use std::collections;
use std::collections::{HashMap, HashSet};
use std::path::{Path, PathBuf};
use capnp;
use capnp::schema_capnp;
use capnp::Error;
use self::FormattedText::{BlankLine, Branch, Indent, Line};
use crate::codegen_types::{do_branding, Leaf, RustNodeInfo, RustTypeInfo, TypeParameterTexts};
use crate::convert_io_err;
use crate::pointer_constants::generate_pointer_constant;
pub struct CodeGenerationCommand {
output_directory: PathBuf,
default_parent_module: Vec<String>,
raw_code_generator_request_path: Option<PathBuf>,
capnp_root: String,
crates_provide_map: HashMap<u64, String>,
}
impl Default for CodeGenerationCommand {
fn default() -> Self {
Self {
output_directory: PathBuf::new(),
default_parent_module: Vec::new(),
raw_code_generator_request_path: None,
capnp_root: "::capnp".into(),
crates_provide_map: HashMap::new(),
}
}
}
impl CodeGenerationCommand {
pub fn new() -> Self {
Self::default()
}
pub fn output_directory<P>(&mut self, path: P) -> &mut Self
where
P: AsRef<Path>,
{
self.output_directory = path.as_ref().to_path_buf();
self
}
pub fn default_parent_module(&mut self, default_parent_module: Vec<String>) -> &mut Self {
self.default_parent_module = default_parent_module;
self
}
pub fn capnp_root(&mut self, capnp_root: &str) -> &mut Self {
self.capnp_root = capnp_root.into();
self
}
pub fn raw_code_generator_request_path<P>(&mut self, path: P) -> &mut Self
where
P: AsRef<Path>,
{
self.raw_code_generator_request_path = Some(path.as_ref().to_path_buf());
self
}
pub fn crates_provide_map(&mut self, map: HashMap<u64, String>) -> &mut Self {
self.crates_provide_map = map;
self
}
pub fn run<T>(&mut self, inp: T) -> ::capnp::Result<()>
where
T: std::io::Read,
{
use capnp::serialize;
use std::io::Write;
let message = serialize::read_message(inp, capnp::message::ReaderOptions::new())?;
let ctx = GeneratorContext::new_from_code_generation_command(self, &message)?;
for requested_file in ctx.request.get_requested_files()? {
let id = requested_file.get_id();
let mut filepath = self.output_directory.to_path_buf();
let requested = ::std::path::PathBuf::from(requested_file.get_filename()?.to_str()?);
filepath.push(requested);
if let Some(parent) = filepath.parent() {
::std::fs::create_dir_all(parent).map_err(convert_io_err)?;
}
let root_name = path_to_stem_string(&filepath)?.replace('-', "_");
filepath.set_file_name(&format!("{root_name}_capnp.rs"));
let lines =
Branch(vec![
Line(
"// @generated by the capnpc-rust plugin to the Cap'n Proto schema compiler."
.to_string(),
),
line("// DO NOT EDIT."),
Line(format!("// source: {}", requested_file.get_filename()?.to_str()?)),
BlankLine,
generate_node(&ctx, id, &root_name)?,
]);
let text = stringify(&lines);
let previous_text = ::std::fs::read(&filepath);
if previous_text.is_ok() && previous_text.unwrap() == text.as_bytes() {
continue;
}
match ::std::fs::File::create(&filepath) {
Ok(mut writer) => {
writer.write_all(text.as_bytes()).map_err(convert_io_err)?;
}
Err(e) => {
let _ = writeln!(
&mut ::std::io::stderr(),
"could not open file {filepath:?} for writing: {e}"
);
return Err(convert_io_err(e));
}
}
}
if let Some(raw_code_generator_request) = &self.raw_code_generator_request_path {
let raw_code_generator_request_file =
::std::fs::File::create(raw_code_generator_request).map_err(convert_io_err)?;
serialize::write_message_segments(
raw_code_generator_request_file,
&message.into_segments(),
)?;
}
Ok(())
}
}
pub struct GeneratorContext<'a> {
pub request: schema_capnp::code_generator_request::Reader<'a>,
pub node_map: collections::hash_map::HashMap<u64, schema_capnp::node::Reader<'a>>,
pub scope_map: collections::hash_map::HashMap<u64, Vec<String>>,
pub node_parents: collections::hash_map::HashMap<u64, u64>,
pub capnp_root: String,
}
impl<'a> GeneratorContext<'a> {
pub fn new(
message: &'a capnp::message::Reader<capnp::serialize::OwnedSegments>,
) -> ::capnp::Result<GeneratorContext<'a>> {
GeneratorContext::new_from_code_generation_command(&Default::default(), message)
}
fn new_from_code_generation_command(
code_generation_command: &CodeGenerationCommand,
message: &'a capnp::message::Reader<capnp::serialize::OwnedSegments>,
) -> ::capnp::Result<GeneratorContext<'a>> {
let mut default_parent_module_scope = vec!["crate".to_string()];
default_parent_module_scope
.extend_from_slice(&code_generation_command.default_parent_module[..]);
let mut ctx = GeneratorContext {
request: message.get_root()?,
node_map: collections::hash_map::HashMap::<u64, schema_capnp::node::Reader<'a>>::new(),
scope_map: collections::hash_map::HashMap::<u64, Vec<String>>::new(),
node_parents: collections::hash_map::HashMap::new(),
capnp_root: code_generation_command.capnp_root.clone(),
};
let crates_provide = &code_generation_command.crates_provide_map;
for node in ctx.request.get_nodes()? {
ctx.node_map.insert(node.get_id(), node);
ctx.node_parents.insert(node.get_id(), node.get_scope_id());
}
for node in ctx.request.get_nodes()? {
if let Ok(schema_capnp::node::Interface(interface_reader)) = node.which() {
for method in interface_reader.get_methods()? {
let param_struct_type = method.get_param_struct_type();
if ctx.node_parents.get(¶m_struct_type) == Some(&0) {
ctx.node_parents.insert(param_struct_type, node.get_id());
}
let result_struct_type = method.get_result_struct_type();
if ctx.node_parents.get(&result_struct_type) == Some(&0) {
ctx.node_parents.insert(result_struct_type, node.get_id());
}
}
}
}
for requested_file in ctx.request.get_requested_files()? {
let id = requested_file.get_id();
for import in requested_file.get_imports()? {
let importpath = ::std::path::Path::new(import.get_name()?.to_str()?);
let root_name: String = format!(
"{}_capnp",
path_to_stem_string(importpath)?.replace('-', "_")
);
let parent_module_scope = if let Some(krate) = crates_provide.get(&import.get_id())
{
vec![format!("::{krate}")]
} else {
default_parent_module_scope.clone()
};
ctx.populate_scope_map(
parent_module_scope,
root_name,
NameKind::Verbatim,
import.get_id(),
)?;
}
let root_name = path_to_stem_string(requested_file.get_filename()?.to_str()?)?;
let root_mod = format!("{}_capnp", root_name.replace('-', "_"));
ctx.populate_scope_map(
default_parent_module_scope.clone(),
root_mod,
NameKind::Verbatim,
id,
)?;
}
Ok(ctx)
}
fn get_last_name(&self, id: u64) -> ::capnp::Result<&str> {
match self.scope_map.get(&id) {
None => Err(Error::failed(format!("node not found: {id}"))),
Some(v) => match v.last() {
None => Err(Error::failed(format!("node has no scope: {id}"))),
Some(n) => Ok(n),
},
}
}
fn populate_scope_map(
&mut self,
mut ancestor_scope_names: Vec<String>,
mut current_node_name: String,
current_name_kind: NameKind,
node_id: u64,
) -> ::capnp::Result<()> {
let Some(&node_reader) = self.node_map.get(&node_id) else {
return Ok(());
};
for annotation in node_reader.get_annotations()? {
if annotation.get_id() == NAME_ANNOTATION_ID {
current_node_name = name_annotation_value(annotation)?.to_string();
} else if annotation.get_id() == PARENT_MODULE_ANNOTATION_ID {
let head = ancestor_scope_names[0].clone();
ancestor_scope_names.clear();
ancestor_scope_names.push(head);
ancestor_scope_names.append(&mut get_parent_module(annotation)?);
}
}
let mut scope_names = ancestor_scope_names;
scope_names.push(capnp_name_to_rust_name(
¤t_node_name,
current_name_kind,
));
self.scope_map.insert(node_id, scope_names.clone());
let nested_nodes = node_reader.get_nested_nodes()?;
for nested_node in nested_nodes {
let nested_node_id = nested_node.get_id();
match self.node_map.get(&nested_node_id) {
None => {}
Some(node_reader) => match node_reader.which() {
Ok(schema_capnp::node::Enum(_enum_reader)) => {
self.populate_scope_map(
scope_names.clone(),
nested_node.get_name()?.to_string()?,
NameKind::Verbatim,
nested_node_id,
)?;
}
_ => {
self.populate_scope_map(
scope_names.clone(),
nested_node.get_name()?.to_string()?,
NameKind::Module,
nested_node_id,
)?;
}
},
}
}
if let Ok(schema_capnp::node::Struct(struct_reader)) = node_reader.which() {
let fields = struct_reader.get_fields()?;
for field in fields {
if let Ok(schema_capnp::field::Group(group)) = field.which() {
self.populate_scope_map(
scope_names.clone(),
get_field_name(field)?.to_string(),
NameKind::Module,
group.get_type_id(),
)?;
}
}
}
Ok(())
}
pub fn get_qualified_module(&self, type_id: u64) -> String {
self.scope_map[&type_id].join("::")
}
}
macro_rules! fmt(
($ctx:ident, $($arg:tt)*) => ( format!($($arg)*, capnp=$ctx.capnp_root) )
);
pub(crate) use fmt;
fn path_to_stem_string<P: AsRef<::std::path::Path>>(path: P) -> ::capnp::Result<String> {
match path.as_ref().file_stem() {
None => Err(Error::failed(format!(
"file has no stem: {:?}",
path.as_ref()
))),
Some(stem) => match stem.to_owned().into_string() {
Err(os_string) => Err(Error::failed(format!("bad filename: {os_string:?}"))),
Ok(s) => Ok(s),
},
}
}
fn snake_to_upper_case(s: &str) -> String {
let mut result_chars: Vec<char> = Vec::new();
for c in s.chars() {
if c == '_' {
result_chars.push('_');
} else {
result_chars.push(c.to_ascii_uppercase());
}
}
result_chars.into_iter().collect()
}
fn camel_to_snake_case(s: &str) -> String {
let mut result_chars: Vec<char> = Vec::new();
let mut first_char = true;
for c in s.chars() {
if c.is_uppercase() && !first_char {
result_chars.push('_');
}
result_chars.push(c.to_ascii_lowercase());
first_char = false;
}
result_chars.into_iter().collect()
}
fn capitalize_first_letter(s: &str) -> String {
let mut result_chars: Vec<char> = Vec::new();
for c in s.chars() {
result_chars.push(c)
}
result_chars[0] = result_chars[0].to_ascii_uppercase();
result_chars.into_iter().collect()
}
fn format_u64(value: u64) -> String {
let hex = format!("{value:#x}");
let mut separated = hex[0..2].to_string();
let mut place = hex.len() - 2;
let mut later_loop = false;
for ch in hex[2..].chars() {
if later_loop && place % 4 == 0 {
separated.push('_');
}
separated.push(ch);
later_loop = true;
place -= 1;
}
separated
}
#[test]
fn test_camel_to_snake_case() {
assert_eq!(camel_to_snake_case("fooBar"), "foo_bar".to_string());
assert_eq!(camel_to_snake_case("FooBar"), "foo_bar".to_string());
assert_eq!(camel_to_snake_case("fooBarBaz"), "foo_bar_baz".to_string());
assert_eq!(camel_to_snake_case("FooBarBaz"), "foo_bar_baz".to_string());
assert_eq!(camel_to_snake_case("helloWorld"), "hello_world".to_string());
assert_eq!(camel_to_snake_case("HelloWorld"), "hello_world".to_string());
assert_eq!(camel_to_snake_case("uint32Id"), "uint32_id".to_string());
assert_eq!(camel_to_snake_case("fooBar_"), "foo_bar_".to_string());
}
#[derive(PartialEq, Clone)]
pub enum FormattedText {
Indent(Box<FormattedText>),
Branch(Vec<FormattedText>),
Line(String),
BlankLine,
}
impl From<Vec<FormattedText>> for FormattedText {
fn from(value: Vec<FormattedText>) -> Self {
Branch(value)
}
}
pub fn indent(inner: impl Into<FormattedText>) -> FormattedText {
Indent(Box::new(inner.into()))
}
pub fn line(inner: impl ToString) -> FormattedText {
Line(inner.to_string())
}
fn to_lines(ft: &FormattedText, indent: usize) -> Vec<String> {
match ft {
Indent(ft) => to_lines(ft, indent + 1),
Branch(fts) => {
let mut result = Vec::new();
for ft in fts {
for line in &to_lines(ft, indent) {
result.push(line.clone()); }
}
result
}
Line(s) => {
let mut s1: String = " ".repeat(indent * 2);
s1.push_str(s);
vec![s1.to_string()]
}
BlankLine => vec!["".to_string()],
}
}
fn stringify(ft: &FormattedText) -> String {
let mut result = to_lines(ft, 0).join("\n");
result.push('\n');
result.to_string()
}
const RUST_KEYWORDS: [&str; 53] = [
"abstract", "alignof", "as", "be", "become", "box", "break", "const", "continue", "crate",
"do", "else", "enum", "extern", "false", "final", "fn", "for", "if", "impl", "in", "let",
"loop", "macro", "match", "mod", "move", "mut", "offsetof", "once", "override", "priv", "proc",
"pub", "pure", "ref", "return", "self", "sizeof", "static", "struct", "super", "trait", "true",
"type", "typeof", "unsafe", "unsized", "use", "virtual", "where", "while", "yield",
];
fn module_name(camel_case: &str) -> String {
let mut name = camel_to_snake_case(camel_case);
if RUST_KEYWORDS.contains(&&*name) {
name.push('_');
}
name
}
const NAME_ANNOTATION_ID: u64 = 0xc2fe4c6d100166d0;
const PARENT_MODULE_ANNOTATION_ID: u64 = 0xabee386cd1450364;
const OPTION_ANNOTATION_ID: u64 = 0xabfef22c4ee1964e;
fn name_annotation_value(annotation: schema_capnp::annotation::Reader) -> capnp::Result<&str> {
if let schema_capnp::value::Text(t) = annotation.get_value()?.which()? {
let name = t?.to_str()?;
for c in name.chars() {
if !(c == '_' || c.is_alphanumeric()) {
return Err(capnp::Error::failed(
"rust.name annotation value must only contain alphanumeric characters and '_'"
.to_string(),
));
}
}
Ok(name)
} else {
Err(capnp::Error::failed(
"expected rust.name annotation value to be of type Text".to_string(),
))
}
}
fn get_field_name(field: schema_capnp::field::Reader) -> capnp::Result<&str> {
for annotation in field.get_annotations()? {
if annotation.get_id() == NAME_ANNOTATION_ID {
return name_annotation_value(annotation);
}
}
Ok(field.get_name()?.to_str()?)
