waveterm/pkg/vdom/vdom_html.go
2024-10-17 14:50:36 -07:00

380 lines
8.7 KiB
Go

// Copyright 2024, Command Line Inc.
// SPDX-License-Identifier: Apache-2.0
package vdom
import (
"errors"
"fmt"
"io"
"strings"
"github.com/wavetermdev/htmltoken"
"github.com/wavetermdev/waveterm/pkg/vdom/cssparser"
)
// can tokenize and bind HTML to Elems
const Html_BindPrefix = "#bind:"
const Html_ParamPrefix = "#param:"
const Html_GlobalEventPrefix = "#globalevent"
const Html_BindParamTagName = "bindparam"
const Html_BindTagName = "bind"
func appendChildToStack(stack []*VDomElem, child *VDomElem) {
if child == nil {
return
}
if len(stack) == 0 {
return
}
parent := stack[len(stack)-1]
parent.Children = append(parent.Children, *child)
}
func pushElemStack(stack []*VDomElem, elem *VDomElem) []*VDomElem {
if elem == nil {
return stack
}
return append(stack, elem)
}
func popElemStack(stack []*VDomElem) []*VDomElem {
if len(stack) <= 1 {
return stack
}
curElem := stack[len(stack)-1]
appendChildToStack(stack[:len(stack)-1], curElem)
return stack[:len(stack)-1]
}
func curElemTag(stack []*VDomElem) string {
if len(stack) == 0 {
return ""
}
return stack[len(stack)-1].Tag
}
func finalizeStack(stack []*VDomElem) *VDomElem {
if len(stack) == 0 {
return nil
}
for len(stack) > 1 {
stack = popElemStack(stack)
}
rtnElem := stack[0]
if len(rtnElem.Children) == 0 {
return nil
}
if len(rtnElem.Children) == 1 {
return &rtnElem.Children[0]
}
return rtnElem
}
func getAttr(token htmltoken.Token, key string) string {
for _, attr := range token.Attr {
if attr.Key == key {
return attr.Val
}
}
return ""
}
func attrToProp(attrVal string, params map[string]any) any {
if strings.HasPrefix(attrVal, Html_ParamPrefix) {
bindKey := attrVal[len(Html_ParamPrefix):]
bindVal, ok := params[bindKey]
if !ok {
return nil
}
return bindVal
}
if strings.HasPrefix(attrVal, Html_BindPrefix) {
bindKey := attrVal[len(Html_BindPrefix):]
if bindKey == "" {
return nil
}
return &VDomBinding{Type: ObjectType_Binding, Bind: bindKey}
}
if strings.HasPrefix(attrVal, Html_GlobalEventPrefix) {
splitArr := strings.Split(attrVal, ":")
if len(splitArr) < 2 {
return nil
}
eventName := splitArr[1]
if eventName == "" {
return nil
}
return &VDomFunc{Type: ObjectType_Func, GlobalEvent: eventName}
}
return attrVal
}
func tokenToElem(token htmltoken.Token, params map[string]any) *VDomElem {
elem := &VDomElem{Tag: token.Data}
if len(token.Attr) > 0 {
elem.Props = make(map[string]any)
}
for _, attr := range token.Attr {
if attr.Key == "" || attr.Val == "" {
continue
}
propVal := attrToProp(attr.Val, params)
elem.Props[attr.Key] = propVal
}
return elem
}
func isWsChar(char rune) bool {
return char == ' ' || char == '\t' || char == '\n' || char == '\r'
}
func isWsByte(char byte) bool {
return char == ' ' || char == '\t' || char == '\n' || char == '\r'
}
func isFirstCharLt(s string) bool {
for _, char := range s {
if isWsChar(char) {
continue
}
return char == '<'
}
return false
}
func isLastCharGt(s string) bool {
for i := len(s) - 1; i >= 0; i-- {
char := s[i]
if isWsByte(char) {
continue
}
return char == '>'
}
return false
}
func isAllWhitespace(s string) bool {
for _, char := range s {
if !isWsChar(char) {
return false
}
}
return true
}
func trimWhitespaceConditionally(s string) string {
// Trim leading whitespace if the first non-whitespace character is '<'
if isAllWhitespace(s) {
return ""
}
if isFirstCharLt(s) {
s = strings.TrimLeftFunc(s, func(r rune) bool {
return isWsChar(r)
})
}
// Trim trailing whitespace if the last non-whitespace character is '>'
if isLastCharGt(s) {
s = strings.TrimRightFunc(s, func(r rune) bool {
return isWsChar(r)
})
}
return s
}
func processWhitespace(htmlStr string) string {
lines := strings.Split(htmlStr, "\n")
var newLines []string
for _, line := range lines {
trimmedLine := trimWhitespaceConditionally(line + "\n")
if trimmedLine == "" {
continue
}
newLines = append(newLines, trimmedLine)
}
return strings.Join(newLines, "")
}
func processTextStr(s string) string {
if s == "" {
return ""
}
if isAllWhitespace(s) {
return " "
}
return strings.TrimSpace(s)
}
func makePathStr(elemPath []string) string {
return strings.Join(elemPath, " ")
}
func capitalizeAscii(s string) string {
if s == "" || s[0] < 'a' || s[0] > 'z' {
