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Merge branch 'add-generated-markers' and resolve conflicts in src/generator.rs

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This commit is contained in:
charles
2026-05-03 13:45:25 -07:00
parent 79f2cbf640 38367227ed
commit b73cbb3dbc
2 changed files with 142 additions and 19 deletions
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src/generator.rs
+93 -14
View File
@@ -21,7 +21,7 @@ fn map_type_to_rust_accessor(field_type: i32, label: i32) -> (String, String) {
// LABEL_REPEATED
return (
"crate::RepeatedFieldIterator<'a>".to_string(),
"self.0.iter_repeated(%d)".to_string(),
"".to_string(), // Not used for repeated fields in the same way
);
}
@@ -148,36 +148,115 @@ pub fn generate_rust_code(set: &FileDescriptorSet) -> String {
let msg_proto = DescriptorProto::new(msg_data).expect("Failed to parse DescriptorProto");
let msg_name = to_pascal_case(msg_proto.name().unwrap());
// Accessor
// Accessor Struct Definition
output.push_str(&format!(
"pub struct {}<'a>(ProtoAccessor<'a>);\n\nimpl<'a> {}<'a> {{\n",
msg_name, msg_name
));
output.push_str(&format!(
" pub fn new(data: &'a [u8]) -> Result<Self> {{\n Ok(Self(ProtoAccessor::new(data)?))\n }}\n\n"
"pub struct {}<'a> {{\n accessor: ProtoAccessor<'a>,\n",
msg_name
));
let mut fields_info = Vec::new();
for field_res in msg_proto.field() {
let (field_data, _) = field_res.expect("Failed to iterate field");
let field_proto = FieldDescriptorProto::new(field_data).expect("Failed to parse FieldDescriptorProto");
let field_name = field_proto.name().unwrap();
let safe_name = if field_name == "type" { format!("r#{}", field_name) } else { field_name.to_string() };
let tag = field_proto.number().unwrap();
let f_type = field_proto.field_type().unwrap() as i32;
let f_label = field_proto.label().unwrap() as i32;
fields_info.push((field_name.to_string(), tag, f_type, f_label));
if f_label == 3 {
output.push_str(&format!(" {}_start: Option<usize>,\n", field_name));
output.push_str(&format!(" {}_end: Option<usize>,\n", field_name));
} else {
output.push_str(&format!(" {}_offset: Option<usize>,\n", field_name));
}
}
output.push_str("}\n\n");
// Accessor Implementation
output.push_str(&format!("impl<'a> {}<'a> {{\n", msg_name));
// new() method
output.push_str(" pub fn new(data: &'a [u8]) -> Result<Self> {\n");
output.push_str(" let accessor = ProtoAccessor::new(data)?;\n");
for (name, _, _, label) in &fields_info {
if *label == 3 {
output.push_str(&format!(" let mut {}_start = None;\n", name));
output.push_str(&format!(" let mut {}_end = None;\n", name));
} else {
output.push_str(&format!(" let mut {}_offset = None;\n", name));
}
}
output.push_str(" for item in accessor.fields() {\n");
output.push_str(" let (offset, tag, _) = item?;\n");
for (name, tag, _, label) in &fields_info {
if *label == 3 {
output.push_str(&format!(
" if tag.field_number == {} {{\n", tag
));
output.push_str(&format!(" if {}_start.is_none() {{ {}_start = Some(offset); }}\n", name, name));
output.push_str(&format!(" {}_end = Some(offset);\n", name));
output.push_str(" }\n");
} else {
output.push_str(&format!(
" if tag.field_number == {} {{ {}_offset = Some(offset); }}\n", tag, name
));
}
}
output.push_str(" }\n\n");
output.push_str(" Ok(Self {\n");
output.push_str(" accessor,\n");
for (name, _, _, label) in &fields_info {
if *label == 3 {
output.push_str(&format!("{}_start, {}_end,\n", name, name));
} else {
output.push_str(&format!("{}_offset,\n", name));
}
}
output.push_str(" })\n }\n\n");
// Field Accessors
for (field_name, tag, f_type, f_label) in fields_info {
let (rust_type, logic) = map_type_to_rust_accessor(f_type, f_label);
if f_label == 3 {
output.push_str(&format!(
" pub fn {}(&self) -> {} {{\n {}\n }}\n\n",
safe_name, rust_type, logic.replace("%d", &tag.to_string())
" pub fn {}(&self) -> {} {{\n",
field_name, rust_type
));
output.push_str(&format!(
" match (self.{}_start, self.{}_end) {{\n",
field_name, field_name
));
output.push_str(&format!(
" (Some(start), Some(end)) => self.accessor.iter_repeated_range({}, start, end),\n",
tag
));
output.push_str(&format!(
" _ => self.accessor.iter_repeated({}),\n",
tag
));
output.push_str(" }\n }\n\n");
} else {
output.push_str(&format!(
" pub fn {}(&self) -> Result<{}> {{\n let (bytes, _) = self.0.get_value({})?;\n {}\n }}\n\n",
safe_name, rust_type, tag, logic
