waveterm/pkg/vdom/vdom.go

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// Copyright 2024, Command Line Inc.
// SPDX-License-Identifier: Apache-2.0
package vdom
import (
"context"
"encoding/json"
"fmt"
"log"
"reflect"
"strconv"
"strings"
"unicode"
"github.com/wavetermdev/waveterm/pkg/util/utilfn"
)
// ReactNode types = nil | string | Elem
// generic hook structure
type Hook struct {
Init bool // is initialized
Idx int // index in the hook array
Fn func() func() // for useEffect
UnmountFn func() // for useEffect
Val any // for useState, useMemo, useRef
Deps []any
}
type Component[P any] func(props P) *VDomElem
type styleAttrWrapper struct {
StyleAttr string
Val any
}
type classAttrWrapper struct {
ClassName string
Cond bool
}
type styleAttrMapWrapper struct {
StyleAttrMap map[string]any
}
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func (e *VDomElem) Key() string {
keyVal, ok := e.Props[KeyPropKey]
if !ok {
return ""
}
keyStr, ok := keyVal.(string)
if ok {
return keyStr
}
return ""
}
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func TextElem(text string) VDomElem {
return VDomElem{Tag: TextTag, Text: text}
}
func mergeProps(props *map[string]any, newProps map[string]any) {
if *props == nil {
*props = make(map[string]any)
}
for k, v := range newProps {
if v == nil {
delete(*props, k)
continue
}
(*props)[k] = v
}
}
func mergeStyleAttr(props *map[string]any, styleAttr styleAttrWrapper) {
if *props == nil {
*props = make(map[string]any)
}
if (*props)["style"] == nil {
(*props)["style"] = make(map[string]any)
}
styleMap, ok := (*props)["style"].(map[string]any)
if !ok {
return
}
styleMap[styleAttr.StyleAttr] = styleAttr.Val
}
func mergeClassAttr(props *map[string]any, classAttr classAttrWrapper) {
if *props == nil {
*props = make(map[string]any)
}
if classAttr.Cond {
if (*props)["className"] == nil {
(*props)["className"] = classAttr.ClassName
return
}
classVal, ok := (*props)["className"].(string)
if !ok {
return
}
// check if class already exists (must split, contains won't work)
splitArr := strings.Split(classVal, " ")
for _, class := range splitArr {
if class == classAttr.ClassName {
return
}
}
(*props)["className"] = classVal + " " + classAttr.ClassName
} else {
classVal, ok := (*props)["className"].(string)
if !ok {
return
}
splitArr := strings.Split(classVal, " ")
for i, class := range splitArr {
if class == classAttr.ClassName {
splitArr = append(splitArr[:i], splitArr[i+1:]...)
break
}
}
if len(splitArr) == 0 {
delete(*props, "className")
} else {
(*props)["className"] = strings.Join(splitArr, " ")
}
}
}
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func E(tag string, parts ...any) *VDomElem {
rtn := &VDomElem{Tag: tag}
for _, part := range parts {
if part == nil {
continue
}
props, ok := part.(map[string]any)
if ok {
mergeProps(&rtn.Props, props)
continue
}
if styleAttr, ok := part.(styleAttrWrapper); ok {
mergeStyleAttr(&rtn.Props, styleAttr)
continue
}
if styleAttrMap, ok := part.(styleAttrMapWrapper); ok {
for k, v := range styleAttrMap.StyleAttrMap {
mergeStyleAttr(&rtn.Props, styleAttrWrapper{StyleAttr: k, Val: v})
}
continue
}
if classAttr, ok := part.(classAttrWrapper); ok {
mergeClassAttr(&rtn.Props, classAttr)
continue
}
elems := partToElems(part)
rtn.Children = append(rtn.Children, elems...)
