#include "absl/debugging/internal/demangle.h"
#include <cstdint>
#include <cstdio>
#include <limits>
namespace absl {
ABSL_NAMESPACE_BEGIN
namespace debugging_internal {
typedef struct {
const char *abbrev;
const char *real_name;
int arity;
} AbbrevPair;
static const AbbrevPair kOperatorList[] = {
{"nw", "new", 0},
{"na", "new[]", 0},
{"dl", "delete", 1},
{"da", "delete[]", 1},
{"ps", "+", 1},
{"ng", "-", 1},
{"ad", "&", 1},
{"de", "*", 1},
{"co", "~", 1},
{"pl", "+", 2},
{"mi", "-", 2},
{"ml", "*", 2},
{"dv", "/", 2},
{"rm", "%", 2},
{"an", "&", 2},
{"or", "|", 2},
{"eo", "^", 2},
{"aS", "=", 2},
{"pL", "+=", 2},
{"mI", "-=", 2},
{"mL", "*=", 2},
{"dV", "/=", 2},
{"rM", "%=", 2},
{"aN", "&=", 2},
{"oR", "|=", 2},
{"eO", "^=", 2},
{"ls", "<<", 2},
{"rs", ">>", 2},
{"lS", "<<=", 2},
{"rS", ">>=", 2},
{"eq", "==", 2},
{"ne", "!=", 2},
{"lt", "<", 2},
{"gt", ">", 2},
{"le", "<=", 2},
{"ge", ">=", 2},
{"nt", "!", 1},
{"aa", "&&", 2},
{"oo", "||", 2},
{"pp", "++", 1},
{"mm", "--", 1},
{"cm", ",", 2},
{"pm", "->*", 2},
{"pt", "->", 0},
{"cl", "()", 0},
{"ix", "[]", 2},
{"qu", "?", 3},
{"st", "sizeof", 0},
{"sz", "sizeof", 1},
{nullptr, nullptr, 0},
};
static const AbbrevPair kBuiltinTypeList[] = {
{"v", "void", 0},
{"w", "wchar_t", 0},
{"b", "bool", 0},
{"c", "char", 0},
{"a", "signed char", 0},
{"h", "unsigned char", 0},
{"s", "short", 0},
{"t", "unsigned short", 0},
{"i", "int", 0},
{"j", "unsigned int", 0},
{"l", "long", 0},
{"m", "unsigned long", 0},
{"x", "long long", 0},
{"y", "unsigned long long", 0},
{"n", "__int128", 0},
{"o", "unsigned __int128", 0},
{"f", "float", 0},
{"d", "double", 0},
{"e", "long double", 0},
{"g", "__float128", 0},
{"z", "ellipsis", 0},
{"De", "decimal128", 0},
{"Dd", "decimal64", 0},
{"Dc", "decltype(auto)", 0},
{"Da", "auto", 0},
{"Dn", "std::nullptr_t", 0},
{"Df", "decimal32", 0},
{"Di", "char32_t", 0},
{"Du", "char8_t", 0},
{"Ds", "char16_t", 0},
{"Dh", "float16", 0},
{nullptr, nullptr, 0},
};
static const AbbrevPair kSubstitutionList[] = {
{"St", "", 0},
{"Sa", "allocator", 0},
{"Sb", "basic_string", 0},
{"Ss", "string", 0},
{"Si", "istream", 0},
{"So", "ostream", 0},
{"Sd", "iostream", 0},
{nullptr, nullptr, 0},
};
typedef struct {
int mangled_idx;
int out_cur_idx;
int prev_name_idx;
signed int prev_name_length : 16;
signed int nest_level : 15;
unsigned int append : 1;
} ParseState;
static_assert(sizeof(ParseState) == 4 * sizeof(int),
"unexpected size of ParseState");
typedef struct {
const char *mangled_begin;
char *out;
int out_end_idx;
int recursion_depth;
int steps;
ParseState parse_state;
} State;
namespace {
class ComplexityGuard {
public:
explicit ComplexityGuard(State *state) : state_(state) {
++state->recursion_depth;
++state->steps;
}
~ComplexityGuard() { --state_->recursion_depth; }
static constexpr int kRecursionDepthLimit = 256;
static constexpr int kParseStepsLimit = 1 << 17;
bool IsTooComplex() const {
return state_->recursion_depth > kRecursionDepthLimit ||
state_->steps > kParseStepsLimit;
}
private:
State *state_;
};
}
static size_t StrLen(const char *str) {
size_t len = 0;
while (*str != '\0') {
++str;
++len;
}
return len;
}
static bool AtLeastNumCharsRemaining(const char *str, int n) {
for (int i = 0; i < n; ++i) {
if (str[i] == '\0') {
return false;
}
}
return true;
}
static bool StrPrefix(const char *str, const char *prefix) {
size_t i = 0;
while (str[i] != '\0' && prefix[i] != '\0' && str[i] == prefix[i]) {
++i;
}
return prefix[i] == '\0';
}
static void InitState(State *state, const char *mangled, char *out,
int out_size) {
state->mangled_begin = mangled;
state->out = out;
state->out_end_idx = out_size;
state->recursion_depth = 0;
state->steps = 0;
state->parse_state.mangled_idx = 0;
state->parse_state.out_cur_idx = 0;
state->parse_state.prev_name_idx = 0;
state->parse_state.prev_name_length = -1;
