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use std::collections::HashSet;
use std::fmt;
use serde_json::map::Entry;
use serde_json::{Number, Value};
use parser::*;
use self::expr_term::*;
use self::value_walker::JValueWalker;
mod cmp;
mod expr_term;
mod value_walker;
fn to_f64(n: &Number) -> f64 {
if n.is_i64() {
n.as_i64().unwrap() as f64
} else if n.is_f64() {
n.as_f64().unwrap()
} else {
n.as_u64().unwrap() as f64
}
}
fn abs_index(n: isize, len: usize) -> usize {
if n < 0_isize {
(n + len as isize).max(0) as usize
} else {
n.min(len as isize) as usize
}
}
#[derive(Debug, PartialEq)]
enum FilterKey {
String(String),
All,
}
pub enum JsonPathError {
EmptyPath,
EmptyValue,
CantFlatten(Vec<Value>),
Path(String),
Serde(String),
}
impl fmt::Debug for JsonPathError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{}", self)
}
}
impl fmt::Display for JsonPathError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
JsonPathError::EmptyPath => f.write_str("path not set"),
JsonPathError::EmptyValue => f.write_str("json value not set"),
JsonPathError::CantFlatten(values) => {
write!(f, "json value '{:?}' can't be flattened", values)
}
JsonPathError::Path(msg) => f.write_str(&format!("path error: \n{}\n", msg)),
JsonPathError::Serde(msg) => f.write_str(&format!("serde error: \n{}\n", msg)),
}
}
}
#[derive(Debug, Default)]
struct FilterTerms<'a>(Vec<Option<ExprTerm<'a>>>);
impl<'a> FilterTerms<'a> {
fn new_filter_context(&mut self) {
self.0.push(None);
debug!("new_filter_context: {:?}", self.0);
}
fn is_term_empty(&self) -> bool {
self.0.is_empty()
}
fn push_term(&mut self, term: Option<ExprTerm<'a>>) {
self.0.push(term);
}
#[allow(clippy::option_option)]
fn pop_term(&mut self) -> Option<Option<ExprTerm<'a>>> {
self.0.pop()
}
fn filter_json_term<
F: Fn(&Vec<&'a Value>, &mut Vec<&'a Value>, &mut HashSet<usize>) -> FilterKey,
>(
&mut self,
e: ExprTerm<'a>,
fun: F,
) {
debug!("filter_json_term: {:?}", e);
if let ExprTerm::Json(rel, fk, vec) = e {
let mut tmp = Vec::new();
let mut not_matched = HashSet::new();
let filter_key = if let Some(FilterKey::String(key)) = fk {
let key_contained = &vec
.iter()
.map(|v| match v {
Value::Object(map) if map.contains_key(&key) => map.get(&key).unwrap(),
_ => v,
})
.collect();
fun(key_contained, &mut tmp, &mut not_matched)
} else {
fun(&vec, &mut tmp, &mut not_matched)
};
if rel.is_some() {
self.0
.push(Some(ExprTerm::Json(rel, Some(filter_key), tmp)));
} else {
let filtered: Vec<&Value> = vec
.iter()
.enumerate()
.filter(|(idx, _)| !not_matched.contains(idx))
.map(|(_, v)| *v)
.collect();
self.0
.push(Some(ExprTerm::Json(Some(filtered), Some(filter_key), tmp)));
}
} else {
unreachable!("unexpected: ExprTerm: {:?}", e);
}
}
fn push_json_term<
F: Fn(&Vec<&'a Value>, &mut Vec<&'a Value>, &mut HashSet<usize>) -> FilterKey,
FF: Fn(&Vec<&'a Value>, &mut Vec<&'a Value>, &mut HashSet<usize>) -> FilterKey,
>(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
fun: F,
fun_flattened: FF,
) {
debug!("push_json_term: {:?}", ¤t);
if let Some(current) = ¤t {
let mut tmp = Vec::new();
let mut not_matched = HashSet::new();
let filter_key = fun(current, &mut tmp, &mut not_matched);
self.0
.push(Some(ExprTerm::Json(None, Some(filter_key), tmp)));
} else {
if let Some(values) = values {
let mut tmp = Vec::new();
let mut not_matched = HashSet::new();
let values = values.collect();
let filter_key = fun_flattened(&values, &mut tmp, &mut not_matched);
self.0
.push(Some(ExprTerm::Json(None, Some(filter_key), tmp)));
}
}
}
fn filter<
F: Fn(&Vec<&'a Value>, &mut Vec<&'a Value>, &mut HashSet<usize>) -> FilterKey,
FF: Fn(&Vec<&'a Value>, &mut Vec<&'a Value>, &mut HashSet<usize>) -> FilterKey,
