cmList.cxx
/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmConfigure.h" // IWYU pragma: keep
#include "cmList.h"
#include <algorithm>
#include <cstddef>
#include <functional>
#include <iterator>
#include <set>
#include <stdexcept>
#include <utility>
#include <cm/memory>
#include "cmsys/RegularExpression.hxx"
#include "cmAlgorithms.h"
#include "cmGeneratorExpression.h"
#include "cmRange.h"
#include "cmStringAlgorithms.h"
#include "cmStringReplaceHelper.h"
#include "cmSystemTools.h"
cm::string_view cmList::element_separator{ ";" };
cmList cmList::sublist(size_type pos, size_type length) const
{
if (pos >= this->Values.size()) {
throw std::out_of_range(cmStrCat(
"begin index: ", pos, " is out of range 0 - ", this->Values.size() - 1));
}
size_type count = (length == npos || pos + length > this->size())
? this->size()
: pos + length;
return this->sublist(this->begin() + pos, this->begin() + count);
}
cmList::size_type cmList::find(cm::string_view value) const
{
auto res = std::find(this->Values.begin(), this->Values.end(), value);
if (res == this->Values.end()) {
return npos;
}
return std::distance(this->Values.begin(), res);
}
cmList& cmList::remove_duplicates()
{
auto newEnd = cmRemoveDuplicates(this->Values);
this->Values.erase(newEnd, this->Values.end());
return *this;
}
namespace {
class MatchesRegex
{
public:
MatchesRegex(cmsys::RegularExpression& regex, cmList::FilterMode mode)
: Regex(regex)
, IncludeMatches(mode == cmList::FilterMode::INCLUDE)
{
}
bool operator()(const std::string& target)
{
return this->Regex.find(target) ^ this->IncludeMatches;
}
private:
cmsys::RegularExpression& Regex;
const bool IncludeMatches;
};
}
cmList& cmList::filter(cm::string_view pattern, FilterMode mode)
{
cmsys::RegularExpression regex(std::string{ pattern });
if (!regex.is_valid()) {
throw std::invalid_argument(
cmStrCat("sub-command FILTER, mode REGEX failed to compile regex \"",
pattern, "\"."));
}
auto it = std::remove_if(this->Values.begin(), this->Values.end(),
MatchesRegex{ regex, mode });
this->Values.erase(it, this->Values.end());
return *this;
}
namespace {
class StringSorter
{
protected:
using StringFilter = std::function<std::string(const std::string&)>;
using OrderMode = cmList::SortConfiguration::OrderMode;
using CompareMethod = cmList::SortConfiguration::CompareMethod;
using CaseSensitivity = cmList::SortConfiguration::CaseSensitivity;
StringFilter GetCompareFilter(CompareMethod compare)
{
return (compare == CompareMethod::FILE_BASENAME)
? cmSystemTools::GetFilenameName
: nullptr;
}
StringFilter GetCaseFilter(CaseSensitivity sensitivity)
{
return (sensitivity == CaseSensitivity::INSENSITIVE)
? cmSystemTools::LowerCase
: nullptr;
}
using ComparisonFunction =
std::function<bool(const std::string&, const std::string&)>;
ComparisonFunction GetComparisonFunction(CompareMethod compare)
{
if (compare == CompareMethod::NATURAL) {
return std::function<bool(const std::string&, const std::string&)>(
[](const std::string& x, const std::string& y) {
return cmSystemTools::strverscmp(x, y) < 0;
});
}
return std::function<bool(const std::string&, const std::string&)>(
[](const std::string& x, const std::string& y) { return x < y; });
}
public:
StringSorter(cmList::SortConfiguration const& config)
: Filters{ this->GetCompareFilter(config.Compare),
this->GetCaseFilter(config.Case) }
, SortMethod(this->GetComparisonFunction(config.Compare))
, Descending(config.Order == OrderMode::DESCENDING)
{
}
std::string ApplyFilter(const std::string& argument)
{
std::string result = argument;
for (auto const& filter : this->Filters) {
if (filter != nullptr) {
result = filter(result);
}
}
return result;
}
bool operator()(const std::string& a, const std::string& b)
{
std::string af = this->ApplyFilter(a);
std::string bf = this->ApplyFilter(b);
bool result;
if (this->Descending) {
result = this->SortMethod(bf, af);
} else {
result = this->SortMethod(af, bf);
}
return result;
}
private:
StringFilter Filters[2] = { nullptr, nullptr };
ComparisonFunction SortMethod;
bool Descending;
};
}
cmList::SortConfiguration::SortConfiguration() = default;
cmList& cmList::sort(const SortConfiguration& cfg)
{
