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Implemented generics properly, updated cpp generator to use operator<< and operator>> for json parsing

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This commit is contained in:
Mutzi 2023-10-13 15:43:56 +02:00
parent 613cf68fc3
commit 12392808f7
Signed by: root
GPG Key ID: 2437494E09F13876
10 changed files with 165 additions and 252 deletions
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5
src/data.rs
View File

@ -8,7 +8,7 @@ pub enum Types {
Array(Box<Types>), Array(Box<Types>),
Optional(Box<Types>), Optional(Box<Types>),
Named(String), Named(String),
Generic(String, Box<Types>, proc_macro2::Span) Generic(String, Vec<Types>)
} }
#[derive(Debug, Clone, Default)] #[derive(Debug, Clone, Default)]
@ -27,8 +27,7 @@ pub struct FieldTy {
pub struct StructTy { pub struct StructTy {
pub name: String, pub name: String,
pub fields: Vec<FieldTy>, pub fields: Vec<FieldTy>,
pub generic_fields: Vec<FieldTy>, pub generic_names: Vec<String>
pub generic_name: Option<String>
} }
#[derive(Debug, Clone, Default)] #[derive(Debug, Clone, Default)]

71
src/generators/cpp_s.rs
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@ -18,7 +18,7 @@ pub const JSON_INNER_IMPLS: &[(&str, &str)] = &[
pub fn ty_to_str(ty: &crate::data::Types) -> String { pub fn ty_to_str(ty: &crate::data::Types) -> String {
use crate::data::Types; use crate::data::Types;
match &ty { match ty {
Types::String => "std::string".into(), Types::String => "std::string".into(),
Types::Bool => "bool".into(), Types::Bool => "bool".into(),
Types::F32 => "std::float_t".into(), Types::F32 => "std::float_t".into(),
@ -34,10 +34,35 @@ pub fn ty_to_str(ty: &crate::data::Types) -> String {
Types::Named(name) => name.into(), Types::Named(name) => name.into(),
Types::Optional(inner) => format!("std::optional<{}>", ty_to_str(inner)), Types::Optional(inner) => format!("std::optional<{}>", ty_to_str(inner)),
Types::Array(inner) => format!("std::vector<{}>", ty_to_str(inner)), Types::Array(inner) => format!("std::vector<{}>", ty_to_str(inner)),
Types::Generic(_, _, _) => unreachable!() Types::Generic(name, types) =>
format!("{}<{}>", name, types.iter().map(|ty| ty_to_str(ty)).join(", "))
} }
} }
pub fn get_struct_generics(s: &crate::data::StructTy) -> String {
if s.generic_names.is_empty() {
"".into()
} else {
format!("template<{}>\n", generics_brace_inner_typename(s))
}
}
pub fn generics_brace_inner_typename(s: &crate::data::StructTy) -> String {
s.generic_names.iter().map(|n| String::from("typename ") + n).join(", ")
}
pub fn generics_brace(s: &crate::data::StructTy) -> String {
if s.generic_names.is_empty() {
"".into()
} else {
format!("<{}>", generics_brace_inner(s))
}
}
pub fn generics_brace_inner(s: &crate::data::StructTy) -> String {
