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diff_examples_test.go
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diff_examples_test.go
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package diff_test
import (
"fmt"
"math/big"
"reflect"
"github.com/r3labs/diff/v3"
)
//Try to do a bunch of stuff that will result in some or all failures
//when trying to apply either a valid or invalid changelog
func ExamplePatchWithErrors() {
type Fruit struct {
ID int `diff:"ID" json:"Identifier"`
Name string `diff:"name"`
Healthy bool `diff:"-"`
Nutrients []string `diff:"nutrients"`
Labels map[string]int `diff:"labs"`
}
type Bat struct {
ID string `diff:"ID"`
Name string `diff:"-"`
}
a := Fruit{
ID: 1,
Name: "Green Apple",
Healthy: true,
Nutrients: []string{
"vitamin a",
"vitamin b",
"vitamin c",
"vitamin d",
},
Labels: make(map[string]int),
}
a.Labels["likes"] = 10
a.Labels["colors"] = 2
b := Fruit{
ID: 2,
Name: "Red Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
"vitamin e",
},
Labels: make(map[string]int),
}
b.Labels["forests"] = 1223
b.Labels["colors"] = 1222
c := Fruit{
Labels: make(map[string]int),
Nutrients: []string{
"vitamin c",
"vitamin d",
"vitamin a",
},
}
c.Labels["likes"] = 21
c.Labels["colors"] = 42
d := Bat{
ID: "first",
Name: "second",
}
changelog, err := diff.Diff(a, b)
if err != nil {
panic(err)
}
//This fails in total because c is not assignable (passed by Value)
patchLog := diff.Patch(changelog, c)
//this also demonstrated the nested errors with 'next'
errors := patchLog[0].Errors.(*diff.DiffError)
//we can also continue to nest errors if we like
message := errors.WithCause(diff.NewError("This is a custom message")).
WithCause(fmt.Errorf("this is an error from somewhere else but still compatible")).
Error()
//invoke a few failures, i.e. bad changelog
changelog[2].Path[1] = "bad index"
changelog[3].Path[0] = "bad struct field"
patchLog = diff.Patch(changelog, &c)
patchLog, _ = diff.Merge(a, nil, &c)
patchLog, _ = diff.Merge(a, d, &c)
//try patching a string
patchLog = diff.Patch(changelog, message)
//test an invalid change Value
var bad *diff.ChangeValue
if bad.IsValid() {
fmt.Print("this should never happen")
}
//Output:
}
//ExampleMerge demonstrates how to use the Merge function
func ExampleMerge() {
type Fruit struct {
ID int `diff:"ID" json:"Identifier"`
Name string `diff:"name"`
Healthy bool `diff:"healthy"`
Nutrients []string `diff:"nutrients,create,omitunequal"`
Labels map[string]int `diff:"labs,create"`
}
a := Fruit{
ID: 1,
Name: "Green Apple",
Healthy: true,
Nutrients: []string{
"vitamin a",
"vitamin b",
"vitamin c",
"vitamin d",
},
Labels: make(map[string]int),
}
a.Labels["likes"] = 10
a.Labels["colors"] = 2
b := Fruit{
ID: 2,
Name: "Red Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
"vitamin e",
},
Labels: make(map[string]int),
}
b.Labels["forests"] = 1223
b.Labels["colors"] = 1222
c := Fruit{
Labels: make(map[string]int),
Nutrients: []string{
"vitamin a",
"vitamin c",
"vitamin d",
},
}
c.Labels["likes"] = 21
c.Labels["colors"] = 42
//the only error that can happen here comes from the diff step
patchLog, _ := diff.Merge(a, b, &c)
//Note that unlike our patch version we've not included 'create' in the
//tag for nutrients. This will omit "vitamin e" from ending up in c
fmt.Printf("%#v", len(patchLog))
//Output: 8
}
//ExamplePrimitiveSlice demonstrates working with arrays and primitive values
func ExamplePrimitiveSlice() {
sla := []string{
"this",
"is",
"a",
"simple",
}
slb := []string{
"slice",
"That",
"can",
"be",
"diff'ed",
}
slc := []string{
"ok",
}
patch, err := diff.Diff(sla, slb, diff.StructMapKeySupport())
if err != nil {
fmt.Print("failed to diff sla and slb")
}
cl := diff.Patch(patch, &slc)
//now the other way, round
sla = []string{
"slice",
"That",
"can",
"be",
"diff'ed",
}
slb = []string{
"this",
"is",
"a",
"simple",
}
patch, err = diff.Diff(sla, slb)
if err != nil {
fmt.Print("failed to diff sla and slb")
}
cl = diff.Patch(patch, &slc)
//and finally a clean view
sla = []string{
"slice",
"That",
"can",
"be",
"diff'ed",
}
slb = []string{}
patch, err = diff.Diff(sla, slb)
if err != nil {
fmt.Print("failed to diff sla and slb")
}
cl = diff.Patch(patch, &slc)
fmt.Printf("%d changes made to string array; %v", len(cl), slc)
//Output: 5 changes made to string array; [simple a]
}
//ExampleComplexMapPatch demonstrates how to use the Patch function for complex slices
//NOTE: There is a potential pitfall here, take a close look at b[2]. If patching the
// original, the operation will work intuitively however, in a merge situation we
// may not get everything we expect because it's a true diff between a and b and
// the diff log will not contain enough information to fully recreate b from an
// empty slice. This is exemplified in that the test "colors" is dropped in element
// 3 of c. Change "colors" to "color" and see what happens. Keep in mind this only
// happens when we need to allocate a new complex element. In normal operations we
// fix for this by keeping a copy of said element in the diff log (as parent) and
// allocate such an element as a whole copy prior to applying any updates?
