mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
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555 lines
19 KiB
Go
555 lines
19 KiB
Go
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// Copyright 2017, The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package cmp
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import (
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"fmt"
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"reflect"
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"regexp"
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"strings"
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"github.com/google/go-cmp/cmp/internal/function"
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)
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// Option configures for specific behavior of [Equal] and [Diff]. In particular,
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// the fundamental Option functions ([Ignore], [Transformer], and [Comparer]),
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// configure how equality is determined.
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//
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// The fundamental options may be composed with filters ([FilterPath] and
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// [FilterValues]) to control the scope over which they are applied.
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//
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// The [github.com/google/go-cmp/cmp/cmpopts] package provides helper functions
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// for creating options that may be used with [Equal] and [Diff].
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type Option interface {
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// filter applies all filters and returns the option that remains.
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// Each option may only read s.curPath and call s.callTTBFunc.
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//
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// An Options is returned only if multiple comparers or transformers
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// can apply simultaneously and will only contain values of those types
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// or sub-Options containing values of those types.
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filter(s *state, t reflect.Type, vx, vy reflect.Value) applicableOption
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}
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// applicableOption represents the following types:
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//
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// Fundamental: ignore | validator | *comparer | *transformer
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// Grouping: Options
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type applicableOption interface {
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Option
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// apply executes the option, which may mutate s or panic.
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apply(s *state, vx, vy reflect.Value)
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}
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// coreOption represents the following types:
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//
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// Fundamental: ignore | validator | *comparer | *transformer
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// Filters: *pathFilter | *valuesFilter
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type coreOption interface {
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Option
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isCore()
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}
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type core struct{}
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func (core) isCore() {}
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// Options is a list of [Option] values that also satisfies the [Option] interface.
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// Helper comparison packages may return an Options value when packing multiple
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// [Option] values into a single [Option]. When this package processes an Options,
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// it will be implicitly expanded into a flat list.
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//
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// Applying a filter on an Options is equivalent to applying that same filter
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// on all individual options held within.
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type Options []Option
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func (opts Options) filter(s *state, t reflect.Type, vx, vy reflect.Value) (out applicableOption) {
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for _, opt := range opts {
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switch opt := opt.filter(s, t, vx, vy); opt.(type) {
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case ignore:
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return ignore{} // Only ignore can short-circuit evaluation
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case validator:
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out = validator{} // Takes precedence over comparer or transformer
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case *comparer, *transformer, Options:
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switch out.(type) {
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case nil:
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out = opt
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case validator:
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// Keep validator
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case *comparer, *transformer, Options:
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out = Options{out, opt} // Conflicting comparers or transformers
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}
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}
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}
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return out
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}
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func (opts Options) apply(s *state, _, _ reflect.Value) {
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const warning = "ambiguous set of applicable options"
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const help = "consider using filters to ensure at most one Comparer or Transformer may apply"
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var ss []string
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for _, opt := range flattenOptions(nil, opts) {
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ss = append(ss, fmt.Sprint(opt))
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}
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set := strings.Join(ss, "\n\t")
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panic(fmt.Sprintf("%s at %#v:\n\t%s\n%s", warning, s.curPath, set, help))
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}
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func (opts Options) String() string {
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var ss []string
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for _, opt := range opts {
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ss = append(ss, fmt.Sprint(opt))
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}
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return fmt.Sprintf("Options{%s}", strings.Join(ss, ", "))
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}
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// FilterPath returns a new [Option] where opt is only evaluated if filter f
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// returns true for the current [Path] in the value tree.
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//
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// This filter is called even if a slice element or map entry is missing and
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// provides an opportunity to ignore such cases. The filter function must be
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// symmetric such that the filter result is identical regardless of whether the
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// missing value is from x or y.
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//
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// The option passed in may be an [Ignore], [Transformer], [Comparer], [Options], or
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// a previously filtered [Option].
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func FilterPath(f func(Path) bool, opt Option) Option {
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if f == nil {
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panic("invalid path filter function")
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}
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if opt := normalizeOption(opt); opt != nil {
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return &pathFilter{fnc: f, opt: opt}
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}
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return nil
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}
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type pathFilter struct {
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core
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fnc func(Path) bool
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opt Option
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}
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func (f pathFilter) filter(s *state, t reflect.Type, vx, vy reflect.Value) applicableOption {
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if f.fnc(s.curPath) {
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return f.opt.filter(s, t, vx, vy)
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}
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return nil
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}
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func (f pathFilter) String() string {
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return fmt.Sprintf("FilterPath(%s, %v)", function.NameOf(reflect.ValueOf(f.fnc)), f.opt)
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}
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// FilterValues returns a new [Option] where opt is only evaluated if filter f,
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// which is a function of the form "func(T, T) bool", returns true for the
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// current pair of values being compared. If either value is invalid or
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// the type of the values is not assignable to T, then this filter implicitly
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// returns false.