SortConfiguration config{ cfg };
if (config.Order == SortConfiguration::OrderMode::DEFAULT) {
config.Order = SortConfiguration::OrderMode::ASCENDING;
}
if (config.Compare == SortConfiguration::CompareMethod::DEFAULT) {
config.Compare = SortConfiguration::CompareMethod::STRING;
}
if (config.Case == SortConfiguration::CaseSensitivity::DEFAULT) {
config.Case = SortConfiguration::CaseSensitivity::SENSITIVE;
}
if ((config.Compare == SortConfiguration::CompareMethod::STRING) &&
(config.Case == SortConfiguration::CaseSensitivity::SENSITIVE) &&
(config.Order == SortConfiguration::OrderMode::ASCENDING)) {
std::sort(this->Values.begin(), this->Values.end());
} else {
StringSorter sorter(config);
std::sort(this->Values.begin(), this->Values.end(), sorter);
}
return *this;
}
namespace {
using transform_type = std::function<std::string(const std::string&)>;
using transform_error = cmList::transform_error;
class TransformSelector : public cmList::TransformSelector
{
public:
~TransformSelector() override = default;
std::string Tag;
const std::string& GetTag() override { return this->Tag; }
virtual bool Validate(std::size_t count = 0) = 0;
virtual bool InSelection(const std::string&) = 0;
virtual void Transform(cmList::container_type& list,
const transform_type& transform)
{
std::transform(list.begin(), list.end(), list.begin(), transform);
}
protected:
TransformSelector(std::string&& tag)
: Tag(std::move(tag))
{
}
};
class TransformNoSelector : public TransformSelector
{
public:
TransformNoSelector()
: TransformSelector("NO SELECTOR")
{
}
bool Validate(std::size_t) override { return true; }
bool InSelection(const std::string&) override { return true; }
};
class TransformSelectorRegex : public TransformSelector
{
public:
TransformSelectorRegex(const std::string& regex)
: TransformSelector("REGEX")
, Regex(regex)
{
}
TransformSelectorRegex(std::string&& regex)
: TransformSelector("REGEX")
, Regex(regex)
{
}
bool Validate(std::size_t) override { return this->Regex.is_valid(); }
bool InSelection(const std::string& value) override
{
return this->Regex.find(value);
}
cmsys::RegularExpression Regex;
};
class TransformSelectorIndexes : public TransformSelector
{
public:
std::vector<index_type> Indexes;
bool InSelection(const std::string&) override { return true; }
void Transform(std::vector<std::string>& list,
const transform_type& transform) override
{
this->Validate(list.size());
for (auto index : this->Indexes) {
list[index] = transform(list[index]);
}
}
protected:
TransformSelectorIndexes(std::string&& tag)
: TransformSelector(std::move(tag))
{
}
TransformSelectorIndexes(std::string&& tag,
std::vector<index_type> const& indexes)
: TransformSelector(std::move(tag))
, Indexes(indexes)
{
}
TransformSelectorIndexes(std::string&& tag,
std::vector<index_type>&& indexes)
: TransformSelector(std::move(tag))
, Indexes(indexes)
{
}
index_type NormalizeIndex(index_type index, std::size_t count)
{
if (index < 0) {
index = static_cast<index_type>(count) + index;
}
if (index < 0 || count <= static_cast<std::size_t>(index)) {
throw transform_error(cmStrCat(
"sub-command TRANSFORM, selector ", this->Tag, ", index: ", index,
" out of range (-", count, ", ", count - 1, ")."));
}
return index;
}
};
class TransformSelectorAt : public TransformSelectorIndexes
{
public:
TransformSelectorAt(std::vector<index_type> const& indexes)
: TransformSelectorIndexes("AT", indexes)
{
}
TransformSelectorAt(std::vector<index_type>&& indexes)
: TransformSelectorIndexes("AT", std::move(indexes))
{
}
bool Validate(std::size_t count) override
{
decltype(this->Indexes) indexes;
for (auto index : this->Indexes) {
indexes.push_back(this->NormalizeIndex(index, count));
}
this->Indexes = std::move(indexes);
return true;
}
};
class TransformSelectorFor : public TransformSelectorIndexes
{
public:
TransformSelectorFor(index_type start, index_type stop, index_type step)
: TransformSelectorIndexes("FOR")
, Start(start)
, Stop(stop)
, Step(step)
{
}
bool Validate(std::size_t count) override
{
this->Start = this->NormalizeIndex(this->Start, count);
this->Stop = this->NormalizeIndex(this->Stop, count);
// Does stepping move us further from the end?
