#include "option_manager.hh" #include "assert.hh" #include namespace Kakoune { Option::Option(OptionManager& manager, String name, Flags flags) : m_manager(manager), m_name(std::move(name)), m_flags(flags) {} OptionManager::OptionManager(OptionManager& parent) : m_parent(&parent) { parent.register_watcher(*this); } OptionManager::~OptionManager() { if (m_parent) m_parent->unregister_watcher(*this); kak_assert(m_watchers.empty()); } void OptionManager::register_watcher(OptionManagerWatcher& watcher) { kak_assert(not contains(m_watchers, &watcher)); m_watchers.push_back(&watcher); } void OptionManager::unregister_watcher(OptionManagerWatcher& watcher) { auto it = find(m_watchers.begin(), m_watchers.end(), &watcher); kak_assert(it != m_watchers.end()); m_watchers.erase(it); } Option& OptionManager::get_local_option(const String& name) { auto it = find_option(m_options, name); if (it != m_options.end()) return **it; else if (m_parent) { m_options.emplace_back((*m_parent)[name].clone(*this)); return *m_options.back(); } else throw option_not_found(name); } const Option& OptionManager::operator[](const String& name) const { auto it = find_option(m_options, name); if (it != m_options.end()) return **it; else if (m_parent) return (*m_parent)[name]; else throw option_not_found(name); } template CandidateList OptionManager::get_matching_names(MatchingFunc func) { CandidateList result; if (m_parent) result = m_parent->get_matching_names(func); for (auto& option : m_options) { if (option->flags() & Option::Flags::Hidden) continue; const auto& name = option->name(); if (func(name) and not contains(result, name)) result.push_back(name); } return result; } CandidateList OptionManager::complete_option_name(const String& prefix, ByteCount cursor_pos) { using namespace std::placeholders; String real_prefix = prefix.substr(0, cursor_pos); auto result = get_matching_names(std::bind(prefix_match, _1, std::ref(real_prefix))); if (result.empty()) result = get_matching_names(std::bind(subsequence_match, _1, std::ref(real_prefix))); return result; } OptionManager::OptionList OptionManager::flatten_options() const { OptionList res = m_parent ? m_parent->flatten_options() : OptionList{}; for (auto& option : m_options) { auto it = find_option(res, option->name()); if (it != res.end()) *it = option.get(); else res.emplace_back(option.get()); } return res; } void OptionManager::on_option_changed(const Option& option) { // if parent option changed, but we overrided it, it's like nothing happened if (&option.manager() != this and find_option(m_options, option.name()) != m_options.end()) return; for (auto watcher : m_watchers) watcher->on_option_changed(option); } GlobalOptions::GlobalOptions() : OptionManager() { declare_option("tabstop", 8); declare_option("indentwidth", 4); declare_option("scrolloff", 0); declare_option("eolformat", "lf"); declare_option("BOM", "no"); declare_option("complete_prefix", true); declare_option("incsearch", true); declare_option("autoinfo", true); declare_option("autoshowcompl", true); declare_option("aligntab", false); declare_option("ignored_files", Regex{R"(^(\..*|.*\.(o|so|a))$)"}); declare_option("filetype", ""); declare_option>("path", { "./", "/usr/include" }); declare_option>("completers", {"filename", "word=buffer"}, Option::Flags::None, [](const std::vector& s) { static const auto values = {"word=buffer", "word=all", "filename" }; for (auto& v : s) { if (v.substr(0_byte, 7_byte) == "option=") continue; if (not contains(values, v)) throw runtime_error(v + " is not a recognised value for completers"); } }); declare_option("autoreload", Ask); } }