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use std;
use std::error::Error;
use std::io::Write;
use std::rc::Rc;
use super::traits::{ConvertResult, Converter};
use crate::build::Val;
use crate::error::BuildError;
use crate::error::ErrorType;
use xml::common::XmlVersion;
use xml::writer::events::XmlEvent;
use xml::writer::EventWriter;
use xml::EmitterConfig;
pub struct XmlConverter {}
impl XmlConverter {
fn get_str_val(v: &Val) -> std::result::Result<&str, Box<dyn Error>> {
if let Val::Str(ref s) = v {
Ok(s)
} else {
Err(BuildError::new("Not a String value", ErrorType::TypeFail).to_boxed())
}
}
fn get_tuple_val(v: &Val) -> std::result::Result<&Vec<(String, Rc<Val>)>, Box<dyn Error>> {
if let Val::Tuple(ref fs) = v {
Ok(fs)
} else {
Err(BuildError::new("Not a tuple value", ErrorType::TypeFail).to_boxed())
}
}
fn get_list_val(v: &Val) -> std::result::Result<&Vec<Rc<Val>>, Box<dyn Error>> {
if let Val::List(ref fs) = v {
Ok(fs)
} else {
Err(BuildError::new("Not a List value", ErrorType::TypeFail).to_boxed())
}
}
fn write_node<W: std::io::Write>(&self, v: &Val, w: &mut EventWriter<W>) -> ConvertResult {
if let Val::Tuple(ref fs) = v {
let mut name: Option<&str> = None;
let mut attrs: Option<&Vec<(String, Rc<Val>)>> = None;
let mut children: Option<&Vec<Rc<Val>>> = None;
let mut text: Option<&str> = None;
let mut ns: Option<(&str, &str)> = None;
for (ref field, ref val) in fs.iter() {
if field == "name" {
name = Some(Self::get_str_val(val.as_ref())?);
}
if field == "ns" {
if let Val::Tuple(ref fs) = val.as_ref() {
let mut prefix = "";
let mut uri = "";
for (ref name, ref val) in fs.iter() {
if val.is_empty() {
continue;
}
if name == "uri" {
uri = Self::get_str_val(val.as_ref())?;
}
if name == "prefix" {
prefix = Self::get_str_val(val.as_ref())?;
}
}
if uri != "" && prefix != "" {
ns = Some((prefix, uri));
}
} else if let Val::Str(ref s) = val.as_ref() {
ns = Some(("", s));
}
}
if field == "attrs" {
if !val.is_empty() {
attrs = Some(Self::get_tuple_val(val.as_ref())?);
}
}
if field == "children" {
if !val.is_empty() {
children = Some(Self::get_list_val(val.as_ref())?);
}
}
if field == "text" {
if !val.is_empty() {
text = Some(Self::get_str_val(val.as_ref())?);
}
}
}
if name.is_some() && text.is_some() {
return Err(BuildError::new(
"XML nodes can not have both text and name fields",
ErrorType::TypeFail,
)
.to_boxed());
}
if name.is_some() {
let mut start = XmlEvent::start_element(name.unwrap());
if attrs.is_some() {
for (ref name, ref val) in attrs.unwrap().iter() {
if val.is_empty() {
continue;
}
start = start.attr(name.as_ref(), Self::get_str_val(val.as_ref())?);
}
}
if let Some((prefix, uri)) = ns {
if prefix == "" {
start = start.default_ns(uri);
} else {
start = start.ns(prefix, uri);
}
}
w.write(start)?;
if children.is_some() {
for child in children.unwrap().iter() {
self.write_node(child.as_ref(), w)?;
}
}
w.write(XmlEvent::end_element())?;
}
if text.is_some() {
w.write(XmlEvent::characters(text.unwrap()))?;
}
} else if let Val::Str(ref s) = v {
w.write(XmlEvent::characters(s.as_ref()))?;
} else {
return Err(BuildError::new(
"XML nodes must be a Tuple or a string",
ErrorType::TypeFail,
)
.to_boxed());
}
Ok(())
}
fn write(&self, v: &Val, w: &mut dyn Write) -> ConvertResult {
if let Val::Tuple(ref fs) = v {
let mut version: Option<&str> = None;
let mut encoding: Option<&str> = None;
let mut standalone: Option<bool> = None;
let mut root: Option<Rc<Val>> = None;
for &(ref name, ref val) in fs.iter() {
if name == "version" {
version = Some(Self::get_str_val(val)?);
}
if name == "encoding" {
encoding = Some(Self::get_str_val(val)?);
}
if name == "standalone" {
standalone = match val.as_ref() {
Val::Boolean(b) => Some(*b),
_ => None,
};
}
if name == "root" {
root = Some(val.clone());
}
}
match root {
Some(n) => {
let mut writer = EmitterConfig::new()
.perform_indent(true)
.normalize_empty_elements(false)
.create_writer(w);
let version = match version {
Some(s) => {
if s == "1.0" {
Some(XmlVersion::Version10)
} else if s == "1.1" {
Some(XmlVersion::Version11)
} else {
return Err(BuildError::new(
"XML version must be either 1.0 or 1.1",
ErrorType::TypeFail,
)
.to_boxed());
}
}
None => None,
};
writer.write(XmlEvent::StartDocument {
version: version.unwrap_or(XmlVersion::Version10),
encoding: encoding,
standalone: standalone,
})?;
self.write_node(n.as_ref(), &mut writer)
}
None => Err(BuildError::new(
"XML doc tuples must have a root field",
ErrorType::TypeFail,
)
.to_boxed()),
}
} else {
Err(BuildError::new("XML outputs must be a Tuple", ErrorType::TypeFail).to_boxed())
}
}
}
impl Converter for XmlConverter {
fn convert(&self, v: Rc<Val>, mut w: &mut dyn Write) -> ConvertResult {
self.write(&v, &mut w)
}
fn file_ext(&self) -> String {
String::from("xml")
}
fn description(&self) -> String {
String::from("Convert a ucg DSL into xml.")
}
#[allow(unused_must_use)]
fn help(&self) -> String {
include_str!("xml_help.txt").to_string()
}
}