state->parse_state.nest_level = -1;
state->parse_state.append = true;
}
static inline const char *RemainingInput(State *state) {
return &state->mangled_begin[state->parse_state.mangled_idx];
}
static bool ParseOneCharToken(State *state, const char one_char_token) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (RemainingInput(state)[0] == one_char_token) {
++state->parse_state.mangled_idx;
return true;
}
return false;
}
static bool ParseTwoCharToken(State *state, const char *two_char_token) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (RemainingInput(state)[0] == two_char_token[0] &&
RemainingInput(state)[1] == two_char_token[1]) {
state->parse_state.mangled_idx += 2;
return true;
}
return false;
}
static bool ParseCharClass(State *state, const char *char_class) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (RemainingInput(state)[0] == '\0') {
return false;
}
const char *p = char_class;
for (; *p != '\0'; ++p) {
if (RemainingInput(state)[0] == *p) {
++state->parse_state.mangled_idx;
return true;
}
}
return false;
}
static bool ParseDigit(State *state, int *digit) {
char c = RemainingInput(state)[0];
if (ParseCharClass(state, "0123456789")) {
if (digit != nullptr) {
*digit = c - '0';
}
return true;
}
return false;
}
static bool Optional(bool ) { return true; }
typedef bool (*ParseFunc)(State *);
static bool OneOrMore(ParseFunc parse_func, State *state) {
if (parse_func(state)) {
while (parse_func(state)) {
}
return true;
}
return false;
}
static bool ZeroOrMore(ParseFunc parse_func, State *state) {
while (parse_func(state)) {
}
return true;
}
static void Append(State *state, const char *const str, const int length) {
for (int i = 0; i < length; ++i) {
if (state->parse_state.out_cur_idx + 1 <
state->out_end_idx) {
state->out[state->parse_state.out_cur_idx++] = str[i];
} else {
state->parse_state.out_cur_idx = state->out_end_idx + 1;
break;
}
}
if (state->parse_state.out_cur_idx < state->out_end_idx) {
state->out[state->parse_state.out_cur_idx] =
'\0';
}
}
static bool IsLower(char c) { return c >= 'a' && c <= 'z'; }
static bool IsAlpha(char c) {
return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z');
}
static bool IsDigit(char c) { return c >= '0' && c <= '9'; }
static bool IsFunctionCloneSuffix(const char *str) {
size_t i = 0;
while (str[i] != '\0') {
bool parsed = false;
if (str[i] == '.' && (IsAlpha(str[i + 1]) || str[i + 1] == '_')) {
parsed = true;
i += 2;
while (IsAlpha(str[i]) || str[i] == '_') {
++i;
}
}
if (str[i] == '.' && IsDigit(str[i + 1])) {
parsed = true;
i += 2;
while (IsDigit(str[i])) {
++i;
}
}
if (!parsed)
return false;
}
return true;
}
static bool EndsWith(State *state, const char chr) {
return state->parse_state.out_cur_idx > 0 &&
state->parse_state.out_cur_idx < state->out_end_idx &&
chr == state->out[state->parse_state.out_cur_idx - 1];
}
static void MaybeAppendWithLength(State *state, const char *const str,
const int length) {
if (state->parse_state.append && length > 0) {
if (str[0] == '<' && EndsWith(state, '<')) {
Append(state, " ", 1);
}
if (state->parse_state.out_cur_idx < state->out_end_idx &&
(IsAlpha(str[0]) || str[0] == '_')) {
state->parse_state.prev_name_idx = state->parse_state.out_cur_idx;
state->parse_state.prev_name_length = length;
}
Append(state, str, length);
}
}
static bool MaybeAppendDecimal(State *state, unsigned int val) {
constexpr size_t kMaxLength = 20;
char buf[kMaxLength];
if (state->parse_state.append) {
char *p = &buf[kMaxLength];
do {
*--p = (val % 10) + '0';
val /= 10;
} while (p > buf && val != 0);
Append(state, p, kMaxLength - (p - buf));
}
return true;
}
static bool MaybeAppend(State *state, const char *const str) {
if (state->parse_state.append) {
int length = StrLen(str);
MaybeAppendWithLength(state, str, length);
}
return true;
}
static bool EnterNestedName(State *state) {
