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use proc_macro2::{Ident, Span};
use quote::quote;
use quote::ToTokens;
use syn;
use syn::{BinOp, Expr, Lit, Member};
fn token_steam_string(arg: proc_macro2::TokenStream) -> String {
arg.to_token_stream().to_string().trim().to_string()
}
fn convert_to_arg_access(context: &str, arg: Expr, ignore: &[String]) -> Expr {
match arg {
Expr::Path(b) => {
let token = b.to_token_stream().to_string();
if token == "null" {
return syn::parse_str::<Expr>("rbs::Value::Null").expect("codegen_func fail");
}
if token == "sql" {
return Expr::Path(b);
}
let param = token_steam_string(b.to_token_stream());
let mut fetch_from_arg = true;
for x in ignore {
if param.eq(x) {
fetch_from_arg = false;
}
}
if fetch_from_arg {
return syn::parse_str::<Expr>(&format!("&arg[\"{}\"]", param))
.expect("codegen_func fail");
} else {
return syn::parse_str::<Expr>(&format!("{}", param)).expect("codegen_func fail");
}
}
Expr::MethodCall(mut b) => {
//receiver is named need to convert to arg["xxx"]
b.receiver = Box::new(convert_to_arg_access(context, *b.receiver.clone(), ignore));
return Expr::MethodCall(b);
}
Expr::Binary(mut b) => {
b.left = Box::new(convert_to_arg_access(context, *b.left.clone(), ignore));
b.right = Box::new(convert_to_arg_access(context, *b.right.clone(), ignore));
match b.op {
BinOp::Add(_) => {
let left_token = b.left.to_token_stream().to_string();
if left_token.trim().ends_with("\"") && left_token.trim().starts_with("\"") {
return syn::parse_str::<Expr>(&format!(
"(String::from({})).op_add({})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
} else {
return syn::parse_str::<Expr>(&format!(
"({}).op_add(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
}
BinOp::And(_) => {
b.left = Box::new(
syn::parse_str::<Expr>(&format!(
"bool::op_from({})",
b.left.to_token_stream().to_string().trim()
))
.expect("codegen_func fail"),
);
b.right = Box::new(
syn::parse_str::<Expr>(&format!(
"bool::op_from({})",
b.right.to_token_stream().to_string().trim()
))
.expect("codegen_func fail"),
);
}
BinOp::Or(_) => {
b.left = Box::new(
syn::parse_str::<Expr>(&format!(
"bool::op_from({})",
b.left.to_token_stream().to_string().trim()
))
.expect("codegen_func fail"),
);
b.right = Box::new(
syn::parse_str::<Expr>(&format!(
"bool::op_from({})",
b.right.to_token_stream().to_string().trim()
))
.expect("codegen_func fail"),
);
}
// The `-` operator (subtraction)
BinOp::Sub(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_sub(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `*` operator (multiplication)
BinOp::Mul(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_mul(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `/` operator (division)
BinOp::Div(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_div(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `%` operator (modulus)
BinOp::Rem(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_rem(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `&` operator (bitwise and)
BinOp::BitAnd(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_bitand(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `|` operator (bitwise or)
BinOp::BitOr(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_bitor(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `==` operator (equality)
BinOp::Eq(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_eq(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `<` operator (less than)
BinOp::Lt(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_lt(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `<=` operator (less than or equal to)
BinOp::Le(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_le(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `!=` operator (not equal to)
BinOp::Ne(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_ne(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `>=` operator (greater than or equal to)
BinOp::Ge(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_ge(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `>` operator (greater than)
BinOp::Gt(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_gt(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `^` operator (bitwise xor)
BinOp::BitXor(_) => {
return syn::parse_str::<Expr>(&format!(
"({}).op_bitxor(&{})",
b.left.to_token_stream(),
b.right.to_token_stream()
))
.expect("codegen_func fail");