//
// The new default is to carry this information forward, we invoke this pitfall
// by creating such a situation and explicitly telling diff to discard the parent
// In memory constrained environments if the developer is careful, they can use
// the discard feature but unless you REALLY understand what's happening here, use
// the default.
func ExampleComplexSlicePatch() {
type Content struct {
Text string `diff:",create"`
Number int `diff:",create"`
}
type Attributes struct {
Labels []Content `diff:",create"`
}
a := Attributes{
Labels: []Content{
{
Text: "likes",
Number: 10,
},
{
Text: "forests",
Number: 10,
},
{
Text: "colors",
Number: 2,
},
},
}
b := Attributes{
Labels: []Content{
{
Text: "forests",
Number: 14,
},
{
Text: "location",
Number: 0x32,
},
{
Text: "colors",
Number: 1222,
},
{
Text: "trees",
Number: 34,
},
},
}
c := Attributes{}
changelog, err := diff.Diff(a, b, diff.DiscardComplexOrigin(), diff.StructMapKeySupport())
if err != nil {
panic(err)
}
patchLog := diff.Patch(changelog, &c)
fmt.Printf("Patched %d entries and encountered %d errors", len(patchLog), patchLog.ErrorCount())
//Output: Patched 7 entries and encountered 3 errors
}
//ExampleComplexMapPatch demonstrates how to use the Patch function for complex slices.
func ExampleComplexMapPatch() {
type Key struct {
Value string
weight int
}
type Content struct {
Text string
Number float64
WholeNumber int
}
type Attributes struct {
Labels map[Key]Content
}
a := Attributes{
Labels: make(map[Key]Content),
}
a.Labels[Key{Value: "likes"}] = Content{
WholeNumber: 10,
Number: 23.4,
}
a.Labels[Key{Value: "colors"}] = Content{
WholeNumber: 2,
}
b := Attributes{
Labels: make(map[Key]Content),
}
b.Labels[Key{Value: "forests"}] = Content{
Text: "Sherwood",
}
b.Labels[Key{Value: "colors"}] = Content{
Number: 1222,
}
b.Labels[Key{Value: "latitude"}] = Content{
Number: 38.978797,
}
b.Labels[Key{Value: "longitude"}] = Content{
Number: -76.490986,
}
//c := Attributes{}
c := Attributes{
Labels: make(map[Key]Content),
}
c.Labels[Key{Value: "likes"}] = Content{
WholeNumber: 210,
Number: 23.4453,
}
changelog, err := diff.Diff(a, b)
if err != nil {
panic(err)
}
patchLog := diff.Patch(changelog, &c)
fmt.Printf("%#v", len(patchLog))
//Output: 7
}
//ExamplePatch demonstrates how to use the Patch function
func ExamplePatch() {
type Key struct {
value string
weight int
}
type Cycle struct {
Name string `diff:"name,create"`
Count int `diff:"count,create"`
}
type Fruit struct {
ID int `diff:"ID" json:"Identifier"`
Name string `diff:"name"`
Healthy bool `diff:"healthy"`
Nutrients []string `diff:"nutrients,create,omitunequal"`
Labels map[Key]Cycle `diff:"labs,create"`
Cycles []Cycle `diff:"cycles,immutable"`
Weights []int
}
a := Fruit{
ID: 1,
Name: "Green Apple",
Healthy: true,
Nutrients: []string{
"vitamin a",
"vitamin b",
"vitamin c",
"vitamin d",
},
Labels: make(map[Key]Cycle),
}
a.Labels[Key{value: "likes"}] = Cycle{
Count: 10,
}
a.Labels[Key{value: "colors"}] = Cycle{
Count: 2,
}
b := Fruit{
ID: 2,
Name: "Red Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
"vitamin e",
},
Labels: make(map[Key]Cycle),
Weights: []int{
1,
2,
3,
4,
},
}
b.Labels[Key{value: "forests"}] = Cycle{