state->parse_state.nest_level = 0;
return true;
}
static bool LeaveNestedName(State *state, int16_t prev_value) {
state->parse_state.nest_level = prev_value;
return true;
}
static bool DisableAppend(State *state) {
state->parse_state.append = false;
return true;
}
static bool RestoreAppend(State *state, bool prev_value) {
state->parse_state.append = prev_value;
return true;
}
static void MaybeIncreaseNestLevel(State *state) {
if (state->parse_state.nest_level > -1) {
++state->parse_state.nest_level;
}
}
static void MaybeAppendSeparator(State *state) {
if (state->parse_state.nest_level >= 1) {
MaybeAppend(state, "::");
}
}
static void MaybeCancelLastSeparator(State *state) {
if (state->parse_state.nest_level >= 1 && state->parse_state.append &&
state->parse_state.out_cur_idx >= 2) {
state->parse_state.out_cur_idx -= 2;
state->out[state->parse_state.out_cur_idx] = '\0';
}
}
static bool IdentifierIsAnonymousNamespace(State *state, int length) {
static const char anon_prefix[] = "_GLOBAL__N_";
return (length > static_cast<int>(sizeof(anon_prefix) - 1) &&
StrPrefix(RemainingInput(state), anon_prefix));
}
static bool ParseMangledName(State *state);
static bool ParseEncoding(State *state);
static bool ParseName(State *state);
static bool ParseUnscopedName(State *state);
static bool ParseNestedName(State *state);
static bool ParsePrefix(State *state);
static bool ParseUnqualifiedName(State *state);
static bool ParseSourceName(State *state);
static bool ParseLocalSourceName(State *state);
static bool ParseUnnamedTypeName(State *state);
static bool ParseNumber(State *state, int *number_out);
static bool ParseFloatNumber(State *state);
static bool ParseSeqId(State *state);
static bool ParseIdentifier(State *state, int length);
static bool ParseOperatorName(State *state, int *arity);
static bool ParseSpecialName(State *state);
static bool ParseCallOffset(State *state);
static bool ParseNVOffset(State *state);
static bool ParseVOffset(State *state);
static bool ParseCtorDtorName(State *state);
static bool ParseDecltype(State *state);
static bool ParseType(State *state);
static bool ParseCVQualifiers(State *state);
static bool ParseBuiltinType(State *state);
static bool ParseFunctionType(State *state);
static bool ParseBareFunctionType(State *state);
static bool ParseClassEnumType(State *state);
static bool ParseArrayType(State *state);
static bool ParsePointerToMemberType(State *state);
static bool ParseTemplateParam(State *state);
static bool ParseTemplateTemplateParam(State *state);
static bool ParseTemplateArgs(State *state);
static bool ParseTemplateArg(State *state);
static bool ParseBaseUnresolvedName(State *state);
static bool ParseUnresolvedName(State *state);
static bool ParseExpression(State *state);
static bool ParseExprPrimary(State *state);
static bool ParseExprCastValue(State *state);
static bool ParseLocalName(State *state);
static bool ParseLocalNameSuffix(State *state);
static bool ParseDiscriminator(State *state);
static bool ParseSubstitution(State *state, bool accept_std);
static bool ParseMangledName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
return ParseTwoCharToken(state, "_Z") && ParseEncoding(state);
}
static bool ParseEncoding(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseName(state) && Optional(ParseBareFunctionType(state))) {
return true;
}
if (ParseSpecialName(state)) {
return true;
}
return false;
}
static bool ParseName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseNestedName(state) || ParseLocalName(state)) {
return true;
}
ParseState copy = state->parse_state;
if (ParseSubstitution(state, false) &&
ParseTemplateArgs(state)) {
return true;
}
state->parse_state = copy;
return ParseUnscopedName(state) && Optional(ParseTemplateArgs(state));
}