}
fn get_enumerant_name(enumerant: schema_capnp::enumerant::Reader) -> capnp::Result<&str> {
for annotation in enumerant.get_annotations()? {
if annotation.get_id() == NAME_ANNOTATION_ID {
return name_annotation_value(annotation);
}
}
Ok(enumerant.get_name()?.to_str()?)
}
fn get_parent_module(annotation: schema_capnp::annotation::Reader) -> capnp::Result<Vec<String>> {
if let schema_capnp::value::Text(t) = annotation.get_value()?.which()? {
let module = t?.to_str()?;
Ok(module.split("::").map(|x| x.to_string()).collect())
} else {
Err(capnp::Error::failed(
"expected rust.parentModule annotation value to be of type Text".to_string(),
))
}
}
#[derive(Clone, Copy)]
enum NameKind {
Module,
Verbatim,
}
fn capnp_name_to_rust_name(capnp_name: &str, name_kind: NameKind) -> String {
match name_kind {
NameKind::Module => module_name(capnp_name),
NameKind::Verbatim => capnp_name.to_string(),
}
}
fn is_option_field(field: schema_capnp::field::Reader) -> capnp::Result<bool> {
use capnp::schema_capnp::*;
let enabled = field
.get_annotations()?
.iter()
.any(|a| a.get_id() == OPTION_ANNOTATION_ID);
if enabled {
let supported = match field.which()? {
field::Which::Group(_) => false,
field::Which::Slot(field) => {
let ty = field.get_type()?;
ty.is_pointer()? && !matches!(ty.which()?, type_::Interface(_))
}
};
if !supported {
return Err(capnp::Error::failed(
"$Rust.option annotation only supported on pointer fields (support for optional interfaces isn't implemented yet)".to_string(),
));
}
}
Ok(enabled)
}
fn prim_default(value: &schema_capnp::value::Reader) -> ::capnp::Result<Option<String>> {
use capnp::schema_capnp::value;
match value.which()? {
value::Bool(false)
| value::Int8(0)
| value::Int16(0)
| value::Int32(0)
| value::Int64(0)
| value::Uint8(0)
| value::Uint16(0)
| value::Uint32(0)
| value::Uint64(0) => Ok(None),
value::Bool(true) => Ok(Some("true".to_string())),
value::Int8(i) => Ok(Some(i.to_string())),
value::Int16(i) => Ok(Some(i.to_string())),
value::Int32(i) => Ok(Some(i.to_string())),
value::Int64(i) => Ok(Some(i.to_string())),
value::Uint8(i) => Ok(Some(i.to_string())),
value::Uint16(i) => Ok(Some(i.to_string())),
value::Uint32(i) => Ok(Some(i.to_string())),
value::Uint64(i) => Ok(Some(i.to_string())),
value::Float32(f) => match f.classify() {
::std::num::FpCategory::Zero => Ok(None),
_ => Ok(Some(format!("{}u32", f.to_bits()))),
},
value::Float64(f) => match f.classify() {
::std::num::FpCategory::Zero => Ok(None),
_ => Ok(Some(format!("{}u64", f.to_bits()))),
},
_ => Err(Error::failed(
"Non-primitive value found where primitive was expected.".to_string(),
)),
}
}
fn get_params(ctx: &GeneratorContext, mut node_id: u64) -> ::capnp::Result<Vec<String>> {
let mut result = Vec::new();
while node_id != 0 {
let node = ctx.node_map[&node_id];
let parameters = node.get_parameters()?;
for parameter in parameters.into_iter().rev() {
result.push(parameter.get_name()?.to_str()?.into());
}
node_id = node.get_scope_id();
}
result.reverse();
Ok(result)
}
pub fn getter_text(
ctx: &GeneratorContext,
field: &schema_capnp::field::Reader,
is_reader: bool,
is_fn: bool,
) -> ::capnp::Result<(String, FormattedText, Option<FormattedText>)> {
use capnp::schema_capnp::*;
match field.which()? {
field::Group(group) => {
let params = get_params(ctx, group.get_type_id())?;
let params_string = if params.is_empty() {
"".to_string()
} else {
format!(",{}", params.join(","))
};
let the_mod = ctx.get_qualified_module(group.get_type_id());
let mut result_type = if is_reader {
format!("{the_mod}::Reader<'a{params_string}>")
} else {
format!("{the_mod}::Builder<'a{params_string}>")
};
if is_fn {
result_type = format!("-> {result_type}");
}
let getter_code = if is_reader {
line("self.reader.into()")
} else {
line("self.builder.into()")
};
Ok((result_type, getter_code, None))
}
field::Slot(reg_field) => {
let mut default_decl = None;
let offset = reg_field.get_offset() as usize;
let module_string = if is_reader { "Reader" } else { "Builder" };
let module = if is_reader {
Leaf::Reader("'a")
} else {
Leaf::Builder("'a")
};
let member = camel_to_snake_case(module_string);
fn primitive_case<T: PartialEq + ::std::fmt::Display>(
typ: &str,
member: &str,
offset: usize,
default: T,
zero: T,
) -> String {
if default == zero {
format!("self.{member}.get_data_field::<{typ}>({offset})")
} else {
format!("self.{member}.get_data_field_mask::<{typ}>({offset}, {default})")
}
}
let raw_type = reg_field.get_type()?;
let inner_type = raw_type.type_string(ctx, module)?;
let default_value = reg_field.get_default_value()?;
let default = default_value.which()?;
let default_name = format!(
"DEFAULT_{}",
snake_to_upper_case(&camel_to_snake_case(get_field_name(*field)?))
);
let should_get_option = is_option_field(*field)?;
let typ = if should_get_option {
format!("Option<{}>", inner_type)
} else {
inner_type
};
let (is_fallible, mut result_type) = match raw_type.which()? {
type_::Enum(_) => (
true,
fmt!(ctx, "::core::result::Result<{typ},{capnp}::NotInSchema>"),
),
type_::AnyPointer(_) if !raw_type.is_parameter()? => (false, typ.clone()),
type_::Interface(_) => (
true,
fmt!(
ctx,
"{capnp}::Result<{}>",
raw_type.type_string(ctx, Leaf::Client)?
),
),
_ if raw_type.is_prim()? => (false, typ.clone()),
_ => (true, fmt!(ctx, "{capnp}::Result<{typ}>")),
};
if is_fn {
result_type = if result_type == "()" {
"".to_string()
} else {
format!("-> {result_type}")
}
}
let getter_fragment = match (raw_type.which()?, default) {
(type_::Void(()), value::Void(())) => {
if is_fn {
"".to_string()
} else {
"()".to_string()
}
}
(type_::Bool(()), value::Bool(b)) => {
if b {
format!("self.{member}.get_bool_field_mask({offset}, true)")
} else {
format!("self.{member}.get_bool_field({offset})")
}
}
(type_::Int8(()), value::Int8(i)) => primitive_case(&typ, &member, offset, i, 0),
(type_::Int16(()), value::Int16(i)) => primitive_case(&typ, &member, offset, i, 0),
(type_::Int32(()), value::Int32(i)) => primitive_case(&typ, &member, offset, i, 0),
(type_::Int64(()), value::Int64(i)) => primitive_case(&typ, &member, offset, i, 0),
(type_::Uint8(()), value::Uint8(i)) => primitive_case(&typ, &member, offset, i, 0),
(type_::Uint16(()), value::Uint16(i)) => {
primitive_case(&typ, &member, offset, i, 0)
}
(type_::Uint32(()), value::Uint32(i)) => {
primitive_case(&typ, &member, offset, i, 0)
}
(type_::Uint64(()), value::Uint64(i)) => {
primitive_case(&typ, &member, offset, i, 0)
}
(type_::Float32(()), value::Float32(f)) => {
primitive_case(&typ, &member, offset, f.to_bits(), 0)
}
(type_::Float64(()), value::Float64(f)) => {
primitive_case(&typ, &member, offset, f.to_bits(), 0)
}
(type_::Enum(_), value::Enum(d)) => {
if d == 0 {
format!("::core::convert::TryInto::try_into(self.{member}.get_data_field::<u16>({offset}))")
} else {
format!(
"::core::convert::TryInto::try_into(self.{member}.get_data_field_mask::<u16>({offset}, {d}))")
}
}
(type_::Text(()), value::Text(_))
| (type_::Data(()), value::Data(_))
| (type_::List(_), value::List(_))
| (type_::Struct(_), value::Struct(_)) => {
let default = if reg_field.get_had_explicit_default() {
default_decl = Some(crate::pointer_constants::word_array_declaration(
ctx,
&default_name,
::capnp::raw::get_struct_pointer_section(default_value).get(0),
crate::pointer_constants::WordArrayDeclarationOptions { public: true },
)?);
format!("::core::option::Option::Some(&_private::{default_name}[..])")
