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hanchenye-llvm-project/lld/ELF/Strings.cpp

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//===- Strings.cpp -------------------------------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "Strings.h"
#include "Config.h"
#include "Error.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Config/config.h"
#include "llvm/Demangle/Demangle.h"
#include <algorithm>
using namespace llvm;
using namespace lld;
using namespace lld::elf;
// This is a scanner for the glob pattern.
// A glob pattern token is one of "*", "?", "[<chars>]", "[^<chars>]"
// (which is a negative form of "[<chars>]"), or a non-meta character.
// This function returns the first token in S.
BitVector GlobPattern::scan(StringRef &S) {
switch (S[0]) {
case '*':
S = S.substr(1);
// '*' is represented by an empty bitvector.
// All other bitvectors are 256-bit long.
return BitVector();
case '?':
S = S.substr(1);
return BitVector(256, true);
case '[': {
size_t End = S.find(']', 1);
if (End == StringRef::npos) {
error("invalid glob pattern: " + Original);
return BitVector(256, false);
}
StringRef Chars = S.substr(1, End - 1);
S = S.substr(End + 1);
if (Chars.startswith("^"))
return expand(Chars.substr(1)).flip();
return expand(Chars);
}
default:
BitVector BV(256, false);
BV[S[0]] = true;
S = S.substr(1);
return BV;
}
}
// Expands character ranges and returns a bitmap.
// For example, "a-cf-hz" is expanded to "abcfghz".
BitVector GlobPattern::expand(StringRef S) {
BitVector BV(256, false);
// Expand "x-y".
for (;;) {
if (S.size() < 3)
break;
// If it doesn't start with something like "x-y",
// consume the first character and proceed.
if (S[1] != '-') {
BV[S[0]] = true;
S = S.substr(1);
continue;
}
// It must be in the form of "x-y".
// Validate it and then interpret the range.
if (S[0] > S[2]) {
error("invalid glob pattern: " + Original);
return BV;
}
for (int C = S[0]; C <= S[2]; ++C)
BV[C] = true;
S = S.substr(3);
}
for (char C : S)
BV[C] = true;
return BV;
}
GlobPattern::GlobPattern(StringRef S) : Original(S) {
if (!hasWildcard(S)) {
// S doesn't contain any metacharacter,
// so the regular string comparison should work.
Exact = S;
} else if (S.endswith("*") && !hasWildcard(S.drop_back())) {
// S is something like "foo*". We can use startswith().
Prefix = S.drop_back();
} else if (S.startswith("*") && !hasWildcard(S.drop_front())) {
// S is something like "*foo". We can use endswith().
Suffix = S.drop_front();
} else {
// Otherwise, we need to do real glob pattern matching.
// Parse the pattern now.
while (!S.empty())
Tokens.push_back(scan(S));
}
}
bool GlobPattern::match(StringRef S) const {
if (Exact)
return S == *Exact;
if (Prefix)
return S.startswith(*Prefix);
if (Suffix)
return S.endswith(*Suffix);
return matchOne(Tokens, S);
}
// Runs glob pattern Pats against string S.
bool GlobPattern::matchOne(ArrayRef<BitVector> Pats, StringRef S) const {
for (;;) {
if (Pats.empty())
return S.empty();
// If Pats[0] is '*', try to match Pats[1..] against all possible
// substrings of S to see at least one pattern succeeds.
if (Pats[0].size() == 0) {
Pats = Pats.slice(1);
if (Pats.empty())
// Fast path. If a pattern is '*', it matches anything.
return true;
for (size_t I = 0, E = S.size(); I < E; ++I)
if (matchOne(Pats, S.substr(I)))
return true;
return false;
}
// If Pats[0] is not '*', it must consume one character.
if (S.empty() || !Pats[0][S[0]])
return false;
Pats = Pats.slice(1);
S = S.substr(1);
}
}
StringMatcher::StringMatcher(const std::vector<StringRef> &Pat) {
for (StringRef S : Pat)
Patterns.push_back(GlobPattern(S));
}
bool StringMatcher::match(StringRef S) const {
for (const GlobPattern &Pat : Patterns)
if (Pat.match(S))
return true;
return false;
}
// If an input string is in the form of "foo.N" where N is a number,
// return N. Otherwise, returns 65536, which is one greater than the
// lowest priority.
int elf::getPriority(StringRef S) {
size_t Pos = S.rfind('.');
if (Pos == StringRef::npos)
return 65536;
int V;
if (S.substr(Pos + 1).getAsInteger(10, V))
return 65536;
return V;
}
bool elf::hasWildcard(StringRef S) {
return S.find_first_of("?*[") != StringRef::npos;
}
StringRef elf::unquote(StringRef S) {
if (!S.startswith("\""))
return S;
return S.substr(1, S.size() - 2);
}
// Converts a hex string (e.g. "deadbeef") to a vector.
std::vector<uint8_t> elf::parseHex(StringRef S) {
std::vector<uint8_t> Hex;
while (!S.empty()) {
StringRef B = S.substr(0, 2);
S = S.substr(2);
uint8_t H;
if (B.getAsInteger(16, H)) {
error("not a hexadecimal value: " + B);
return {};
}
Hex.push_back(H);
}
return Hex;
}
static bool isAlpha(char C) {
return ('a' <= C && C <= 'z') || ('A' <= C && C <= 'Z') || C == '_';
}
static bool isAlnum(char C) { return isAlpha(C) || ('0' <= C && C <= '9'); }
// Returns true if S is valid as a C language identifier.
bool elf::isValidCIdentifier(StringRef S) {
return !S.empty() && isAlpha(S[0]) &&
std::all_of(S.begin() + 1, S.end(), isAlnum);
}
// Returns the demangled C++ symbol name for Name.
std::string elf::demangle(StringRef Name) {
// __cxa_demangle can be used to demangle strings other than symbol
// names which do not necessarily start with "_Z". Name can be
// either a C or C++ symbol. Don't call __cxa_demangle if the name
// does not look like a C++ symbol name to avoid getting unexpected
// result for a C symbol that happens to match a mangled type name.
if (!Name.startswith("_Z"))
return Name;
char *Buf = itaniumDemangle(Name.str().c_str(), nullptr, nullptr, nullptr);
if (!Buf)
return Name;
std::string S(Buf);
free(Buf);
return S;
}
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