static bool ParseUnscopedName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseUnqualifiedName(state)) {
return true;
}
ParseState copy = state->parse_state;
if (ParseTwoCharToken(state, "St") && MaybeAppend(state, "std::") &&
ParseUnqualifiedName(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static inline bool ParseRefQualifier(State *state) {
return ParseCharClass(state, "OR");
}
static bool ParseNestedName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'N') && EnterNestedName(state) &&
Optional(ParseCVQualifiers(state)) &&
Optional(ParseRefQualifier(state)) && ParsePrefix(state) &&
LeaveNestedName(state, copy.nest_level) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParsePrefix(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
bool has_something = false;
while (true) {
MaybeAppendSeparator(state);
if (ParseTemplateParam(state) ||
ParseSubstitution(state, true) ||
ParseUnscopedName(state) ||
(ParseOneCharToken(state, 'M') && ParseUnnamedTypeName(state))) {
has_something = true;
MaybeIncreaseNestLevel(state);
continue;
}
MaybeCancelLastSeparator(state);
if (has_something && ParseTemplateArgs(state)) {
return ParsePrefix(state);
} else {
break;
}
}
return true;
}
static bool ParseUnqualifiedName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
return (ParseOperatorName(state, nullptr) || ParseCtorDtorName(state) ||
ParseSourceName(state) || ParseLocalSourceName(state) ||
ParseUnnamedTypeName(state));
}
static bool ParseSourceName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
int length = -1;
if (ParseNumber(state, &length) && ParseIdentifier(state, length)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseLocalSourceName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'L') && ParseSourceName(state) &&
Optional(ParseDiscriminator(state))) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseUnnamedTypeName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
int which = -1;
if (ParseTwoCharToken(state, "Ut") && Optional(ParseNumber(state, &which)) &&
which <= std::numeric_limits<int>::max() - 2 &&
ParseOneCharToken(state, '_')) {
MaybeAppend(state, "{unnamed type#");
MaybeAppendDecimal(state, 2 + which);
MaybeAppend(state, "}");
return true;
}
state->parse_state = copy;
which = -1;
if (ParseTwoCharToken(state, "Ul") && DisableAppend(state) &&
OneOrMore(ParseType, state) && RestoreAppend(state, copy.append) &&
ParseOneCharToken(state, 'E') && Optional(ParseNumber(state, &which)) &&
which <= std::numeric_limits<int>::max() - 2 &&
ParseOneCharToken(state, '_')) {
MaybeAppend(state, "{lambda()#");
MaybeAppendDecimal(state, 2 + which);
MaybeAppend(state, "}");
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseNumber(State *state, int *number_out) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
bool negative = false;
if (ParseOneCharToken(state, 'n')) {
negative = true;
}
const char *p = RemainingInput(state);
uint64_t number = 0;
for (; *p != '\0'; ++p) {
if (IsDigit(*p)) {
number = number * 10 + (*p - '0');
} else {
break;
}
}
if (negative) {
number = ~number + 1;
}
if (p != RemainingInput(state)) {
state->parse_state.mangled_idx += p - RemainingInput(state);
if (number_out != nullptr) {
*number_out = number;
}
return true;
}
return false;
}
static bool ParseFloatNumber(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
const char *p = RemainingInput(state);
for (; *p != '\0'; ++p) {
if (!IsDigit(*p) && !(*p >= 'a' && *p <= 'f')) {
break;
}
}
if (p != RemainingInput(state)) {
state->parse_state.mangled_idx += p - RemainingInput(state);
return true;
}
return false;
}
static bool ParseSeqId(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
const char *p = RemainingInput(state);
for (; *p != '\0'; ++p) {
if (!IsDigit(*p) && !(*p >= 'A' && *p <= 'Z')) {
break;
}
}
if (p != RemainingInput(state)) {
