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docopt_private.h
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docopt_private.h
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//
// docopt_private.h
// docopt
//
// Created by Jared Grubb on 2013-11-04.
// Copyright (c) 2013 Jared Grubb. All rights reserved.
//
#ifndef docopt_docopt_private_h
#define docopt_docopt_private_h
#include <vector>
#include <memory>
#include <unordered_set>
#include <assert.h>
// Workaround GCC 4.8 not having std::regex
#if DOCTOPT_USE_BOOST_REGEX
#include <boost/regex.hpp>
namespace std {
using boost::regex;
using boost::sregex_iterator;
using boost::smatch;
using boost::regex_search;
namespace regex_constants {
using boost::regex_constants::match_not_null;
}
}
#else
#include <regex>
#endif
#include "docopt_value.h"
namespace docopt {
class Pattern;
class LeafPattern;
using PatternList = std::vector<std::shared_ptr<Pattern>>;
// Utility to use Pattern types in std hash-containers
struct PatternHasher {
template <typename P>
size_t operator()(std::shared_ptr<P> const& pattern) const {
return pattern->hash();
}
template <typename P>
size_t operator()(P const* pattern) const {
return pattern->hash();
}
template <typename P>
size_t operator()(P const& pattern) const {
return pattern.hash();
}
};
// Utility to use 'hash' as the equality operator as well in std containers
struct PatternPointerEquality {
template <typename P1, typename P2>
bool operator()(std::shared_ptr<P1> const& p1, std::shared_ptr<P2> const& p2) const {
return p1->hash()==p2->hash();
}
template <typename P1, typename P2>
bool operator()(P1 const* p1, P2 const* p2) const {
return p1->hash()==p2->hash();
}
};
// A hash-set that uniques by hash value
using UniquePatternSet = std::unordered_set<std::shared_ptr<Pattern>, PatternHasher, PatternPointerEquality>;
class Pattern {
public:
// flatten out children, stopping descent when the given filter returns 'true'
virtual std::vector<Pattern*> flat(bool (*filter)(Pattern const*)) = 0;
// flatten out all children into a list of LeafPattern objects
virtual void collect_leaves(std::vector<LeafPattern*>&) = 0;
// flatten out all children into a list of LeafPattern objects
std::vector<LeafPattern*> leaves();
// Attempt to find something in 'left' that matches this pattern's spec, and if so, move it to 'collected'
virtual bool match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const = 0;
virtual std::string const& name() const = 0;
virtual bool hasValue() const { return false; }
virtual size_t hash() const = 0;
virtual ~Pattern() = default;
};
class LeafPattern
: public Pattern {
public:
LeafPattern(std::string name, value v = {})
: fName(std::move(name)),
fValue(std::move(v))
{}
virtual std::vector<Pattern*> flat(bool (*filter)(Pattern const*)) override {
if (filter(this)) {
return { this };
}
return {};
}
virtual void collect_leaves(std::vector<LeafPattern*>& lst) override final {
lst.push_back(this);
}
virtual bool match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const override;
virtual bool hasValue() const override { return static_cast<bool>(fValue); }
value const& getValue() const { return fValue; }
void setValue(value&& v) { fValue = std::move(v); }
virtual std::string const& name() const override { return fName; }
virtual size_t hash() const override {
size_t seed = typeid(*this).hash_code();
hash_combine(seed, fName);
hash_combine(seed, fValue);
return seed;
}
protected:
virtual std::pair<size_t, std::shared_ptr<LeafPattern>> single_match(PatternList const&) const = 0;
private:
std::string fName;
value fValue;
};
class BranchPattern
: public Pattern {
public:
BranchPattern(PatternList children = {})
: fChildren(std::move(children))
{}
Pattern& fix() {
UniquePatternSet patterns;
fix_identities(patterns);
fix_repeating_arguments();
return *this;
}
virtual std::string const& name() const override {
throw std::runtime_error("Logic error: name() shouldnt be called on a BranchPattern");