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//
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// The filter function must be
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// symmetric (i.e., agnostic to the order of the inputs) and
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// deterministic (i.e., produces the same result when given the same inputs).
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// If T is an interface, it is possible that f is called with two values with
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// different concrete types that both implement T.
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//
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// The option passed in may be an [Ignore], [Transformer], [Comparer], [Options], or
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// a previously filtered [Option].
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func FilterValues(f interface{}, opt Option) Option {
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v := reflect.ValueOf(f)
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if !function.IsType(v.Type(), function.ValueFilter) || v.IsNil() {
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panic(fmt.Sprintf("invalid values filter function: %T", f))
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}
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if opt := normalizeOption(opt); opt != nil {
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vf := &valuesFilter{fnc: v, opt: opt}
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if ti := v.Type().In(0); ti.Kind() != reflect.Interface || ti.NumMethod() > 0 {
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vf.typ = ti
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}
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return vf
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}
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return nil
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}
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type valuesFilter struct {
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core
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typ reflect.Type // T
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fnc reflect.Value // func(T, T) bool
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opt Option
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}
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func (f valuesFilter) filter(s *state, t reflect.Type, vx, vy reflect.Value) applicableOption {
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if !vx.IsValid() || !vx.CanInterface() || !vy.IsValid() || !vy.CanInterface() {
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return nil
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}
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if (f.typ == nil || t.AssignableTo(f.typ)) && s.callTTBFunc(f.fnc, vx, vy) {
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return f.opt.filter(s, t, vx, vy)
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}
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return nil
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}
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func (f valuesFilter) String() string {
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return fmt.Sprintf("FilterValues(%s, %v)", function.NameOf(f.fnc), f.opt)
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}
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// Ignore is an [Option] that causes all comparisons to be ignored.
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// This value is intended to be combined with [FilterPath] or [FilterValues].
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// It is an error to pass an unfiltered Ignore option to [Equal].
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func Ignore() Option { return ignore{} }
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type ignore struct{ core }
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func (ignore) isFiltered() bool { return false }
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func (ignore) filter(_ *state, _ reflect.Type, _, _ reflect.Value) applicableOption { return ignore{} }
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func (ignore) apply(s *state, _, _ reflect.Value) { s.report(true, reportByIgnore) }
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func (ignore) String() string { return "Ignore()" }
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// validator is a sentinel Option type to indicate that some options could not
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// be evaluated due to unexported fields, missing slice elements, or
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// missing map entries. Both values are validator only for unexported fields.
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type validator struct{ core }
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func (validator) filter(_ *state, _ reflect.Type, vx, vy reflect.Value) applicableOption {
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if !vx.IsValid() || !vy.IsValid() {
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return validator{}
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}
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if !vx.CanInterface() || !vy.CanInterface() {
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return validator{}
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}
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return nil
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}
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func (validator) apply(s *state, vx, vy reflect.Value) {
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// Implies missing slice element or map entry.
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if !vx.IsValid() || !vy.IsValid() {
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s.report(vx.IsValid() == vy.IsValid(), 0)
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return
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}
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// Unable to Interface implies unexported field without visibility access.
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if !vx.CanInterface() || !vy.CanInterface() {
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help := "consider using a custom Comparer; if you control the implementation of type, you can also consider using an Exporter, AllowUnexported, or cmpopts.IgnoreUnexported"
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var name string
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if t := s.curPath.Index(-2).Type(); t.Name() != "" {
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// Named type with unexported fields.
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name = fmt.Sprintf("%q.%v", t.PkgPath(), t.Name()) // e.g., "path/to/package".MyType
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if _, ok := reflect.New(t).Interface().(error); ok {
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help = "consider using cmpopts.EquateErrors to compare error values"
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} else if t.Comparable() {
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help = "consider using cmpopts.EquateComparable to compare comparable Go types"
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}
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} else {
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// Unnamed type with unexported fields. Derive PkgPath from field.