state->parse_state.mangled_idx += p - RemainingInput(state);
return true;
}
return false;
}
static bool ParseIdentifier(State *state, int length) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (length < 0 || !AtLeastNumCharsRemaining(RemainingInput(state), length)) {
return false;
}
if (IdentifierIsAnonymousNamespace(state, length)) {
MaybeAppend(state, "(anonymous namespace)");
} else {
MaybeAppendWithLength(state, RemainingInput(state), length);
}
state->parse_state.mangled_idx += length;
return true;
}
static bool ParseOperatorName(State *state, int *arity) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (!AtLeastNumCharsRemaining(RemainingInput(state), 2)) {
return false;
}
ParseState copy = state->parse_state;
if (ParseTwoCharToken(state, "cv") && MaybeAppend(state, "operator ") &&
EnterNestedName(state) && ParseType(state) &&
LeaveNestedName(state, copy.nest_level)) {
if (arity != nullptr) {
*arity = 1;
}
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'v') && ParseDigit(state, arity) &&
ParseSourceName(state)) {
return true;
}
state->parse_state = copy;
if (!(IsLower(RemainingInput(state)[0]) &&
IsAlpha(RemainingInput(state)[1]))) {
return false;
}
const AbbrevPair *p;
for (p = kOperatorList; p->abbrev != nullptr; ++p) {
if (RemainingInput(state)[0] == p->abbrev[0] &&
RemainingInput(state)[1] == p->abbrev[1]) {
if (arity != nullptr) {
*arity = p->arity;
}
MaybeAppend(state, "operator");
if (IsLower(*p->real_name)) {
MaybeAppend(state, " ");
}
MaybeAppend(state, p->real_name);
state->parse_state.mangled_idx += 2;
return true;
}
}
return false;
}
static bool ParseSpecialName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'T') && ParseCharClass(state, "VTISH") &&
ParseType(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "Tc") && ParseCallOffset(state) &&
ParseCallOffset(state) && ParseEncoding(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "GV") && ParseName(state)) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'T') && ParseCallOffset(state) &&
ParseEncoding(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "TC") && ParseType(state) &&
ParseNumber(state, nullptr) && ParseOneCharToken(state, '_') &&
DisableAppend(state) && ParseType(state)) {
RestoreAppend(state, copy.append);
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'T') && ParseCharClass(state, "FJ") &&
ParseType(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "GR") && ParseName(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "GA") && ParseEncoding(state)) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'T') && ParseCharClass(state, "hv") &&
ParseCallOffset(state) && ParseEncoding(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseCallOffset(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'h') && ParseNVOffset(state) &&
ParseOneCharToken(state, '_')) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'v') && ParseVOffset(state) &&
ParseOneCharToken(state, '_')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseNVOffset(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
return ParseNumber(state, nullptr);
}
static bool ParseVOffset(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseNumber(state, nullptr) && ParseOneCharToken(state, '_') &&
ParseNumber(state, nullptr)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseCtorDtorName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'C')) {
if (ParseCharClass(state, "1234")) {
const char *const prev_name =
state->out + state->parse_state.prev_name_idx;
MaybeAppendWithLength(state, prev_name,
state->parse_state.prev_name_length);
return true;
} else if (ParseOneCharToken(state, 'I') && ParseCharClass(state, "12") &&
ParseClassEnumType(state)) {
return true;
}
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'D') && ParseCharClass(state, "0124")) {