} else {
"::core::option::Option::None".to_string()
};
if is_reader {
fmt!(ctx,
"{capnp}::traits::FromPointerReader::get_from_pointer(&self.{member}.get_pointer_field({offset}), {default})")
} else {
fmt!(ctx,"{capnp}::traits::FromPointerBuilder::get_from_pointer(self.{member}.get_pointer_field({offset}), {default})")
}
}
(type_::Interface(_), value::Interface(_)) => {
fmt!(ctx,"match self.{member}.get_pointer_field({offset}).get_capability() {{ ::core::result::Result::Ok(c) => ::core::result::Result::Ok({capnp}::capability::FromClientHook::new(c)), ::core::result::Result::Err(e) => ::core::result::Result::Err(e)}}")
}
(type_::AnyPointer(_), value::AnyPointer(_)) => {
if !raw_type.is_parameter()? {
fmt!(ctx,"{capnp}::any_pointer::{module_string}::new(self.{member}.get_pointer_field({offset}))")
} else if is_reader {
fmt!(ctx,"{capnp}::traits::FromPointerReader::get_from_pointer(&self.{member}.get_pointer_field({offset}), ::core::option::Option::None)")
} else {
fmt!(ctx,"{capnp}::traits::FromPointerBuilder::get_from_pointer(self.{member}.get_pointer_field({offset}), ::core::option::Option::None)")
}
}
_ => return Err(Error::failed("default value was of wrong type".to_string())),
};
let getter_code = if should_get_option {
Branch(vec![
Line(format!(
"if self.{member}.is_pointer_field_null({offset}) {{"
)),
indent(Line(
if is_fallible {
"core::result::Result::Ok(core::option::Option::None)"
} else {
"::core::option::Option::None"
}
.to_string(),
)),
Line("} else {".to_string()),
indent(Line(if is_fallible {
format!("{getter_fragment}.map(::core::option::Option::Some)")
} else {
format!("::core::option::Option::Some({getter_fragment})")
})),
Line("}".to_string()),
])
} else {
Line(getter_fragment)
};
Ok((result_type, getter_code, default_decl))
}
}
}
fn zero_fields_of_group(
ctx: &GeneratorContext,
node_id: u64,
clear: &mut bool,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::{field, node, type_};
match ctx.node_map[&node_id].which()? {
node::Struct(st) => {
let mut result = Vec::new();
if st.get_discriminant_count() != 0 {
result.push(Line(format!(
"self.builder.set_data_field::<u16>({}, 0);",
st.get_discriminant_offset()
)));
}
let fields = st.get_fields()?;
for field in fields {
match field.which()? {
field::Group(group) => {
result.push(zero_fields_of_group(ctx, group.get_type_id(), clear)?);
}
field::Slot(slot) => {
let typ = slot.get_type()?.which()?;
match typ {
type_::Void(()) => {}
type_::Bool(()) => {
let line = Line(format!(
"self.builder.set_bool_field({}, false);",
slot.get_offset()
));
if !result.contains(&line) {
result.push(line)
}
}
type_::Int8(())
| type_::Int16(())
| type_::Int32(())
| type_::Int64(())
| type_::Uint8(())
| type_::Uint16(())
| type_::Uint32(())
| type_::Uint64(())
| type_::Float32(())
| type_::Float64(()) => {
let line = Line(format!(
"self.builder.set_data_field::<{0}>({1}, 0{0});",
slot.get_type()?.type_string(ctx, Leaf::Builder("'a"))?,
slot.get_offset()
));
if !result.contains(&line) {
result.push(line)
}
}
type_::Enum(_) => {
let line = Line(format!(
"self.builder.set_data_field::<u16>({}, 0u16);",
slot.get_offset()
));
if !result.contains(&line) {
result.push(line)
}
}
type_::Struct(_)
| type_::List(_)
| type_::Text(())
| type_::Data(())
| type_::AnyPointer(_)
| type_::Interface(_) => {
let line = Line(format!(
"self.builder.reborrow().get_pointer_field({}).clear();",
slot.get_offset()
));
*clear = true;
if !result.contains(&line) {
result.push(line)
}
}
}
}
}
}
Ok(Branch(result))
}
_ => Err(Error::failed(
"zero_fields_of_groupd() expected a struct".to_string(),
)),
}
}
fn generate_setter(
ctx: &GeneratorContext,
discriminant_offset: u32,
styled_name: &str,
field: &schema_capnp::field::Reader,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::*;
let mut setter_interior = Vec::new();
let mut setter_param = "value".to_string();
let mut initter_interior = Vec::new();
let mut initter_mut = false;
let mut initn_interior = Vec::new();
let mut initter_params = Vec::new();
let discriminant_value = field.get_discriminant_value();
if discriminant_value != field::NO_DISCRIMINANT {
setter_interior.push(Line(format!(
"self.builder.set_data_field::<u16>({}, {});",
discriminant_offset as usize, discriminant_value as usize
)));
let init_discrim = Line(format!(
"self.builder.set_data_field::<u16>({}, {});",
discriminant_offset as usize, discriminant_value as usize
));
initter_interior.push(init_discrim.clone());
initn_interior.push(init_discrim);
}
let mut return_result = false;
let mut result = Vec::new();
let (maybe_reader_type, maybe_builder_type): (Option<String>, Option<String>) = match field
.which()?
{
field::Group(group) => {
let params = get_params(ctx, group.get_type_id())?;
let params_string = if params.is_empty() {
"".to_string()
} else {
format!(",{}", params.join(","))
};
let the_mod = ctx.get_qualified_module(group.get_type_id());
initter_interior.push(zero_fields_of_group(
ctx,
group.get_type_id(),
&mut initter_mut,
)?);
initter_interior.push(line("self.builder.into()"));
(None, Some(format!("{the_mod}::Builder<'a{params_string}>")))
}
field::Slot(reg_field) => {
let offset = reg_field.get_offset() as usize;
let typ = reg_field.get_type()?;
match typ.which().expect("unrecognized type") {
type_::Void(()) => {
setter_param = "_value".to_string();
(Some("()".to_string()), None)
}
type_::Bool(()) => {
match prim_default(®_field.get_default_value()?)? {
None => {
setter_interior.push(Line(format!(
"self.builder.set_bool_field({offset}, value);"
)));
}
Some(s) => {
setter_interior.push(Line(format!(
"self.builder.set_bool_field_mask({offset}, value, {s});"
)));
}
}
(Some("bool".to_string()), None)
}
_ if typ.is_prim()? => {
let tstr = typ.type_string(ctx, Leaf::Reader("'a"))?;
match prim_default(®_field.get_default_value()?)? {
None => {
setter_interior.push(Line(format!(
"self.builder.set_data_field::<{tstr}>({offset}, value);"
)));
}
Some(s) => {
setter_interior.push(Line(format!(
"self.builder.set_data_field_mask::<{tstr}>({offset}, value, {s});"
)));
}
};
(Some(tstr), None)
}
type_::Text(()) => {
setter_interior.push(Line(format!(
"self.builder.reborrow().get_pointer_field({offset}).set_text(value);"
)));
initter_interior.push(Line(format!(
"self.builder.get_pointer_field({offset}).init_text(size)"
)));
initter_params.push("size: u32");
(
Some(fmt!(ctx, "{capnp}::text::Reader<'_>")),
Some(fmt!(ctx, "{capnp}::text::Builder<'a>")),
)
}
type_::Data(()) => {
setter_interior.push(Line(format!(
"self.builder.reborrow().get_pointer_field({offset}).set_data(value);"
)));
initter_interior.push(Line(format!(
"self.builder.get_pointer_field({offset}).init_data(size)"
)));
initter_params.push("size: u32");
(
Some(fmt!(ctx, "{capnp}::data::Reader<'_>")),
Some(fmt!(ctx, "{capnp}::data::Builder<'a>")),
)
}
type_::List(ot1) => {
return_result = true;
setter_interior.push(
Line(fmt!(ctx,"{capnp}::traits::SetPointerBuilder::set_pointer_builder(self.builder.reborrow().get_pointer_field({offset}), value, false)")));
initter_params.push("size: u32");
initter_interior.push(
Line(fmt!(ctx,"{capnp}::traits::FromPointerBuilder::init_pointer(self.builder.get_pointer_field({offset}), size)")));
match ot1.get_element_type()?.which()? {
type_::List(_) => (
Some(reg_field.get_type()?.type_string(ctx, Leaf::Reader("'_"))?),
Some(
reg_field
.get_type()?
.type_string(ctx, Leaf::Builder("'a"))?,
),
),
_ => (
Some(reg_field.get_type()?.type_string(ctx, Leaf::Reader("'a"))?),
Some(
reg_field
.get_type()?
.type_string(ctx, Leaf::Builder("'a"))?,
),
),
}
}
type_::Enum(e) => {
let id = e.get_type_id();
let the_mod = ctx.get_qualified_module(id);
if !reg_field.get_had_explicit_default() {
setter_interior.push(Line(format!(
"self.builder.set_data_field::<u16>({offset}, value as u16);"
)));
} else {
match reg_field.get_default_value()?.which()? {
schema_capnp::value::Enum(d) => {
setter_interior.push(Line(format!(
"self.builder.set_data_field_mask::<u16>({offset}, value as u16, {d});"
)));
}
_ => return Err(Error::failed("enum default not an Enum".to_string())),
}
};
(Some(the_mod), None)
}
type_::Struct(_) => {
return_result = true;
initter_interior.push(
Line(fmt!(ctx,"{capnp}::traits::FromPointerBuilder::init_pointer(self.builder.get_pointer_field({offset}), 0)")));
if typ.is_branded()? {
setter_interior.push(
Line(fmt!(ctx,
"<{} as {capnp}::traits::SetPointerBuilder>::set_pointer_builder(self.builder.reborrow().get_pointer_field({}), value, false)",
typ.type_string(ctx, Leaf::Reader("'_"))?,
offset)));
(
Some(typ.type_string(ctx, Leaf::Reader("'_"))?),
Some(typ.type_string(ctx, Leaf::Builder("'a"))?),
)
} else {
setter_interior.push(
Line(fmt!(ctx,"{capnp}::traits::SetPointerBuilder::set_pointer_builder(self.builder.reborrow().get_pointer_field({offset}), value, false)")));
(
Some(reg_field.get_type()?.type_string(ctx, Leaf::Reader("'_"))?),
Some(
reg_field
.get_type()?
