ccls/indexer.h

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#pragma once
#include <algorithm>
#include <iostream>
#include <cstdint>
#include <cassert>
#include <fstream>
#include <unordered_map>
#include "libclangmm/clangmm.h"
#include "libclangmm/Utility.h"
#include "bitfield.h"
#include "utils.h"
#include "optional.h"
#include <rapidjson/writer.h>
#include <rapidjson/prettywriter.h>
#include <rapidjson/stringbuffer.h>
#include <rapidjson/document.h>
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struct IndexedTypeDef;
struct IndexedFuncDef;
struct IndexedVarDef;
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using namespace std::experimental;
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template<typename T>
struct Id {
uint64_t id;
Id() : id(0) {} // Needed for containers. Do not use directly.
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Id(uint64_t id) : id(id) {}
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bool operator==(const Id<T>& other) const {
return id == other.id;
}
bool operator<(const Id<T>& other) const {
return id < other.id;
}
};
namespace std {
template<typename T>
struct hash<Id<T>> {
size_t operator()(const Id<T>& k) const {
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return hash<uint64_t>()(k.id);
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}
};
}
template<typename T>
bool operator==(const Id<T>& a, const Id<T>& b) {
assert(a.group == b.group && "Cannot compare Ids from different groups");
return a.id == b.id;
}
struct _FakeFileType {};
using FileId = Id<_FakeFileType>;
using TypeId = Id<IndexedTypeDef>;
using FuncId = Id<IndexedFuncDef>;
using VarId = Id<IndexedVarDef>;
struct Location {
bool interesting;
int raw_file_id;
int line;
int column;
Location() {
interesting = false;
raw_file_id = -1;
line = -1;
column = -1;
}
Location(bool interesting, FileId file, uint32_t line, uint32_t column) {
this->interesting = interesting;
this->raw_file_id = file.id;
this->line = line;
this->column = column;
}
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FileId file_id() const {
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return FileId(raw_file_id);
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}
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explicit Location(const char* encoded) : Location() {
int len = strlen(encoded);
assert(len >= 0);
if (*encoded == '*') {
interesting = true;
++encoded;
}
assert(encoded);
raw_file_id = atoi(encoded);
while (*encoded && *encoded != ':')
++encoded;
if (*encoded == ':') ++encoded;
assert(encoded);
line = atoi(encoded);
while (*encoded && *encoded != ':')
++encoded;
if (*encoded == ':') ++encoded;
assert(encoded);
column = atoi(encoded);
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}
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std::string ToString() {
// Output looks like this:
//
// *1:2:3
//
// * => interesting
// 1 => file id
// 2 => line
// 3 => column
std::string result;
if (interesting)
result += '*';
result += std::to_string(raw_file_id);
result += ':';
result += std::to_string(line);
result += ':';
result += std::to_string(column);
return result;
}
// Compare two Locations and check if they are equal. Ignores the value of
// |interesting|.
// operator== doesn't seem to work properly...
bool IsEqualTo(const Location& o) const {
// When comparing, ignore the value of |interesting|.
return
raw_file_id == o.raw_file_id &&
line == o.line &&
column == o.column;
}
bool operator==(const Location& o) const {
return IsEqualTo(o);
}
bool operator<(const Location& o) const {
return
interesting < o.interesting &&
raw_file_id < o.raw_file_id &&
line < o.line &&
column < o.column;
}
Location WithInteresting(bool interesting) {
Location result = *this;
result.interesting = interesting;
return result;
}
};
#if false
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// TODO: Move off of this weird wrapper, use struct with custom wrappers
// directly.
BEGIN_BITFIELD_TYPE(Location, uint64_t)
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ADD_BITFIELD_MEMBER(interesting, /*start:*/ 0, /*len:*/ 1); // 2 values
ADD_BITFIELD_MEMBER(raw_file_group, /*start:*/ 1, /*len:*/ 4); // 16 values, ok if they wrap around.
ADD_BITFIELD_MEMBER(raw_file_id, /*start:*/ 5, /*len:*/ 25); // 33,554,432 values
ADD_BITFIELD_MEMBER(line, /*start:*/ 30, /*len:*/ 20); // 1,048,576 values
ADD_BITFIELD_MEMBER(column, /*start:*/ 50, /*len:*/ 14); // 16,384 values
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Location(bool interesting, FileId file, uint32_t line, uint32_t column) {
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this->interesting = interesting;
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this->raw_file_group = file.group;
this->raw_file_id = file.id;
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this->line = line;
this->column = column;
}
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FileId file_id() {
return FileId(raw_file_id, raw_file_group);
}
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std::string ToString() {
// Output looks like this:
//
// *1:2:3
//
// * => interesting
// 1 => file id
// 2 => line
// 3 => column
std::string result;
if (interesting)
result += '*';
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result += std::to_string(raw_file_id);
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result += ':';
result += std::to_string(line);
result += ':';
result += std::to_string(column);
return result;
}
// Compare two Locations and check if they are equal. Ignores the value of
// |interesting|.
