use rbatis::crud::{Skip, CRUD};
use rbatis::crud_table;
use rbatis::error::Error;
use rbatis::rbatis::Rbatis;
use rbatis::Page;
use rbatis::PageRequest;
use rbson::Bson;
use serde_derive::{Deserialize, Serialize};
use std::fmt::Debug;
#[crud_table(table_name:"chimes_permission"|table_columns:"id,alias,create_time,name,pid,api_pattern,service_id,api_method,api_bypass")]
#[derive(Debug, Clone, Default, Deserialize, Serialize)]
pub struct ChimesPermissionInfo {
pub id: Option<i64>,
pub alias: Option<String>,
pub create_time: Option<rbatis::DateTimeNative>,
pub name: Option<String>,
pub pid: Option<i64>,
pub api_pattern: Option<String>,
pub service_id: Option<String>,
pub api_method: Option<String>,
pub api_bypass: Option<String>,
}
impl ChimesPermissionInfo {
#[allow(dead_code)]
pub async fn from_id(rb: &Rbatis, id: &i64) -> Result<Option<Self>, Error> {
let wp = rb.new_wrapper().eq("id", id);
rb.fetch_by_wrapper::<Option<Self>>(wp).await
}
#[allow(dead_code)]
pub async fn save(&mut self, rb: &Rbatis) -> Result<u64, Error> {
match rb.save(self, &[Skip::Column("id")]).await {
Ok(ds) => {
self.id = ds.last_insert_id;
Ok(ds.rows_affected)
}
Err(err) => Err(err),
}
}
#[allow(dead_code)]
pub async fn update(&self, rb: &Rbatis) -> Result<u64, Error> {
let wp = rb.new_wrapper().eq("id", self.id);
rb.update_by_wrapper(self, wp, &[Skip::Column("id")]).await
}
#[allow(dead_code)]
pub async fn update_selective(&self, rb: &Rbatis) -> Result<u64, Error> {
let wp = rb.new_wrapper().eq("id", self.id);
rb.update_by_wrapper(self, wp, &[Skip::Value(Bson::Null)])
.await
}
#[allow(dead_code)]
pub async fn remove_batch(&self, rb: &Rbatis) -> Result<u64, Error> {
let wp = rb
.new_wrapper()
.r#if(self.id.clone().is_some(), |w| {
w.and().eq("id", self.id.unwrap())
})
.r#if(self.alias.clone().is_some(), |w| {
w.and().eq("alias", self.alias.clone().unwrap())
})
.r#if(self.create_time.clone().is_some(), |w| {
w.and().eq("create_time", self.create_time.unwrap())
})
.r#if(self.name.clone().is_some(), |w| {
w.and().eq("name", self.name.clone().unwrap())
})
.r#if(self.pid.clone().is_some(), |w| {
w.and().eq("pid", self.pid.unwrap())
})
.r#if(self.api_pattern.clone().is_some(), |w| {
w.and().eq("api_pattern", self.api_pattern.clone().unwrap())
})
.r#if(self.service_id.clone().is_some(), |w| {
w.and().eq("service_id", self.service_id.clone().unwrap())
})
.r#if(self.api_method.clone().is_some(), |w| {
w.and().eq("api_method", self.api_method.clone().unwrap())
})
.r#if(self.api_bypass.clone().is_some(), |w| {
w.and().eq("api_bypass", self.api_bypass.clone().unwrap())
});
rb.remove_by_wrapper::<Self>(wp).await
}
#[allow(dead_code)]
pub async fn remove(&mut self, rb: &Rbatis) -> Result<u64, Error> {
let wp = rb.new_wrapper().eq("id", self.id);
rb.remove_by_wrapper::<Self>(wp).await
}
#[allow(dead_code)]
pub async fn remove_ids(rb: &Rbatis, ids: &[i64]) -> Result<u64, Error> {
let wp = rb.new_wrapper().r#in("id", ids);
rb.remove_by_wrapper::<Self>(wp).await
}
#[allow(dead_code)]
pub async fn query_paged(&self, rb: &Rbatis, curr: u64, ps: u64) -> Result<Page<Self>, Error> {
let wp = rb
.new_wrapper()
.r#if(self.id.clone().is_some(), |w| {
w.and().eq("id", self.id.unwrap())
})
.r#if(self.alias.clone().is_some(), |w| {
w.and().eq("alias", self.alias.clone().unwrap())
})
.r#if(self.create_time.clone().is_some(), |w| {
w.and().eq("create_time", self.create_time.unwrap())
})
.r#if(self.name.clone().is_some(), |w| {
w.and().eq("name", self.name.clone().unwrap())
})
.r#if(self.pid.clone().is_some(), |w| {
w.and().eq("pid", self.pid.unwrap())
})
.r#if(self.pid.clone().is_none(), |w| w.and().eq("pid", Some(0)))
.r#if(self.api_pattern.clone().is_some(), |w| {
w.and().eq("api_pattern", self.api_pattern.clone().unwrap())
})
.r#if(self.service_id.clone().is_some(), |w| {
w.and().eq("service_id", self.service_id.clone().unwrap())
})
.r#if(self.api_method.clone().is_some(), |w| {
w.and().eq("api_method", self.api_method.clone().unwrap())
})
.r#if(self.api_bypass.clone().is_some(), |w| {
w.and().eq("api_bypass", self.api_bypass.clone().unwrap())
});
rb.fetch_page_by_wrapper::<Self>(wp, &PageRequest::new(curr, ps))
.await
}
#[allow(dead_code)]
pub async fn query_list(&self, rb: &Rbatis) -> Result<Vec<Self>, Error> {
let wp = rb
.new_wrapper()
.r#if(self.id.clone().is_some(), |w| {
w.and().eq("id", self.id.unwrap())
})
.r#if(self.alias.clone().is_some(), |w| {