.type_string(ctx, Leaf::Builder("'a"))?,
),
)
}
}
type_::Interface(_) => {
setter_interior.push(Line(format!(
"self.builder.reborrow().get_pointer_field({offset}).set_capability(value.client.hook);"
)));
(Some(typ.type_string(ctx, Leaf::Client)?), None)
}
type_::AnyPointer(_) => {
if typ.is_parameter()? {
initter_interior.push(Line(fmt!(ctx,"{capnp}::any_pointer::Builder::new(self.builder.get_pointer_field({offset})).init_as()")));
setter_interior.push(Line(fmt!(ctx,"{capnp}::traits::SetPointerBuilder::set_pointer_builder(self.builder.reborrow().get_pointer_field({offset}), value, false)")));
return_result = true;
let builder_type = typ.type_string(ctx, Leaf::Builder("'a"))?;
result.push(line("#[inline]"));
result.push(Line(format!(
"pub fn initn_{styled_name}(self, length: u32) -> {builder_type} {{"
)));
result.push(indent(initn_interior));
result.push(indent(
Line(fmt!(ctx,"{capnp}::any_pointer::Builder::new(self.builder.get_pointer_field({offset})).initn_as(length)")))
);
result.push(line("}"));
(
Some(typ.type_string(ctx, Leaf::Reader("'_"))?),
Some(builder_type),
)
} else {
initter_interior.push(Line(fmt!(ctx,"let mut result = {capnp}::any_pointer::Builder::new(self.builder.get_pointer_field({offset}));")));
initter_interior.push(line("result.clear();"));
initter_interior.push(line("result"));
(None, Some(fmt!(ctx, "{capnp}::any_pointer::Builder<'a>")))
}
}
_ => return Err(Error::failed("unrecognized type".to_string())),
}
}
};
if let Some(reader_type) = &maybe_reader_type {
let return_type = if return_result {
fmt!(ctx, "-> {capnp}::Result<()>")
} else {
"".into()
};
result.push(line("#[inline]"));
result.push(Line(format!(
"pub fn set_{styled_name}(&mut self, {setter_param}: {reader_type}) {return_type} {{"
)));
result.push(indent(setter_interior));
result.push(line("}"));
}
if let Some(builder_type) = maybe_builder_type {
result.push(line("#[inline]"));
let args = initter_params.join(", ");
let mutable = if initter_mut { "mut " } else { "" };
result.push(Line(format!(
"pub fn init_{styled_name}({mutable}self, {args}) -> {builder_type} {{"
)));
result.push(indent(initter_interior));
result.push(line("}"));
}
Ok(Branch(result))
}
fn used_params_of_group(
ctx: &GeneratorContext,
group_id: u64,
used_params: &mut HashSet<String>,
) -> capnp::Result<()> {
let node = ctx.node_map[&group_id];
match node.which()? {
schema_capnp::node::Struct(st) => {
for field in st.get_fields()? {
match field.which()? {
schema_capnp::field::Group(group) => {
used_params_of_group(ctx, group.get_type_id(), used_params)?;
}
schema_capnp::field::Slot(slot) => {
used_params_of_type(ctx, slot.get_type()?, used_params)?;
}
}
}
Ok(())
}
_ => Err(Error::failed("not a group".to_string())),
}
}
fn used_params_of_type(
ctx: &GeneratorContext,
ty: schema_capnp::type_::Reader,
used_params: &mut HashSet<String>,
) -> capnp::Result<()> {
use capnp::schema_capnp::type_;
match ty.which()? {
type_::List(ls) => {
let et = ls.get_element_type()?;
used_params_of_type(ctx, et, used_params)?;
}
type_::Enum(e) => {
let node_id = e.get_type_id();
let brand = e.get_brand()?;
used_params_of_brand(ctx, node_id, brand, used_params)?;
}
type_::Struct(s) => {
let node_id = s.get_type_id();
let brand = s.get_brand()?;
used_params_of_brand(ctx, node_id, brand, used_params)?;
}
type_::Interface(i) => {
let node_id = i.get_type_id();
let brand = i.get_brand()?;
used_params_of_brand(ctx, node_id, brand, used_params)?;
}
type_::AnyPointer(ap) => {
if let type_::any_pointer::Parameter(def) = ap.which()? {
let the_struct = &ctx.node_map[&def.get_scope_id()];
let parameters = the_struct.get_parameters()?;
let parameter = parameters.get(u32::from(def.get_parameter_index()));
let parameter_name = parameter.get_name()?.to_str()?;
used_params.insert(parameter_name.to_string());
}
}
_ => (),
}
Ok(())
}
fn used_params_of_brand(
ctx: &GeneratorContext,
node_id: u64,
brand: schema_capnp::brand::Reader,
used_params: &mut HashSet<String>,
) -> capnp::Result<()> {
use schema_capnp::brand;
let scopes = brand.get_scopes()?;
let mut brand_scopes = HashMap::new();
for scope in scopes {
brand_scopes.insert(scope.get_scope_id(), scope);
}
let brand_scopes = brand_scopes; let mut current_node_id = node_id;
loop {
let Some(current_node) = ctx.node_map.get(¤t_node_id) else {
break;
};
let params = current_node.get_parameters()?;
match brand_scopes.get(¤t_node_id) {
None => (),
Some(scope) => match scope.which()? {
brand::scope::Inherit(()) => {
for param in params {
used_params.insert(param.get_name()?.to_string()?);
}
}
brand::scope::Bind(bindings_list_opt) => {
let bindings_list = bindings_list_opt?;
assert_eq!(bindings_list.len(), params.len());
for binding in bindings_list {
match binding.which()? {
brand::binding::Unbound(()) => (),
brand::binding::Type(t) => {
used_params_of_type(ctx, t?, used_params)?;
}
}
}
}
},
}
current_node_id = current_node.get_scope_id();
}
Ok(())
}
fn generate_union(
ctx: &GeneratorContext,
discriminant_offset: u32,
fields: &[schema_capnp::field::Reader],
is_reader: bool,
params: &TypeParameterTexts,
) -> ::capnp::Result<(
FormattedText,
FormattedText,
FormattedText,
Vec<FormattedText>,
)> {
use capnp::schema_capnp::*;
fn new_ty_param(ty_params: &mut Vec<String>) -> String {
let result = format!("A{}", ty_params.len());
ty_params.push(result.clone());
result
}
let mut getter_interior = Vec::new();
let mut interior = Vec::new();
let mut enum_interior = Vec::new();
let mut default_decls = Vec::new();
let mut ty_params = Vec::new();
let mut ty_args = Vec::new();
let mut used_params: HashSet<String> = HashSet::new();
let doffset = discriminant_offset as usize;
for field in fields {
let dvalue = field.get_discriminant_value() as usize;
let field_name = get_field_name(*field)?;
let enumerant_name = capitalize_first_letter(field_name);
let (ty, get, maybe_default_decl) = getter_text(ctx, field, is_reader, false)?;
if let Some(default_decl) = maybe_default_decl {
default_decls.push(default_decl)
}
getter_interior.push(Branch(vec![
Line(format!("{dvalue} => {{")),
indent(Line(format!(
"::core::result::Result::Ok({}(",
enumerant_name.clone()
))),
indent(indent(get)),
indent(line("))")),
line("}"),
]));
let ty1 = match field.which() {
Ok(field::Group(group)) => {
used_params_of_group(ctx, group.get_type_id(), &mut used_params)?;
ty_args.push(ty);
new_ty_param(&mut ty_params)
}
Ok(field::Slot(reg_field)) => {
let fty = reg_field.get_type()?;
used_params_of_type(ctx, fty, &mut used_params)?;
match fty.which() {
Ok(
type_::Text(())
| type_::Data(())
| type_::List(_)
| type_::Struct(_)
| type_::AnyPointer(_),
) => {
ty_args.push(ty);
new_ty_param(&mut ty_params)
}
Ok(type_::Interface(_)) => ty,
_ => ty,
}
}
_ => ty,
};
enum_interior.push(Line(format!("{enumerant_name}({ty1}),")));
}
let enum_name = format!(
"Which{}",
if !ty_params.is_empty() {
format!("<{}>", ty_params.join(","))
} else {
"".to_string()
}
);
getter_interior.push(Line(fmt!(
ctx,
"x => ::core::result::Result::Err({capnp}::NotInSchema(x))"
)));
interior.push(Branch(vec![
Line(format!("pub enum {enum_name} {{")),
indent(enum_interior),
line("}"),
]));
let result = Branch(interior);
let field_name = if is_reader { "reader" } else { "builder" };
let concrete_type = format!(
"Which{}{}",
if is_reader { "Reader" } else { "Builder" },
if !ty_params.is_empty() {
format!(
"<'a,{}>",
params
.expanded_list
.iter()
.filter(|s: &&String| used_params.contains(*s))
.cloned()
.collect::<Vec<String>>()
.join(",")
)
} else {
"".to_string()
}
);
let typedef = Line(format!(
"pub type {concrete_type} = Which{};",
if !ty_args.is_empty() {
format!("<{}>", ty_args.join(","))
} else {
"".to_string()
}
));
let getter_result = Branch(vec![
line("#[inline]"),
Line(fmt!(ctx,
"pub fn which(self) -> ::core::result::Result<{concrete_type}, {capnp}::NotInSchema> {{"
)),
indent(vec![
Line(format!(
"match self.{field_name}.get_data_field::<u16>({doffset}) {{"
)),
indent(getter_interior),
line("}"),
]),
line("}"),
]);
Ok((result, getter_result, typedef, default_decls))
}
fn generate_haser(
discriminant_offset: u32,
styled_name: &str,
field: &schema_capnp::field::Reader,
is_reader: bool,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::*;
let mut result = Vec::new();
let mut interior = Vec::new();
let member = if is_reader { "reader" } else { "builder" };
let discriminant_value = field.get_discriminant_value();
if discriminant_value != field::NO_DISCRIMINANT {
interior.push(Line(format!(
"if self.{}.get_data_field::<u16>({}) != {} {{ return false; }}",
member, discriminant_offset as usize, discriminant_value as usize
)));
}
match field.which() {
Err(_) | Ok(field::Group(_)) => {}
Ok(field::Slot(reg_field)) => match reg_field.get_type()?.which()? {
type_::Text(())
| type_::Data(())
| type_::List(_)
| type_::Struct(_)
| type_::Interface(_)
| type_::AnyPointer(_) => {
if is_reader {
interior.push(Line(format!(
"!self.{member}.get_pointer_field({}).is_null()",
reg_field.get_offset()
)));
} else {
interior.push(Line(format!(
"!self.{member}.is_pointer_field_null({})",
reg_field.get_offset()
)));
}
result.push(line("#[inline]"));
result.push(Line(format!("pub fn has_{styled_name}(&self) -> bool {{")));
result.push(indent(interior));
result.push(line("}"));
}
_ => {}
},
}
Ok(Branch(result))
}
fn generate_pipeline_getter(
ctx: &GeneratorContext,
field: schema_capnp::field::Reader,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::{field, type_};
let name = get_field_name(field)?;
match field.which()? {
field::Group(group) => {
let params = get_params(ctx, group.get_type_id())?;
let params_string = if params.is_empty() {
"".to_string()
} else {
format!("<{}>", params.join(","))
};
let the_mod = ctx.get_qualified_module(group.get_type_id());
Ok(Branch(vec![
Line(format!(
"pub fn get_{}(&self) -> {}::Pipeline{} {{",
camel_to_snake_case(name),
the_mod,
params_string
)),
indent(Line(fmt!(
ctx,
"{capnp}::capability::FromTypelessPipeline::new(self._typeless.noop())"
))),
line("}"),
]))
}
field::Slot(reg_field) => {
let typ = reg_field.get_type()?;
match typ.which()? {
type_::Struct(_) | type_::AnyPointer(_) => {
Ok(Branch(vec![
Line(format!("pub fn get_{}(&self) -> {} {{", camel_to_snake_case(name), typ.type_string(ctx, Leaf::Pipeline)?)),
indent(Line(fmt!(ctx,"{capnp}::capability::FromTypelessPipeline::new(self._typeless.get_pointer_field({}))", reg_field.get_offset()))),
line("}")
]))
}
type_::Interface(_) => {
Ok(Branch(vec![
Line(format!("pub fn get_{}(&self) -> {} {{", camel_to_snake_case(name), typ.type_string(ctx, Leaf::Client)?)),
indent(Line(fmt!(ctx,"{capnp}::capability::FromClientHook::new(self._typeless.get_pointer_field({}).as_cap())", reg_field.get_offset()))),
line("}")
]))
}
_ => {
Ok(Branch(Vec::new()))
}
}
}
}
}
fn generate_get_field_types(
ctx: &GeneratorContext,
node_reader: schema_capnp::node::Reader,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::field;
let st = match node_reader.which()? {
schema_capnp::node::Struct(st) => st,
_ => return Err(Error::failed("not a struct".into())),
};
let mut branches = vec![];
for (index, field) in st.get_fields()?.iter().enumerate() {
match field.which()? {
field::Slot(slot) => {
let raw_type = slot.get_type()?;
let typ = raw_type.type_string(ctx, Leaf::Owned)?;
branches.push(Line(fmt!(
ctx,
"{} => <{} as {capnp}::introspect::Introspect>::introspect(),",
index,
typ
)));
}
field::Group(group) => {
let params = get_params(ctx, group.get_type_id())?;
let params_string = if params.is_empty() {
"".to_string()
} else {
format!("<{}>", params.join(","))
};
let the_mod = ctx.get_qualified_module(group.get_type_id());
let typ = format!("{the_mod}::Owned{params_string}");
branches.push(Line(fmt!(
ctx,
"{} => <{} as {capnp}::introspect::Introspect>::introspect(),",
index,
typ
)));
}
}
}
let body = if branches.is_empty() {
Line("panic!(\"invalid field index {}\", index)".into())
} else {
branches.push(Line(
"_ => panic!(\"invalid field index {}\", index),".into(),
));
Branch(vec![
Line("match index {".into()),
indent(branches),
Line("}".into()),
])
};
if !node_reader.get_is_generic() {
Ok(Branch(vec![
Line(fmt!(
ctx,
"pub fn get_field_types(index: u16) -> {capnp}::introspect::Type {{"
)),
indent(body),
Line("}".into()),
]))
} else {
let params = node_reader.parameters_texts(ctx);
Ok(Branch(vec![
Line(fmt!(
ctx,
"pub fn get_field_types<{0}>(index: u16) -> {capnp}::introspect::Type {1} {{",
params.params,
params.where_clause
)),
indent(body),
Line("}".into()),
]))
}
}
fn annotation_branch(
ctx: &GeneratorContext,
annotation: schema_capnp::annotation::Reader,
child_index: Option<u16>,
index: u32,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::node;
let id = annotation.get_id();
let annotation_decl = ctx.node_map[&id];
let node::Annotation(a) = annotation_decl.which()? else {
return Err(Error::failed("not an annotation node".into()));
};
if annotation_decl.get_is_generic() {
let brand = annotation.get_brand()?;
let the_mod = ctx.get_qualified_module(id);
let func = do_branding(ctx, id, brand, Leaf::GetType, &the_mod)?;
Ok(Line(format!("({child_index:?}, {index}) => {}(),", func)))
} else {
let ty = a.get_type()?;
Ok(Line(fmt!(
ctx,
"({child_index:?}, {index}) => <{} as {capnp}::introspect::Introspect>::introspect(),",
ty.type_string(ctx, Leaf::Owned)?