const char *const prev_name = state->out + state->parse_state.prev_name_idx;
MaybeAppend(state, "~");
MaybeAppendWithLength(state, prev_name,
state->parse_state.prev_name_length);
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseDecltype(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'D') && ParseCharClass(state, "tT") &&
ParseExpression(state) && ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseCVQualifiers(state)) {
const bool result = ParseType(state);
if (!result) state->parse_state = copy;
return result;
}
state->parse_state = copy;
if (ParseCharClass(state, "OPRCG")) {
const bool result = ParseType(state);
if (!result) state->parse_state = copy;
return result;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "Dp") && ParseType(state)) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'U') && ParseSourceName(state) &&
ParseType(state)) {
return true;
}
state->parse_state = copy;
if (ParseBuiltinType(state) || ParseFunctionType(state) ||
ParseClassEnumType(state) || ParseArrayType(state) ||
ParsePointerToMemberType(state) || ParseDecltype(state) ||
ParseSubstitution(state, false)) {
return true;
}
if (ParseTemplateTemplateParam(state) && ParseTemplateArgs(state)) {
return true;
}
state->parse_state = copy;
if (ParseTemplateParam(state)) {
return true;
}
if (ParseTwoCharToken(state, "Dv") && ParseNumber(state, nullptr) &&
ParseOneCharToken(state, '_')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseCVQualifiers(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
int num_cv_qualifiers = 0;
num_cv_qualifiers += ParseOneCharToken(state, 'r');
num_cv_qualifiers += ParseOneCharToken(state, 'V');
num_cv_qualifiers += ParseOneCharToken(state, 'K');
return num_cv_qualifiers > 0;
}
static bool ParseBuiltinType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
const AbbrevPair *p;
for (p = kBuiltinTypeList; p->abbrev != nullptr; ++p) {
if (p->abbrev[1] == '\0') {
if (ParseOneCharToken(state, p->abbrev[0])) {
MaybeAppend(state, p->real_name);
return true;
}
} else if (p->abbrev[2] == '\0' && ParseTwoCharToken(state, p->abbrev)) {
MaybeAppend(state, p->real_name);
return true;
}
}
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'u') && ParseSourceName(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseExceptionSpec(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseTwoCharToken(state, "Do")) return true;
ParseState copy = state->parse_state;
if (ParseTwoCharToken(state, "DO") && ParseExpression(state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "Dw") && OneOrMore(ParseType, state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseFunctionType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (Optional(ParseExceptionSpec(state)) && ParseOneCharToken(state, 'F') &&
Optional(ParseOneCharToken(state, 'Y')) && ParseBareFunctionType(state) &&
Optional(ParseOneCharToken(state, 'O')) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseBareFunctionType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
DisableAppend(state);
if (OneOrMore(ParseType, state)) {
RestoreAppend(state, copy.append);
MaybeAppend(state, "()");
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseClassEnumType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
return ParseName(state);
}
static bool ParseArrayType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'A') && ParseNumber(state, nullptr) &&
ParseOneCharToken(state, '_') && ParseType(state)) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'A') && Optional(ParseExpression(state)) &&
ParseOneCharToken(state, '_') && ParseType(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParsePointerToMemberType(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'M') && ParseType(state) && ParseType(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseTemplateParam(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseTwoCharToken(state, "T_")) {