// operator== doesn't seem to work properly...
bool IsEqualTo(const Location& o) {
// When comparing, ignore the value of |interesting|.
return (wrapper.value >> 1) == (o.wrapper.value >> 1);
}
Location WithInteresting(bool interesting) {
Location result = *this;
result.interesting = interesting;
return result;
}
END_BITFIELD_TYPE()
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#endif
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template<typename T>
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struct Ref {
Id<T> id;
Location loc;
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Ref() {} // For serialization.
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Ref(Id<T> id, Location loc) : id(id), loc(loc) {}
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bool operator==(const Ref<T>& other) {
return id == other.id && loc == other.loc;
}
bool operator!=(const Ref<T>& other) {
return !(*this == other);
}
bool operator<(const Ref<T>& other) const {
return id < other.id && loc < other.loc;
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}
};
template<typename T>
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bool operator==(const Ref<T>& a, const Ref<T>& b) {
return a.id == b.id && a.loc == b.loc;
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}
template<typename T>
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bool operator!=(const Ref<T>& a, const Ref<T>& b) {
return !(a == b);
}
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using TypeRef = Ref<IndexedTypeDef>;
using FuncRef = Ref<IndexedFuncDef>;
using VarRef = Ref<IndexedVarDef>;
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// TODO: skip as much forward-processing as possible when |is_system_def| is
// set to false.
// TODO: Either eliminate the defs created as a by-product of cross-referencing,
// or do not emit things we don't have definitions for.
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template<typename TypeId = TypeId, typename FuncId = FuncId, typename VarId = VarId, typename Location = Location>
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struct TypeDefDefinitionData {
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// General metadata.
std::string usr;
std::string short_name;
std::string qualified_name;
// While a class/type can technically have a separate declaration/definition,
// it doesn't really happen in practice. The declaration never contains
// comments or insightful information. The user always wants to jump from
// the declaration to the definition - never the other way around like in
// functions and (less often) variables.
//
// It's also difficult to identify a `class Foo;` statement with the clang
// indexer API (it's doable using cursor AST traversal), so we don't bother
// supporting the feature.
optional<Location> definition;
// If set, then this is the same underlying type as the given value (ie, this
// type comes from a using or typedef statement).
optional<TypeId> alias_of;
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// Immediate parent types.
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std::vector<TypeId> parents;
// Types, functions, and variables defined in this type.
std::vector<TypeId> types;
std::vector<FuncId> funcs;
std::vector<VarId> vars;
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TypeDefDefinitionData(const std::string& usr) : usr(usr) {}
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bool operator==(const TypeDefDefinitionData<TypeId, FuncId, VarId, Location>& other) const {
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return
usr == other.usr &&
short_name == other.short_name &&
qualified_name == other.qualified_name &&
definition == other.definition &&
alias_of == other.alias_of &&
parents == other.parents &&
types == other.types &&
funcs == other.funcs &&
vars == other.vars;
}
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bool operator!=(const TypeDefDefinitionData<TypeId, FuncId, VarId, Location>& other) const { return !(*this == other); }
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};
struct IndexedTypeDef {
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TypeDefDefinitionData<> def;
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TypeId id;
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// Immediate derived types.
std::vector<TypeId> derived;
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// Every usage, useful for things like renames.
// NOTE: Do not insert directly! Use AddUsage instead.
std::vector<Location> uses;
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bool is_bad_def = true;
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IndexedTypeDef() : def("") {} // For serialization
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IndexedTypeDef(TypeId id, const std::string& usr);
void AddUsage(Location loc, bool insert_if_not_present = true);
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bool operator<(const IndexedTypeDef& other) const {
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return def.usr < other.def.usr;
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}
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};
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namespace std {
template <>
struct hash<IndexedTypeDef> {
size_t operator()(const IndexedTypeDef& k) const {
return hash<string>()(k.def.usr);
}
};
}
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template<typename TypeId = TypeId, typename FuncId = FuncId, typename VarId = VarId, typename FuncRef = FuncRef, typename Location = Location>
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struct FuncDefDefinitionData {
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// General metadata.
std::string usr;
std::string short_name;
std::string qualified_name;
optional<Location> definition;
// Type which declares this one (ie, it is a method)
optional<TypeId> declaring_type;
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// Method this method overrides.
optional<FuncId> base;
// Local variables defined in this function.
std::vector<VarId> locals;
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// Functions that this function calls.
std::vector<FuncRef> callees;
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FuncDefDefinitionData(const std::string& usr) : usr(usr) {
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assert(usr.size() > 0);
}
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bool operator==(const FuncDefDefinitionData<TypeId, FuncId, VarId, FuncRef, Location>& other) const {
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return
usr == other.usr &&
short_name == other.short_name &&
qualified_name == other.qualified_name &&
definition == other.definition &&
declaring_type == other.declaring_type &&
base == other.base &&
locals == other.locals &&
callees == other.callees;
}
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bool operator!=(const FuncDefDefinitionData<TypeId, FuncId, VarId, FuncRef, Location>& other) const { return !(*this == other); }
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};
struct IndexedFuncDef {
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FuncDefDefinitionData<> def;
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FuncId id;
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// Places the function is forward-declared.
std::vector<Location> declarations;
// Methods which directly override this one.
std::vector<FuncId> derived;
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// Functions which call this one.