)))
}
}
fn generate_get_annotation_types(
ctx: &GeneratorContext,
node_reader: schema_capnp::node::Reader,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::node;
let mut branches = vec![];
for (idx, annotation) in node_reader.get_annotations()?.iter().enumerate() {
branches.push(annotation_branch(ctx, annotation, None, idx as u32)?);
}
match node_reader.which()? {
node::Struct(s) => {
for (fidx, field) in s.get_fields()?.iter().enumerate() {
for (idx, annotation) in field.get_annotations()?.iter().enumerate() {
branches.push(annotation_branch(
ctx,
annotation,
Some(fidx as u16),
idx as u32,
)?);
}
}
}
node::Enum(e) => {
for (fidx, enumerant) in e.get_enumerants()?.iter().enumerate() {
for (idx, annotation) in enumerant.get_annotations()?.iter().enumerate() {
branches.push(annotation_branch(
ctx,
annotation,
Some(fidx as u16),
idx as u32,
)?);
}
}
}
_ => (),
}
let body = if branches.is_empty() {
Line("panic!(\"invalid annotation indices ({:?}, {}) \", child_index, index)".into())
} else {
branches.push(Line(
"_ => panic!(\"invalid annotation indices ({:?}, {}) \", child_index, index),".into(),
));
indent(vec![
Line("match (child_index, index) {".into()),
indent(branches),
Line("}".into()),
])
};
if !node_reader.get_is_generic() {
Ok(Branch(vec![
Line(fmt!(ctx,"pub fn get_annotation_types(child_index: Option<u16>, index: u32) -> {capnp}::introspect::Type {{")),
indent(body),
Line("}".into()),
]))
} else {
let params = node_reader.parameters_texts(ctx);
Ok(Branch(vec![
Line(fmt!(ctx,
"pub fn get_annotation_types<{0}>(child_index: Option<u16>, index: u32) -> {capnp}::introspect::Type {1} {{",
params.params, params.where_clause
)),
indent(body),
Line("}".into()),
]))
}
}
fn generate_members_by_discriminant(
node_reader: schema_capnp::node::Reader,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::field;
let st = match node_reader.which()? {
schema_capnp::node::Struct(st) => st,
_ => return Err(Error::failed("not a struct".into())),
};
let mut union_member_indexes = vec![];
let mut nonunion_member_indexes = vec![];
for (index, field) in st.get_fields()?.iter().enumerate() {
let disc = field.get_discriminant_value();
if disc == field::NO_DISCRIMINANT {
nonunion_member_indexes.push(index);
} else {
union_member_indexes.push((disc, index));
}
}
union_member_indexes.sort();
let mut nonunion_string: String = "pub static NONUNION_MEMBERS : &[u16] = &[".into();
for idx in 0..nonunion_member_indexes.len() {
nonunion_string += &format!("{}", nonunion_member_indexes[idx]);
if idx + 1 < nonunion_member_indexes.len() {
nonunion_string += ",";
}
}
nonunion_string += "];";
let mut members_by_disc: String = "pub static MEMBERS_BY_DISCRIMINANT : &[u16] = &[".into();
for idx in 0..union_member_indexes.len() {
let (disc, index) = union_member_indexes[idx];
assert_eq!(idx, disc as usize);
members_by_disc += &format!("{index}");
if idx + 1 < union_member_indexes.len() {
members_by_disc += ",";
}
}
members_by_disc += "];";
Ok(Branch(vec![Line(nonunion_string), Line(members_by_disc)]))
}
fn get_ty_params_of_brand(
ctx: &GeneratorContext,
brand: schema_capnp::brand::Reader,
) -> ::capnp::Result<String> {
let mut acc = HashSet::new();
get_ty_params_of_brand_helper(ctx, &mut acc, brand)?;
let mut result = String::new();
for (scope_id, parameter_index) in acc.into_iter() {
let node = ctx.node_map[&scope_id];
let p = node.get_parameters()?.get(u32::from(parameter_index));
result.push_str(p.get_name()?.to_str()?);
result.push(',');
}
Ok(result)
}
fn get_ty_params_of_type_helper(
ctx: &GeneratorContext,
accumulator: &mut HashSet<(u64, u16)>,
typ: schema_capnp::type_::Reader,
) -> ::capnp::Result<()> {
use capnp::schema_capnp::type_;
match typ.which()? {
type_::Void(())
| type_::Bool(())
| type_::Int8(())
| type_::Int16(())
| type_::Int32(())
| type_::Int64(())
| type_::Uint8(())
| type_::Uint16(())
| type_::Uint32(())
| type_::Uint64(())
| type_::Float32(())
| type_::Float64(())
| type_::Text(_)
| type_::Data(_) => {}
type_::AnyPointer(p) => {
match p.which()? {
type_::any_pointer::Unconstrained(_) => (),
type_::any_pointer::Parameter(p) => {
accumulator.insert((p.get_scope_id(), p.get_parameter_index()));
}
type_::any_pointer::ImplicitMethodParameter(_) => {
}
}
}
type_::List(list) => {
get_ty_params_of_type_helper(ctx, accumulator, list.get_element_type()?)?
}
type_::Enum(e) => {
get_ty_params_of_brand_helper(ctx, accumulator, e.get_brand()?)?;
}
type_::Struct(s) => {
get_ty_params_of_brand_helper(ctx, accumulator, s.get_brand()?)?;
}
type_::Interface(interf) => {
get_ty_params_of_brand_helper(ctx, accumulator, interf.get_brand()?)?;
}
}
Ok(())
}
fn get_ty_params_of_brand_helper(
ctx: &GeneratorContext,
accumulator: &mut HashSet<(u64, u16)>,
brand: schema_capnp::brand::Reader,
) -> ::capnp::Result<()> {
for scope in brand.get_scopes()? {
let scope_id = scope.get_scope_id();
match scope.which()? {
schema_capnp::brand::scope::Bind(bind) => {
for binding in bind? {
match binding.which()? {
schema_capnp::brand::binding::Unbound(()) => {}
schema_capnp::brand::binding::Type(t) => {
get_ty_params_of_type_helper(ctx, accumulator, t?)?
}
}
}
}
schema_capnp::brand::scope::Inherit(()) => {
let parameters = ctx.node_map[&scope_id].get_parameters()?;
for idx in 0..parameters.len() {
accumulator.insert((scope_id, idx as u16));
}
}
}
}
Ok(())
}
fn generate_node(
ctx: &GeneratorContext,
node_id: u64,
node_name: &str,
) -> ::capnp::Result<FormattedText> {
use capnp::schema_capnp::*;
let mut output: Vec<FormattedText> = Vec::new();
let mut nested_output: Vec<FormattedText> = Vec::new();
let node_reader = &ctx.node_map[&node_id];
let nested_nodes = node_reader.get_nested_nodes()?;
for nested_node in nested_nodes {
let id = nested_node.get_id();
nested_output.push(generate_node(ctx, id, ctx.get_last_name(id)?)?);
}
match node_reader.which()? {
node::File(()) => {
output.push(Branch(nested_output));
}
node::Struct(struct_reader) => {
let params = node_reader.parameters_texts(ctx);
output.push(BlankLine);
let is_generic = node_reader.get_is_generic();
if is_generic {
output.push(Line(format!(
"pub mod {} {{ /* {} */",
node_name,
params.expanded_list.join(",")
)));
} else {
output.push(Line(format!("pub mod {node_name} {{")));
}
let bracketed_params = if params.params.is_empty() {
"".to_string()
} else {
format!("<{}>", params.params)
};
let mut preamble = Vec::new();
let mut builder_members = Vec::new();
let mut reader_members = Vec::new();
let mut union_fields = Vec::new();
let mut which_enums = Vec::new();
let mut pipeline_impl_interior = Vec::new();
let mut private_mod_interior = Vec::new();
let data_size = struct_reader.get_data_word_count();
let pointer_size = struct_reader.get_pointer_count();
let discriminant_count = struct_reader.get_discriminant_count();
let discriminant_offset = struct_reader.get_discriminant_offset();
private_mod_interior.push(crate::pointer_constants::node_word_array_declaration(
ctx,
"ENCODED_NODE",
*node_reader,
crate::pointer_constants::WordArrayDeclarationOptions { public: true },
)?);
private_mod_interior.push(generate_get_field_types(ctx, *node_reader)?);
private_mod_interior.push(generate_get_annotation_types(ctx, *node_reader)?);
private_mod_interior.push(Branch(vec![
Line(fmt!(ctx,"pub static RAW_SCHEMA: {capnp}::introspect::RawStructSchema = {capnp}::introspect::RawStructSchema {{")),
indent(vec![
Line("encoded_node: &ENCODED_NODE,".into()),
Line("nonunion_members: NONUNION_MEMBERS,".into()),
Line("members_by_discriminant: MEMBERS_BY_DISCRIMINANT,".into()),
]),
Line("};".into()),
]));
private_mod_interior.push(generate_members_by_discriminant(*node_reader)?);
let fields = struct_reader.get_fields()?;
for field in fields {
let name = get_field_name(field)?;
let styled_name = camel_to_snake_case(name);
let discriminant_value = field.get_discriminant_value();
let is_union_field = discriminant_value != field::NO_DISCRIMINANT;
if !is_union_field {
pipeline_impl_interior.push(generate_pipeline_getter(ctx, field)?);
let (ty, get, default_decl) = getter_text(ctx, &field, true, true)?;
if let Some(default) = default_decl {
private_mod_interior.push(default.clone());
}
reader_members.push(Branch(vec![
line("#[inline]"),
Line(format!("pub fn get_{styled_name}(self) {ty} {{")),
indent(get),
line("}"),
]));
let (ty_b, get_b, _) = getter_text(ctx, &field, false, true)?;
builder_members.push(Branch(vec![
line("#[inline]"),
Line(format!("pub fn get_{styled_name}(self) {ty_b} {{")),
indent(get_b),
line("}"),
]));
} else {
union_fields.push(field);
}
builder_members.push(generate_setter(
ctx,
discriminant_offset,
&styled_name,
&field,
)?);
reader_members.push(generate_haser(
discriminant_offset,
&styled_name,
&field,
true,
)?);
builder_members.push(generate_haser(
discriminant_offset,
&styled_name,
&field,
false,
)?);
if let Ok(field::Group(group)) = field.which() {
let id = group.get_type_id();
let text = generate_node(ctx, id, ctx.get_last_name(id)?)?;
nested_output.push(text);
}
}
if discriminant_count > 0 {
let (which_enums1, union_getter, typedef, mut default_decls) =
generate_union(ctx, discriminant_offset, &union_fields, true, ¶ms)?;