MaybeAppend(state, "?");
return true;
}
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'T') && ParseNumber(state, nullptr) &&
ParseOneCharToken(state, '_')) {
MaybeAppend(state, "?");
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseTemplateTemplateParam(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
return (ParseTemplateParam(state) ||
ParseSubstitution(state, false));
}
static bool ParseTemplateArgs(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
DisableAppend(state);
if (ParseOneCharToken(state, 'I') && OneOrMore(ParseTemplateArg, state) &&
ParseOneCharToken(state, 'E')) {
RestoreAppend(state, copy.append);
MaybeAppend(state, "<>");
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseTemplateArg(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'J') && ZeroOrMore(ParseTemplateArg, state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
if (ParseLocalSourceName(state) && Optional(ParseTemplateArgs(state))) {
copy = state->parse_state;
if (ParseExprCastValue(state) && ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return true;
}
if (ParseType(state) || ParseExprPrimary(state)) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'X') && ParseExpression(state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static inline bool ParseUnresolvedType(State *state) {
return (ParseTemplateParam(state) && Optional(ParseTemplateArgs(state))) ||
ParseDecltype(state) || ParseSubstitution(state, false);
}
static inline bool ParseSimpleId(State *state) {
return ParseSourceName(state) && Optional(ParseTemplateArgs(state));
}
static bool ParseBaseUnresolvedName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseSimpleId(state)) {
return true;
}
ParseState copy = state->parse_state;
if (ParseTwoCharToken(state, "on") && ParseOperatorName(state, nullptr) &&
Optional(ParseTemplateArgs(state))) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "dn") &&
(ParseUnresolvedType(state) || ParseSimpleId(state))) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseUnresolvedName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (Optional(ParseTwoCharToken(state, "gs")) &&
ParseBaseUnresolvedName(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "sr") && ParseUnresolvedType(state) &&
ParseBaseUnresolvedName(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "sr") && ParseOneCharToken(state, 'N') &&
ParseUnresolvedType(state) &&
OneOrMore( ParseSimpleId, state) &&
ParseOneCharToken(state, 'E') && ParseBaseUnresolvedName(state)) {
return true;
}
state->parse_state = copy;
if (Optional(ParseTwoCharToken(state, "gs")) &&
ParseTwoCharToken(state, "sr") &&
OneOrMore( ParseSimpleId, state) &&
ParseOneCharToken(state, 'E') && ParseBaseUnresolvedName(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseExpression(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseTemplateParam(state) || ParseExprPrimary(state)) {
return true;
}
ParseState copy = state->parse_state;
if (ParseTwoCharToken(state, "cl") && OneOrMore(ParseExpression, state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "cp") && ParseSimpleId(state) &&
ZeroOrMore(ParseExpression, state) && ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "fp") && Optional(ParseCVQualifiers(state)) &&
Optional(ParseNumber(state, nullptr)) && ParseOneCharToken(state, '_')) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "fL") && Optional(ParseNumber(state, nullptr)) &&
ParseOneCharToken(state, 'p') && Optional(ParseCVQualifiers(state)) &&
Optional(ParseNumber(state, nullptr)) && ParseOneCharToken(state, '_')) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "cv")) {
if (ParseType(state)) {
ParseState copy2 = state->parse_state;
if (ParseOneCharToken(state, '_') && ZeroOrMore(ParseExpression, state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy2;