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var pkgPath string
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for i := 0; i < t.NumField() && pkgPath == ""; i++ {
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pkgPath = t.Field(i).PkgPath
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}
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name = fmt.Sprintf("%q.(%v)", pkgPath, t.String()) // e.g., "path/to/package".(struct { a int })
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}
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panic(fmt.Sprintf("cannot handle unexported field at %#v:\n\t%v\n%s", s.curPath, name, help))
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}
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panic("not reachable")
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}
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// identRx represents a valid identifier according to the Go specification.
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const identRx = `[_\p{L}][_\p{L}\p{N}]*`
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var identsRx = regexp.MustCompile(`^` + identRx + `(\.` + identRx + `)*$`)
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// Transformer returns an [Option] that applies a transformation function that
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// converts values of a certain type into that of another.
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//
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// The transformer f must be a function "func(T) R" that converts values of
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// type T to those of type R and is implicitly filtered to input values
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// assignable to T. The transformer must not mutate T in any way.
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//
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// To help prevent some cases of infinite recursive cycles applying the
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// same transform to the output of itself (e.g., in the case where the
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// input and output types are the same), an implicit filter is added such that
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// a transformer is applicable only if that exact transformer is not already
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// in the tail of the [Path] since the last non-[Transform] step.
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// For situations where the implicit filter is still insufficient,
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// consider using [github.com/google/go-cmp/cmp/cmpopts.AcyclicTransformer],
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// which adds a filter to prevent the transformer from
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// being recursively applied upon itself.
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//
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// The name is a user provided label that is used as the [Transform.Name] in the
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// transformation [PathStep] (and eventually shown in the [Diff] output).
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// The name must be a valid identifier or qualified identifier in Go syntax.
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// If empty, an arbitrary name is used.
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func Transformer(name string, f interface{}) Option {
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v := reflect.ValueOf(f)
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if !function.IsType(v.Type(), function.Transformer) || v.IsNil() {
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panic(fmt.Sprintf("invalid transformer function: %T", f))
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}
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if name == "" {
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name = function.NameOf(v)
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if !identsRx.MatchString(name) {
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name = "λ" // Lambda-symbol as placeholder name
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}
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} else if !identsRx.MatchString(name) {
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panic(fmt.Sprintf("invalid name: %q", name))
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}
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tr := &transformer{name: name, fnc: reflect.ValueOf(f)}
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if ti := v.Type().In(0); ti.Kind() != reflect.Interface || ti.NumMethod() > 0 {
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tr.typ = ti
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}
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return tr
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}
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type transformer struct {
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core
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name string
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typ reflect.Type // T
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fnc reflect.Value // func(T) R
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}
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func (tr *transformer) isFiltered() bool { return tr.typ != nil }
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func (tr *transformer) filter(s *state, t reflect.Type, _, _ reflect.Value) applicableOption {
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for i := len(s.curPath) - 1; i >= 0; i-- {
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if t, ok := s.curPath[i].(Transform); !ok {
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break // Hit most recent non-Transform step
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} else if tr == t.trans {
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return nil // Cannot directly use same Transform
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}
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}
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if tr.typ == nil || t.AssignableTo(tr.typ) {
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return tr
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}
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return nil
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}
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func (tr *transformer) apply(s *state, vx, vy reflect.Value) {
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step := Transform{&transform{pathStep{typ: tr.fnc.Type().Out(0)}, tr}}
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vvx := s.callTRFunc(tr.fnc, vx, step)
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vvy := s.callTRFunc(tr.fnc, vy, step)
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step.vx, step.vy = vvx, vvy
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s.compareAny(step)
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}
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func (tr transformer) String() string {
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return fmt.Sprintf("Transformer(%s, %s)", tr.name, function.NameOf(tr.fnc))
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}
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// Comparer returns an [Option] that determines whether two values are equal
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// to each other.
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//
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// The comparer f must be a function "func(T, T) bool" and is implicitly
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// filtered to input values assignable to T. If T is an interface, it is
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// possible that f is called with two values of different concrete types that
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// both implement T.