s.generic_names.iter().join(", ")
}
pub fn method_args(method: &crate::data::MethodTy) -> String { pub fn method_args(method: &crate::data::MethodTy) -> String {
method.args.iter() method.args.iter()
.map(|arg| format!("{} &&{}", ty_to_str(&arg.ty), arg.name)) .map(|arg| format!("{} &&{}", ty_to_str(&arg.ty), arg.name))
@ -60,38 +85,6 @@ pub fn call_args(method: &crate::data::MethodTy) -> String {
.join(", ") .join(", ")
} }
pub fn json_write(ty: &crate::data::FieldTy) -> String {
use crate::data::Types;
match &ty.ty {
Types::String => format!("__w.String({});", ty.name),
Types::Bool => format!("__w.Bool({});", ty.name),
Types::F32 | Types::F64 => format!("__w.Double({});", ty.name),
Types::I8 | Types::I16 | Types::I32 | Types::I64 => format!("__w.Int64({});", ty.name),
Types::U8 | Types::U16 | Types::U32 | Types::U64 => format!("__w.Uint64({});", ty.name),
Types::Named(_) => format!("{} >> __w;", ty.name),
Types::Optional(inner) => {
let inner = crate::data::FieldTy { name: format!("({}.value())", ty.name), ty: (**inner).clone() };
let inner = json_write(&inner);
format!(
"if ({}.has_value()) {{
{}
}} else __w.Null();", ty.name, inner)
},
Types::Array(inner) => {
let inner_var_name = format!("__{}__entry", ty.name);
let inner = crate::data::FieldTy { name: inner_var_name.clone(), ty: (**inner).clone() };
let inner = json_write(&inner);
format!(
"__w.StartArray();
for (const auto &{} : {}) {{
{}
}}
__w.EndArray();", inner_var_name, ty.name, inner)
},
Types::Generic(_, _, _) => unreachable!()
}
}
pub fn streams_required(rpc: &RPC) -> Vec<String> { pub fn streams_required(rpc: &RPC) -> Vec<String> {
let mut streams = std::collections::HashSet::new(); let mut streams = std::collections::HashSet::new();
for s in &rpc.services { for s in &rpc.services {
@ -105,10 +98,10 @@ pub fn streams_required(rpc: &RPC) -> Vec<String> {
} }
pub fn gen(file_base_name: &std::path::PathBuf, rpc: &RPC) { pub fn gen(file_base_name: &std::path::PathBuf, rpc: &RPC) {
let header_name = file_base_name.with_extension("h"); let header_name = file_base_name.with_extension("hxx");
let h = std::fs::File::create(&header_name).unwrap();
let header_name = header_name.file_name().unwrap().to_str().unwrap(); let header_name = header_name.file_name().unwrap().to_str().unwrap();
let h = std::fs::File::create(file_base_name.with_extension("h")).unwrap(); let c = std::fs::File::create(file_base_name.with_extension("cxx")).unwrap();
let c = std::fs::File::create(file_base_name.with_extension("cpp")).unwrap(); crate::templates::cpp_server_hxx(h, rpc).unwrap();
crate::templates::cpp_server_h(h, rpc).unwrap(); crate::templates::cpp_server_cxx(c, header_name, rpc).unwrap();
crate::templates::cpp_server_cpp(c, header_name, rpc).unwrap();
} }