if (ParseExpression(state)) {
return true;
}
}
} else {
int arity = -1;
if (ParseOperatorName(state, &arity) &&
arity > 0 &&
(arity < 3 || ParseExpression(state)) &&
(arity < 2 || ParseExpression(state)) &&
(arity < 1 || ParseExpression(state))) {
return true;
}
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "st") && ParseType(state)) {
return true;
}
state->parse_state = copy;
if ((ParseTwoCharToken(state, "dt") || ParseTwoCharToken(state, "pt")) &&
ParseExpression(state) && ParseType(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "ds") && ParseExpression(state) &&
ParseExpression(state)) {
return true;
}
state->parse_state = copy;
if (ParseTwoCharToken(state, "sp") && ParseExpression(state)) {
return true;
}
state->parse_state = copy;
return ParseUnresolvedName(state);
}
static bool ParseExprPrimary(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseTwoCharToken(state, "LZ")) {
if (ParseEncoding(state) && ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
if (ParseOneCharToken(state, 'L') && ParseType(state) &&
ParseExprCastValue(state)) {
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'L') && ParseMangledName(state) &&
ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseExprCastValue(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseNumber(state, nullptr) && ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
if (ParseFloatNumber(state) && ParseOneCharToken(state, 'E')) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseLocalNameSuffix(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (MaybeAppend(state, "::") && ParseName(state) &&
Optional(ParseDiscriminator(state))) {
return true;
}
if (state->parse_state.append) {
state->out[state->parse_state.out_cur_idx - 2] = '\0';
}
return ParseOneCharToken(state, 's') && Optional(ParseDiscriminator(state));
}
static bool ParseLocalName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'Z') && ParseEncoding(state) &&
ParseOneCharToken(state, 'E') && ParseLocalNameSuffix(state)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseDiscriminator(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, '_') && ParseNumber(state, nullptr)) {
return true;
}
state->parse_state = copy;
return false;
}
static bool ParseSubstitution(State *state, bool accept_std) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseTwoCharToken(state, "S_")) {
MaybeAppend(state, "?");
return true;
}
ParseState copy = state->parse_state;
if (ParseOneCharToken(state, 'S') && ParseSeqId(state) &&
ParseOneCharToken(state, '_')) {
MaybeAppend(state, "?");
return true;
}
state->parse_state = copy;
if (ParseOneCharToken(state, 'S')) {
const AbbrevPair *p;
for (p = kSubstitutionList; p->abbrev != nullptr; ++p) {
if (RemainingInput(state)[0] == p->abbrev[1] &&
(accept_std || p->abbrev[1] != 't')) {
MaybeAppend(state, "std");
if (p->real_name[0] != '\0') {
MaybeAppend(state, "::");
MaybeAppend(state, p->real_name);
}
++state->parse_state.mangled_idx;
return true;
}
}
}
state->parse_state = copy;
return false;
}
static bool ParseTopLevelMangledName(State *state) {
ComplexityGuard guard(state);
if (guard.IsTooComplex()) return false;
if (ParseMangledName(state)) {
if (RemainingInput(state)[0] != '\0') {
if (IsFunctionCloneSuffix(RemainingInput(state))) {
return true;
}
if (RemainingInput(state)[0] == '@') {
MaybeAppend(state, RemainingInput(state));
return true;
}
return false;
}
return true;
}
return false;
}
static bool Overflowed(const State *state) {
return state->parse_state.out_cur_idx >= state->out_end_idx;
}
bool Demangle(const char *mangled, char *out, int out_size) {
State state;
InitState(&state, mangled, out, out_size);
return ParseTopLevelMangledName(&state) && !Overflowed(&state) &&
state.parse_state.out_cur_idx > 0;
}
}
ABSL_NAMESPACE_END
}