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//===--- ArgList.cpp - Argument List Management -------------------------*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "clang/Driver/ArgList.h"
#include "clang/Driver/Arg.h"
#include "clang/Driver/Option.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Support/raw_ostream.h"
using namespace clang::driver;
void arg_iterator::SkipToNextArg() {
for (; Current != Args.end(); ++Current) {
// Done if there are no filters.
if (!Id0.isValid())
break;
// Otherwise require a match.
const Option &O = (*Current)->getOption();
if (O.matches(Id0) ||
(Id1.isValid() && O.matches(Id1)) ||
(Id2.isValid() && O.matches(Id2)))
break;
}
}
//
ArgList::ArgList(arglist_type &_Args) : Args(_Args) {
}
ArgList::~ArgList() {
}
void ArgList::append(Arg *A) {
Args.push_back(A);
}
Arg *ArgList::getLastArgNoClaim(OptSpecifier Id) const {
// FIXME: Make search efficient?
for (const_reverse_iterator it = rbegin(), ie = rend(); it != ie; ++it)
if ((*it)->getOption().matches(Id))
return *it;
return 0;
}
Arg *ArgList::getLastArg(OptSpecifier Id) const {
Arg *A = getLastArgNoClaim(Id);
if (A)
A->claim();
return A;
}
Arg *ArgList::getLastArg(OptSpecifier Id0, OptSpecifier Id1) const {
Arg *Res, *A0 = getLastArgNoClaim(Id0), *A1 = getLastArgNoClaim(Id1);
if (A0 && A1)
Res = A0->getIndex() > A1->getIndex() ? A0 : A1;
else
Res = A0 ? A0 : A1;
if (Res)
Res->claim();
return Res;
}
Arg *ArgList::getLastArg(OptSpecifier Id0, OptSpecifier Id1,
OptSpecifier Id2) const {
Arg *Res = 0;
Arg *A0 = getLastArgNoClaim(Id0);
Arg *A1 = getLastArgNoClaim(Id1);
Arg *A2 = getLastArgNoClaim(Id2);
int A0Idx = A0 ? (int) A0->getIndex() : -1;
int A1Idx = A1 ? (int) A1->getIndex() : -1;
int A2Idx = A2 ? (int) A2->getIndex() : -1;
if (A0Idx > A1Idx) {
if (A0Idx > A2Idx)
Res = A0;
else if (A2Idx != -1)
Res = A2;
} else {
if (A1Idx > A2Idx)
Res = A1;
else if (A2Idx != -1)
Res = A2;
}
if (Res)
Res->claim();
return Res;
}
bool ArgList::hasFlag(OptSpecifier Pos, OptSpecifier Neg, bool Default) const {
if (Arg *A = getLastArg(Pos, Neg))
return A->getOption().matches(Pos);
return Default;
}
void ArgList::AddLastArg(ArgStringList &Output, OptSpecifier Id) const {
if (Arg *A = getLastArg(Id)) {
A->claim();
A->render(*this, Output);
}
}
void ArgList::AddAllArgs(ArgStringList &Output, OptSpecifier Id0,
OptSpecifier Id1, OptSpecifier Id2) const {
for (arg_iterator it = filtered_begin(Id0, Id1, Id2),
ie = filtered_end(); it != ie; ++it) {
it->claim();
it->render(*this, Output);
}
}
void ArgList::AddAllArgValues(ArgStringList &Output, OptSpecifier Id0,
OptSpecifier Id1, OptSpecifier Id2) const {
for (arg_iterator it = filtered_begin(Id0, Id1, Id2),
ie = filtered_end(); it != ie; ++it) {
it->claim();
for (unsigned i = 0, e = it->getNumValues(); i != e; ++i)
Output.push_back(it->getValue(*this, i));
}
}
void ArgList::AddAllArgsTranslated(ArgStringList &Output, OptSpecifier Id0,
const char *Translation,
bool Joined) const {
for (arg_iterator it = filtered_begin(Id0),
ie = filtered_end(); it != ie; ++it) {
it->claim();
if (Joined) {
Output.push_back(MakeArgString(llvm::StringRef(Translation) +
it->getValue(*this, 0)));
} else {
Output.push_back(Translation);
Output.push_back(it->getValue(*this, 0));
}
}
}
void ArgList::ClaimAllArgs(OptSpecifier Id0) const {
for (arg_iterator it = filtered_begin(Id0),
ie = filtered_end(); it != ie; ++it)
it->claim();
}
const char *ArgList::MakeArgString(const llvm::Twine &T) const {
llvm::SmallString<256> Str;
T.toVector(Str);
return MakeArgString(Str.str());
}
//
InputArgList::InputArgList(const char **ArgBegin, const char **ArgEnd)
: ArgList(ActualArgs), NumInputArgStrings(ArgEnd - ArgBegin) {
ArgStrings.append(ArgBegin, ArgEnd);
}
InputArgList::~InputArgList() {
// An InputArgList always owns its arguments.