w.and().eq("alias", self.alias.clone().unwrap())
})
.r#if(self.create_time.clone().is_some(), |w| {
w.and().eq("create_time", self.create_time.unwrap())
})
.r#if(self.name.clone().is_some(), |w| {
w.and().eq("name", self.name.clone().unwrap())
})
.r#if(self.pid.clone().is_some(), |w| {
w.and().eq("pid", self.pid.unwrap())
})
.r#if(self.pid.clone().is_none(), |w| w.and().eq("pid", Some(0)))
.r#if(self.api_pattern.clone().is_some(), |w| {
w.and().eq("api_pattern", self.api_pattern.clone().unwrap())
})
.r#if(self.service_id.clone().is_some(), |w| {
w.and().eq("service_id", self.service_id.clone().unwrap())
})
.r#if(self.api_method.clone().is_some(), |w| {
w.and().eq("api_method", self.api_method.clone().unwrap())
})
.r#if(self.api_bypass.clone().is_some(), |w| {
w.and().eq("api_bypass", self.api_bypass.clone().unwrap())
});
rb.fetch_list_by_wrapper::<Self>(wp).await
}
#[allow(dead_code)]
pub async fn query_all(rb: &Rbatis) -> Result<Vec<Self>, Error> {
let wp = rb.new_wrapper();
rb.fetch_list_by_wrapper::<Self>(wp).await
}
#[allow(dead_code)]
pub async fn query_tree(rb: &Rbatis, pid: &Option<i64>) -> Result<Vec<Self>, Error> {
let wp = rb
.new_wrapper()
.r#if(pid.clone().is_some(), |w| w.and().eq("pid", pid.unwrap()))
.r#if(pid.clone().is_none(), |w| w.and().eq("pid", 0));
rb.fetch_list_by_wrapper::<Self>(wp).await
}
fn find_children(list: &Vec<Self>, pid: &i64) -> Vec<Self> {
let mut found = vec![];
for it in list.clone() {
if it.pid == Some(*pid) {
found.push(it.clone());
let nid = it.id.unwrap_or_default();
let mut mt = Self::find_children(list, &nid);
if !mt.is_empty() {
found.append(&mut mt);
}
}
}
found
}
pub async fn query_children(rb: &Rbatis, pid: &i64) -> Result<Vec<Self>, Error> {
match Self::query_all(rb).await {
Ok(rs) => {
let mut found = Self::find_children(&rs, pid);
for it in rs.clone() {
if it.id == Some(*pid) {
found.insert(0, it);
}
}
Ok(found)
}
Err(err) => Err(err),
}
}
}
#[derive(Debug, Clone, Default, Deserialize, Serialize)]
pub struct ChimesPermissionInfoValue {
pub id: Option<i64>,
pub alias: Option<String>,
pub create_time: Option<rbatis::DateTimeNative>,
pub name: Option<String>,
pub pid: Option<i64>,
pub api_pattern: Option<String>,
pub service_id: Option<String>,
pub api_method: Option<String>,
pub api_bypass: Option<String>,
pub leaf: bool,
pub label: Option<String>,
pub has_children: bool,
#[serde(default)]
pub children: Vec<ChimesPermissionInfoValue>,
}
impl ChimesPermissionInfoValue {
#[allow(dead_code)]
pub fn from_entity(param: &ChimesPermissionInfo) -> Self {
Self {
id: param.id,
alias: param.alias.clone(),
create_time: param.create_time,
name: param.name.clone(),
pid: param.pid,
api_pattern: param.api_pattern.clone(),
service_id: param.service_id.clone(),
api_method: param.api_method.clone(),
api_bypass: param.api_bypass.clone(),
has_children: false,
leaf: false,
children: vec![],
label: param.name.clone(),
}
}
#[allow(dead_code)]
pub fn from_entity_with(
param: &ChimesPermissionInfo,
haschild: bool,
children: &[Self],
) -> Self {
Self {
id: param.id,
alias: param.alias.clone(),
create_time: param.create_time,
name: param.name.clone(),
pid: param.pid,
api_pattern: param.api_pattern.clone(),
service_id: param.service_id.clone(),
api_method: param.api_method.clone(),
api_bypass: param.api_bypass.clone(),
has_children: haschild,
leaf: !haschild,
children: children.to_vec(),
label: param.name.clone(),
}
}
#[allow(dead_code)]
pub fn to_entity(&self) -> ChimesPermissionInfo {
ChimesPermissionInfo {
id: self.id,
alias: self.alias.clone(),
create_time: self.create_time,
name: self.name.clone(),
pid: self.pid,
api_pattern: self.api_pattern.clone(),
service_id: self.service_id.clone(),
api_method: self.api_method.clone(),
api_bypass: self.api_bypass.clone(),
}
}
fn recurse_build_tree(items: &Vec<Self>, parent_item: &mut Self) {
for xip in items.clone() {
if xip.pid == parent_item.id {
let mut mip = xip;
Self::recurse_build_tree(items, &mut mip);
if mip.children.is_empty() {
mip.leaf = true;
mip.has_children = false;
}
parent_item.children.push(mip);
}
}
}
#[allow(dead_code)]
pub fn build_tree(items: &Vec<Self>) -> Vec<Self> {
let mut tmptree = vec![];
for xip in items.clone() {
if xip.pid.is_none() || xip.pid == Some(0) {
tmptree.push(xip.clone());
}
}
let mut tree = vec![];
for mut it in tmptree {
Self::recurse_build_tree(items, &mut it);
tree.push(it);
}
tree
}
}