ccls/libclangmm/Cursor.cc

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#include <algorithm>
#include <cassert>
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#include "Cursor.h"
#include "Utility.h"
namespace clang {
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Type::Type() : cx_type() {}
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Type::Type(const CXType& other) : cx_type(other) {}
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bool Type::operator==(const Type& rhs) const {
return clang_equalTypes(cx_type, rhs.cx_type);
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}
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bool Type::is_fundamental() const {
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//switch (cx_type.kind) {
//case CXType_Auto:
//return true;
//}
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// NOTE: This will return false for pointed types. Should we call
// strip_qualifiers for the user?
return cx_type.kind >= CXType_FirstBuiltin &&
cx_type.kind <= CXType_LastBuiltin;
}
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std::string Type::get_usr() const {
return clang::Cursor(clang_getTypeDeclaration(cx_type)).get_usr();
}
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Type Type::strip_qualifiers() const {
//CXRefQualifierKind qualifiers = clang_Type_getCXXRefQualifier(cx_type)
switch (cx_type.kind) {
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case CXType_LValueReference:
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case CXType_Pointer:
return clang_getPointeeType(cx_type);
}
return cx_type;
}
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std::string Type::get_spelling() const {
return ToString(clang_getTypeSpelling(cx_type));
}
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SourceLocation Cursor::get_source_location() const {
return SourceLocation(clang_getCursorLocation(cx_cursor));
}
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Type Type::get_return_type() const {
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return Type(clang_getResultType(cx_type));
}
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std::vector<Type> Type::get_arguments() const {
int size = clang_getNumArgTypes(cx_type);
assert(size >= 0);
if (size < 0)
return std::vector<Type>();
std::vector<Type> types(size);
for (int i = 0; i < size; ++i)
types.emplace_back(clang_getArgType(cx_type, i));
return types;
}
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std::vector<Type> Type::get_template_arguments() const {
/*
CINDEX_LINKAGE int clang_Type_getNumTemplateArguments(CXType T);
CINDEX_LINKAGE CXType clang_Type_getTemplateArgumentAsType(CXType T, unsigned i);
*/
int size = clang_Type_getNumTemplateArguments(cx_type);
assert(size >= 0);
if (size < 0)
return std::vector<Type>();
std::vector<Type> types(size);
for (int i = 0; i < size; ++i)
types.emplace_back(clang_Type_getTemplateArgumentAsType(cx_type, i));
return types;
}
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static_assert(sizeof(Cursor) == sizeof(CXCursor),
"Cursor must be the same size as CXCursor");
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Cursor::Cursor() : cx_cursor(clang_getNullCursor()) {}
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Cursor::Cursor(const CXCursor& other) : cx_cursor(other) {}
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Cursor::operator bool() const {
return !clang_Cursor_isNull(cx_cursor);
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}
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bool Cursor::operator==(const Cursor& rhs) const {
return clang_equalCursors(cx_cursor, rhs.cx_cursor);
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}
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CXCursorKind Cursor::get_kind() const {
return cx_cursor.kind;
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}
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Type Cursor::get_type() const {
return Type(clang_getCursorType(cx_cursor));
}
/*
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SourceRange Cursor::get_source_range() const {
return SourceRange(clang_getCursorExtent(cx_cursor));
}
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*/
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std::string Cursor::get_spelling() const {
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return clang::ToString(clang_getCursorSpelling(cx_cursor));
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}
std::string Cursor::get_display_name() const {
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return clang::ToString(clang_getCursorDisplayName(cx_cursor));
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}
std::string Cursor::get_usr() const {
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return clang::ToString(clang_getCursorUSR(cx_cursor));
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}
bool Cursor::is_definition() const {
return clang_isCursorDefinition(cx_cursor);
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}
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Cursor Cursor::template_specialization_to_template_definition() const {
// TODO: Should we return this same cursor if this is not a template? We
// can probably check USR to do that.
