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chore: import upstream snapshot with attribution
2026-07-13 12:09:14 +08:00

411 lines
19 KiB
Python

"""Rust extractor. Moved verbatim from graphify/extract.py."""
from __future__ import annotations
from pathlib import Path
from graphify.extractors.base import _LANGUAGE_BUILTIN_GLOBALS, _file_stem, _make_id, _read_text
def _rust_collect_type_refs(node, source: bytes, generic: bool, out: list[tuple[str, str]]) -> None:
"""Walk a Rust type expression; append (name, role) tuples."""
if node is None:
return
t = node.type
if t == "primitive_type":
return
if t == "type_identifier":
text = _read_text(node, source)
if text:
out.append((text, "generic_arg" if generic else "type"))
return
if t == "scoped_type_identifier":
text = _read_text(node, source).rsplit("::", 1)[-1]
if text:
out.append((text, "generic_arg" if generic else "type"))
return
if t == "generic_type":
name_node = node.child_by_field_name("type")
if name_node is None:
for c in node.children:
if c.type in ("type_identifier", "scoped_type_identifier"):
name_node = c
break
if name_node is not None:
text = _read_text(name_node, source).rsplit("::", 1)[-1]
if text:
out.append((text, "generic_arg" if generic else "type"))
for c in node.children:
if c.type == "type_arguments":
for arg in c.children:
if arg.is_named:
_rust_collect_type_refs(arg, source, True, out)
return
if t in ("reference_type", "pointer_type", "array_type", "tuple_type", "slice_type"):
for c in node.children:
if c.is_named:
_rust_collect_type_refs(c, source, generic, out)
return
if node.is_named:
for c in node.children:
if c.is_named:
_rust_collect_type_refs(c, source, generic, out)
_RUST_TRAIT_METHOD_BLOCKLIST: frozenset[str] = frozenset({
"new", "default", "parse", "from_str", "now", "clone", "into", "from",
"to_string", "to_owned", "len", "is_empty", "iter", "next", "build",
"start", "run", "init", "app", "get", "set", "push", "pop", "insert",
"remove", "contains", "collect", "map", "filter", "unwrap", "expect",
"ok", "err", "some", "none", "send", "recv", "lock", "read", "write",
})
def extract_rust(path: Path) -> dict:
"""Extract functions, structs, enums, traits, impl methods, and use declarations from a .rs file."""
try:
import tree_sitter_rust as tsrust
from tree_sitter import Language, Parser
except ImportError:
return {"nodes": [], "edges": [], "error": "tree-sitter-rust not installed"}
try:
language = Language(tsrust.language())
parser = Parser(language)
source = path.read_bytes()
tree = parser.parse(source)
root = tree.root_node
except Exception as e:
return {"nodes": [], "edges": [], "error": str(e)}
stem = _file_stem(path)
str_path = str(path)
nodes: list[dict] = []
edges: list[dict] = []
seen_ids: set[str] = set()
function_bodies: list[tuple[str, object]] = []
def add_node(nid: str, label: str, line: int) -> None:
if nid not in seen_ids:
seen_ids.add(nid)
nodes.append({
"id": nid,
"label": label,
"file_type": "code",
"source_file": str_path,
"source_location": f"L{line}",
})
def add_edge(src: str, tgt: str, relation: str, line: int,
confidence: str = "EXTRACTED", weight: float = 1.0,
context: str | None = None) -> None:
edge = {
"source": src,
"target": tgt,
"relation": relation,
"confidence": confidence,
"source_file": str_path,
"source_location": f"L{line}",
"weight": weight,
}
if context:
edge["context"] = context
edges.append(edge)
file_nid = _make_id(str(path))
add_node(file_nid, path.name, 1)
def ensure_named_node(name: str, line: int) -> str:
nid = _make_id(stem, name)
if nid in seen_ids:
return nid
nid = _make_id(name)
if nid not in seen_ids:
# The name isn't defined in this file, so this is a cross-file reference
# (e.g. a `Thing` type annotation imported from another module). Emit a
# SOURCELESS stub — like the inheritance-base path below — so the
# corpus-level rewire can collapse it onto the real definition. A sourced
# stub here makes _disambiguate_colliding_node_ids bake the referencing
# file's path (with extension) into the id and blocks the rewire, which is
# the phantom-duplicate-node bug (#1402).
seen_ids.add(nid)
nodes.append({
"id": nid,
"label": name,
"file_type": "code",
"source_file": "",
"source_location": "",
"origin_file": str_path,
})
return nid
def emit_param_return_refs(func_node, func_nid: str, line: int) -> None:
params = func_node.child_by_field_name("parameters")
if params is not None:
for p in params.children:
if p.type != "parameter":
continue
type_node = p.child_by_field_name("type")
refs: list[tuple[str, str]] = []
_rust_collect_type_refs(type_node, source, False, refs)
for ref_name, role in refs:
ctx = "generic_arg" if role == "generic_arg" else "parameter_type"
tgt = ensure_named_node(ref_name, line)
if tgt != func_nid:
add_edge(func_nid, tgt, "references", line, context=ctx)
return_type = func_node.child_by_field_name("return_type")
if return_type is not None:
refs = []
_rust_collect_type_refs(return_type, source, False, refs)
for ref_name, role in refs:
ctx = "generic_arg" if role == "generic_arg" else "return_type"
tgt = ensure_named_node(ref_name, line)
if tgt != func_nid:
add_edge(func_nid, tgt, "references", line, context=ctx)
def walk(node, parent_impl_nid: str | None = None) -> None:
t = node.type
if t == "function_item":
name_node = node.child_by_field_name("name")
if name_node:
func_name = _read_text(name_node, source)
line = node.start_point[0] + 1
if parent_impl_nid:
func_nid = _make_id(parent_impl_nid, func_name)
add_node(func_nid, f".{func_name}()", line)
add_edge(parent_impl_nid, func_nid, "method", line)
else:
func_nid = _make_id(stem, func_name)
add_node(func_nid, f"{func_name}()", line)
add_edge(file_nid, func_nid, "contains", line)
emit_param_return_refs(node, func_nid, line)
body = node.child_by_field_name("body")
if body:
function_bodies.append((func_nid, body))
return
if t in ("struct_item", "enum_item", "trait_item"):
name_node = node.child_by_field_name("name")
if name_node:
item_name = _read_text(name_node, source)
line = node.start_point[0] + 1
item_nid = _make_id(stem, item_name)
add_node(item_nid, item_name, line)
add_edge(file_nid, item_nid, "contains", line)
if t == "trait_item":
for c in node.children:
if c.type != "trait_bounds":
continue
for sub in c.children:
if not sub.is_named:
continue
refs: list[tuple[str, str]] = []
_rust_collect_type_refs(sub, source, False, refs)
for idx, (ref_name, _role) in enumerate(refs):
tgt = ensure_named_node(ref_name, line)
if tgt == item_nid:
continue
rel = "inherits" if idx == 0 else "references"
if rel == "inherits":
add_edge(item_nid, tgt, "inherits", line)
else:
add_edge(item_nid, tgt, "references", line,
context="generic_arg")
if t == "struct_item":
for c in node.children:
if c.type != "field_declaration_list":
continue
for field in c.children:
if field.type != "field_declaration":
continue
type_node = field.child_by_field_name("type")
if type_node is None:
for fc in field.children:
if fc.type in ("type_identifier", "generic_type",
"scoped_type_identifier",
"reference_type", "primitive_type"):
type_node = fc
break
refs = []
_rust_collect_type_refs(type_node, source, False, refs)
for ref_name, role in refs:
ctx = "generic_arg" if role == "generic_arg" else "field"
tgt = ensure_named_node(ref_name, field.start_point[0] + 1)
if tgt != item_nid:
add_edge(item_nid, tgt, "references",
field.start_point[0] + 1, context=ctx)
# Tuple structs (`struct Wrapper(pub Logger, Config);`) nest their
# positional field types directly under ordered_field_declaration_list
# with no field_declaration wrapper -- the same shape handled for tuple
# enum variants below. Without this branch these field type references
# are silently dropped.
for c in node.children:
if c.type != "ordered_field_declaration_list":
continue
fline = c.start_point[0] + 1
for tc in c.children:
if tc.type not in ("type_identifier", "generic_type",
"scoped_type_identifier", "reference_type",
"primitive_type", "tuple_type", "array_type"):
continue
refs = []
_rust_collect_type_refs(tc, source, False, refs)
for ref_name, role in refs:
ctx = "generic_arg" if role == "generic_arg" else "field"
tgt = ensure_named_node(ref_name, fline)
if tgt != item_nid:
add_edge(item_nid, tgt, "references", fline, context=ctx)
if t == "enum_item":