if (this->Start > this->Stop) {
throw transform_error(
cmStrCat("sub-command TRANSFORM, selector FOR "
"expects <start> to be no greater than <stop> (",
this->Start, " > ", this->Stop, ")"));
}
// compute indexes
auto size = (this->Stop - this->Start + 1) / this->Step;
if ((this->Stop - this->Start + 1) % this->Step != 0) {
size += 1;
}
this->Indexes.resize(size);
auto start = this->Start;
auto step = this->Step;
std::generate(this->Indexes.begin(), this->Indexes.end(),
[&start, step]() -> index_type {
auto r = start;
start += step;
return r;
});
return true;
}
private:
index_type Start, Stop, Step;
};
class TransformAction
{
public:
virtual ~TransformAction() = default;
void Initialize(TransformSelector* selector) { this->Selector = selector; }
virtual void Initialize(TransformSelector*, const std::string&) {}
virtual void Initialize(TransformSelector*, const std::string&,
const std::string&)
{
}
virtual void Initialize(TransformSelector* selector,
const std::vector<std::string>&)
{
this->Initialize(selector);
}
virtual std::string operator()(const std::string& s) = 0;
protected:
TransformSelector* Selector;
};
class TransformActionAppend : public TransformAction
{
public:
using TransformAction::Initialize;
void Initialize(TransformSelector* selector,
const std::string& append) override
{
TransformAction::Initialize(selector);
this->Append = append;
}
void Initialize(TransformSelector* selector,
const std::vector<std::string>& append) override
{
this->Initialize(selector, append.front());
}
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
return cmStrCat(s, this->Append);
}
return s;
}
private:
std::string Append;
};
class TransformActionPrepend : public TransformAction
{
public:
using TransformAction::Initialize;
void Initialize(TransformSelector* selector,
const std::string& prepend) override
{
TransformAction::Initialize(selector);
this->Prepend = prepend;
}
void Initialize(TransformSelector* selector,
const std::vector<std::string>& prepend) override
{
this->Initialize(selector, prepend.front());
}
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
return cmStrCat(this->Prepend, s);
}
return s;
}
private:
std::string Prepend;
};
class TransformActionToUpper : public TransformAction
{
public:
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
return cmSystemTools::UpperCase(s);
}
return s;
}
};
class TransformActionToLower : public TransformAction
{
public:
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
return cmSystemTools::LowerCase(s);
}
return s;
}
};
class TransformActionStrip : public TransformAction
{
public:
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
return cmTrimWhitespace(s);
}
return s;
}
};
class TransformActionGenexStrip : public TransformAction
{
public:
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
return cmGeneratorExpression::Preprocess(
s, cmGeneratorExpression::StripAllGeneratorExpressions);
}
return s;
}
};
class TransformActionReplace : public TransformAction
{
public:
using TransformAction::Initialize;
void Initialize(TransformSelector* selector, const std::string& regex,
const std::string& replace) override
{
TransformAction::Initialize(selector);
this->ReplaceHelper =
cm::make_unique<cmStringReplaceHelper>(regex, replace);
if (!this->ReplaceHelper->IsRegularExpressionValid()) {
throw transform_error(
cmStrCat("sub-command TRANSFORM, action REPLACE: Failed to compile "
"regex \"",
regex, "\"."));
}
if (!this->ReplaceHelper->IsReplaceExpressionValid()) {
throw transform_error(cmStrCat("sub-command TRANSFORM, action REPLACE: ",
this->ReplaceHelper->GetError(), "."));
}
}
void Initialize(TransformSelector* selector,
const std::vector<std::string>& args) override
{
this->Initialize(selector, args[0], args[1]);
}
std::string operator()(const std::string& s) override
{
if (this->Selector->InSelection(s)) {
// Scan through the input for all matches.