>(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
fun: F,
fun_flattened: FF,
) {
if let Some(peek) = self.0.pop() {
if let Some(e) = peek {
self.filter_json_term(e, fun);
} else {
self.push_json_term(current, values, fun, fun_flattened);
}
}
}
fn filter_all_with_str(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
key: &str,
) {
self.filter(
current,
values,
|vec, tmp, _| {
JValueWalker::all_with_str(&vec, tmp, key, true);
FilterKey::All
},
|_, _, _| FilterKey::All,
);
debug!("filter_all_with_str : {}, {:?}", key, self.0);
}
fn filter_next_with_str(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
key: &str,
) {
self.filter(
current,
values,
|vec, tmp, not_matched| {
let mut visited = HashSet::new();
for (idx, v) in vec.iter().enumerate() {
match v {
Value::Object(map) => {
if map.contains_key(key) {
let ptr = *v as *const Value;
if !visited.contains(&ptr) {
visited.insert(ptr);
tmp.push(v)
}
} else {
not_matched.insert(idx);
}
}
Value::Array(vec) => {
not_matched.insert(idx);
for v in vec {
JValueWalker::walk_dedup(v, tmp, key, &mut visited);
}
}
_ => {
not_matched.insert(idx);
}
}
}
FilterKey::String(key.to_owned())
},
|vec, tmp, not_matched| {
let mut visited = HashSet::new();
for (idx, v) in vec.iter().enumerate() {
not_matched.insert(idx);
JValueWalker::walk_dedup(v, tmp, key, &mut visited);
}
FilterKey::String(key.to_owned())
},
);
debug!("filter_next_with_str : {}, {:?}", key, self.0);
}
fn collect_next_with_num(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
index: f64,
) -> (Option<Vec<&'a Value>>, Option<Vec<usize>>) {
fn _collect<'a>(tmp: &mut Vec<&'a Value>, vec: &'a [Value], index: f64) {
let index = abs_index(index as isize, vec.len());
if let Some(v) = vec.get(index) {
tmp.push(v);
}
}
if let Some(current) = current {
let mut tmp = Vec::new();
for c in current {
match c {
Value::Object(map) => {
for k in map.keys() {
if let Some(Value::Array(vec)) = map.get(k) {
_collect(&mut tmp, vec, index);
}
}
}
Value::Array(vec) => {
_collect(&mut tmp, vec, index);
}
_ => {}
}
}
if tmp.is_empty() {
self.0.pop();
return (Some(vec![]), None);
} else {
return (Some(tmp), None);
}
}
if let Some(mut values) = values {
let index = abs_index(index as isize, values.len());
match values.nth(index) {
Some(value) => return (Some(vec![value]), Some(vec![index])),
None => {
self.0.pop();
return (Some(vec![]), None);
}
}
}
debug!("collect_next_with_num : {:?}, {:?}", &index, ¤t);
(None, None)
}
fn collect_next_all(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
) -> (Option<Vec<&'a Value>>, Option<Vec<usize>>) {
if let Some(current) = current {
let mut tmp = Vec::new();
for c in current {
match c {
Value::Object(map) => {
for (_, v) in map {
tmp.push(v)
}
}
Value::Array(vec) => {
for v in vec {
tmp.push(v);
}
}
_ => {}
}
}
return (Some(tmp), None);
}
if let Some(current) = values {
let values = current.collect::<Vec<_>>();
let values_len = values.len();
return (Some(values), Some((0..values_len).collect()));
}
debug!("collect_next_all : {:?}", ¤t);
(None, None)
}
fn collect_next_with_str(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
keys: &[String],
) -> (Option<Vec<&'a Value>>, Option<Vec<usize>>) {
if let Some(current) = current {
let mut tmp = Vec::new();
for c in current {
if let Value::Object(map) = c {
for key in keys {
if let Some(v) = map.get(key) {
tmp.push(v)
}
}
}
}
if tmp.is_empty() {
self.0.pop();
return (Some(vec![]), None);
} else {
return (Some(tmp), None);
}
}
if values.is_some() {
self.0.pop();
return (Some(vec![]), None);
}
debug!("collect_next_with_str : {:?}, {:?}", keys, ¤t);
(None, None)
}
