_type}}]string
func (m {{$from_name}}MapDescription) Map{{$from_name}}(s {{$from_name}}) ({{$from_name}}, error) {
if d, ok := m[s.Actual]; ok {
s.Description = d
}
return s, nil
}
{{- range $to_name, $to := $.types }}
{{- if $to.map_to}}
// Map {{$from_name}} sym {{$to_name}}
type {{$from_name}}MapSym{{$to_name}} map[{{$from.go_type}}]{{$to.go_type}}
func (m {{$from_name}}MapSym{{$to_name}}) Map{{$from_name}}(s {{$from_name}}) ({{$from_name}}, error) {
if t, ok := m[s.Actual]; ok {
s.Sym = t
}
return s, nil
}
{{- end}}
{{- end}}
{{- end}}
{{- end}}