11
src/generators/ts_c.rs
View File

@ -13,7 +13,16 @@ pub fn ty_to_str(ty: &crate::data::Types) -> String {
Types::Named(name) => name.into(), Types::Named(name) => name.into(),
Types::Optional(inner) => format!("({}|null)", ty_to_str(inner)), Types::Optional(inner) => format!("({}|null)", ty_to_str(inner)),
Types::Array(inner) => format!("{}[]", ty_to_str(inner)), Types::Array(inner) => format!("{}[]", ty_to_str(inner)),
Types::Generic(_, _, _) => unreachable!() Types::Generic(name, types) =>
format!("{}<{}>", name, types.iter().map(|ty| ty_to_str(ty)).join(", "))
}
}
pub fn get_struct_generics(s: &crate::data::StructTy) -> String {
if s.generic_names.is_empty() {
"".into()
} else {
format!("<{}>", s.generic_names.join(", "))
} }
} }

94
src/main.rs
View File

@ -3,7 +3,6 @@ mod generators;
mod templates; mod templates;
mod parser; mod parser;
use std::collections::HashMap;
use std::fmt::Write; use std::fmt::Write;
use std::fs::File; use std::fs::File;
use std::io::Read; use std::io::Read;
@ -30,95 +29,6 @@ struct GenArgs {
static SOURCE_FILE: once_cell::sync::OnceCell<String> = once_cell::sync::OnceCell::new(); static SOURCE_FILE: once_cell::sync::OnceCell<String> = once_cell::sync::OnceCell::new();
static SOURCE: once_cell::sync::OnceCell<String> = once_cell::sync::OnceCell::new(); static SOURCE: once_cell::sync::OnceCell<String> = once_cell::sync::OnceCell::new();
fn has_generic(ty: &mut data::Types) -> Option<&mut data::Types> {
use data::Types;
match ty {
Types::String | Types::Bool |
Types::F32 | Types::F64 |
Types::I8 | Types::I16 | Types::I32 | Types::I64 |
Types::U8 | Types::U16 | Types::U32 | Types::U64 => None,
Types::Array(inner) => has_generic(inner),
Types::Optional(inner) => has_generic(inner),
Types::Named(_) => None,
Types::Generic(_, _, _) => Some(ty)
}
}
pub fn gen_generic_name(ty: &data::Types) -> String {
use data::Types;
match &ty {
Types::String => "string".into(),
Types::Bool => "bool".into(),
Types::F32 => "f32".into(),
Types::F64 => "f64".into(),
Types::I8 => "i8".into(),
Types::I16 => "i16".into(),
Types::I32 => "i32".into(),
Types::I64 => "i64".into(),
Types::U8 => "u8".into(),
Types::U16 => "u16".into(),
Types::U32 => "u32".into(),
Types::U64 => "u64".into(),
Types::Named(name) => name.clone(),
Types::Optional(inner) => format!("maybe_{}", gen_generic_name(inner)),
Types::Array(inner) => format!("array_{}", gen_generic_name(inner)),
Types::Generic(_, _, span) => emit_error(Some((span.clone(), "Nested custom generics are not allowed")))
}
}
fn replace_generics<'a>(it: impl Iterator<Item=&'a mut data::Types>, generics: &HashMap<String, data::StructTy>, new_structs: &mut HashMap<String, (data::StructTy, data::Types)>) {
for ty in it.filter_map(|ty| has_generic(ty)) {
let (name, inner, span) = match ty {
data::Types::Generic(name, inner, span) =>
(name.clone(), inner.clone(), span.clone()),
_ => unreachable!()
};
let generic = match generics.get(&name) {
Some(v) => v,
None => emit_error(Some((span, "Type does not exists")))
};
let new_name = format!("{}_{}", name, gen_generic_name(&inner));
*ty = data::Types::Named(new_name.clone());
new_structs.insert(new_name, (generic.clone(), *inner));
}
}
fn replace_generic_type(ty: &mut data::Types, generic_name: &String, replacement: &data::Types) {
use data::Types;
match ty {
Types::Named(name) => if name == generic_name { *ty = replacement.clone(); } else { unreachable!() },
Types::Optional(inner) => replace_generic_type(inner, generic_name, replacement),
Types::Array(inner) => replace_generic_type(inner, generic_name, replacement),
_ => unreachable!()
}
}
fn resolve_generics(rpc: &mut data::RPC) {
let mut generics: HashMap<String, data::StructTy> = HashMap::new();
rpc.structs.retain(|s| if s.generic_name.is_none() { true } else {
generics.insert(s.name.clone(), s.clone());
false
});
let mut new_structs = HashMap::new();
for s in &mut rpc.structs {
replace_generics(s.fields.iter_mut().map(|f| &mut f.ty), &generics, &mut new_structs);
}
for m in &mut rpc.services.iter_mut().map(|s| s.methods.iter_mut()).flatten() {
replace_generics(m.args.iter_mut().map(|f| &mut f.ty).chain(&mut m.ret), &generics, &mut new_structs);
}
for (name, (mut generic, inner)) in new_structs {
generic.name = name;
let generic_name = generic.generic_name.take().unwrap();
for mut field in generic.generic_fields {
replace_generic_type(&mut field.ty, &generic_name, &inner);
generic.fields.push(field);
}
generic.generic_fields = vec![];
rpc.structs.push(generic);
}
}
fn main() { fn main() {
let args = Args::parse(); let args = Args::parse();
@ -141,9 +51,7 @@ fn main() {
) )
}; };
let mut rpc = parser::parse_file(&ast); let rpc = parser::parse_file(&ast);
resolve_generics(&mut rpc);
for gen in &args.generators.clients { for gen in &args.generators.clients {
gen.generate(&args.rpc_name, &rpc); gen.generate(&args.rpc_name, &rpc);