// TODO: Functions can get called outside of just functions - for example,
// they can get called in static context (maybe redirect to main?)
// or in class initializer list (redirect to class ctor?)
// - Right now those usages will not get listed here (but they should be
// inside of all_uses).
std::vector<FuncRef> callers;
// All usages. For interesting usages, see callees.
std::vector<Location> uses;
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bool is_bad_def = true;
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IndexedFuncDef() : def("") {} // For serialization
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IndexedFuncDef(FuncId id, const std::string& usr) : id(id), def(usr) {
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assert(usr.size() > 0);
}
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bool operator<(const IndexedFuncDef& other) const {
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return def.usr < other.def.usr;
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}
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};
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namespace std {
template <>
struct hash<IndexedFuncDef> {
size_t operator()(const IndexedFuncDef& k) const {
return hash<string>()(k.def.usr);
}
};
}
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template<typename TypeId = TypeId, typename FuncId = FuncId, typename VarId = VarId, typename Location = Location>
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struct VarDefDefinitionData {
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// General metadata.
std::string usr;
std::string short_name;
std::string qualified_name;
optional<Location> declaration;
// TODO: definitions should be a list of locations, since there can be more
// than one.
optional<Location> definition;
// Type of the variable.
optional<TypeId> variable_type;
// Type which declares this one (ie, it is a method)
optional<TypeId> declaring_type;
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VarDefDefinitionData(const std::string& usr) : usr(usr) {}
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bool operator==(const VarDefDefinitionData<TypeId, FuncId, VarId, Location>& other) const {
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return
usr == other.usr &&
short_name == other.short_name &&
qualified_name == other.qualified_name &&
declaration == other.declaration &&
definition == other.definition &&
variable_type == other.variable_type &&
declaring_type == other.declaring_type;
}
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bool operator!=(const VarDefDefinitionData<TypeId, FuncId, VarId, Location>& other) const { return !(*this == other); }
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};
struct IndexedVarDef {
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VarDefDefinitionData<> def;
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VarId id;
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// Usages.
std::vector<Location> uses;
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bool is_bad_def = true;
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IndexedVarDef() : def("") {} // For serialization
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IndexedVarDef(VarId id, const std::string& usr) : id(id), def(usr) {
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assert(usr.size() > 0);
}
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bool operator<(const IndexedVarDef& other) const {
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return def.usr < other.def.usr;
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}
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};
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namespace std {
template <>
struct hash<IndexedVarDef> {
size_t operator()(const IndexedVarDef& k) const {
return hash<string>()(k.def.usr);
}
};
}
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struct IdCache {
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std::unordered_map<std::string, FileId> file_path_to_file_id;
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std::unordered_map<std::string, TypeId> usr_to_type_id;
std::unordered_map<std::string, FuncId> usr_to_func_id;
std::unordered_map<std::string, VarId> usr_to_var_id;
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std::unordered_map<FileId, std::string> file_id_to_file_path;
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std::unordered_map<TypeId, std::string> type_id_to_usr;
std::unordered_map<FuncId, std::string> func_id_to_usr;
std::unordered_map<VarId, std::string> var_id_to_usr;
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IdCache();
Location Resolve(const CXSourceLocation& cx_loc, bool interesting);
Location Resolve(const CXIdxLoc& cx_idx_loc, bool interesting);
Location Resolve(const CXCursor& cx_cursor, bool interesting);
Location Resolve(const clang::Cursor& cursor, bool interesting);
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};
struct IndexedFile {
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IdCache id_cache;
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std::string path;
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std::vector<IndexedTypeDef> types;
std::vector<IndexedFuncDef> funcs;
std::vector<IndexedVarDef> vars;
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IndexedFile(const std::string& path);
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TypeId ToTypeId(const std::string& usr);
FuncId ToFuncId(const std::string& usr);
VarId ToVarId(const std::string& usr);
TypeId ToTypeId(const CXCursor& usr);
FuncId ToFuncId(const CXCursor& usr);
VarId ToVarId(const CXCursor& usr);
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IndexedTypeDef* Resolve(TypeId id);
IndexedFuncDef* Resolve(FuncId id);
IndexedVarDef* Resolve(VarId id);
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std::string ToString();
};
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IndexedFile Parse(std::string filename, std::vector<std::string> args, bool dump_ast = false);