fn collect_all(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
) -> (Option<Vec<&'a Value>>, Option<Vec<usize>>) {
if let Some(current) = current {
let mut tmp = Vec::new();
JValueWalker::all(¤t, &mut tmp);
return (Some(tmp), None);
}
if let Some(values) = values {
let values = values.collect::<Vec<_>>();
let values_len = values.len();
return (Some(values), Some((0..values_len).collect()));
}
debug!("collect_all: {:?}", ¤t);
(None, None)
}
fn collect_all_with_str(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
key: &str,
) -> (Option<Vec<&'a Value>>, Option<Vec<usize>>) {
if let Some(current) = current {
let mut tmp = Vec::new();
JValueWalker::all_with_str(¤t, &mut tmp, key, false);
return (Some(tmp), None);
}
if values.is_some() {
return (Some(vec![]), None);
}
debug!("collect_all_with_str: {}, {:?}", key, ¤t);
(None, None)
}
fn collect_all_with_num(
&mut self,
current: &Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
index: f64,
) -> (Option<Vec<&'a Value>>, Option<Vec<usize>>) {
if let Some(current) = current {
let mut tmp = Vec::new();
JValueWalker::all_with_num(¤t, &mut tmp, index);
return (Some(tmp), None);
}
if let Some(mut values) = values {
match values.nth(index as usize) {
Some(value) => return (Some(vec![value]), Some(vec![index as usize])),
None => return (Some(vec![]), None),
}
}
debug!("collect_all_with_num: {}, {:?}", index, ¤t);
(None, None)
}
}
#[derive(Default)]
pub struct Selector<'a, 'b> {
node: Option<Node>,
node_ref: Option<&'b Node>,
value: Option<&'a Value>,
tokens: Vec<ParseToken>,
current: Option<Vec<&'a Value>>,
values: Option<Box<dyn ExactSizeIterator<Item = &'a Value> + 'a>>,
chose_indices: Vec<usize>,
not_found_by_key_index: bool,
selectors: Vec<Selector<'a, 'b>>,
selector_filter: FilterTerms<'a>,
}
impl<'a, 'b> Selector<'a, 'b> {
pub fn new() -> Self {
Self::default()
}
pub fn str_path(&mut self, path: &str) -> Result<&mut Self, JsonPathError> {
debug!("path : {}", path);
self.node_ref.take();
self.node = Some(Parser::compile(path).map_err(JsonPathError::Path)?);
Ok(self)
}
pub fn node_ref(&self) -> Option<&Node> {
if let Some(node) = &self.node {
return Some(node);
}
if let Some(node) = &self.node_ref {
return Some(*node);
}
None
}
pub fn compiled_path(&mut self, node: &'b Node) -> &mut Self {
self.node.take();
self.node_ref = Some(node);
self
}
pub fn reset_value(&mut self) -> &mut Self {
self.current = None;
self
}
pub fn value(&mut self, v: &'a Value) -> &mut Self {
self.value = Some(v);
self
}
pub fn values_iter(
&mut self,
values: impl Iterator<Item = &'a Value> + ExactSizeIterator + 'a,
) -> &mut Self {
self.values = Some(Box::new(values));
self
}
fn _select(&mut self) -> Result<(), JsonPathError> {
if self.node_ref.is_some() {
let node_ref = self.node_ref.take().unwrap();
self.visit(node_ref);
return if self.not_found_by_key_index {
Err(JsonPathError::EmptyValue)
} else {
Ok(())
};
}
if self.node.is_none() {
return Err(JsonPathError::EmptyPath);
}
let node = self.node.take().unwrap();
self.visit(&node);
self.node = Some(node);
if self.not_found_by_key_index {
Err(JsonPathError::EmptyValue)
} else {
Ok(())
}
}
pub fn select_as<T: serde::de::DeserializeOwned>(&mut self) -> Result<Vec<T>, JsonPathError> {
self._select()?;
match &self.current {
Some(vec) => {
let mut ret = Vec::new();
for v in vec {
match T::deserialize(*v) {
Ok(v) => ret.push(v),
Err(e) => return Err(JsonPathError::Serde(e.to_string())),
}
}
Ok(ret)
}
_ => Err(JsonPathError::EmptyValue),
}
}
pub fn select_as_str(&mut self) -> Result<String, JsonPathError> {
self._select()?;
match &self.current {
Some(r) => {
Ok(serde_json::to_string(r).map_err(|e| JsonPathError::Serde(e.to_string()))?)