}
virtual value const& getValue() const {
throw std::runtime_error("Logic error: name() shouldnt be called on a BranchPattern");
}
virtual std::vector<Pattern*> flat(bool (*filter)(Pattern const*)) override {
if (filter(this)) {
return {this};
}
std::vector<Pattern*> ret;
for(auto& child : fChildren) {
auto sublist = child->flat(filter);
ret.insert(ret.end(), sublist.begin(), sublist.end());
}
return ret;
}
virtual void collect_leaves(std::vector<LeafPattern*>& lst) override final {
for(auto& child : fChildren) {
child->collect_leaves(lst);
}
}
void setChildren(PatternList children) {
fChildren = std::move(children);
}
PatternList const& children() const { return fChildren; }
virtual void fix_identities(UniquePatternSet& patterns) {
for(auto& child : fChildren) {
// this will fix up all its children, if needed
if (auto bp = dynamic_cast<BranchPattern*>(child.get())) {
bp->fix_identities(patterns);
}
// then we try to add it to the list
auto inserted = patterns.insert(child);
if (!inserted.second) {
// already there? then reuse the existing shared_ptr for that thing
child = *inserted.first;
}
}
}
virtual size_t hash() const override {
size_t seed = typeid(*this).hash_code();
hash_combine(seed, fChildren.size());
for(auto const& child : fChildren) {
hash_combine(seed, child->hash());
}
return seed;
}
private:
void fix_repeating_arguments();
protected:
PatternList fChildren;
};
class Argument
: public LeafPattern {
public:
using LeafPattern::LeafPattern;
protected:
virtual std::pair<size_t, std::shared_ptr<LeafPattern>> single_match(PatternList const& left) const override;
};
class Command : public Argument {
public:
Command(std::string name, value v = value{false})
: Argument(std::move(name), std::move(v))
{}
protected:
virtual std::pair<size_t, std::shared_ptr<LeafPattern>> single_match(PatternList const& left) const override;
};
class Option final
: public LeafPattern
{
public:
static Option parse(std::string const& option_description);
Option(std::string shortOption,
std::string longOption,
int argcount = 0,
value v = value{false})
: LeafPattern(longOption.empty() ? shortOption : longOption,
std::move(v)),
fShortOption(std::move(shortOption)),
fLongOption(std::move(longOption)),
fArgcount(argcount)
{
// From Python:
// self.value = None if value is False and argcount else value
if (argcount && v.isBool() && !v.asBool()) {
setValue(value{});
}
}
Option(Option const&) = default;
Option(Option&&) = default;
Option& operator=(Option const&) = default;
Option& operator=(Option&&) = default;
using LeafPattern::setValue;
std::string const& longOption() const { return fLongOption; }
std::string const& shortOption() const { return fShortOption; }
int argCount() const { return fArgcount; }
virtual size_t hash() const override {
size_t seed = LeafPattern::hash();
hash_combine(seed, fShortOption);
hash_combine(seed, fLongOption);
hash_combine(seed, fArgcount);
return seed;
}
protected:
virtual std::pair<size_t, std::shared_ptr<LeafPattern>> single_match(PatternList const& left) const override;
private:
std::string fShortOption;
std::string fLongOption;
int fArgcount;
};
class Required : public BranchPattern {
public:
using BranchPattern::BranchPattern;
bool match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const override;
};
class Optional : public BranchPattern {
public:
using BranchPattern::BranchPattern;
bool match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const override {
for(auto const& pattern : fChildren) {
pattern->match(left, collected);
}
return true;
}
};
class OptionsShortcut : public Optional {
using Optional::Optional;
};
class OneOrMore : public BranchPattern {
public:
using BranchPattern::BranchPattern;
bool match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const override;
};
class Either : public BranchPattern {
public:
using BranchPattern::BranchPattern;
bool match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const override;