}
return rtn
}
func Class(name string) classAttrWrapper {
return classAttrWrapper{ClassName: name, Cond: true}
}
func ClassIf(cond bool, name string) classAttrWrapper {
return classAttrWrapper{ClassName: name, Cond: cond}
}
func ClassIfElse(cond bool, name string, elseName string) classAttrWrapper {
if cond {
return classAttrWrapper{ClassName: name, Cond: true}
}
return classAttrWrapper{ClassName: elseName, Cond: true}
}
func If(cond bool, part any) any {
if cond {
return part
}
return nil
}
func IfElse(cond bool, part any, elsePart any) any {
if cond {
return part
}
return elsePart
}
func ForEach[T any](items []T, fn func(T) any) []any {
var elems []any
for _, item := range items {
fnResult := fn(item)
elems = append(elems, fnResult)
}
return elems
}
func ForEachIdx[T any](items []T, fn func(T, int) any) []any {
var elems []any
for idx, item := range items {
fnResult := fn(item, idx)
elems = append(elems, fnResult)
}
return elems
}
func Props(props any) map[string]any {
m, err := utilfn.StructToMap(props)
if err != nil {
return nil
}
return m
}
func PStyle(styleAttr string, propVal any) any {
return styleAttrWrapper{StyleAttr: styleAttr, Val: propVal}
}
func Fragment(parts ...any) any {
return parts
}
func P(propName string, propVal any) any {
if propVal == nil {
return map[string]any{propName: nil}
}
if propName == "style" {
strVal, ok := propVal.(string)
if ok {
styleMap, err := styleAttrStrToStyleMap(strVal, nil)
if err == nil {
return styleAttrMapWrapper{StyleAttrMap: styleMap}
}
log.Printf("Error parsing style attribute: %v\n", err)
return nil
}
}
return map[string]any{propName: propVal}
}
func getHookFromCtx(ctx context.Context) (*VDomContextVal, *Hook) {
vc := getRenderContext(ctx)
if vc == nil {
panic("UseState must be called within a component (no context)")
}
if vc.Comp == nil {
panic("UseState must be called within a component (vc.Comp is nil)")
}
for len(vc.Comp.Hooks) <= vc.HookIdx {
vc.Comp.Hooks = append(vc.Comp.Hooks, &Hook{Idx: len(vc.Comp.Hooks)})
}
hookVal := vc.Comp.Hooks[vc.HookIdx]
vc.HookIdx++
return vc, hookVal
}
func UseState[T any](ctx context.Context, initialVal T) (T, func(T)) {
vc, hookVal := getHookFromCtx(ctx)
if !hookVal.Init {
hookVal.Init = true
hookVal.Val = initialVal
}
var rtnVal T
rtnVal, ok := hookVal.Val.(T)
if !ok {
panic("UseState hook value is not a state (possible out of order or conditional hooks)")
}
setVal := func(newVal T) {
hookVal.Val = newVal
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vc.Root.AddRenderWork(vc.Comp.WaveId)
}
return rtnVal, setVal
}
func UseStateWithFn[T any](ctx context.Context, initialVal T) (T, func(T), func(func(T) T)) {
vc, hookVal := getHookFromCtx(ctx)
if !hookVal.Init {
hookVal.Init = true
hookVal.Val = initialVal
}
var rtnVal T
rtnVal, ok := hookVal.Val.(T)
if !ok {
panic("UseState hook value is not a state (possible out of order or conditional hooks)")
}
setVal := func(newVal T) {
hookVal.Val = newVal
vc.Root.AddRenderWork(vc.Comp.WaveId)
}
setFuncVal := func(updateFunc func(T) T) {
hookVal.Val = updateFunc(hookVal.Val.(T))
vc.Root.AddRenderWork(vc.Comp.WaveId)
}
return rtnVal, setVal, setFuncVal
}
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func UseAtom[T any](ctx context.Context, atomName string) (T, func(T)) {
vc, hookVal := getHookFromCtx(ctx)
if !hookVal.Init {
hookVal.Init = true
closedWaveId := vc.Comp.WaveId
hookVal.UnmountFn = func() {
atom := vc.Root.GetAtom(atomName)
delete(atom.UsedBy, closedWaveId)
}
}
atom := vc.Root.GetAtom(atomName)
atom.UsedBy[vc.Comp.WaveId] = true
atomVal, ok := atom.Val.(T)
if !ok {
panic(fmt.Sprintf("UseAtom %q value type mismatch (expected %T, got %T)", atomName, atomVal, atom.Val))
}
setVal := func(newVal T) {
atom.Val = newVal
for waveId := range atom.UsedBy {
vc.Root.AddRenderWork(waveId)
}
}
return atomVal, setVal
}
func UseVDomRef(ctx context.Context) *VDomRef {
vc, hookVal := getHookFromCtx(ctx)
if !hookVal.Init {
hookVal.Init = true
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refId := vc.Comp.WaveId + ":" + strconv.Itoa(hookVal.Idx)
hookVal.Val = &VDomRef{Type: ObjectType_Ref, RefId: refId}
}