}
_ => Err(JsonPathError::EmptyValue),
}
}
pub fn select(&mut self) -> Result<Vec<&'a Value>, JsonPathError> {
self._select()?;
match &self.current {
Some(r) => Ok(r.to_vec()),
_ => Err(JsonPathError::EmptyValue),
}
}
pub fn select_(&mut self) -> Result<Vec<&'a Value>, JsonPathError> {
self._select()?;
match &self.current {
Some(r) => Ok(r.to_vec()),
_ => Err(JsonPathError::EmptyValue),
}
}
fn compute_absolute_path_filter(&mut self, token: &ParseToken) -> bool {
if !self.selectors.is_empty() {
match token {
ParseToken::Absolute | ParseToken::Relative | ParseToken::Filter(_) => {
let selector = self.selectors.pop().unwrap();
if let Some(current) = &selector.current {
let term = current.into();
if let Some(s) = self.selectors.last_mut() {
s.selector_filter.push_term(Some(term));
} else {
self.selector_filter.push_term(Some(term));
}
} else {
unreachable!()
}
}
_ => {}
}
}
if let Some(selector) = self.selectors.last_mut() {
selector.visit_token(token);
true
} else {
false
}
}
}
impl<'a, 'b> Selector<'a, 'b> {
fn visit_absolute(&mut self) {
if self.current.is_some() {
let mut selector = Selector::default();
if let Some(value) = self.value {
selector.value = Some(value);
selector.current = Some(vec![value]);
println!("current.is_some: {:?}", selector.current);
self.selectors.push(selector);
}
return;
}
if self.values.is_some() {
return;
}
if let Some(v) = &self.value {
self.current = Some(vec![v]);
}
}
fn visit_relative(&mut self) {
if let Some(ParseToken::Array) = self.tokens.last() {
let array_token = self.tokens.pop();
if let Some(ParseToken::Leaves) = self.tokens.last() {
let values = std::mem::replace(&mut self.values, None);
self.tokens.pop();
let (current, chose_indices) =
self.selector_filter.collect_all(&self.current, values);
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
self.tokens.push(array_token.unwrap());
}
self.selector_filter.new_filter_context();
}
fn visit_array_eof(&mut self) {
if self.is_last_before_token_match(ParseToken::Array) {
if let Some(Some(e)) = self.selector_filter.pop_term() {
let values = std::mem::replace(&mut self.values, None);
if let ExprTerm::String(key) = e {
self.selector_filter
.filter_next_with_str(&self.current, values, &key);
self.tokens.pop();
return;
}
self.selector_filter.push_term(Some(e));
}
}
if self.is_last_before_token_match(ParseToken::Leaves) {
self.tokens.pop();
self.tokens.pop();
if let Some(Some(e)) = self.selector_filter.pop_term() {
let selector_filter_consumed =
match &e {
ExprTerm::Number(n) => {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) = self
.selector_filter
.collect_all_with_num(&self.current, values, to_f64(n));
self.selector_filter.pop_term();
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
true
}
ExprTerm::String(key) => {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) = self
.selector_filter
.collect_all_with_str(&self.current, values, key);
self.selector_filter.pop_term();
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
true
}
_ => {
self.selector_filter.push_term(Some(e));
false
}
};
if selector_filter_consumed {
return;
}
}
}
if let Some(Some(e)) = self.selector_filter.pop_term() {
match e {
ExprTerm::Number(n) => {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) = self.selector_filter.collect_next_with_num(
&self.current,
values,
to_f64(&n),
);
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
ExprTerm::String(key) => {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) =
self.selector_filter
.collect_next_with_str(&self.current, values, &[key]);
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
ExprTerm::Json(rel, _, v) => {
if v.is_empty() {
self.current = Some(vec![]);
} else if let Some(vec) = rel {