};
#if 0
#pragma mark -
#pragma mark inline implementations
#endif
inline std::vector<LeafPattern*> Pattern::leaves()
{
std::vector<LeafPattern*> ret;
collect_leaves(ret);
return ret;
}
static inline std::vector<PatternList> transform(PatternList pattern)
{
std::vector<PatternList> result;
std::vector<PatternList> groups;
groups.emplace_back(std::move(pattern));
while(!groups.empty()) {
// pop off the first element
auto children = std::move(groups[0]);
groups.erase(groups.begin());
// find the first branch node in the list
auto child_iter = std::find_if(children.begin(), children.end(), [](std::shared_ptr<Pattern> const& p) {
return dynamic_cast<BranchPattern const*>(p.get());
});
// no branch nodes left : expansion is complete for this grouping
if (child_iter == children.end()) {
result.emplace_back(std::move(children));
continue;
}
// pop the child from the list
auto child = std::move(*child_iter);
children.erase(child_iter);
// expand the branch in the appropriate way
if (Either* either = dynamic_cast<Either*>(child.get())) {
// "[e] + children" for each child 'e' in Either
for(auto const& eitherChild : either->children()) {
PatternList group = { eitherChild };
group.insert(group.end(), children.begin(), children.end());
groups.emplace_back(std::move(group));
}
} else if (OneOrMore* oneOrMore = dynamic_cast<OneOrMore*>(child.get())) {
// child.children * 2 + children
auto const& subchildren = oneOrMore->children();
PatternList group = subchildren;
group.insert(group.end(), subchildren.begin(), subchildren.end());
group.insert(group.end(), children.begin(), children.end());
groups.emplace_back(std::move(group));
} else { // Required, Optional, OptionsShortcut
BranchPattern* branch = dynamic_cast<BranchPattern*>(child.get());
// child.children + children
PatternList group = branch->children();
group.insert(group.end(), children.begin(), children.end());
groups.emplace_back(std::move(group));
}
}
return result;
}
inline void BranchPattern::fix_repeating_arguments()
{
std::vector<PatternList> either = transform(children());
for(auto const& group : either) {
// use multiset to help identify duplicate entries
std::unordered_multiset<std::shared_ptr<Pattern>, PatternHasher> group_set {group.begin(), group.end()};
for(auto const& e : group_set) {
if (group_set.count(e) == 1)
continue;
LeafPattern* leaf = dynamic_cast<LeafPattern*>(e.get());
if (!leaf) continue;
bool ensureList = false;
bool ensureInt = false;
if (dynamic_cast<Command*>(leaf)) {
ensureInt = true;
} else if (dynamic_cast<Argument*>(leaf)) {
ensureList = true;
} else if (Option* o = dynamic_cast<Option*>(leaf)) {
if (o->argCount()) {
ensureList = true;
} else {
ensureInt = true;
}
}
if (ensureList) {
std::vector<std::string> newValue;
if (leaf->getValue().isString()) {
newValue = split(leaf->getValue().asString());
}
if (!leaf->getValue().isStringList()) {
leaf->setValue(value{newValue});
}
} else if (ensureInt) {
leaf->setValue(value{0});
}
}
}
}
inline bool LeafPattern::match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const
{
auto match = single_match(left);
if (!match.second) {
return false;
}
left.erase(left.begin()+static_cast<std::ptrdiff_t>(match.first));
auto same_name = std::find_if(collected.begin(), collected.end(), [&](std::shared_ptr<LeafPattern> const& p) {
return p->name()==name();
});
if (getValue().isLong()) {
long val = 1;
if (same_name == collected.end()) {
collected.push_back(match.second);
match.second->setValue(value{val});
} else if ((**same_name).getValue().isLong()) {
val += (**same_name).getValue().asLong();
(**same_name).setValue(value{val});
} else {
(**same_name).setValue(value{val});
}
} else if (getValue().isStringList()) {
std::vector<std::string> val;
if (match.second->getValue().isString()) {
val.push_back(match.second->getValue().asString());
} else if (match.second->getValue().isStringList()) {
val = match.second->getValue().asStringList();
} else {
/// cant be!?