}
// The `<<` operator (shift left)
BinOp::Shl(_) => {
panic!("unsupported token << ")
}
// The `>>` operator (shift right)
BinOp::Shr(_) => {
panic!("unsupported token >> ")
}
// The `+=` operator
BinOp::AddEq(_) => {
panic!("unsupported token += ")
}
// The `-=` operator
BinOp::SubEq(_) => {
panic!("unsupported token -= ")
}
// The `*=` operator
BinOp::MulEq(_) => {
panic!("unsupported token *= ")
}
// The `/=` operator
BinOp::DivEq(_) => {
panic!("unsupported token /= ")
}
// The `%=` operator
BinOp::RemEq(_) => {
panic!("unsupported token %= ")
}
// The `^=` operator
BinOp::BitXorEq(_) => {
panic!("unsupported token ^= ")
}
// The `&=` operator
BinOp::BitAndEq(_) => {
panic!("unsupported token &= ")
}
// The `|=` operator
BinOp::BitOrEq(_) => {
panic!("unsupported token |= ")
}
// The `<<=` operator
BinOp::ShlEq(_) => {
panic!("unsupported token <<= ")
}
// The `>>=` operator
BinOp::ShrEq(_) => {
panic!("unsupported token >>= ")
}
}
return Expr::Binary(b);
}
Expr::Unary(mut b) => {
b.expr = Box::new(convert_to_arg_access(context, *b.expr, ignore));
if b.op.to_token_stream().to_string().trim() == "-" {
return syn::parse_str::<Expr>(&format!(
" (0.op_sub(&{}))",
b.expr.to_token_stream().to_string().trim()
))
.expect("codegen_func fail");
}
return Expr::Unary(b);
}
Expr::Paren(mut b) => {
b.expr = Box::new(convert_to_arg_access(context, *b.expr, ignore));
return Expr::Paren(b);
}
Expr::Field(mut b) => {
b.base = Box::new(convert_to_arg_access(context, *b.base.clone(), ignore));
match b.member {
Member::Named(named) => {
return syn::parse_str::<Expr>(&format!(
"({}[\"{}\"])",
b.base.to_token_stream(),
named.to_token_stream()
))
.expect("codegen_func fail");
}
Member::Unnamed(_) => {}
}
return Expr::Field(b);
}
Expr::Reference(mut b) => {
b.expr = Box::new(convert_to_arg_access(context, *b.expr, ignore));
let result = Expr::Reference(b);
return result;
}
Expr::Index(mut b) => {
b.expr = Box::new(convert_to_arg_access(context, *b.expr, ignore));
return syn::parse_str::<Expr>(&format!(
"{}[{}]",
b.expr.to_token_stream(),
b.index.to_token_stream()
))
.expect("codegen_func fail");
}
Expr::Let(mut let_expr) => {
let_expr.expr = Box::new(convert_to_arg_access(context, *let_expr.expr, ignore));
return Expr::Let(let_expr);
}
Expr::Lit(b) => {
match b.lit.clone() {
Lit::Str(_) => {}
Lit::ByteStr(_) => {}
Lit::Byte(_) => {}
Lit::Char(_) => {}
Lit::Int(i) => {
//cast int to i64
return syn::parse_str::<Expr>(&format!("{}i64", i))
.expect("codegen_func fail");
}
Lit::Float(f) => {
//cast int to f64
return syn::parse_str::<Expr>(&format!("{}f64", f))
.expect("codegen_func fail");
}
Lit::Bool(_) => {}
Lit::Verbatim(_) => {}
}
return Expr::Lit(b);
}
_ => {
return arg;
}
}
}
/// gen method or body(if func_name_ident is empty)
pub fn impl_fn(
context: &str,
func_name_ident: &str,
args: &str,
serialize_result: bool,
ignore: &[String],
) -> proc_macro2::TokenStream {
let mut string_data = args.to_string();
string_data = string_data[1..string_data.len() - 1].to_string();
string_data = string_data.replace(".string()", ".to_string()");
//convert string define
let mut last_char = '_';
let mut string_data_new = String::new();
for x in string_data.chars() {
if x == '\'' && last_char != '\\' {
string_data_new.push('\"');
} else {
string_data_new.push(x);
}
last_char = x;
}
string_data = string_data_new;
let t = syn::parse_str::<Expr>(&string_data);
if t.is_err() {
panic!(
"[rbatis-codegen]syn::parse_str: {} fail for: {}",
args,
t.err().expect("codegen_func fail").to_string()
)
}
let mut t = t.expect("codegen_func fail");
t = convert_to_arg_access(context, t, ignore);
string_data = t.to_token_stream().to_string();
string_data = string_data.replace(" . ", ".");
let t = syn::parse_str::<Expr>(&string_data);
if t.is_err() {
panic!(
"[rbatis-codegen]syn::parse_str: {} fail for: {}",
args,
t.err().expect("codegen_func fail").to_string()
)
}
let t = t.expect("codegen_func fail");
let mut result_impl = quote! { {#t} };
if serialize_result {
result_impl = quote! {rbs::to_value({#t}).unwrap_or_default()};
}
if func_name_ident.is_empty() || func_name_ident.eq("\"\"") {
return quote! {
#result_impl
}
.to_token_stream();
} else {
let func_name_ident = Ident::new(&func_name_ident.to_string(), Span::call_site());
return quote! {
pub fn #func_name_ident(arg:&rbs::Value) -> rbs::Value {
use rbatis_codegen::ops::*;
#result_impl
}
}
.to_token_stream();
}
}