self.current = Some(vec);
} else {
self.current = Some(v);
}
self.update_not_found_by_current();
}
ExprTerm::Bool(false) => {
self.current = Some(vec![]);
}
_ => {}
}
}
self.tokens.pop();
}
fn is_last_before_token_match(&mut self, token: ParseToken) -> bool {
if self.tokens.len() > 1 {
return token == self.tokens[self.tokens.len() - 2];
}
false
}
fn visit_all(&mut self) {
if let Some(ParseToken::Array) = self.tokens.last() {
self.tokens.pop();
}
let values = std::mem::replace(&mut self.values, None);
match self.tokens.last() {
Some(ParseToken::Leaves) => {
self.tokens.pop();
let (current, chose_indices) =
self.selector_filter.collect_all(&self.current, values);
self.current = current;
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
Some(ParseToken::In) => {
self.tokens.pop();
let (current, chose_indices) =
self.selector_filter.collect_next_all(&self.current, values);
self.current = current;
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
_ => {
let (current, chose_indices) =
self.selector_filter.collect_next_all(&self.current, values);
self.current = current;
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
}
}
fn visit_key(&mut self, key: &str) {
if let Some(ParseToken::Array) = self.tokens.last() {
self.selector_filter
.push_term(Some(ExprTerm::String(key.to_string())));
return;
}
if let Some(t) = self.tokens.pop() {
if self.selector_filter.is_term_empty() {
match t {
ParseToken::Leaves => {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) =
self.selector_filter
.collect_all_with_str(&self.current, values, key);
self.current = current;
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
ParseToken::In => {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) = self.selector_filter.collect_next_with_str(
&self.current,
values,
&[key.to_string()],
);
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
}
_ => {}
}
} else {
match t {
ParseToken::Leaves => {
let values = std::mem::replace(&mut self.values, None);
self.selector_filter
.filter_all_with_str(&self.current, values, key);
}
ParseToken::In => {
let values = std::mem::replace(&mut self.values, None);
self.selector_filter
.filter_next_with_str(&self.current, values, key);
}
_ => {}
}
}
}
}
fn visit_keys(&mut self, keys: &[String]) {
if !self.selector_filter.is_term_empty() {
unimplemented!("keys in filter");
}
if let Some(ParseToken::Array) = self.tokens.pop() {
let values = std::mem::replace(&mut self.values, None);
let (current, chose_indices) =
self.selector_filter
.collect_next_with_str(&self.current, values, keys);
self.current = current;
self.update_not_found_by_current();
self.chose_indices.extend(chose_indices.unwrap_or_default());
} else {
unreachable!();
}
}
fn visit_filter(&mut self, ft: &FilterToken) {
let right = match self.selector_filter.pop_term() {
Some(Some(right)) => right,
Some(None) => ExprTerm::Json(
None,
None,
match &self.current {
Some(current) => current.to_vec(),
_ => unreachable!(),
},
),
_ => panic!("empty term right"),
};
let left = match self.selector_filter.pop_term() {
Some(Some(left)) => left,
Some(None) => ExprTerm::Json(
None,
None,
match &self.current {
Some(current) => current.to_vec(),
_ => unreachable!(),
},
),
_ => panic!("empty term left"),
};
let mut ret = None;
match ft {
FilterToken::Equal => left.eq(&right, &mut ret),
FilterToken::NotEqual => left.ne(&right, &mut ret),
FilterToken::Greater => left.gt(&right, &mut ret),
FilterToken::GreaterOrEqual => left.ge(&right, &mut ret),
FilterToken::Little => left.lt(&right, &mut ret),
FilterToken::LittleOrEqual => left.le(&right, &mut ret),
FilterToken::And => left.and(&right, &mut ret),
FilterToken::Or => left.or(&right, &mut ret),