}
if (same_name == collected.end()) {
collected.push_back(match.second);
match.second->setValue(value{val});
} else if ((**same_name).getValue().isStringList()) {
std::vector<std::string> const& list = (**same_name).getValue().asStringList();
val.insert(val.begin(), list.begin(), list.end());
(**same_name).setValue(value{val});
} else {
(**same_name).setValue(value{val});
}
} else {
collected.push_back(match.second);
}
return true;
}
inline std::pair<size_t, std::shared_ptr<LeafPattern>> Argument::single_match(PatternList const& left) const
{
std::pair<size_t, std::shared_ptr<LeafPattern>> ret {};
for(size_t i = 0, size = left.size(); i < size; ++i)
{
auto arg = dynamic_cast<Argument const*>(left[i].get());
if (arg) {
ret.first = i;
ret.second = std::make_shared<Argument>(name(), arg->getValue());
break;
}
}
return ret;
}
inline std::pair<size_t, std::shared_ptr<LeafPattern>> Command::single_match(PatternList const& left) const
{
std::pair<size_t, std::shared_ptr<LeafPattern>> ret {};
for(size_t i = 0, size = left.size(); i < size; ++i)
{
auto arg = dynamic_cast<Argument const*>(left[i].get());
if (arg) {
if (name() == arg->getValue()) {
ret.first = i;
ret.second = std::make_shared<Command>(name(), value{true});
}
break;
}
}
return ret;
}
inline Option Option::parse(std::string const& option_description)
{
std::string shortOption, longOption;
int argcount = 0;
value val { false };
auto double_space = option_description.find(" ");
auto options_end = option_description.end();
if (double_space != std::string::npos) {
options_end = option_description.begin() + static_cast<std::ptrdiff_t>(double_space);
}
static const std::regex pattern {"(-{1,2})?(.*?)([,= ]|$)"};
for(std::sregex_iterator i {option_description.begin(), options_end, pattern, std::regex_constants::match_not_null},
e{};
i != e;
++i)
{
std::smatch const& match = *i;
if (match[1].matched) { // [1] is optional.
if (match[1].length()==1) {
shortOption = "-" + match[2].str();
} else {
longOption = "--" + match[2].str();
}
} else if (match[2].length() > 0) { // [2] always matches.
std::string m = match[2];
argcount = 1;
} else {
// delimeter
}
if (match[3].length() == 0) { // [3] always matches.
// Hit end of string. For some reason 'match_not_null' will let us match empty
// at the end, and then we'll spin in an infinite loop. So, if we hit an empty
// match, we know we must be at the end.
break;
}
}
if (argcount) {
std::smatch match;
if (std::regex_search(options_end, option_description.end(),
match,
std::regex{"\\[default: (.*)\\]", std::regex::icase}))
{
val = match[1].str();
}
}
return {std::move(shortOption),
std::move(longOption),
argcount,
std::move(val)};
}
inline std::pair<size_t, std::shared_ptr<LeafPattern>> Option::single_match(PatternList const& left) const
{
auto thematch = find_if(left.begin(), left.end(), [this](std::shared_ptr<Pattern> const& a) {
auto leaf = std::dynamic_pointer_cast<LeafPattern>(a);
return leaf && this->name() == leaf->name();
});
if (thematch == left.end()) {
return {};
}
return { std::distance(left.begin(), thematch), std::dynamic_pointer_cast<LeafPattern>(*thematch) };
}
inline bool Required::match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const {
auto l = left;
auto c = collected;
for(auto const& pattern : fChildren) {
bool ret = pattern->match(l, c);
if (!ret) {
// leave (left, collected) untouched
return false;
}
}
left = std::move(l);
collected = std::move(c);
return true;
}
inline bool OneOrMore::match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const
{
assert(fChildren.size() == 1);
auto l = left;
auto c = collected;
bool matched = true;
size_t times = 0;
decltype(l) l_;
bool firstLoop = true;
while (matched) {
// could it be that something didn't match but changed l or c?
matched = fChildren[0]->match(l, c);
if (matched)
++times;
if (firstLoop) {
firstLoop = false;
} else if (l == l_) {
break;
}
l_ = l;
}
if (times == 0) {
return false;
}
left = std::move(l);
collected = std::move(c);
return true;
}
inline bool Either::match(PatternList& left, std::vector<std::shared_ptr<LeafPattern>>& collected) const
{
using Outcome = std::pair<PatternList, std::vector<std::shared_ptr<LeafPattern>>>;
std::vector<Outcome> outcomes;
for(auto const& pattern : fChildren) {
// need a copy so we apply the same one for every iteration
auto l = left;
auto c = collected;
bool matched = pattern->match(l, c);
if (matched) {
outcomes.emplace_back(std::move(l), std::move(c));
}
}
auto min = std::min_element(outcomes.begin(), outcomes.end(), [](Outcome const& o1, Outcome const& o2) {
return o1.first.size() < o2.first.size();
});
if (min == outcomes.end()) {
// (left, collected) unchanged
return false;
}
std::tie(left, collected) = std::move(*min);
return true;
}
}
#endif