" pub fn {}(&self) -> Result<{}> {{\n",
field_name, rust_type
));
output.push_str(&format!(
" let offset = self.{}_offset.ok_or(RotoError::FieldNotFound)?;\n",
field_name
));
output.push_str(&format!(
" let (bytes, _) = self.accessor.get_value_at(offset)?;\n",
));
output.push_str(&format!(" {}\n", logic));
output.push_str(" }\n\n");
}
}
output.push_str("}\n\n");
@@ -196,7 +275,7 @@ pub fn generate_rust_code(set: &FileDescriptorSet) -> String {
let (field_data, _) = field_res.expect("Failed to iterate field");
let field_proto = FieldDescriptorProto::new(field_data).expect("Failed to parse FieldDescriptorProto");
let field_name = field_proto.name().unwrap();
let safe_name = if field_name == "type" { format!("r#{}", field_name) } else { field_name.to_string() };
let tag = field_proto.number().unwrap();
let f_type = field_proto.field_type().unwrap() as i32;
@@ -204,7 +283,7 @@ pub fn generate_rust_code(set: &FileDescriptorSet) -> String {
output.push_str(&format!(
" pub fn {}(mut self, value: {}) -> Result<Self> {{\n self.builder.{}({}, value)?;\n Ok(self)\n }}\n\n",
safe_name, rust_type, method, tag
field_name, rust_type, method, tag
));
}
src/lib.rs
+49 -5
View File
@@ -189,7 +189,7 @@ impl<'a> ProtoAccessor<'a> {
pub fn get_value(&self, field_number: u32) -> Result<(&'a [u8], WireType)> {
let mut last_value = None;
for item in self.fields() {
let (tag, value) = item?;
let (_offset, tag, value) = item?;
if tag.field_number == field_number {
last_value = Some((value, tag.wire_type));
}
@@ -201,6 +201,32 @@ impl<'a> ProtoAccessor<'a> {
pub fn iter_repeated(&self, field_number: u32) -> RepeatedFieldIterator<'a> {
RepeatedFieldIterator::new(self.data, field_number)
}
/// Returns the value and wire type of a field at a specific offset.
pub fn get_value_at(&self, offset: usize) -> Result<(&'a [u8], WireType)> {
if offset >= self.data.len() {
return Err(RotoError::UnexpectedEndOfBuffer);
}
let (tag, tag_len) = Tag::decode(&self.data[offset..])?;
let cursor_after_tag = offset + tag_len;
if cursor_after_tag > self.data.len() {
return Err(RotoError::UnexpectedEndOfBuffer);
}
let value_len = skip_value(tag.wire_type, &self.data[cursor_after_tag..])?;
let (value_offset, actual_value_len) = match tag.wire_type {
WireType::LengthDelimited => {
let (_, varint_len) = read_varint(&self.data[cursor_after_tag..])?;
(cursor_after_tag + varint_len, value_len - varint_len)
}
_ => (cursor_after_tag, value_len),
};
Ok((&self.data[value_offset..value_offset + actual_value_len], tag.wire_type))
}
/// Returns an iterator that scans a specific range of the buffer for all occurrences of the specified field.
pub fn iter_repeated_range(&self, field_number: u32, start: usize, end: usize) -> RepeatedFieldIterator<'a> {
RepeatedFieldIterator::new_range(self.data, field_number, start, end)
}
}
pub struct FieldIterator<'a> {
@@ -209,7 +235,7 @@ pub struct FieldIterator<'a> {
}
impl<'a> Iterator for FieldIterator<'a> {
type Item = Result<(Tag, &'a [u8])>;
type Item = Result<(usize, Tag, &'a [u8])>;
fn next(&mut self) -> Option<Self::Item> {
if self.cursor >= self.data.len() {
@@ -254,23 +280,36 @@ impl<'a> Iterator for FieldIterator<'a> {
self.cursor = cursor_after_tag + value_len;
Some(Ok((tag, &self.data[value_offset..value_offset + actual_value_len])))
Some(Ok((self.cursor - tag_len - value_len, tag, &self.data[value_offset..value_offset + actual_value_len])))
}
}
pub struct RepeatedFieldIterator<'a> {
iterator: FieldIterator<'a>,
field_number: u32,
end_offset: Option<usize>,
}
impl<'a> RepeatedFieldIterator<'a> {
fn new(data: &'a [u8], field_number: u32) -> Self {
pub fn new(data: &'a [u8], field_number: u32) -> Self {
Self {
iterator: FieldIterator {
data,
cursor: 0,
},
field_number,
end_offset: None,
}
}
pub fn new_range(data: &'a [u8], field_number: u32, start: usize, end: usize) -> Self {
Self {
iterator: FieldIterator {
data,
cursor: start,
},
field_number,
end_offset: Some(end),
}
}
}
@@ -281,7 +320,12 @@ impl<'a> Iterator for RepeatedFieldIterator<'a> {
fn next(&mut self) -> Option<Self::Item> {
while let Some(item) = self.iterator.next() {
match item {
Ok((tag, value)) if tag.field_number == self.field_number => {
Ok((offset, tag, value)) if tag.field_number == self.field_number => {
if let Some(end) = self.end_offset {
if offset > end {
return None;
}
}
return Some(Ok((value, tag.wire_type)));
}
Ok(_) => continue,