std::string output;
if (!this->ReplaceHelper->Replace(s, output)) {
throw transform_error(
cmStrCat("sub-command TRANSFORM, action REPLACE: ",
this->ReplaceHelper->GetError(), "."));
}
return output;
}
return s;
}
private:
std::unique_ptr<cmStringReplaceHelper> ReplaceHelper;
};
// Descriptor of action
// Arity: number of arguments required for the action
// Transform: Object implementing the action
struct ActionDescriptor
{
ActionDescriptor(cmList::TransformAction action)
: Action(action)
{
}
ActionDescriptor(cmList::TransformAction action, std::string name,
std::size_t arity,
std::unique_ptr<TransformAction> transform)
: Action(action)
, Name(std::move(name))
, Arity(arity)
, Transform(std::move(transform))
{
}
operator cmList::TransformAction() const { return this->Action; }
cmList::TransformAction Action;
std::string Name;
std::size_t Arity = 0;
std::unique_ptr<TransformAction> Transform;
};
// Build a set of supported actions.
using ActionDescriptorSet = std::set<
ActionDescriptor,
std::function<bool(cmList::TransformAction, cmList::TransformAction)>>;
ActionDescriptorSet Descriptors([](cmList::TransformAction x,
cmList::TransformAction y) {
return x < y;
});
ActionDescriptorSet::iterator TransformConfigure(
cmList::TransformAction action,
std::unique_ptr<cmList::TransformSelector>& selector, std::size_t arity)
{
if (Descriptors.empty()) {
Descriptors.emplace(cmList::TransformAction::APPEND, "APPEND", 1,
cm::make_unique<TransformActionAppend>());
Descriptors.emplace(cmList::TransformAction::PREPEND, "PREPEND", 1,
cm::make_unique<TransformActionPrepend>());
Descriptors.emplace(cmList::TransformAction::TOUPPER, "TOUPPER", 0,
cm::make_unique<TransformActionToUpper>());
Descriptors.emplace(cmList::TransformAction::TOLOWER, "TOLOWER", 0,
cm::make_unique<TransformActionToLower>());
Descriptors.emplace(cmList::TransformAction::STRIP, "STRIP", 0,
cm::make_unique<TransformActionStrip>());
Descriptors.emplace(cmList::TransformAction::GENEX_STRIP, "GENEX_STRIP", 0,
cm::make_unique<TransformActionGenexStrip>());
Descriptors.emplace(cmList::TransformAction::REPLACE, "REPLACE", 2,
cm::make_unique<TransformActionReplace>());
}
auto descriptor = Descriptors.find(action);
if (descriptor == Descriptors.end()) {
throw transform_error(cmStrCat(" sub-command TRANSFORM, ",
std::to_string(static_cast<int>(action)),
" invalid action."));
}
if (descriptor->Arity != arity) {
throw transform_error(cmStrCat("sub-command TRANSFORM, action ",
descriptor->Name, " expects ",
descriptor->Arity, " argument(s)."));
}
if (!selector) {
selector = cm::make_unique<TransformNoSelector>();
}
return descriptor;
}
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewAT(
std::initializer_list<index_type> indexes)
{
return cm::make_unique<TransformSelectorAt>(
std::vector<index_type>{ indexes.begin(), indexes.end() });
;
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewAT(
std::vector<index_type> const& indexes)
{
return cm::make_unique<TransformSelectorAt>(indexes);
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewAT(
std::vector<index_type>&& indexes)
{
return cm::make_unique<TransformSelectorAt>(std::move(indexes));
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewFOR(
std::initializer_list<index_type> indexes)
{
if (indexes.size() < 2 || indexes.size() > 3) {
throw transform_error("sub-command TRANSFORM, selector FOR "
"expects 2 or 3 arguments");
}
if (indexes.size() == 3 && *(indexes.begin() + 2) < 0) {
throw transform_error("sub-command TRANSFORM, selector FOR expects "
"positive numeric value for <step>.");
}
return cm::make_unique<TransformSelectorFor>(
*indexes.begin(), *(indexes.begin() + 1),
indexes.size() == 3 ? *(indexes.begin() + 2) : 1);
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewFOR(
std::vector<index_type> const& indexes)
{
if (indexes.size() < 2 || indexes.size() > 3) {
throw transform_error("sub-command TRANSFORM, selector FOR "
"expects 2 or 3 arguments");
}
if (indexes.size() == 3 && indexes[2] < 0) {
throw transform_error("sub-command TRANSFORM, selector FOR expects "