for (iterator it = begin(), ie = end(); it != ie; ++it)
delete *it;
}
unsigned InputArgList::MakeIndex(llvm::StringRef String0) const {
unsigned Index = ArgStrings.size();
// Tuck away so we have a reliable const char *.
SynthesizedStrings.push_back(String0);
ArgStrings.push_back(SynthesizedStrings.back().c_str());
return Index;
}
unsigned InputArgList::MakeIndex(llvm::StringRef String0,
llvm::StringRef String1) const {
unsigned Index0 = MakeIndex(String0);
unsigned Index1 = MakeIndex(String1);
assert(Index0 + 1 == Index1 && "Unexpected non-consecutive indices!");
(void) Index1;
return Index0;
}
const char *InputArgList::MakeArgString(llvm::StringRef Str) const {
return getArgString(MakeIndex(Str));
}
//
DerivedArgList::DerivedArgList(InputArgList &_BaseArgs, bool _OnlyProxy)
: ArgList(_OnlyProxy ? _BaseArgs.getArgs() : ActualArgs),
BaseArgs(_BaseArgs), OnlyProxy(_OnlyProxy) {
}
DerivedArgList::~DerivedArgList() {
// We only own the arguments we explicitly synthesized.
for (iterator it = SynthesizedArgs.begin(), ie = SynthesizedArgs.end();
it != ie; ++it)
delete *it;
}
const char *DerivedArgList::MakeArgString(llvm::StringRef Str) const {
return BaseArgs.MakeArgString(Str);
}
Arg *DerivedArgList::MakeFlagArg(const Arg *BaseArg, const Option *Opt) const {
Arg *A = new FlagArg(Opt, BaseArgs.MakeIndex(Opt->getName()), BaseArg);
SynthesizedArgs.push_back(A);
return A;
}
Arg *DerivedArgList::MakePositionalArg(const Arg *BaseArg, const Option *Opt,
llvm::StringRef Value) const {
Arg *A = new PositionalArg(Opt, BaseArgs.MakeIndex(Value), BaseArg);
SynthesizedArgs.push_back(A);
return A;
}
Arg *DerivedArgList::MakeSeparateArg(const Arg *BaseArg, const Option *Opt,
llvm::StringRef Value) const {
Arg *A = new SeparateArg(Opt, BaseArgs.MakeIndex(Opt->getName(), Value), 1,
BaseArg);
SynthesizedArgs.push_back(A);
return A;
}
Arg *DerivedArgList::MakeJoinedArg(const Arg *BaseArg, const Option *Opt,
llvm::StringRef Value) const {
Arg *A = new JoinedArg(Opt, BaseArgs.MakeIndex(Opt->getName() + Value.str()),
BaseArg);
SynthesizedArgs.push_back(A);
return A;
}
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