return clang_getSpecializedCursorTemplate(cx_cursor);
}
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Cursor Cursor::get_referenced() const {
return Cursor(clang_getCursorReferenced(cx_cursor));
}
Cursor Cursor::get_canonical() const {
return Cursor(clang_getCanonicalCursor(cx_cursor));
}
Cursor Cursor::get_definition() const {
return Cursor(clang_getCursorDefinition(cx_cursor));
}
Cursor Cursor::get_semantic_parent() const {
return Cursor(clang_getCursorSemanticParent(cx_cursor));
}
std::vector<Cursor> Cursor::get_arguments() const {
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int size = clang_Cursor_getNumArguments(cx_cursor);
assert(size >= 0);
if (size < 0)
return std::vector<Cursor>();
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std::vector<Cursor> cursors(size);
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for (int i = 0; i < size; ++i)
cursors.emplace_back(clang_Cursor_getArgument(cx_cursor, i));
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return cursors;
}
bool Cursor::is_valid_kind() const {
CXCursor referenced = clang_getCursorReferenced(cx_cursor);
if (clang_Cursor_isNull(referenced))
return false;
CXCursorKind kind = get_kind();
return kind > CXCursor_UnexposedDecl &&
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(kind < CXCursor_FirstInvalid || kind > CXCursor_LastInvalid);
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}
std::string Cursor::get_type_description() const {
std::string spelling;
auto referenced = clang_getCursorReferenced(cx_cursor);
if (!clang_Cursor_isNull(referenced)) {
auto type = clang_getCursorType(referenced);
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spelling = clang::ToString(clang_getTypeSpelling(type));
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#if CINDEX_VERSION_MAJOR==0 && CINDEX_VERSION_MINOR<32
const std::string auto_str = "auto";
if (spelling.size() >= 4 && std::equal(auto_str.begin(), auto_str.end(), spelling.begin())) {
auto canonical_type = clang_getCanonicalType(clang_getCursorType(cx_cursor));
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auto canonical_spelling = ToString(clang_getTypeSpelling(canonical_type));
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if (spelling.size() > 5 && spelling[4] == ' ' && spelling[5] == '&' && spelling != canonical_spelling)
return canonical_spelling + " &";
else
return canonical_spelling;
}
const std::string const_auto_str = "const auto";
if (spelling.size() >= 10 && std::equal(const_auto_str.begin(), const_auto_str.end(), spelling.begin())) {
auto canonical_type = clang_getCanonicalType(clang_getCursorType(cx_cursor));
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auto canonical_spelling = ToString(clang_getTypeSpelling(canonical_type));
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if (spelling.size() > 11 && spelling[10] == ' ' && spelling[11] == '&' && spelling != canonical_spelling)
return canonical_spelling + " &";
else
return canonical_spelling;
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}
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#endif
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}
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if (spelling.empty())
return get_spelling();
return spelling;
}
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std::string Cursor::evaluate() const {
CXEvalResult eval = clang_Cursor_Evaluate(cx_cursor);
std::string result;
auto kind = clang_EvalResult_getKind(eval);
switch (clang_EvalResult_getKind(eval)) {
case CXEval_Int:
result = std::to_string(clang_EvalResult_getAsInt(eval));
break;
case CXEval_Float:
result = std::to_string(clang_EvalResult_getAsDouble(eval));
break;
default:
{
const char* r = clang_EvalResult_getAsStr(eval);
if (r)
result = r;
break;
}
}
clang_EvalResult_dispose(eval);
return result;
#if false
typedef enum {
CXEval_Int = 1,
CXEval_Float = 2,
CXEval_ObjCStrLiteral = 3,
CXEval_StrLiteral = 4,
CXEval_CFStr = 5,
CXEval_Other = 6,
CXEval_UnExposed = 0
} CXEvalResultKind;
/**
* \brief Evaluation result of a cursor
*/
typedef void * CXEvalResult;
/**
* \brief If cursor is a statement declaration tries to evaluate the
* statement and if its variable, tries to evaluate its initializer,
* into its corresponding type.
*/
CINDEX_LINKAGE CXEvalResult clang_Cursor_Evaluate(CXCursor C);
/**
* \brief Returns the kind of the evaluated result.
*/
CINDEX_LINKAGE CXEvalResultKind clang_EvalResult_getKind(CXEvalResult E);
/**
* \brief Returns the evaluation result as integer if the
* kind is Int.
*/
CINDEX_LINKAGE int clang_EvalResult_getAsInt(CXEvalResult E);
/**
* \brief Returns the evaluation result as double if the
* kind is double.
*/
CINDEX_LINKAGE double clang_EvalResult_getAsDouble(CXEvalResult E);
/**
* \brief Returns the evaluation result as a constant string if the
* kind is other than Int or float. User must not free this pointer,
* instead call clang_EvalResult_dispose on the CXEvalResult returned
* by clang_Cursor_Evaluate.
*/
CINDEX_LINKAGE const char* clang_EvalResult_getAsStr(CXEvalResult E);
/**
* \brief Disposes the created Eval memory.
*/
CINDEX_LINKAGE void clang_EvalResult_dispose(CXEvalResult E);
#endif
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}
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std::string Cursor::get_comments() const {
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Cursor referenced = get_referenced();
if (referenced)
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return clang::ToString(clang_Cursor_getRawCommentText(referenced.cx_cursor));
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return "";
}
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std::string Cursor::ToString() const {
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return clang::ToString(get_kind()) + " " + get_spelling();
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}
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} // namespace clang