return s
}
return strings.ToUpper(s[:1]) + s[1:]
}
func toReactName(input string) string {
// Check for CSS custom properties (variables) which start with '--'
if strings.HasPrefix(input, "--") {
return input
}
parts := strings.Split(input, "-")
result := ""
index := 0
if parts[0] == "" && len(parts) > 1 {
// handle vendor prefixes
prefix := parts[1]
if prefix == "ms" {
result += "ms"
} else {
result += capitalizeAscii(prefix)
}
index = 2 // Skip the empty string and prefix
} else {
result += parts[0]
index = 1
}
// Convert remaining parts to CamelCase
for ; index < len(parts); index++ {
if parts[index] != "" {
result += capitalizeAscii(parts[index])
}
}
return result
}
func convertStyleToReactStyles(styleMap map[string]string, params map[string]any) map[string]any {
if len(styleMap) == 0 {
return nil
}
rtn := make(map[string]any)
for key, val := range styleMap {
rtn[toReactName(key)] = attrToProp(val, params)
}
return rtn
}
func fixStyleAttribute(elem *VDomElem, params map[string]any, elemPath []string) error {
styleText, ok := elem.Props["style"].(string)
if !ok {
return nil
}
parser := cssparser.MakeParser(styleText)
m, err := parser.Parse()
if err != nil {
return fmt.Errorf("%v (at %s)", err, makePathStr(elemPath))
}
elem.Props["style"] = convertStyleToReactStyles(m, params)
return nil
}
func fixupStyleAttributes(elem *VDomElem, params map[string]any, elemPath []string) {
if elem == nil {
return
}
// call fixStyleAttribute, and walk children
elemCountMap := make(map[string]int)
if len(elemPath) == 0 {
elemPath = append(elemPath, elem.Tag)
}
fixStyleAttribute(elem, params, elemPath)
for i := range elem.Children {
child := &elem.Children[i]
elemCountMap[child.Tag]++
subPath := child.Tag
if elemCountMap[child.Tag] > 1 {
subPath = fmt.Sprintf("%s[%d]", child.Tag, elemCountMap[child.Tag])
}
elemPath = append(elemPath, subPath)
fixupStyleAttributes(&elem.Children[i], params, elemPath)
elemPath = elemPath[:len(elemPath)-1]
}
}
func Bind(htmlStr string, params map[string]any) *VDomElem {
htmlStr = processWhitespace(htmlStr)
r := strings.NewReader(htmlStr)
iter := htmltoken.NewTokenizer(r)
var elemStack []*VDomElem
elemStack = append(elemStack, &VDomElem{Tag: FragmentTag})
var tokenErr error
outer:
for {
tokenType := iter.Next()
token := iter.Token()
switch tokenType {
case htmltoken.StartTagToken:
if token.Data == Html_BindTagName || token.Data == Html_BindParamTagName {
tokenErr = errors.New("bind tags must be self closing")
break outer
}
elem := tokenToElem(token, params)
elemStack = pushElemStack(elemStack, elem)
case htmltoken.EndTagToken:
if token.Data == Html_BindTagName || token.Data == Html_BindParamTagName {
tokenErr = errors.New("bind tags must be self closing")
break outer
}
if len(elemStack) <= 1 {
tokenErr = fmt.Errorf("end tag %q without start tag", token.Data)
break outer
}
if curElemTag(elemStack) != token.Data {
tokenErr = fmt.Errorf("end tag %q does not match start tag %q", token.Data, curElemTag(elemStack))
break outer
}
elemStack = popElemStack(elemStack)
case htmltoken.SelfClosingTagToken:
if token.Data == Html_BindParamTagName {
keyAttr := getAttr(token, "key")
dataVal := params[keyAttr]
elemList := partToElems(dataVal)
for _, elem := range elemList {
appendChildToStack(elemStack, &elem)
}
continue
}
if token.Data == Html_BindTagName {
keyAttr := getAttr(token, "key")
binding := &VDomBinding{Type: ObjectType_Binding, Bind: keyAttr}
appendChildToStack(elemStack, &VDomElem{Tag: WaveTextTag, Props: map[string]any{"text": binding}})
continue
}
elem := tokenToElem(token, params)
appendChildToStack(elemStack, elem)
case htmltoken.TextToken:
if token.Data == "" {
continue
}
textStr := processTextStr(token.Data)
if textStr == "" {
continue
}
elem := TextElem(textStr)
appendChildToStack(elemStack, &elem)
case htmltoken.CommentToken:
continue
case htmltoken.DoctypeToken:
tokenErr = errors.New("doctype not supported")
break outer
case htmltoken.ErrorToken:
if iter.Err() == io.EOF {
break outer
}
tokenErr = iter.Err()
break outer
}
}
if tokenErr != nil {
errTextElem := TextElem(tokenErr.Error())
appendChildToStack(elemStack, &errTextElem)
}
rtn := finalizeStack(elemStack)
fixupStyleAttributes(rtn, params, nil)
return rtn
}