Count: 1223,
}
b.Labels[Key{value: "colors"}] = Cycle{
Count: 1222,
}
c := Fruit{
//Labels: make(map[string]int),
Nutrients: []string{
"vitamin a",
"vitamin c",
"vitamin d",
},
}
//c.Labels["likes"] = 21
d := a
d.Cycles = []Cycle{
Cycle{
Name: "First",
Count: 45,
},
Cycle{
Name: "Third",
Count: 4,
},
}
d.Nutrients = append(d.Nutrients, "minerals")
changelog, err := diff.Diff(a, b)
if err != nil {
panic(err)
}
patchLog := diff.Patch(changelog, &c)
changelog, _ = diff.Diff(a, d)
patchLog = diff.Patch(changelog, &c)
fmt.Printf("%#v", len(patchLog))
//Output: 1
}
func ExampleDiff() {
type Tag struct {
Name string `diff:"name,identifier"`
Value string `diff:"value"`
}
type Fruit struct {
ID int `diff:"id"`
Name string `diff:"name"`
Healthy bool `diff:"healthy"`
Nutrients []string `diff:"nutrients"`
Tags []Tag `diff:"tags"`
}
a := Fruit{
ID: 1,
Name: "Green Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
},
Tags: []Tag{
{
Name: "kind",
Value: "fruit",
},
},
}
b := Fruit{
ID: 2,
Name: "Red Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
"vitamin e",
},
Tags: []Tag{
{
Name: "popularity",
Value: "high",
},
{
Name: "kind",
Value: "fruit",
},
},
}
changelog, err := diff.Diff(a, b)
if err != nil {
panic(err)
}
fmt.Printf("%#v", changelog)
// Produces: diff.Changelog{diff.Change{Type:"update", Path:[]string{"id"}, From:1, To:2}, diff.Change{Type:"update", Path:[]string{"name"}, From:"Green Apple", To:"Red Apple"}, diff.Change{Type:"create", Path:[]string{"nutrients", "2"}, From:interface {}(nil), To:"vitamin e"}, diff.Change{Type:"create", Path:[]string{"tags", "popularity"}, From:interface {}(nil), To:main.Tag{Name:"popularity", Value:"high"}}}
}
func ExampleFilter() {
type Tag struct {
Name string `diff:"name,identifier"`
Value string `diff:"value"`
}
type Fruit struct {
ID int `diff:"id"`
Name string `diff:"name"`
Healthy bool `diff:"healthy"`
Nutrients []string `diff:"nutrients"`
Tags []Tag `diff:"tags"`
}
a := Fruit{
ID: 1,
Name: "Green Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
},
}
b := Fruit{
ID: 2,
Name: "Red Apple",
Healthy: true,
Nutrients: []string{
"vitamin c",
"vitamin d",
"vitamin e",
},
}
d, err := diff.NewDiffer(diff.Filter(func(path []string, parent reflect.Type, field reflect.StructField) bool {
return field.Name != "Name"
}))
if err != nil {
panic(err)
}
changelog, err := d.Diff(a, b)
if err != nil {
panic(err)
}
fmt.Printf("%#v", changelog)
// Output: diff.Changelog{diff.Change{Type:"update", Path:[]string{"id"}, From:1, To:2, parent:diff_test.Fruit{ID:1, Name:"Green Apple", Healthy:true, Nutrients:[]string{"vitamin c", "vitamin d"}, Tags:[]diff_test.Tag(nil)}}, diff.Change{Type:"create", Path:[]string{"nutrients", "2"}, From:interface {}(nil), To:"vitamin e", parent:interface {}(nil)}}
}
func ExamplePrivatePtr() {
type number struct {
value *big.Int
exp int32
}
a := number{}
b := number{value: big.NewInt(111)}
changelog, err := diff.Diff(a, b)
if err != nil {
panic(err)
}
fmt.Printf("%#v", changelog)
// Output: diff.Changelog{diff.Change{Type:"update", Path:[]string{"value"}, From:interface {}(nil), To:111, parent:diff_test.number{value:(*big.Int)(nil), exp:0}}}
}