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refVal, ok := hookVal.Val.(*VDomRef)
if !ok {
panic("UseRef hook value is not a ref (possible out of order or conditional hooks)")
}
return refVal
}
func UseRef[T any](ctx context.Context, val T) *VDomSimpleRef[T] {
_, hookVal := getHookFromCtx(ctx)
if !hookVal.Init {
hookVal.Init = true
hookVal.Val = &VDomSimpleRef[T]{Current: val}
}
refVal, ok := hookVal.Val.(*VDomSimpleRef[T])
if !ok {
panic("UseRef hook value is not a ref (possible out of order or conditional hooks)")
}
return refVal
}
func UseId(ctx context.Context) string {
vc := getRenderContext(ctx)
if vc == nil {
panic("UseId must be called within a component (no context)")
}
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return vc.Comp.WaveId
}
func UseRenderTs(ctx context.Context) int64 {
vc := getRenderContext(ctx)
if vc == nil {
panic("UseRenderTs must be called within a component (no context)")
}
return vc.Root.RenderTs
}
func QueueRefOp(ctx context.Context, ref *VDomRef, op VDomRefOperation) {
if ref == nil || !ref.HasCurrent {
return
}
vc := getRenderContext(ctx)
if vc == nil {
panic("QueueRefOp must be called within a component (no context)")
}
if op.RefId == "" {
op.RefId = ref.RefId
}
vc.Root.QueueRefOp(op)
}
func depsEqual(deps1 []any, deps2 []any) bool {
if len(deps1) != len(deps2) {
return false
}
for i := range deps1 {
if deps1[i] != deps2[i] {
return false
}
}
return true
}
func UseEffect(ctx context.Context, fn func() func(), deps []any) {
// note UseEffect never actually runs anything, it just queues the effect to run later
vc, hookVal := getHookFromCtx(ctx)
if !hookVal.Init {
hookVal.Init = true
hookVal.Fn = fn
hookVal.Deps = deps
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vc.Root.AddEffectWork(vc.Comp.WaveId, hookVal.Idx)
return
}
if depsEqual(hookVal.Deps, deps) {
return
}
hookVal.Fn = fn
hookVal.Deps = deps
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vc.Root.AddEffectWork(vc.Comp.WaveId, hookVal.Idx)
}
func numToString[T any](value T) (string, bool) {
switch v := any(value).(type) {
case int, int8, int16, int32, int64:
return strconv.FormatInt(v.(int64), 10), true
case uint, uint8, uint16, uint32, uint64:
return strconv.FormatUint(v.(uint64), 10), true
case float32:
return strconv.FormatFloat(float64(v), 'f', -1, 32), true
case float64:
return strconv.FormatFloat(v, 'f', -1, 64), true
default:
return "", false
}
}
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func partToElems(part any) []VDomElem {
if part == nil {
return nil
}
switch part := part.(type) {
case string:
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return []VDomElem{TextElem(part)}
case *VDomElem:
if part == nil {
return nil
}
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return []VDomElem{*part}
case VDomElem:
return []VDomElem{part}
case []VDomElem:
return part
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case []*VDomElem:
var rtn []VDomElem
for _, e := range part {
if e == nil {
continue
}
rtn = append(rtn, *e)
}
return rtn
}
sval, ok := numToString(part)
if ok {
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return []VDomElem{TextElem(sval)}
}
partVal := reflect.ValueOf(part)
if partVal.Kind() == reflect.Slice {
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var rtn []VDomElem
for i := 0; i < partVal.Len(); i++ {
subPart := partVal.Index(i).Interface()
rtn = append(rtn, partToElems(subPart)...)
}
return rtn
}
stringer, ok := part.(fmt.Stringer)
if ok {
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return []VDomElem{TextElem(stringer.String())}
}
jsonStr, jsonErr := json.Marshal(part)
if jsonErr == nil {
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return []VDomElem{TextElem(string(jsonStr))}
}
typeText := "invalid:" + reflect.TypeOf(part).String()
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return []VDomElem{TextElem(typeText)}
}
func isWaveTag(tag string) bool {
return strings.HasPrefix(tag, "wave:") || strings.HasPrefix(tag, "w:")
}
func isBaseTag(tag string) bool {
if len(tag) == 0 {
return false
}
return tag[0] == '#' || unicode.IsLower(rune(tag[0])) || isWaveTag(tag)
}