48
src/parser.rs
View File

@ -40,20 +40,19 @@ fn parse_type(item: &syn::Type) -> data::Types {
syn::PathArguments::AngleBracketed(v) => v, syn::PathArguments::AngleBracketed(v) => v,
_ => emit_error(vec![(item.span(), "Angle bracketed arguments expected")]) _ => emit_error(vec![(item.span(), "Angle bracketed arguments expected")])
}; };
if args.args.len() != 1 { let types = args.args.iter().map(|arg| match arg {
emit_error(vec![(item.span(), "Expected 1 argument")]);
}
let ty = match &args.args[0] {
syn::GenericArgument::Type(v) => parse_type(v), syn::GenericArgument::Type(v) => parse_type(v),
_ => emit_error(vec![(item.span(), "Only types are supported")]) _ => emit_error(vec![(item.span(), "Only types are supported")])
}; }).collect::<Vec<_>>();
let name = segment.ident.to_string(); let name = segment.ident.to_string();
if name == "Option" { if name == "Option" {
data::Types::Optional(ty.into()) if types.len() != 1 { emit_error(Some((segment.span(), "Option needs exactly one argument"))); }
data::Types::Optional(types[0].clone().into())
} else if name == "Vec" { } else if name == "Vec" {
data::Types::Array(ty.into()) if types.len() != 1 { emit_error(Some((segment.span(), "Vec needs exactly one argument"))); }
data::Types::Array(types[0].clone().into())
} else { } else {
data::Types::Generic(name, ty.into(), segment.ident.span()) data::Types::Generic(name, types)
} }
} else { } else {
parse_type_string(segment.ident.to_string()) parse_type_string(segment.ident.to_string())
@ -66,20 +65,6 @@ fn parse_type(item: &syn::Type) -> data::Types {
} }
} }
fn has_generic(ty: &data::Types, generic: &String) -> bool {
use data::Types;
match ty {
Types::String | Types::Bool |
Types::F32 | Types::F64 |
Types::I8 | Types::I16 | Types::I32 | Types::I64 |
Types::U8 | Types::U16 | Types::U32 | Types::U64 => false,
Types::Array(inner) => has_generic(inner, generic),
Types::Optional(inner) => has_generic(inner, generic),
Types::Named(name) => name == generic,
Types::Generic(name, inner, _) => name == generic || has_generic(inner, generic)
}
}
fn parse_struct(item: &syn::ItemStruct) -> data::StructTy { fn parse_struct(item: &syn::ItemStruct) -> data::StructTy {
let name = item.ident.to_string(); let name = item.ident.to_string();
if let Some(v) = &item.generics.where_clause { if let Some(v) = &item.generics.where_clause {
@ -88,7 +73,7 @@ fn parse_struct(item: &syn::ItemStruct) -> data::StructTy {
if item.generics.params.len() > 1 { if item.generics.params.len() > 1 {
emit_error(Some((item.generics.params.span(), "Only one generic parameter is allowed for now"))); emit_error(Some((item.generics.params.span(), "Only one generic parameter is allowed for now")));
} }
let generic_name = item.generics.params.first().map(|g| { let generic_names = item.generics.params.iter().map(|g| {
match g { match g {
syn::GenericParam::Const(_) | syn::GenericParam::Const(_) |
syn::GenericParam::Lifetime(_) => emit_error(Some((g.span(), "Only generic types are allowed"))), syn::GenericParam::Lifetime(_) => emit_error(Some((g.span(), "Only generic types are allowed"))),
@ -102,23 +87,16 @@ fn parse_struct(item: &syn::ItemStruct) -> data::StructTy {
ty.ident.to_string() ty.ident.to_string()
} }
} }
}); }).collect();
let mut generic_fields = vec![]; let fields = item.fields.iter().map(|field| {
let mut fields = vec![];
for field in &item.fields {
if field.ident.is_none() { if field.ident.is_none() {
emit_error(vec![(field.span(), "Missing field name")]); emit_error(vec![(field.span(), "Missing field name")]);
} }
let name = field.ident.as_ref().unwrap().to_string(); let name = field.ident.as_ref().unwrap().to_string();
let ty = parse_type(&field.ty); let ty = parse_type(&field.ty);
let ty = data::FieldTy { name, ty }; data::FieldTy { name, ty }
if generic_name.is_some() && has_generic(&ty.ty, generic_name.as_ref().unwrap()) { }).collect();
generic_fields.push(ty); data::StructTy { name, fields, generic_names }
} else {
fields.push(ty);
}
}
data::StructTy { name, fields, generic_fields, generic_name }
} }
fn try_parse_iterator(ty: &syn::Type) -> Option<data::Types> { fn try_parse_iterator(ty: &syn::Type) -> Option<data::Types> {