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//
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// The equality function must be:
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// - Symmetric: equal(x, y) == equal(y, x)
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// - Deterministic: equal(x, y) == equal(x, y)
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// - Pure: equal(x, y) does not modify x or y
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func Comparer(f interface{}) Option {
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v := reflect.ValueOf(f)
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if !function.IsType(v.Type(), function.Equal) || v.IsNil() {
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panic(fmt.Sprintf("invalid comparer function: %T", f))
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}
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cm := &comparer{fnc: v}
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if ti := v.Type().In(0); ti.Kind() != reflect.Interface || ti.NumMethod() > 0 {
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cm.typ = ti
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}
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return cm
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}
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type comparer struct {
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core
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typ reflect.Type // T
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fnc reflect.Value // func(T, T) bool
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}
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func (cm *comparer) isFiltered() bool { return cm.typ != nil }
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func (cm *comparer) filter(_ *state, t reflect.Type, _, _ reflect.Value) applicableOption {
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if cm.typ == nil || t.AssignableTo(cm.typ) {
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return cm
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}
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return nil
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}
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func (cm *comparer) apply(s *state, vx, vy reflect.Value) {
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eq := s.callTTBFunc(cm.fnc, vx, vy)
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s.report(eq, reportByFunc)
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}
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func (cm comparer) String() string {
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return fmt.Sprintf("Comparer(%s)", function.NameOf(cm.fnc))
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}
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// Exporter returns an [Option] that specifies whether [Equal] is allowed to
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// introspect into the unexported fields of certain struct types.
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//
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// Users of this option must understand that comparing on unexported fields
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// from external packages is not safe since changes in the internal
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// implementation of some external package may cause the result of [Equal]
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// to unexpectedly change. However, it may be valid to use this option on types
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// defined in an internal package where the semantic meaning of an unexported
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// field is in the control of the user.
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//
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||
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// In many cases, a custom [Comparer] should be used instead that defines
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||
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// equality as a function of the public API of a type rather than the underlying
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||
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// unexported implementation.
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//
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||
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// For example, the [reflect.Type] documentation defines equality to be determined
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||
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// by the == operator on the interface (essentially performing a shallow pointer
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||
|
// comparison) and most attempts to compare *[regexp.Regexp] types are interested
|
||
|
// in only checking that the regular expression strings are equal.
|
||
|
// Both of these are accomplished using [Comparer] options:
|
||
|
//
|
||
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// Comparer(func(x, y reflect.Type) bool { return x == y })
|
||
|
// Comparer(func(x, y *regexp.Regexp) bool { return x.String() == y.String() })
|
||
|
//
|
||
|
// In other cases, the [github.com/google/go-cmp/cmp/cmpopts.IgnoreUnexported]
|
||
|
// option can be used to ignore all unexported fields on specified struct types.
|
||
|
func Exporter(f func(reflect.Type) bool) Option {
|
||
|
return exporter(f)
|
||
|
}
|
||
|
|
||
|
type exporter func(reflect.Type) bool
|
||
|
|
||
|
func (exporter) filter(_ *state, _ reflect.Type, _, _ reflect.Value) applicableOption {
|
||
|
panic("not implemented")
|
||
|
}
|
||
|
|
||
|
// AllowUnexported returns an [Option] that allows [Equal] to forcibly introspect
|
||
|
// unexported fields of the specified struct types.
|
||
|
//
|
||
|
// See [Exporter] for the proper use of this option.
|
||
|
func AllowUnexported(types ...interface{}) Option {
|
||
|
m := make(map[reflect.Type]bool)
|
||
|
for _, typ := range types {
|
||
|
t := reflect.TypeOf(typ)
|
||
|
if t.Kind() != reflect.Struct {
|
||
|
panic(fmt.Sprintf("invalid struct type: %T", typ))
|
||
|
}
|
||
|
m[t] = true
|
||
|
}
|
||
|
return exporter(func(t reflect.Type) bool { return m[t] })
|
||
|
}
|
||
|
|
||
|
// Result represents the comparison result for a single node and
|
||
|
// is provided by cmp when calling Report (see [Reporter]).
|
||
|
type Result struct {
|
||
|
_ [0]func() // Make Result incomparable
|
||
|
flags resultFlags
|
||
|
}
|
||
|
|
||
|
// Equal reports whether the node was determined to be equal or not.
|
||
|
// As a special case, ignored nodes are considered equal.
|
||
|
func (r Result) Equal() bool {
|
||
|
return r.flags&(reportEqual|reportByIgnore) != 0
|
||
|
}
|
||
|
|
||
|
// ByIgnore reports whether the node is equal because it was ignored.
|
||
|
// This never reports true if [Result.Equal] reports false.