which_enums.push(which_enums1);
which_enums.push(typedef);
reader_members.push(union_getter);
private_mod_interior.append(&mut default_decls);
let (_, union_getter, typedef, _) =
generate_union(ctx, discriminant_offset, &union_fields, false, ¶ms)?;
which_enums.push(typedef);
builder_members.push(union_getter);
let mut reexports = String::new();
reexports.push_str("pub use self::Which::{");
let mut whichs = Vec::new();
for f in &union_fields {
whichs.push(capitalize_first_letter(get_field_name(*f)?));
}
reexports.push_str(&whichs.join(","));
reexports.push_str("};");
preamble.push(Line(reexports));
preamble.push(BlankLine);
}
let builder_struct_size =
Branch(vec![
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::HasStructSize for Builder<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(Line(
fmt!(ctx,"const STRUCT_SIZE: {capnp}::private::layout::StructSize = {capnp}::private::layout::StructSize {{ data: {}, pointers: {} }};", data_size as usize, pointer_size as usize))),
line("}")]);
private_mod_interior.push(Line(format!(
"pub const TYPE_ID: u64 = {};",
format_u64(node_id)
)));
let from_pointer_builder_impl =
Branch(vec![
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::FromPointerBuilder<'a> for Builder<'a,{0}> {1} {{", params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn init_pointer(builder: {capnp}::private::layout::PointerBuilder<'a>, _size: u32) -> Self {{")),
indent(Line(fmt!(ctx,"builder.init_struct(<Self as {capnp}::traits::HasStructSize>::STRUCT_SIZE).into()"))),
line("}"),
Line(fmt!(ctx,"fn get_from_pointer(builder: {capnp}::private::layout::PointerBuilder<'a>, default: ::core::option::Option<&'a [{capnp}::Word]>) -> {capnp}::Result<Self> {{")),
indent(Line(fmt!(ctx,"::core::result::Result::Ok(builder.get_struct(<Self as {capnp}::traits::HasStructSize>::STRUCT_SIZE, default)?.into())"))),
line("}")
]),
line("}"),
BlankLine]);
let accessors = vec![
Branch(preamble),
(if !is_generic {
Branch(vec![
Line("#[derive(Copy, Clone)]".into()),
line("pub struct Owned(());"),
Line(fmt!(ctx,"impl {capnp}::introspect::Introspect for Owned {{ fn introspect() -> {capnp}::introspect::Type {{ {capnp}::introspect::TypeVariant::Struct({capnp}::introspect::RawBrandedStructSchema {{ generic: &_private::RAW_SCHEMA, field_types: _private::get_field_types, annotation_types: _private::get_annotation_types }}).into() }} }}")),
Line(fmt!(ctx, "impl {capnp}::traits::Owned for Owned {{ type Reader<'a> = Reader<'a>; type Builder<'a> = Builder<'a>; }}")),
Line(fmt!(ctx,"impl {capnp}::traits::OwnedStruct for Owned {{ type Reader<'a> = Reader<'a>; type Builder<'a> = Builder<'a>; }}")),
Line(fmt!(ctx,"impl {capnp}::traits::Pipelined for Owned {{ type Pipeline = Pipeline; }}"))
])
} else {
Branch(vec![
Line("#[derive(Copy, Clone)]".into()),
Line(format!("pub struct Owned<{}> {{", params.params)),
indent(Line(params.phantom_data_type.clone())),
line("}"),
Line(fmt!(ctx,"impl <{0}> {capnp}::introspect::Introspect for Owned <{0}> {1} {{ fn introspect() -> {capnp}::introspect::Type {{ {capnp}::introspect::TypeVariant::Struct({capnp}::introspect::RawBrandedStructSchema {{ generic: &_private::RAW_SCHEMA, field_types: _private::get_field_types::<{0}>, annotation_types: _private::get_annotation_types::<{0}> }}).into() }} }}",
params.params, params.where_clause)),
Line(fmt!(ctx,"impl <{0}> {capnp}::traits::Owned for Owned <{0}> {1} {{ type Reader<'a> = Reader<'a, {0}>; type Builder<'a> = Builder<'a, {0}>; }}",
params.params, params.where_clause)),
Line(fmt!(ctx,"impl <{0}> {capnp}::traits::OwnedStruct for Owned <{0}> {1} {{ type Reader<'a> = Reader<'a, {0}>; type Builder<'a> = Builder<'a, {0}>; }}",
params.params, params.where_clause)),
Line(fmt!(ctx,"impl <{0}> {capnp}::traits::Pipelined for Owned<{0}> {1} {{ type Pipeline = Pipeline{2}; }}",
params.params, params.where_clause, bracketed_params)),
])
}),
BlankLine,
(if !is_generic {
Line(fmt!(ctx,"pub struct Reader<'a> {{ reader: {capnp}::private::layout::StructReader<'a> }}"))
} else {
Branch(vec![
Line(format!("pub struct Reader<'a,{}> {} {{", params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"reader: {capnp}::private::layout::StructReader<'a>,")),
Line(params.phantom_data_type.clone()),
]),
line("}")
])
}),
Branch(vec![
Line(format!("impl <'a,{0}> ::core::marker::Copy for Reader<'a,{0}> {1} {{}}",
params.params, params.where_clause)),
Line(format!("impl <'a,{0}> ::core::clone::Clone for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(Line("fn clone(&self) -> Self { *self }".into())),
Line("}".into())]),
BlankLine,
Branch(vec![
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::HasTypeId for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![line("const TYPE_ID: u64 = _private::TYPE_ID;")]),
line("}")]),
Line(fmt!(ctx,"impl <'a,{0}> ::core::convert::From<{capnp}::private::layout::StructReader<'a>> for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn from(reader: {capnp}::private::layout::StructReader<'a>) -> Self {{")),
indent(Line(format!("Self {{ reader, {} }}", params.phantom_data_value))),
line("}")
]),
line("}"),
BlankLine,
Line(fmt!(ctx,"impl <'a,{0}> ::core::convert::From<Reader<'a,{0}>> for {capnp}::dynamic_value::Reader<'a> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(format!("fn from(reader: Reader<'a,{0}>) -> Self {{", params.params)),
indent(Line(fmt!(ctx,"Self::Struct({capnp}::dynamic_struct::Reader::new(reader.reader, {capnp}::schema::StructSchema::new({capnp}::introspect::RawBrandedStructSchema {{ generic: &_private::RAW_SCHEMA, field_types: _private::get_field_types::<{0}>, annotation_types: _private::get_annotation_types::<{0}>}})))", params.params))),
line("}")
]),
line("}"),
BlankLine,
Line(format!("impl <'a,{0}> ::core::fmt::Debug for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line("fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::result::Result<(), ::core::fmt::Error> {".into()),
indent(Line(fmt!(ctx,"core::fmt::Debug::fmt(&::core::convert::Into::<{capnp}::dynamic_value::Reader<'_>>::into(*self), f)"))),
line("}")
]),
line("}"),
BlankLine,
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::FromPointerReader<'a> for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn get_from_pointer(reader: &{capnp}::private::layout::PointerReader<'a>, default: ::core::option::Option<&'a [{capnp}::Word]>) -> {capnp}::Result<Self> {{")),
indent(line("::core::result::Result::Ok(reader.get_struct(default)?.into())")),
line("}")
]),
line("}"),
BlankLine,
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::IntoInternalStructReader<'a> for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn into_internal_struct_reader(self) -> {capnp}::private::layout::StructReader<'a> {{")),
indent(line("self.reader")),
line("}")
]),
line("}"),
BlankLine,
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::Imbue<'a> for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn imbue(&mut self, cap_table: &'a {capnp}::private::layout::CapTable) {{")),
indent(Line(fmt!(ctx,"self.reader.imbue({capnp}::private::layout::CapTableReader::Plain(cap_table))"))),
line("}")
]),
line("}"),
BlankLine,
Line(format!("impl <'a,{0}> Reader<'a,{0}> {1} {{", params.params, params.where_clause)),
indent(vec![
Line(format!("pub fn reborrow(&self) -> Reader<'_,{}> {{",params.params)),
indent(line("Self { .. *self }")),
line("}"),
BlankLine,
Line(fmt!(ctx,"pub fn total_size(&self) -> {capnp}::Result<{capnp}::MessageSize> {{")),
indent(line("self.reader.total_size()")),
line("}")]),
indent(reader_members),
line("}"),
BlankLine,
(if !is_generic {
Line(fmt!(ctx,"pub struct Builder<'a> {{ builder: {capnp}::private::layout::StructBuilder<'a> }}"))
} else {
Branch(vec![
Line(format!("pub struct Builder<'a,{}> {} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx, "builder: {capnp}::private::layout::StructBuilder<'a>,")),
Line(params.phantom_data_type.clone()),
]),
line("}")
])
}),
builder_struct_size,
Branch(vec![
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::HasTypeId for Builder<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
line("const TYPE_ID: u64 = _private::TYPE_ID;")]),
line("}")
]),
Line(fmt!(ctx,
"impl <'a,{0}> ::core::convert::From<{capnp}::private::layout::StructBuilder<'a>> for Builder<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn from(builder: {capnp}::private::layout::StructBuilder<'a>) -> Self {{")),
indent(Line(format!("Self {{ builder, {} }}", params.phantom_data_value))),
line("}")
]),
line("}"),
BlankLine,
Line(fmt!(ctx,"impl <'a,{0}> ::core::convert::From<Builder<'a,{0}>> for {capnp}::dynamic_value::Builder<'a> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(format!("fn from(builder: Builder<'a,{0}>) -> Self {{", params.params)),
indent(Line(fmt!(ctx,"Self::Struct({capnp}::dynamic_struct::Builder::new(builder.builder, {capnp}::schema::StructSchema::new({capnp}::introspect::RawBrandedStructSchema {{ generic: &_private::RAW_SCHEMA, field_types: _private::get_field_types::<{0}>, annotation_types: _private::get_annotation_types::<{0}>}})))", params.params))),
line("}")
]),
line("}"),
BlankLine,