"positive numeric value for <step>.");
}
return cm::make_unique<TransformSelectorFor>(
indexes[0], indexes[1], indexes.size() == 3 ? indexes[2] : 1);
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewFOR(
std::vector<index_type>&& indexes)
{
if (indexes.size() < 2 || indexes.size() > 3) {
throw transform_error("sub-command TRANSFORM, selector FOR "
"expects 2 or 3 arguments");
}
if (indexes.size() == 3 && indexes[2] < 0) {
throw transform_error("sub-command TRANSFORM, selector FOR expects "
"positive numeric value for <step>.");
}
return cm::make_unique<TransformSelectorFor>(
indexes[0], indexes[1], indexes.size() == 3 ? indexes[2] : 1);
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewREGEX(
std::string const& regex)
{
std::unique_ptr<::TransformSelector> selector =
cm::make_unique<TransformSelectorRegex>(regex);
if (!selector->Validate()) {
throw transform_error(
cmStrCat("sub-command TRANSFORM, selector REGEX failed to compile "
"regex \"",
regex, "\"."));
}
// weird construct to please all compilers
return std::unique_ptr<cmList::TransformSelector>(selector.release());
}
std::unique_ptr<cmList::TransformSelector> cmList::TransformSelector::NewREGEX(
std::string&& regex)
{
std::unique_ptr<::TransformSelector> selector =
cm::make_unique<TransformSelectorRegex>(std::move(regex));
if (!selector->Validate()) {
throw transform_error(
cmStrCat("sub-command TRANSFORM, selector REGEX failed to compile "
"regex \"",
regex, "\"."));
}
// weird construct to please all compilers
return std::unique_ptr<cmList::TransformSelector>(selector.release());
}
cmList& cmList::transform(TransformAction action,
std::unique_ptr<TransformSelector> selector)
{
auto descriptor = TransformConfigure(action, selector, 0);
descriptor->Transform->Initialize(
static_cast<::TransformSelector*>(selector.get()));
static_cast<::TransformSelector&>(*selector).Transform(
this->Values, [&descriptor](const std::string& s) -> std::string {
return (*descriptor->Transform)(s);
});
return *this;
}
cmList& cmList::transform(TransformAction action, std::string const& arg,
std::unique_ptr<TransformSelector> selector)
{
auto descriptor = TransformConfigure(action, selector, 1);
descriptor->Transform->Initialize(
static_cast<::TransformSelector*>(selector.get()), arg);
static_cast<::TransformSelector&>(*selector).Transform(
this->Values, [&descriptor](const std::string& s) -> std::string {
return (*descriptor->Transform)(s);
});
return *this;
}
cmList& cmList::transform(TransformAction action, std::string const& arg1,
std::string const& arg2,
std::unique_ptr<TransformSelector> selector)
{
auto descriptor = TransformConfigure(action, selector, 2);
descriptor->Transform->Initialize(
static_cast<::TransformSelector*>(selector.get()), arg1, arg2);
static_cast<::TransformSelector&>(*selector).Transform(
this->Values, [&descriptor](const std::string& s) -> std::string {
return (*descriptor->Transform)(s);
});
return *this;
}
cmList& cmList::transform(TransformAction action,
std::vector<std::string> const& args,
std::unique_ptr<TransformSelector> selector)
{
auto descriptor = TransformConfigure(action, selector, args.size());
descriptor->Transform->Initialize(
static_cast<::TransformSelector*>(selector.get()), args);
static_cast<::TransformSelector&>(*selector).Transform(
this->Values, [&descriptor](const std::string& s) -> std::string {
return (*descriptor->Transform)(s);
});
return *this;
}
std::string cmList::join(cm::string_view glue) const
{
return cmJoin(this->Values, glue);
}
std::string& cmList::append(std::string& list, cm::string_view value)
{
if (list.empty()) {
list = std::string(value);
} else {
list += cmStrCat(cmList::element_separator, value);
}
return list;
}
std::string& cmList::prepend(std::string& list, cm::string_view value)
{
if (list.empty()) {
list = std::string(value);
} else {
list.insert(0, cmStrCat(value, cmList::element_separator));
}
return list;
}
cmList::size_type cmList::ComputeIndex(index_type pos, bool boundCheck) const
{
if (boundCheck) {
if (this->Values.empty()) {