13
templates/cpp_server.rs.cpp → templates/cpp_server.rs.cxx
View File

@ -1,6 +1,6 @@
@use crate::data::RPC; @use crate::data::RPC;
@use crate::generators::cpp_s::*; @use crate::generators::cpp_s::*;
@use super::cpp_server_json_cpp; @use super::cpp_server_json_cxx;
@(header_name: &str, rpc: &RPC) @(header_name: &str, rpc: &RPC)
#include "@header_name" #include "@header_name"
@ -8,7 +8,9 @@
#include <corvusoft/restbed/resource.hpp> #include <corvusoft/restbed/resource.hpp>
#include <corvusoft/restbed/request.hpp> #include <corvusoft/restbed/request.hpp>
@:cpp_server_json_cpp(rpc) using namespace mrpc;
@:cpp_server_json_cxx(rpc)
template<typename T> template<typename T>
void send_msg(const std::shared_ptr<restbed::Session> &c, const T &v) @{ void send_msg(const std::shared_ptr<restbed::Session> &c, const T &v) @{
@ -55,7 +57,7 @@ mrpc::MRPCStreamImpl::MRPCStreamImpl(const std::shared_ptr<restbed::Session> &co
void mrpc::MRPCStreamImpl::close() const noexcept @{ conn->close("data:null\n\n"); @} void mrpc::MRPCStreamImpl::close() const noexcept @{ conn->close("data:null\n\n"); @}
bool mrpc::MRPCStreamImpl::is_open() const noexcept @{ return conn->is_open(); @} bool mrpc::MRPCStreamImpl::is_open() const noexcept @{ return conn->is_open(); @}
@for s in streams_required(rpc) {template<> void MRPCStream<mrpc::@s>::send(const mrpc::@s &v) const noexcept @{ send_sse_msg(conn, v); @} @for s in streams_required(rpc) {template<> void MRPCStream<@s>::send(const @s &v) const noexcept @{ send_sse_msg(conn, v); @}
} }
mrpc::MRPCServer::MRPCServer(std::shared_ptr<restbed::Resource> &r) @{ mrpc::MRPCServer::MRPCServer(std::shared_ptr<restbed::Resource> &r) @{
@ -75,7 +77,8 @@ void mrpc::MRPCServer::msg_handler(const std::shared_ptr<restbed::Session> __c,
if (__j.HasParseError()) if (__j.HasParseError())
throw std::exception@{@}; throw std::exception@{@};
std::string __service, __method; std::string __service, __method;
json_get(__j, "service", __service); json_get(__j, "method", __method); __service << json_get(__j, "service");
__method << json_get(__j, "method");
auto __data_member = __j.FindMember("data"); auto __data_member = __j.FindMember("data");
if (__data_member == __j.MemberEnd() || !__data_member->value.IsObject()) if (__data_member == __j.MemberEnd() || !__data_member->value.IsObject())
throw std::exception@{@}; throw std::exception@{@};
@ -84,7 +87,7 @@ void mrpc::MRPCServer::msg_handler(const std::shared_ptr<restbed::Session> __c,
@for (mi, m) in s.methods.iter().enumerate() {@if mi > 0 { else }else{ }if (__method == "@m.name") @{ @for (mi, m) in s.methods.iter().enumerate() {@if mi > 0 { else }else{ }if (__method == "@m.name") @{
@if m.ret_stream {auto __stream = MRPCStream<@ty_to_str(m.ret.as_ref().unwrap())>@{__c@}; @if m.ret_stream {auto __stream = MRPCStream<@ty_to_str(m.ret.as_ref().unwrap())>@{__c@};
} }
@for (name, ty) in m.args.iter().map(|a| (&a.name, ty_to_str(&a.ty))) { @ty @name; json_get<@ty>(__data, "@name", @name); @for (name, ty) in m.args.iter().map(|a| (&a.name, ty_to_str(&a.ty))) { @ty @name; @name << json_get(__data, "@name");
} }
@if m.ret_stream || m.ret.is_none() {@(s.name)_@(m.name)(@call_args(m));} @if m.ret_stream || m.ret.is_none() {@(s.name)_@(m.name)(@call_args(m));}
else {send_msg(__c, @(s.name)_@(m.name)(@call_args(m)));} else {send_msg(__c, @(s.name)_@(m.name)(@call_args(m)));}