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::ImbueMut<'a> for Builder<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn imbue_mut(&mut self, cap_table: &'a mut {capnp}::private::layout::CapTable) {{")),
indent(Line(fmt!(ctx,"self.builder.imbue({capnp}::private::layout::CapTableBuilder::Plain(cap_table))"))),
line("}")]),
line("}"),
BlankLine,
from_pointer_builder_impl,
Line(fmt!(ctx,
"impl <'a,{0}> {capnp}::traits::SetPointerBuilder for Reader<'a,{0}> {1} {{",
params.params, params.where_clause)),
indent(Line(fmt!(ctx,"fn set_pointer_builder(mut pointer: {capnp}::private::layout::PointerBuilder<'_>, value: Self, canonicalize: bool) -> {capnp}::Result<()> {{ pointer.set_struct(&value.reader, canonicalize) }}"))),
line("}"),
BlankLine,
Line(format!("impl <'a,{0}> Builder<'a,{0}> {1} {{", params.params, params.where_clause)),
indent(vec![
Line(format!("pub fn into_reader(self) -> Reader<'a,{}> {{", params.params)),
indent(line("self.builder.into_reader().into()")),
line("}"),
Line(format!("pub fn reborrow(&mut self) -> Builder<'_,{}> {{", params.params)),
(if !is_generic {
indent(line("Builder { builder: self.builder.reborrow() }"))
} else {
indent(line("Builder { builder: self.builder.reborrow(), ..*self }"))
}),
line("}"),
Line(format!("pub fn reborrow_as_reader(&self) -> Reader<'_,{}> {{", params.params)),
indent(line("self.builder.as_reader().into()")),
line("}"),
BlankLine,
Line(fmt!(ctx,"pub fn total_size(&self) -> {capnp}::Result<{capnp}::MessageSize> {{")),
indent(line("self.builder.as_reader().total_size()")),
line("}")
]),
indent(builder_members),
line("}"),
BlankLine,
(if is_generic {
Branch(vec![
Line(format!("pub struct Pipeline{bracketed_params} {{")),
indent(vec![
Line(fmt!(ctx,"_typeless: {capnp}::any_pointer::Pipeline,")),
Line(params.phantom_data_type),
]),
line("}")
])
} else {
Line(fmt!(ctx,"pub struct Pipeline {{ _typeless: {capnp}::any_pointer::Pipeline }}"))
}),
Line(fmt!(ctx,"impl{bracketed_params} {capnp}::capability::FromTypelessPipeline for Pipeline{bracketed_params} {{")),
indent(vec![
Line(fmt!(ctx,"fn new(typeless: {capnp}::any_pointer::Pipeline) -> Self {{")),
indent(Line(format!("Self {{ _typeless: typeless, {} }}", params.phantom_data_value))),
line("}")]),
line("}"),
Line(format!("impl{0} Pipeline{0} {1} {{", bracketed_params,
params.pipeline_where_clause)),
indent(pipeline_impl_interior),
line("}"),
line("mod _private {"),
indent(private_mod_interior),
line("}"),
];
output.push(indent(vec![
Branch(accessors),
Branch(which_enums),
Branch(nested_output),
]));
output.push(line("}"));
}
node::Enum(enum_reader) => {
let last_name = ctx.get_last_name(node_id)?;
let name_as_mod = module_name(last_name);
output.push(BlankLine);
let mut members = Vec::new();
let mut match_branches = Vec::new();
let enumerants = enum_reader.get_enumerants()?;
for (ii, enumerant) in enumerants.into_iter().enumerate() {
let enumerant = capitalize_first_letter(get_enumerant_name(enumerant)?);
members.push(Line(format!("{enumerant} = {ii},")));
match_branches.push(Line(format!(
"{ii} => ::core::result::Result::Ok(Self::{enumerant}),"
)));
}
match_branches.push(Line(fmt!(
ctx,
"n => ::core::result::Result::Err({capnp}::NotInSchema(n)),"
)));
output.push(Branch(vec![
line("#[repr(u16)]"),
line("#[derive(Clone, Copy, Debug, PartialEq, Eq)]"),
Line(format!("pub enum {last_name} {{")),
indent(members),
line("}"),
]));
output.push(BlankLine);
output.push(Branch(vec![
Line(fmt!(ctx,
"impl {capnp}::introspect::Introspect for {last_name} {{"
)),
indent(Line(fmt!(ctx,
"fn introspect() -> {capnp}::introspect::Type {{ {capnp}::introspect::TypeVariant::Enum({capnp}::introspect::RawEnumSchema {{ encoded_node: &{0}::ENCODED_NODE, annotation_types: {0}::get_annotation_types }}).into() }}", name_as_mod))),
Line("}".into()),
]));
output.push(Branch(vec![
Line(fmt!(ctx,"impl <'a> ::core::convert::From<{last_name}> for {capnp}::dynamic_value::Reader<'a> {{")),
indent(Line(fmt!(ctx,
"fn from(e: {last_name}) -> Self {{ {capnp}::dynamic_value::Enum::new(e.into(), {capnp}::introspect::RawEnumSchema {{ encoded_node: &{0}::ENCODED_NODE, annotation_types: {0}::get_annotation_types }}.into()).into() }}", name_as_mod ))),
Line("}".into())
]));
output.push(Branch(vec![
Line(format!(
"impl ::core::convert::TryFrom<u16> for {last_name} {{"
)),
indent(Line(
fmt!(ctx,"type Error = {capnp}::NotInSchema;"),
)),
indent(vec![
Line(
format!("fn try_from(value: u16) -> ::core::result::Result<Self, <{last_name} as ::core::convert::TryFrom<u16>>::Error> {{")
),
indent(vec![
line("match value {"),
indent(match_branches),
line("}"),
]),
line("}"),
]),
line("}"),
Line(format!("impl From<{last_name}> for u16 {{")),
indent(line("#[inline]")),
indent(Line(format!(
"fn from(x: {last_name}) -> u16 {{ x as u16 }}"
))),
line("}"),
]));
output.push(Branch(vec![
Line(fmt!(
ctx,
"impl {capnp}::traits::HasTypeId for {last_name} {{"
)),
indent(Line(format!(
"const TYPE_ID: u64 = {}u64;",
format_u64(node_id)
))),
line("}"),
]));
output.push(Branch(vec![
Line(format!("mod {} {{", name_as_mod)),
Branch(vec![
crate::pointer_constants::node_word_array_declaration(
ctx,
"ENCODED_NODE",
*node_reader,
crate::pointer_constants::WordArrayDeclarationOptions { public: true },
)?,
generate_get_annotation_types(ctx, *node_reader)?,
]),
Line("}".into()),
]));
}
node::Interface(interface) => {
let params = node_reader.parameters_texts(ctx);
output.push(BlankLine);
let is_generic = node_reader.get_is_generic();
let names = &ctx.scope_map[&node_id];
let mut client_impl_interior = Vec::new();
let mut server_interior = Vec::new();
let mut mod_interior = Vec::new();
let mut dispatch_arms = Vec::new();
let mut private_mod_interior = Vec::new();
let bracketed_params = if params.params.is_empty() {
"".to_string()
} else {
format!("<{}>", params.params)
};
private_mod_interior.push(Line(format!(
"pub const TYPE_ID: u64 = {};",
format_u64(node_id)
)));
mod_interior.push(line("#![allow(unused_variables)]"));
let methods = interface.get_methods()?;
for (ordinal, method) in methods.into_iter().enumerate() {
let name = method.get_name()?.to_str()?;
let param_id = method.get_param_struct_type();
let param_node = &ctx.node_map[¶m_id];
let (param_scopes, params_ty_params) = if param_node.get_scope_id() == 0 {
let mut names = names.clone();
let local_name = module_name(&format!("{name}Params"));
nested_output.push(generate_node(ctx, param_id, &local_name)?);
names.push(local_name);
(names, params.params.clone())
} else {
(
ctx.scope_map[¶m_node.get_id()].clone(),
get_ty_params_of_brand(ctx, method.get_param_brand()?)?,
)
};
let param_type = do_branding(
ctx,
param_id,
method.get_param_brand()?,
Leaf::Owned,
¶m_scopes.join("::"),
)?;
let result_id = method.get_result_struct_type();
let result_node = &ctx.node_map[&result_id];
let (result_scopes, results_ty_params) = if result_node.get_scope_id() == 0 {
let mut names = names.clone();
let local_name = module_name(&format!("{name}Results"));
nested_output.push(generate_node(ctx, result_id, &local_name)?);
names.push(local_name);
(names, params.params.clone())
} else {
(
ctx.scope_map[&result_node.get_id()].clone(),
get_ty_params_of_brand(ctx, method.get_result_brand()?)?,
)
};
let result_type = do_branding(
ctx,
result_id,
method.get_result_brand()?,
Leaf::Owned,
&result_scopes.join("::"),
)?;
dispatch_arms.push(
Line(fmt!(ctx,
"{ordinal} => server.{}({capnp}::private::capability::internal_get_typed_params(params), {capnp}::private::capability::internal_get_typed_results(results)),",
module_name(name))));
mod_interior.push(Line(fmt!(
ctx,
"pub type {}Params<{}> = {capnp}::capability::Params<{}>;",
capitalize_first_letter(name),
params_ty_params,
param_type
)));
mod_interior.push(Line(fmt!(
ctx,
"pub type {}Results<{}> = {capnp}::capability::Results<{}>;",
capitalize_first_letter(name),
results_ty_params,
result_type
)));
server_interior.push(
Line(fmt!(ctx,
"fn {}(&mut self, _: {}Params<{}>, _: {}Results<{}>) -> {capnp}::capability::Promise<(), {capnp}::Error> {{ {capnp}::capability::Promise::err({capnp}::Error::unimplemented(\"method {}::Server::{} not implemented\".to_string())) }}",
module_name(name),
capitalize_first_letter(name), params_ty_params,
capitalize_first_letter(name), results_ty_params,
node_name, module_name(name)
)));
client_impl_interior.push(Line(fmt!(
ctx,
"pub fn {}_request(&self) -> {capnp}::capability::Request<{},{}> {{",
camel_to_snake_case(name),
param_type,
result_type
)));
client_impl_interior.push(indent(Line(format!(
"self.client.new_call(_private::TYPE_ID, {ordinal}, ::core::option::Option::None)"
))));
client_impl_interior.push(line("}"));
method.get_annotations()?;
}
let mut base_dispatch_arms = Vec::new();
let server_base = {
let mut base_traits = Vec::new();
fn find_super_interfaces<'a>(
interface: schema_capnp::node::interface::Reader<'a>,
all_extends: &mut Vec<
<schema_capnp::superclass::Owned as capnp::traits::OwnedStruct>::Reader<'a>,
>,
ctx: &GeneratorContext<'a>,
) -> ::capnp::Result<()> {
let extends = interface.get_superclasses()?;
for superclass in extends {
if let node::Interface(interface) =
ctx.node_map[&superclass.get_id()].which()?