throw std::out_of_range(
cmStrCat("index: ", pos, " out of range (0, 0)"));
}
auto index = pos;
if (!this->Values.empty()) {
auto length = this->Values.size();
if (index < 0) {
index = static_cast<index_type>(length) + index;
}
if (index < 0 || length <= static_cast<size_type>(index)) {
throw std::out_of_range(cmStrCat("index: ", pos, " out of range (-",
this->Values.size(), ", ",
this->Values.size() - 1, ")"));
}
}
return index;
}
return pos < 0 ? this->Values.size() + pos : pos;
}
cmList::size_type cmList::ComputeInsertIndex(index_type pos,
bool boundCheck) const
{
if (boundCheck) {
if (this->Values.empty() && pos != 0) {
throw std::out_of_range(
cmStrCat("index: ", pos, " out of range (0, 0)"));
}
auto index = pos;
if (!this->Values.empty()) {
auto length = this->Values.size();
if (index < 0) {
index = static_cast<index_type>(length) + index;
}
if (index < 0 || length < static_cast<size_type>(index)) {
throw std::out_of_range(cmStrCat("index: ", pos, " out of range (-",
this->Values.size(), ", ",
this->Values.size(), ")"));
}
}
return index;
}
return pos < 0 ? this->Values.size() + pos : pos;
}
cmList cmList::GetItems(std::vector<index_type>&& indexes) const
{
cmList listItems;
for (auto index : indexes) {
listItems.emplace_back(this->get_item(index));
}
return listItems;
}
cmList& cmList::RemoveItems(std::vector<index_type>&& indexes)
{
if (indexes.empty()) {
return *this;
}
// compute all indexes
std::vector<size_type> idx(indexes.size());
std::transform(indexes.cbegin(), indexes.cend(), idx.begin(),
[this](const index_type& index) -> size_type {
return this->ComputeIndex(index);
});
std::sort(idx.begin(), idx.end(),
[](size_type l, size_type r) { return l > r; });
auto newEnd = std::unique(idx.begin(), idx.end());
idx.erase(newEnd, idx.end());
for (auto index : idx) {
this->erase(this->begin() + index);
}
return *this;
}
cmList& cmList::RemoveItems(std::vector<std::string>&& items)
{
std::sort(items.begin(), items.end());
auto last = std::unique(items.begin(), items.end());
auto first = items.begin();
auto newEnd = cmRemoveMatching(this->Values, cmMakeRange(first, last));
this->Values.erase(newEnd, this->Values.end());
return *this;
}
cmList::container_type::iterator cmList::Insert(
container_type& container, container_type::const_iterator pos,
std::string&& value, ExpandElements expandElements,
EmptyElements emptyElements)
{
auto delta = std::distance(container.cbegin(), pos);
auto insertPos = container.begin() + delta;
if (expandElements == ExpandElements::Yes) {
// If argument is empty, it is an empty list.
if (emptyElements == EmptyElements::No && value.empty()) {
return insertPos;
}
// if there are no ; in the name then just copy the current string
if (value.find(';') == std::string::npos) {
return container.insert(insertPos, std::move(value));
}
std::string newValue;
// Break the string at non-escaped semicolons not nested in [].
int squareNesting = 0;
auto last = value.begin();
auto const cend = value.end();
for (auto c = last; c != cend; ++c) {
switch (*c) {
case '\\': {
// We only want to allow escaping of semicolons. Other
// escapes should not be processed here.
auto cnext = c + 1;
if ((cnext != cend) && *cnext == ';') {
newValue.append(last, c);
// Skip over the escape character
last = cnext;
c = cnext;
}
} break;
case '[': {
++squareNesting;
} break;
case ']': {
--squareNesting;
} break;
case ';': {
// brackets.
if (squareNesting == 0) {
newValue.append(last, c);
// Skip over the semicolon
last = c + 1;
if (!newValue.empty() || emptyElements == EmptyElements::Yes) {
// Add the last argument.
insertPos = container.insert(insertPos, newValue);
insertPos++;
newValue.clear();
}
}
} break;
default: {
// Just append this character.
} break;
}
}
newValue.append(last, cend);
if (!newValue.empty() || emptyElements == EmptyElements::Yes) {
// Add the last argument.
container.insert(insertPos, std::move(newValue));
}
} else if (!value.empty() || emptyElements == EmptyElements::Yes) {
return container.insert(insertPos, std::move(value));
}
return container.begin() + delta;
}