# Variant payload types nest under enum_variant_list ->
# enum_variant -> ordered_field_declaration_list (tuple variant,
# `Click(Logger)`) | field_declaration_list (struct variant,
# `Resize { size: Dim }`). Neither was traversed, so every
# enum-variant type reference was silently dropped.
_TYPE_NODES = ("type_identifier", "generic_type",
"scoped_type_identifier", "reference_type",
"primitive_type", "tuple_type", "array_type")
def _emit_enum_type(type_node, at_line):
if type_node is None:
return
refs2: list[tuple[str, str]] = []
_rust_collect_type_refs(type_node, source, False, refs2)
for ref_name, role in refs2:
ctx = "generic_arg" if role == "generic_arg" else "field"
tgt = ensure_named_node(ref_name, at_line)
if tgt != item_nid:
add_edge(item_nid, tgt, "references", at_line, context=ctx)
for c in node.children:
if c.type != "enum_variant_list":
continue
for variant in c.children:
if variant.type != "enum_variant":
continue
vline = variant.start_point[0] + 1
for vc in variant.children:
if vc.type == "ordered_field_declaration_list":
for tc in vc.children:
if tc.type in _TYPE_NODES:
_emit_enum_type(tc, vline)
elif vc.type == "field_declaration_list":
for field in vc.children:
if field.type != "field_declaration":
continue
type_node = field.child_by_field_name("type")
_emit_enum_type(type_node, field.start_point[0] + 1)
return
if t == "impl_item":
type_node = node.child_by_field_name("type")
trait_node = node.child_by_field_name("trait")
impl_nid: str | None = None
if type_node:
type_name = _read_text(type_node, source).strip()
impl_nid = _make_id(stem, type_name)
add_node(impl_nid, type_name, node.start_point[0] + 1)
if trait_node is not None and impl_nid is not None:
refs: list[tuple[str, str]] = []
_rust_collect_type_refs(trait_node, source, False, refs)
for idx, (ref_name, _role) in enumerate(refs):
tgt = ensure_named_node(ref_name, node.start_point[0] + 1)
if tgt == impl_nid:
continue
if idx == 0:
add_edge(impl_nid, tgt, "implements", node.start_point[0] + 1)
else:
add_edge(impl_nid, tgt, "references", node.start_point[0] + 1,
context="generic_arg")
body = node.child_by_field_name("body")
if body:
for child in body.children:
walk(child, parent_impl_nid=impl_nid)
return
if t == "use_declaration":
arg = node.child_by_field_name("argument")
if arg:
raw = _read_text(arg, source)
clean = raw.split("{")[0].rstrip(":").rstrip("*").rstrip(":")
module_name = clean.split("::")[-1].strip()
if module_name:
tgt_nid = _make_id(module_name)
add_edge(file_nid, tgt_nid, "imports_from", node.start_point[0] + 1, context="import")
return
for child in node.children:
walk(child, parent_impl_nid=None)
walk(root)
label_to_nid: dict[str, str] = {}
for n in nodes:
raw = n["label"]
normalised = raw.strip("()").lstrip(".")
label_to_nid[normalised] = n["id"]
seen_call_pairs: set[tuple[str, str]] = set()
raw_calls: list[dict] = []
def walk_calls(node, caller_nid: str) -> None:
if node.type == "function_item":
return
if node.type == "call_expression":
func_node = node.child_by_field_name("function")
callee_name: str | None = None
is_member_call: bool = False
is_scoped_call: bool = False
if func_node:
if func_node.type == "identifier":
callee_name = _read_text(func_node, source)
elif func_node.type == "field_expression":
is_member_call = True
field = func_node.child_by_field_name("field")
if field:
callee_name = _read_text(field, source)
elif func_node.type == "scoped_identifier":
# Type::method() — still allow in-file EXTRACTED match, but
# skip cross-file resolution: bare last-segment lookup ignores
# crate boundaries and produces spurious INFERRED edges (#908).
is_scoped_call = True
name = func_node.child_by_field_name("name")
if name:
callee_name = _read_text(name, source)
if callee_name and callee_name not in _LANGUAGE_BUILTIN_GLOBALS:
tgt_nid = label_to_nid.get(callee_name)
if tgt_nid and tgt_nid != caller_nid:
pair = (caller_nid, tgt_nid)
if pair not in seen_call_pairs:
seen_call_pairs.add(pair)
line = node.start_point[0] + 1
edges.append({
"source": caller_nid,
"target": tgt_nid,
"relation": "calls",
"context": "call",
"confidence": "EXTRACTED",
"source_file": str_path,
"source_location": f"L{line}",
"weight": 1.0,
})
elif not is_scoped_call and callee_name.lower() not in _RUST_TRAIT_METHOD_BLOCKLIST:
raw_calls.append({
"caller_nid": caller_nid,
"callee": callee_name,
"is_member_call": is_member_call,
"source_file": str_path,
"source_location": f"L{node.start_point[0] + 1}",
})
for child in node.children:
walk_calls(child, caller_nid)
for caller_nid, body_node in function_bodies:
walk_calls(body_node, caller_nid)
valid_ids = seen_ids
clean_edges = []
for edge in edges:
src, tgt = edge["source"], edge["target"]
if src in valid_ids and (tgt in valid_ids or edge["relation"] in ("imports", "imports_from")):
clean_edges.append(edge)
return {"nodes": nodes, "edges": clean_edges, "raw_calls": raw_calls}