5
templates/cpp_server.rs.h → templates/cpp_server.rs.hxx
View File

@ -31,10 +31,10 @@ enum struct @e.name : std::uint64_t @{
@e.values.iter().map(|(k,v)| format!("{k} = {v}")).join(",\n ") @e.values.iter().map(|(k,v)| format!("{k} = {v}")).join(",\n ")
@}; @};
} }
@for s in &rpc.structs {struct @s.name; @for s in &rpc.structs {@get_struct_generics(s)struct @s.name;
} }
@for s in &rpc.structs { @for s in &rpc.structs {
struct @s.name @{ @get_struct_generics(s)struct @s.name @{
@for f in &s.fields { @ty_to_str(&f.ty) @f.name; @for f in &s.fields { @ty_to_str(&f.ty) @f.name;
} }
MRPCJWriter& operator >>(MRPCJWriter&) const; MRPCJWriter& operator >>(MRPCJWriter&) const;
@ -58,6 +58,7 @@ struct MRPCStream final : MRPCStreamImpl @{
@for s in streams_required(rpc) {template struct MRPCStream<@(s)>; @for s in streams_required(rpc) {template struct MRPCStream<@(s)>;
}} }}
struct MRPCServer @{ struct MRPCServer @{
MRPCServer() = delete;
explicit MRPCServer(std::shared_ptr<restbed::Resource>&); explicit MRPCServer(std::shared_ptr<restbed::Resource>&);
private: private:
@for s in &rpc.services {@for m in &s.methods { virtual @method_ret(m) @(s.name)_@(m.name)(@method_args(m)) = 0; @for s in &rpc.services {@for m in &s.methods { virtual @method_ret(m) @(s.name)_@(m.name)(@method_args(m)) = 0;

73
templates/cpp_server_json.rs.cpp
View File

@ -1,73 +0,0 @@
@use crate::data::RPC;
@use crate::generators::cpp_s::*;
@(rpc: &RPC)
template<typename T>
void json_get(const rapidjson::Value &j, const char *key, T &v);
template<typename T>
void json_get_inner(const rapidjson::Value&, T &v) = delete;
@for (ty, jty) in JSON_INNER_IMPLS {
template<> inline void json_get_inner(const rapidjson::Value &member, @ty &v) @{
if (!member.Is@(jty)())
throw std::exception@{@};
v = member.Get@(jty)();
@}}
template<typename T>
inline void json_get_inner(const rapidjson::Value &member, std::optional<T> &v) @{
if (member.IsNull())
v = std::nullopt;
else @{
T t;
json_get_inner<T>(member, t);
v = std::move(t);
@}
@}
template<typename T>
inline void json_get_inner(const rapidjson::Value &member, std::vector<T> &v) @{
if (!member.IsArray())
throw std::exception@{@};
for (const auto &j : member.GetArray()) @{
T t;
json_get_inner<T>(j, t);
v.push_back(std::move(t));
@}
@}
@for s in &rpc.structs {
template<> inline void json_get_inner(const rapidjson::Value &__j, mrpc::@s.name &v) @{
using namespace mrpc;
@for f in &s.fields { json_get<@ty_to_str(&f.ty)>(__j, "@f.name", v.@f.name);
}@}
}
@for e in &rpc.enums {
template<> inline void json_get_inner(const rapidjson::Value &j, mrpc::@e.name &v) @{
json_get_inner<std::uint64_t>(j, (std::uint64_t&)v);
@}
mrpc::MRPCJWriter& operator >>(const mrpc::@e.name &v, mrpc::MRPCJWriter &w) @{
w.Uint64((std::uint64_t)v);
return w;
@}
}
template<typename T>
inline void json_get(const rapidjson::Value &j, const char *key, T &v) @{
auto member = j.FindMember(key);
if (member == j.MemberEnd())
throw std::exception@{@};
json_get_inner(member->value, v);
@}
namespace mrpc @{
@for s in &rpc.structs {
MRPCJWriter& @(s.name)::operator >>(MRPCJWriter &__w) const @{
__w.StartObject();
@for f in &s.fields { __w.Key("@f.name", @f.name.len());
@json_write(&f)
} __w.EndObject();
return __w;
@}
@(s.name)& @(s.name)::operator <<(const rapidjson::Value &__j) @{ json_get_inner<@(s.name)>(__j, *this); return *this; @}
}

