use leptos::html::{data, Data};
use regex::Regex;
use crate::counter::counter_commands::CommandType;
use crate::counter::counters::Counters;
use crate::parser_helpers::{BlockChildType, CellType, DataCell, DelimitedDisplayType};
use super::element_text::ElementText;
use super::helpers::*;
use std::str::Lines;
#[derive(Debug, Default)]
pub struct TagInfo {
pub name: String,
pub indent: usize,
pub is_self_closing: bool,
pub in_props: bool,
}
#[derive(Debug)]
pub struct Emitter<'a> {
pub tree: &'a DataCell,
pub self_closing_tags: Vec<&'a str>,
}
impl<'a> Emitter<'a> {
pub fn new(tree: &'a DataCell, self_closing_tags: Vec<&'a str>) -> Emitter<'a> {
Emitter {
tree,
self_closing_tags,
}
}
pub fn emit_json(&mut self, data_cell: &DataCell) -> String {
let mut output = String::new();
match &data_cell.cell_type {
CellType::Root(root) => {
root.children.iter().for_each(|child| {
output.push_str(&self.emit_json(child));
});
}
CellType::Element(el) => {
output.push_str(&format!("<{} ", el.name));
el.props.iter().for_each(|prop| {
output.push_str(&Self::handle_prop_line(&format!(
"{} {}",
prop.key, prop.value
)));
});
if self.self_closing_tags.contains(&el.name.as_str()) {
output.push_str(" />");
} else {
output.push_str(" >");
el.children.iter().for_each(|child| {
output.push_str(&self.emit_json(child));
});
if el.children.is_empty() {
output.push_str("\"\"");
}
output.push_str(&format!("</{}>", el.name));
}
}
CellType::Block(block) => {
let mut text_block = String::new();
let mut sub_text_block = String::new();
block
.children
.iter()
.enumerate()
.for_each(|(_, child)| match child {
BlockChildType::Text(text) => {
sub_text_block.push_str(&text.content);
}
BlockChildType::Delimited(dl) => {
if let Some(_) = &dl.wrapped_with {
if !sub_text_block.trim().is_empty() {
text_block
.push_str(&format!("\"#<{} class=\"text\">r#\"", "span"));
let text_el = ElementText::new(sub_text_block.as_str());
text_block.push_str(&text_el.handle_delimeters());
text_block.push_str(&format!("\"#</{}>r#\"", "span"));
}
sub_text_block = "".to_string();
sub_text_block.push_str(&dl.open_delimeter);
sub_text_block.push_str(&dl.terminal);
sub_text_block.push_str(&dl.close_delimeter);
let text_el = ElementText::new(sub_text_block.as_str());
text_block.push_str(&text_el.handle_delimeters());
sub_text_block = "".to_string();
} else if dl.display_type == DelimitedDisplayType::BLOCK {
sub_text_block = "".to_string();
sub_text_block.push_str(&dl.open_delimeter);
sub_text_block.push_str(&dl.terminal);
sub_text_block.push_str(&dl.close_delimeter);
let text_el = ElementText::new(sub_text_block.as_str());
text_block.push_str(&text_el.handle_delimeters());
sub_text_block = "".to_string();
} else {
sub_text_block.push_str(&dl.open_delimeter);
sub_text_block.push_str(&dl.terminal);
sub_text_block.push_str(&dl.close_delimeter);
}
}
});
if !sub_text_block.trim().is_empty() {
text_block.push_str(&format!("\"#<{} class=\"text\">r#\"", "span"));
let text_el = ElementText::new(sub_text_block.as_str());
text_block.push_str(&text_el.handle_delimeters());
text_block.push_str(&format!("\"#</{}>r#\"", "span"));
}
output.push_str(&format!("r#\"{}\"#", text_block));
}
_ => {}
}
output.replace("r#\"\"#", "")
}
fn handle_prop_line(line: &str) -> String {
let mut prop_line = line.trim().to_string();
let prop_value = prop_line.split_once(" ");
if let Some((prop_key, prop_value)) = prop_value {
let is_number = prop_value.trim().parse::<f32>();
let is_bool = prop_value.trim() == "false" || prop_value.trim() == "true";
let is_vec = prop_value.trim().starts_with("vec![");
if is_number.is_err() && !is_bool && !is_vec {
prop_line = match prop_key {
"src" => format!(" {}=\"/{}\"", prop_key.trim(), prop_value.trim()),
_ => format!(" {}=\"{}\"", prop_key.trim(), prop_value.trim()),
}
} else {
prop_line = format!(" {}={}", prop_key.trim(), prop_value.trim())
}
}
prop_line
}
}