};
if let Some(e) = ret {
self.selector_filter.push_term(Some(e));
}
}
fn visit_range(&mut self, from: &Option<isize>, to: &Option<isize>, step: &Option<usize>) {
if !self.selector_filter.is_term_empty() {
unimplemented!("range syntax in filter");
}
if let Some(ParseToken::Array) = self.tokens.pop() {
let mut tmp = Vec::new();
if let Some(current) = &self.current {
for v in current {
if let Value::Array(vec) = v {
let from = match from {
Some(from) => abs_index(*from, vec.len()),
None => 0,
};
let to = match to {
Some(to) => abs_index(*to, vec.len()),
None => vec.len(),
};
let step = match step {
Some(step) => *step,
None => 1,
};
for i in (from..to).step_by(step) {
if let Some(v) = vec.get(i) {
tmp.push(v);
}
}
}
}
} else {
let values = std::mem::replace(&mut self.values, None);
if let Some(values) = values {
let from = match from {
Some(from) => abs_index(*from, values.len()),
None => 0,
};
let to = match to {
Some(to) => abs_index(*to, values.len()),
None => values.len(),
};
let step = match step {
Some(step) => *step,
None => 1,
};
let take_count = if from > to { 0 } else { to - from };
let matched_values = values.skip(from).step_by(step).take(take_count);
tmp.extend(matched_values);
self.chose_indices
.extend((from..to).step_by(step).collect::<Vec<_>>())
}
}
self.current = Some(tmp);
} else {
unreachable!();
}
}
fn visit_union(&mut self, indices: &[isize]) {
if !self.selector_filter.is_term_empty() {
unimplemented!("union syntax in filter");
}
if let Some(ParseToken::Array) = self.tokens.pop() {
let mut tmp = Vec::new();
if let Some(current) = &self.current {
for v in current {
if let Value::Array(vec) = v {
for i in indices {
if let Some(v) = vec.get(abs_index(*i, vec.len())) {
tmp.push(v);
}
}
}
}
} else {
let indices = indices.iter().map(|&v| v as usize).collect::<HashSet<_>>();
let values = std::mem::replace(&mut self.values, None);
if let Some(values) = values {
let new_values = values
.enumerate()
.filter(|(id, _)| indices.contains(id))
.map(|(id, value)| {
self.chose_indices.push(id);
value
})
.collect::<Vec<_>>();
tmp.extend(new_values);
}
}
self.current = Some(tmp);
} else {
unreachable!();
}
}
fn update_not_found_by_current(&mut self) {
if let Some(values) = &self.current {
self.not_found_by_key_index |= values.is_empty();
}
}
pub fn chose_indices(self) -> Vec<usize> {
self.chose_indices
}
}
impl<'a, 'b> NodeVisitor for Selector<'a, 'b> {
fn visit_token(&mut self, token: &ParseToken) {
debug!("token: {:?}, stack: {:?}", token, self.tokens);
if self.compute_absolute_path_filter(token) {
return;
}
match token {
ParseToken::Absolute => self.visit_absolute(),
ParseToken::Relative => self.visit_relative(),
ParseToken::In | ParseToken::Leaves | ParseToken::Array => {
self.tokens.push(token.clone());
}
ParseToken::ArrayEof => self.visit_array_eof(),
ParseToken::All => self.visit_all(),
ParseToken::Bool(b) => {
self.selector_filter.push_term(Some(ExprTerm::Bool(*b)));
}
ParseToken::Key(key) => self.visit_key(key),
ParseToken::Keys(keys) => self.visit_keys(keys),
ParseToken::Number(v) => {
self.selector_filter
.push_term(Some(ExprTerm::Number(Number::from_f64(*v).unwrap())));
}
ParseToken::Filter(ref ft) => self.visit_filter(ft),
ParseToken::Range(from, to, step) => self.visit_range(from, to, step),
ParseToken::Union(indices) => self.visit_union(indices),
ParseToken::Eof => {
debug!("visit_token eof");
}
}
}
}
#[derive(Default)]
pub struct SelectorMut {
path: Option<Node>,
value: Option<Value>,
}
fn replace_value<F: FnMut(Value) -> Option<Value>>(
mut tokens: Vec<String>,
value: &mut Value,
fun: &mut F,
) {
let mut target = value;
let last_index = tokens.len().saturating_sub(1);
for (i, token) in tokens.drain(..).enumerate() {