95
templates/cpp_server_json.rs.cxx Normal file
View File

@ -0,0 +1,95 @@
@use crate::data::RPC;
@use crate::generators::cpp_s::*;
@(rpc: &RPC)
@for (ty, jty) in JSON_INNER_IMPLS {
inline @(ty)& operator<<(@ty &v, const rapidjson::Value &j) @{
if (!j.Is@(jty)())
throw std::exception@{@};
v = j.Get@(jty)();
return v;
@}
inline mrpc::MRPCJWriter& operator>>(const @ty &v, mrpc::MRPCJWriter &w) @{
w.@(jty)(v);
return w;
@}}
@for e in &rpc.enums {
inline mrpc::@e.name& operator<<(mrpc::@e.name &v, const rapidjson::Value &j) @{
((std::uint64_t&)v) << j;
return v;
@}
mrpc::MRPCJWriter& operator>>(const mrpc::@e.name &v, mrpc::MRPCJWriter &w) @{
w.Uint64((std::uint64_t)v);
return w;
@}
}
template<typename T>
inline std::vector<T>& operator<<(std::vector<T> &v, const rapidjson::Value &j);
template<typename T>
inline std::optional<T>& operator<<(std::optional<T> &v, const rapidjson::Value &j) @{
if (j.IsNull())
v = std::nullopt;
else @{
T t;
t << j;
v = std::move(t);
@}
return v;
@}
template<typename T>
inline std::vector<T>& operator<<(std::vector<T> &v, const rapidjson::Value &j) @{
if (!j.IsArray())
throw std::exception@{@};
for (const auto &e : j.GetArray()) @{
T t;
t << e;
v.push_back(std::move(t));
@}
return v;
@}
template<typename T>
inline mrpc::MRPCJWriter& operator>>(const std::vector<T> &v, mrpc::MRPCJWriter &w);
template<typename T>
inline mrpc::MRPCJWriter& operator>>(const std::optional<T> &v, mrpc::MRPCJWriter &w) @{
if (v.has_value())
v.value() >> w;
else
w.Null();
return w;
@}
template<typename T>
inline mrpc::MRPCJWriter& operator>>(const std::vector<T> &v, mrpc::MRPCJWriter &w) @{
w.StartArray();
for (const auto &e : v)
e >> w;
w.EndArray();
return w;
@}
inline const rapidjson::Value& json_get(const rapidjson::Value &j, const char *key) @{
auto member = j.FindMember(key);
if (member == j.MemberEnd())
throw std::exception@{@};
return member->value;
@}
namespace mrpc @{
@for s in &rpc.structs {
@get_struct_generics(s)MRPCJWriter& @(s.name)@(generics_brace(s))::operator>>(MRPCJWriter &__w) const @{
__w.StartObject();
@for f in &s.fields { __w.Key("@f.name", @f.name.len());
@f.name >> __w;
} __w.EndObject();
return __w;
@}
@get_struct_generics(s)@(s.name)@(generics_brace(s))& @(s.name)@(generics_brace(s))::operator<<(const rapidjson::Value &__j) @{
using namespace mrpc;
@for f in &s.fields { @f.name << json_get(__j, "@f.name");
} return *this;
@}
}

2
templates/typescript_client.rs.ts
View File

@ -10,7 +10,7 @@ export enum @e.name @{
}@} }@}
} }
@for s in &rpc.structs { @for s in &rpc.structs {
export interface @s.name @{ export interface @s.name@get_struct_generics(s) @{
@for f in &s.fields { @f.name: @ty_to_str(&f.ty); @for f in &s.fields { @f.name: @ty_to_str(&f.ty);
}@} }@}
} }