{
find_super_interfaces(interface, all_extends, ctx)?;
}
all_extends.push(superclass);
}
Ok(())
}
let mut extends = Vec::new();
find_super_interfaces(interface, &mut extends, ctx)?;
for interface in &extends {
let type_id = interface.get_id();
let brand = interface.get_brand()?;
let the_mod = ctx.get_qualified_module(type_id);
base_dispatch_arms.push(Line(format!(
"0x{type_id:x} => {}::dispatch_call_internal(&mut self.server, method_id, params, results),",
do_branding(
ctx, type_id, brand, Leaf::ServerDispatch, &the_mod)?)));
base_traits.push(do_branding(ctx, type_id, brand, Leaf::Server, &the_mod)?);
}
if !extends.is_empty() {
format!(": {}", base_traits.join(" + "))
} else {
"".to_string()
}
};
mod_interior.push(BlankLine);
mod_interior.push(Line(format!("pub struct Client{bracketed_params} {{")));
mod_interior.push(indent(Line(fmt!(
ctx,
"pub client: {capnp}::capability::Client,"
))));
if is_generic {
mod_interior.push(indent(Line(params.phantom_data_type.clone())));
}
mod_interior.push(line("}"));
mod_interior.push(
Branch(vec![
Line(fmt!(ctx,"impl {bracketed_params} {capnp}::capability::FromClientHook for Client{bracketed_params} {{")),
indent(Line(fmt!(ctx,"fn new(hook: Box<dyn ({capnp}::private::capability::ClientHook)>) -> Self {{"))),
indent(indent(Line(fmt!(ctx,"Self {{ client: {capnp}::capability::Client::new(hook), {} }}", params.phantom_data_value)))),
indent(line("}")),
indent(Line(fmt!(ctx,"fn into_client_hook(self) -> Box<dyn ({capnp}::private::capability::ClientHook)> {{"))),
indent(indent(line("self.client.hook"))),
indent(line("}")),
indent(Line(fmt!(ctx,"fn as_client_hook(&self) -> &dyn ({capnp}::private::capability::ClientHook) {{"))),
indent(indent(line("&*self.client.hook"))),
indent(line("}")),
line("}")]));
mod_interior.push(if !is_generic {
Branch(vec![
Line("#[derive(Copy, Clone)]".into()),
line("pub struct Owned(());"),
Line(fmt!(ctx,"impl {capnp}::introspect::Introspect for Owned {{ fn introspect() -> {capnp}::introspect::Type {{ {capnp}::introspect::TypeVariant::Capability.into() }} }}")),
line("impl ::capnp::traits::Owned for Owned { type Reader<'a> = Client; type Builder<'a> = Client; }"),
Line(fmt!(ctx,"impl {capnp}::traits::Pipelined for Owned {{ type Pipeline = Client; }}"))])
} else {
Branch(vec![
Line("#[derive(Copy, Clone)]".into()),
Line(format!("pub struct Owned<{}> {} {{", params.params, params.where_clause)),
indent(Line(params.phantom_data_type.clone())),
line("}"),
Line(fmt!(ctx,
"impl <{0}> {capnp}::introspect::Introspect for Owned <{0}> {1} {{ fn introspect() -> {capnp}::introspect::Type {{ {capnp}::introspect::TypeVariant::Capability.into() }} }}",
params.params, params.where_clause)),
Line(fmt!(ctx,
"impl <{0}> {capnp}::traits::Owned for Owned <{0}> {1} {{ type Reader<'a> = Client<{0}>; type Builder<'a> = Client<{0}>; }}",
params.params, params.where_clause)),
Line(fmt!(ctx,
"impl <{0}> {capnp}::traits::Pipelined for Owned <{0}> {1} {{ type Pipeline = Client{2}; }}",
params.params, params.where_clause, bracketed_params))])
});
mod_interior.push(Branch(vec![
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::FromPointerReader<'a> for Client<{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn get_from_pointer(reader: &{capnp}::private::layout::PointerReader<'a>, _default: ::core::option::Option<&'a [{capnp}::Word]>) -> {capnp}::Result<Self> {{")),
indent(Line(fmt!(ctx,"::core::result::Result::Ok({capnp}::capability::FromClientHook::new(reader.get_capability()?))"))),
line("}")]),
line("}")]));
mod_interior.push(Branch(vec![
Line(fmt!(ctx,"impl <'a,{0}> {capnp}::traits::FromPointerBuilder<'a> for Client<{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn init_pointer(_builder: {capnp}::private::layout::PointerBuilder<'a>, _size: u32) -> Self {{")),
indent(line("unimplemented!()")),
line("}"),
Line(fmt!(ctx,"fn get_from_pointer(builder: {capnp}::private::layout::PointerBuilder<'a>, _default: ::core::option::Option<&'a [{capnp}::Word]>) -> {capnp}::Result<Self> {{")),
indent(Line(fmt!(ctx,"::core::result::Result::Ok({capnp}::capability::FromClientHook::new(builder.get_capability()?))"))),
line("}")]),
line("}"),
BlankLine]));
mod_interior.push(Branch(vec![
Line(fmt!(ctx,
"impl <{0}> {capnp}::traits::SetPointerBuilder for Client<{0}> {1} {{",
params.params, params.where_clause)),
indent(vec![
Line(fmt!(ctx,"fn set_pointer_builder(mut pointer: {capnp}::private::layout::PointerBuilder<'_>, from: Self, _canonicalize: bool) -> {capnp}::Result<()> {{")),
indent(Line("pointer.set_capability(from.client.hook);".to_string())),
indent(Line("::core::result::Result::Ok(())".to_string())),
line("}")
]
),
line("}")]));
mod_interior.push(Branch(vec![
Line(fmt!(ctx,
"impl {bracketed_params} {capnp}::traits::HasTypeId for Client{bracketed_params} {{"
)),
indent(Line(
"const TYPE_ID: u64 = _private::TYPE_ID;".to_string(),
)),
line("}"),
]));
mod_interior.push(
Branch(vec![
Line(format!("impl {bracketed_params} Clone for Client{bracketed_params} {{")),
indent(line("fn clone(&self) -> Self {")),
indent(indent(Line(fmt!(ctx,"Self {{ client: {capnp}::capability::Client::new(self.client.hook.add_ref()), {} }}", params.phantom_data_value)))),
indent(line("}")),
line("}")]));
mod_interior.push(Branch(vec![
Line(format!(
"impl {bracketed_params} Client{bracketed_params} {{"
)),
indent(client_impl_interior),
line("}"),
]));
mod_interior.push(Branch(vec![
Line(format!(
"pub trait Server<{}> {} {} {{",
params.params, server_base, params.where_clause
)),
indent(server_interior),
line("}"),
]));
mod_interior.push(Branch(vec![
Line(format!(
"pub struct ServerDispatch<_T,{}> {{",
params.params
)),
indent(line("pub server: _T,")),
indent(if is_generic {
vec![Line(params.phantom_data_type.clone())]
} else {
vec![]
}),
line("}"),
]));
mod_interior.push(Branch(vec![
Line(
fmt!(ctx,"impl <_S: Server{1} + 'static, {0}> {capnp}::capability::FromServer<_S> for Client{1} {2} {{",
params.params, bracketed_params, params.where_clause_with_static)),
indent(vec![
Line(format!("type Dispatch = ServerDispatch<_S, {}>;", params.params)),
Line(format!("fn from_server(s: _S) -> ServerDispatch<_S, {}> {{", params.params)),
indent(Line(format!("ServerDispatch {{ server: s, {} }}", params.phantom_data_value))),
line("}"),
]),
line("}"),
]));
mod_interior.push(
Branch(vec![
(if is_generic {
Line(format!("impl <{}, _T: Server{}> ::core::ops::Deref for ServerDispatch<_T,{}> {} {{", params.params, bracketed_params, params.params, params.where_clause))
} else {
line("impl <_T: Server> ::core::ops::Deref for ServerDispatch<_T> {")
}),
indent(line("type Target = _T;")),
indent(line("fn deref(&self) -> &_T { &self.server}")),
line("}"),
]));
mod_interior.push(
Branch(vec![
(if is_generic {
Line(format!("impl <{}, _T: Server{}> ::core::ops::DerefMut for ServerDispatch<_T,{}> {} {{", params.params, bracketed_params, params.params, params.where_clause))
} else {
line("impl <_T: Server> ::core::ops::DerefMut for ServerDispatch<_T> {")
}),
indent(line("fn deref_mut(&mut self) -> &mut _T { &mut self.server}")),
line("}"),
]));
mod_interior.push(
Branch(vec![
(if is_generic {
Line(fmt!(ctx,"impl <{}, _T: Server{}> {capnp}::capability::Server for ServerDispatch<_T,{}> {} {{", params.params, bracketed_params, params.params, params.where_clause))
} else {
Line(fmt!(ctx,"impl <_T: Server> {capnp}::capability::Server for ServerDispatch<_T> {{"))
}),
indent(Line(fmt!(ctx,"fn dispatch_call(&mut self, interface_id: u64, method_id: u16, params: {capnp}::capability::Params<{capnp}::any_pointer::Owned>, results: {capnp}::capability::Results<{capnp}::any_pointer::Owned>) -> {capnp}::capability::Promise<(), {capnp}::Error> {{"))),
indent(indent(line("match interface_id {"))),
indent(indent(indent(line("_private::TYPE_ID => Self::dispatch_call_internal(&mut self.server, method_id, params, results),")))),
indent(indent(indent(base_dispatch_arms))),
indent(indent(indent(Line(fmt!(ctx,"_ => {{ {capnp}::capability::Promise::err({capnp}::Error::unimplemented(\"Method not implemented.\".to_string())) }}"))))),
indent(indent(line("}"))),
indent(line("}")),
line("}")]));
mod_interior.push(
Branch(vec![
(if is_generic {
Line(format!("impl <{}, _T: Server{}> ServerDispatch<_T,{}> {} {{", params.params, bracketed_params, params.params, params.where_clause))
} else {
line("impl <_T :Server> ServerDispatch<_T> {")
}),
indent(Line(fmt!(ctx,"pub fn dispatch_call_internal(server: &mut _T, method_id: u16, params: {capnp}::capability::Params<{capnp}::any_pointer::Owned>, results: {capnp}::capability::Results<{capnp}::any_pointer::Owned>) -> {capnp}::capability::Promise<(), {capnp}::Error> {{"))),
indent(indent(line("match method_id {"))),
indent(indent(indent(dispatch_arms))),
indent(indent(indent(Line(fmt!(ctx,"_ => {{ ::capnp::capability::Promise::err({capnp}::Error::unimplemented(\"Method not implemented.\".to_string())) }}"))))),
indent(indent(line("}"))),
indent(line("}")),
line("}")]));
mod_interior.push(Branch(vec![
line("pub mod _private {"),
indent(private_mod_interior),
line("}"),
]));
mod_interior.push(Branch(vec![Branch(nested_output)]));
output.push(BlankLine);
if is_generic {
output.push(Line(format!(
"pub mod {} {{ /* ({}) */",
node_name,
params.expanded_list.join(",")
)));
} else {
output.push(Line(format!("pub mod {node_name} {{")));
}
output.push(indent(mod_interior));
output.push(line("}"));
}
node::Const(c) => {
let styled_name = snake_to_upper_case(ctx.get_last_name(node_id)?);
let typ = c.get_type()?;
let formatted_text = match (typ.which()?, c.get_value()?.which()?) {
(type_::Void(()), value::Void(())) => {
Line(format!("pub const {styled_name}: () = ();"))
}
(type_::Bool(()), value::Bool(b)) => {
Line(format!("pub const {styled_name}: bool = {b};"))
}
(type_::Int8(()), value::Int8(i)) => {
Line(format!("pub const {styled_name}: i8 = {i};"))
}
(type_::Int16(()), value::Int16(i)) => {
Line(format!("pub const {styled_name}: i16 = {i};"))
}
(type_::Int32(()), value::Int32(i)) => {
Line(format!("pub const {styled_name}: i32 = {i};"))
}
(type_::Int64(()), value::Int64(i)) => {
Line(format!("pub const {styled_name}: i64 = {i};"))
}
(type_::Uint8(()), value::Uint8(i)) => {
Line(format!("pub const {styled_name}: u8 = {i};"))
}
(type_::Uint16(()), value::Uint16(i)) => {
Line(format!("pub const {styled_name}: u16 = {i};"))
}
(type_::Uint32(()), value::Uint32(i)) => {
Line(format!("pub const {styled_name}: u32 = {i};"))
}
(type_::Uint64(()), value::Uint64(i)) => {
Line(format!("pub const {styled_name}: u64 = {i};"))
}
(type_::Float32(()), value::Float32(f)) => {
Line(format!("pub const {styled_name}: f32 = {f:e}f32;"))
}
(type_::Float64(()), value::Float64(f)) => {
Line(format!("pub const {styled_name}: f64 = {f:e}f64;"))
}
(type_::Enum(e), value::Enum(v)) => {
if let Some(node) = ctx.node_map.get(&e.get_type_id()) {
match node.which()? {
node::Enum(e) => {
let enumerants = e.get_enumerants()?;
if let Some(enumerant) = enumerants.try_get(u32::from(v)) {
let variant =
capitalize_first_letter(get_enumerant_name(enumerant)?);
let type_string = typ.type_string(ctx, Leaf::Owned)?;
Line(format!(
"pub const {}: {} = {}::{};",
styled_name, &type_string, &type_string, variant
))
} else {
return Err(Error::failed(format!(
"enumerant out of range: {v}"
)));
}
}
_ => {
return Err(Error::failed(format!(
"bad enum type ID: {}",
e.get_type_id()
)));
}
}
} else {
return Err(Error::failed(format!(
"bad enum type ID: {}",
e.get_type_id()
)));
}
}
(type_::Text(()), value::Text(t)) => Line(format!(
"pub const {styled_name}: &str = {:?};",
t?.to_str()?
)),
(type_::Data(()), value::Data(d)) => {
Line(format!("pub const {styled_name}: &[u8] = &{:?};", d?))
}
(type_::List(_), value::List(v)) => {
generate_pointer_constant(ctx, &styled_name, typ, v)?
}
(type_::Struct(_), value::Struct(v)) => {
generate_pointer_constant(ctx, &styled_name, typ, v)?
}
(type_::Interface(_t), value::Interface(())) => {
return Err(Error::unimplemented("interface constants".to_string()));
}
(type_::AnyPointer(_), value::AnyPointer(_pr)) => {
return Err(Error::unimplemented("anypointer constants".to_string()));
}
_ => {
return Err(Error::failed("type does not match value".to_string()));
}
};
output.push(formatted_text);
}
node::Annotation(annotation_reader) => {
let is_generic = node_reader.get_is_generic();
let params = node_reader.parameters_texts(ctx);
let last_name = ctx.get_last_name(node_id)?;
let mut interior = vec![];
interior.push(Line(format!("pub const ID: u64 = 0x{:x};", node_id)));
let ty = annotation_reader.get_type()?;
if !is_generic {
interior.push(Line(fmt!(ctx,
"pub fn get_type() -> {capnp}::introspect::Type {{ <{} as {capnp}::introspect::Introspect>::introspect() }}", ty.type_string(ctx, Leaf::Owned)?)));
} else {
interior.push(Line(fmt!(ctx,"pub fn get_type<{0}>() -> {capnp}::introspect::Type {1} {{ <{2} as {capnp}::introspect::Introspect>::introspect() }}", params.params, params.where_clause, ty.type_string(ctx, Leaf::Owned)?)));
}
output.push(Branch(vec![
Line(format!("pub mod {} {{", last_name)),
indent(interior),
Line("}".into()),
]));
}
}
Ok(Branch(output))
}