let target_once = target;
let is_last = i == last_index;
let target_opt = match *target_once {
Value::Object(ref mut map) => {
if is_last {
if let Entry::Occupied(mut e) = map.entry(token) {
let v = e.insert(Value::Null);
if let Some(res) = fun(v) {
e.insert(res);
} else {
e.remove();
}
}
return;
}
map.get_mut(&token)
}
Value::Array(ref mut vec) => {
if let Ok(x) = token.parse::<usize>() {
if is_last {
let v = std::mem::replace(&mut vec[x], Value::Null);
if let Some(res) = fun(v) {
vec[x] = res;
} else {
vec.remove(x);
}
return;
}
vec.get_mut(x)
} else {
None
}
}
_ => None,
};
if let Some(t) = target_opt {
target = t;
} else {
break;
}
}
}
impl SelectorMut {
pub fn new() -> Self {
Self::default()
}
pub fn str_path(&mut self, path: &str) -> Result<&mut Self, JsonPathError> {
self.path = Some(Parser::compile(path).map_err(JsonPathError::Path)?);
Ok(self)
}
pub fn value(&mut self, value: Value) -> &mut Self {
self.value = Some(value);
self
}
pub fn take(&mut self) -> Option<Value> {
self.value.take()
}
fn compute_paths(&self, mut result: Vec<&Value>) -> Vec<Vec<String>> {
fn _walk(
origin: &Value,
target: &mut Vec<&Value>,
tokens: &mut Vec<String>,
visited: &mut HashSet<*const Value>,
visited_order: &mut Vec<Vec<String>>,
) -> bool {
trace!("{:?}, {:?}", target, tokens);
if target.is_empty() {
return true;
}
target.retain(|t| {
if std::ptr::eq(origin, *t) {
if visited.insert(*t) {
visited_order.push(tokens.to_vec());
}
false
} else {
true
}
});
match origin {
Value::Array(vec) => {
for (i, v) in vec.iter().enumerate() {
tokens.push(i.to_string());
if _walk(v, target, tokens, visited, visited_order) {
return true;
}
tokens.pop();
}
}
Value::Object(map) => {
for (k, v) in map {
tokens.push(k.clone());
if _walk(v, target, tokens, visited, visited_order) {
return true;
}
tokens.pop();
}
}
_ => {}
}
false
}
let mut visited = HashSet::new();
let mut visited_order = Vec::new();
if let Some(origin) = &self.value {
let mut tokens = Vec::new();
_walk(
origin,
&mut result,
&mut tokens,
&mut visited,
&mut visited_order,
);
}
visited_order
}
pub fn delete(&mut self) -> Result<&mut Self, JsonPathError> {
self.replace_with(&mut |_| Some(Value::Null))
}
pub fn remove(&mut self) -> Result<&mut Self, JsonPathError> {
self.replace_with(&mut |_| None)
}
fn select(&self) -> Result<Vec<&Value>, JsonPathError> {
if let Some(node) = &self.path {
let mut selector = Selector::default();
selector.compiled_path(&node);
if let Some(value) = &self.value {
selector.value(value);
}
Ok(selector.select()?)
} else {
Err(JsonPathError::EmptyPath)
}
}
pub fn replace_with<F: FnMut(Value) -> Option<Value>>(
&mut self,
fun: &mut F,
) -> Result<&mut Self, JsonPathError> {
let paths = {
let result = self.select()?;
self.compute_paths(result)
};
if let Some(ref mut value) = &mut self.value {
for tokens in paths {
replace_value(tokens, value, fun);
}
}
Ok(self)
}
}
#[cfg(test)]
mod select_inner_tests {
use serde_json::Value;
#[test]
fn to_f64_i64() {
let number = 0_i64;
let v: Value = serde_json::from_str(&format!("{}", number)).unwrap();
if let Value::Number(n) = v {
assert_eq!((super::to_f64(&n) - number as f64).abs() == 0_f64, true);
} else {
panic!();
}
}
#[test]
fn to_f64_f64() {
let number = 0.1_f64;
let v: Value = serde_json::from_str(&format!("{}", number)).unwrap();
if let Value::Number(n) = v {
assert_eq!((super::to_f64(&n) - number).abs() == 0_f64, true);
} else {
panic!();
}
}
#[test]
fn to_f64_u64() {
let number = u64::max_value();
let v: Value = serde_json::from_str(&format!("{}", number)).unwrap();
if let Value::Number(n) = v {
assert_eq!((super::to_f64(&n) - number as f64).abs() == 0_f64, true);
} else {
panic!();
}
}
}