|
||
|
func (r Result) ByIgnore() bool {
|
||
|
return r.flags&reportByIgnore != 0
|
||
|
}
|
||
|
|
||
|
// ByMethod reports whether the Equal method determined equality.
|
||
|
func (r Result) ByMethod() bool {
|
||
|
return r.flags&reportByMethod != 0
|
||
|
}
|
||
|
|
||
|
// ByFunc reports whether a [Comparer] function determined equality.
|
||
|
func (r Result) ByFunc() bool {
|
||
|
return r.flags&reportByFunc != 0
|
||
|
}
|
||
|
|
||
|
// ByCycle reports whether a reference cycle was detected.
|
||
|
func (r Result) ByCycle() bool {
|
||
|
return r.flags&reportByCycle != 0
|
||
|
}
|
||
|
|
||
|
type resultFlags uint
|
||
|
|
||
|
const (
|
||
|
_ resultFlags = (1 << iota) / 2
|
||
|
|
||
|
reportEqual
|
||
|
reportUnequal
|
||
|
reportByIgnore
|
||
|
reportByMethod
|
||
|
reportByFunc
|
||
|
reportByCycle
|
||
|
)
|
||
|
|
||
|
// Reporter is an [Option] that can be passed to [Equal]. When [Equal] traverses
|
||
|
// the value trees, it calls PushStep as it descends into each node in the
|
||
|
// tree and PopStep as it ascend out of the node. The leaves of the tree are
|
||
|
// either compared (determined to be equal or not equal) or ignored and reported
|
||
|
// as such by calling the Report method.
|
||
|
func Reporter(r interface {
|
||
|
// PushStep is called when a tree-traversal operation is performed.
|
||
|
// The PathStep itself is only valid until the step is popped.
|
||
|
// The PathStep.Values are valid for the duration of the entire traversal
|
||
|
// and must not be mutated.
|
||
|
//
|
||
|
// Equal always calls PushStep at the start to provide an operation-less
|
||
|
// PathStep used to report the root values.
|
||
|
//
|
||
|
// Within a slice, the exact set of inserted, removed, or modified elements
|
||
|
// is unspecified and may change in future implementations.
|
||
|
// The entries of a map are iterated through in an unspecified order.
|
||
|
PushStep(PathStep)
|
||
|
|
||
|
// Report is called exactly once on leaf nodes to report whether the
|
||
|
// comparison identified the node as equal, unequal, or ignored.
|
||
|
// A leaf node is one that is immediately preceded by and followed by
|
||
|
// a pair of PushStep and PopStep calls.
|
||
|
Report(Result)
|
||
|
|
||
|
// PopStep ascends back up the value tree.
|
||
|
// There is always a matching pop call for every push call.
|
||
|
PopStep()
|
||
|
}) Option {
|
||
|
return reporter{r}
|
||
|
}
|
||
|
|
||
|
type reporter struct{ reporterIface }
|
||
|
type reporterIface interface {
|
||
|
PushStep(PathStep)
|
||
|
Report(Result)
|
||
|
PopStep()
|
||
|
}
|
||
|
|
||
|
func (reporter) filter(_ *state, _ reflect.Type, _, _ reflect.Value) applicableOption {
|
||
|
panic("not implemented")
|
||
|
}
|
||
|
|
||
|
// normalizeOption normalizes the input options such that all Options groups
|
||
|
// are flattened and groups with a single element are reduced to that element.
|
||
|
// Only coreOptions and Options containing coreOptions are allowed.
|
||
|
func normalizeOption(src Option) Option {
|
||
|
switch opts := flattenOptions(nil, Options{src}); len(opts) {
|
||
|
case 0:
|
||
|
return nil
|
||
|
case 1:
|
||
|
return opts[0]
|
||
|
default:
|
||
|
return opts
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// flattenOptions copies all options in src to dst as a flat list.
|
||
|
// Only coreOptions and Options containing coreOptions are allowed.
|
||
|
func flattenOptions(dst, src Options) Options {
|
||
|
for _, opt := range src {
|
||
|
switch opt := opt.(type) {
|
||
|
case nil:
|
||
|
continue
|
||
|
case Options:
|
||
|
dst = flattenOptions(dst, opt)
|
||
|
case coreOption:
|
||
|
dst = append(dst, opt)
|
||
|
default:
|
||
|
panic(fmt.Sprintf("invalid option type: %T", opt))
|
||
|
}
|
||
|
}
|
||
|
return dst
|
||
|
}
|