nana/source/gui/widgets/categorize.cpp

/*
 *	A Categorize Implementation
 *	Nana C++ Library(http://www.nanapro.org)
 *	Copyright(C) 2003-2016 Jinhao(cnjinhao@hotmail.com)
 *
 *	Distributed under the Boost Software License, Version 1.0.
 *	(See accompanying file LICENSE_1_0.txt or copy at
 *	http://www.boost.org/LICENSE_1_0.txt)
 *
 *	@file: nana/gui/widgets/categorize.cpp
 */

#include <nana/gui/wvl.hpp>
#include <nana/gui/widgets/categorize.hpp>
#include <nana/gui/widgets/float_listbox.hpp>
#include <nana/gui/element.hpp>
#include <nana/gui/widgets/detail/tree_cont.hpp>
#include <stdexcept>

namespace nana
{
	namespace drawerbase
	{
		namespace categorize
		{
			struct event_agent_holder
			{
				std::function<void(nana::any&)> selected;
			};

			struct item
				: public float_listbox::item_interface
			{
				nana::paint::image	item_image;
				std::string		item_text;
			public:
				item(const std::string& s)
					: item_text(s)
				{}
			public:
				//Implement item_interface methods
				const nana::paint::image& image() const override
				{
					return item_image;
				}

				const char * text() const override
				{
					return item_text.data();
				}
			};

			struct item_tag
			{
				nana::size	scale;
				unsigned	pixels;
				nana::any	value;
			};

			//class renderer
					renderer::ui_element::ui_element()
						: what(none), index(0)
					{}
				renderer::~renderer(){}
			//end class renderer

			//interior_renderer

			class interior_renderer
				: public renderer
			{
			private:
				void background(graph_reference graph, window wd, const nana::rectangle& r, const ui_element& ue)
				{
					ui_el_ = ue;
					style_.bgcolor = API::bgcolor(wd);
					style_.fgcolor = API::fgcolor(wd);

					if(ue.what == ue.none || (API::window_enabled(wd) == false))
					{	//the mouse is out of the widget.
						style_.bgcolor = style_.bgcolor.blend(static_cast<color_rgb>(0xa0c9f5), 0.9);
					}
					graph.rectangle(r, true, style_.bgcolor);
				}

				virtual void root_arrow(graph_reference graph, const nana::rectangle& r, mouse_action state)
				{
					::nana::rectangle arrow_r{r.x + static_cast<int>(r.width - 16) / 2, r.y + static_cast<int>(r.height - 16) / 2, 16, 16};

					if(ui_el_.what == ui_el_.item_root)
					{
						_m_item_bground(graph, r.x + 1, r.y, r.width - 2, r.height, (state == mouse_action::pressed ? mouse_action::pressed : mouse_action::over));
						graph.rectangle(r, false, static_cast<color_rgb>(0x3C7FB1));
						if(state == mouse_action::pressed)
						{
							++arrow_r.x;
							++arrow_r.y;
						}
					}
					else
						graph.rectangle(r, true, style_.bgcolor);

					facade<element::arrow> arrow("double");
					arrow.direction(::nana::direction::west);
					arrow.draw(graph, {}, style_.fgcolor, arrow_r, element_state::normal);
				}

				void item(graph_reference graph, const nana::rectangle& r, std::size_t index, const std::string& name_utf8, unsigned txtheight, bool has_child, mouse_action state)
				{
					nana::point strpos(r.x + 5, r.y + static_cast<int>(r.height - txtheight) / 2);

					if((ui_el_.what == ui_el_.item_arrow || ui_el_.what == ui_el_.item_name) && (ui_el_.index == index))
					{
						mouse_action state_arrow, state_name;
						if(mouse_action::pressed != state)
						{
							state_arrow = (ui_el_.what == ui_el_.item_arrow ? mouse_action::over : mouse_action::normal);
							state_name = (ui_el_.what == ui_el_.item_name ? mouse_action::over : mouse_action::normal);
						}
						else
						{
							state_name = state_arrow = mouse_action::pressed;
							++strpos.x;
							++strpos.y;
						}

						int top = r.y + 1;
						unsigned width = r.width - 2;
						unsigned height = r.height - 2;

						::nana::color clr{static_cast<color_rgb>(0x3C7FB1)};
						if(has_child)
						{
							width -= 16;

							int left = r.x + r.width - 17;
							_m_item_bground(graph, left + 1, top, 15, height, state_arrow);
							graph.line({ left, top }, { left, r.y + static_cast<int>(height) }, clr);
						}

						_m_item_bground(graph, r.x + 1, top, width, height, state_name);
						graph.rectangle(r, false, clr);
					}
					graph.string(strpos, name_utf8, style_.fgcolor);

					if(has_child)
					{
						facade<element::arrow> arrow("double");
						arrow.direction(::nana::direction::east);
						arrow.draw(graph, {}, style_.fgcolor, { r.right() - 16, r.y + static_cast<int>(r.height - 16) / 2, 16, 16 }, element_state::normal);
					}
				}

				void border(graph_reference graph)
				{
					rectangle r{ graph.size() };

					graph.rectangle(r, false, static_cast<color_rgb>(0xf0f0f0));

					color lb(static_cast<color_rgb>(0x9dabb9));
					color tr(static_cast<color_rgb>(0x484e55));
					graph.frame_rectangle(r.pare_off(1), lb, tr, tr, lb);
				}
			private:
				void _m_item_bground(graph_reference graph, int x, int y, unsigned width, unsigned height, mouse_action state)
				{
					const unsigned half = (height - 2) / 2;
					int left = x + 1;
					int top = y + 1;
					nana::color clr_top(static_cast<color_rgb>(0xEAEAEA)), clr_bottom(static_cast<color_rgb>(0xDCDCDC));
					switch(state)
					{
					case mouse_action::over:
						clr_top.from_rgb(0xdf, 0xf2, 0xfc);
						clr_bottom.from_rgb(0xa9, 0xda, 0xf5);
						break;
					case mouse_action::pressed:
						clr_top.from_rgb(0xa6, 0xd7, 0xf2);
						clr_bottom.from_rgb(0x92, 0xc4, 0xf6);
						++left;
						++top;
						break;
					default:
						break;
					}

					graph.rectangle(rectangle{ left, top, width - 2, half }, true, clr_top);
					graph.rectangle(rectangle{ left, top + static_cast<int>(half), width - 2, (height - 2) - half }, true, clr_bottom);
					if(mouse_action::pressed == state)
					{
						int bottom = y + height - 1;
						int right = x + width - 1;

						graph.palette(false, static_cast<color_rgb>(0x6E8D9F));
						graph.line(point{ x, y }, point{ right, y });
						graph.line(point{ x, y + 1 }, point{ x, bottom });

						++x;
						++y;

						graph.palette(false, static_cast<color_rgb>(0xa6c7d9));
						graph.line(point{ x, y }, point{ right, y });
						graph.line(point{ x, y + 1 }, point{ x, bottom });
					}
				}

			private:
				ui_element	ui_el_;
				struct style_tag
				{
					color bgcolor;
					color fgcolor;
				}style_;
			};

			class tree_wrapper
			{
			public:
				using container = widgets::detail::tree_cont<item_tag>;
				using node_handle = container::node_type*;

				tree_wrapper()
					: splitstr_("\\")
				{}

				bool seq(std::size_t index, std::vector<node_handle> & seqv) const
				{
					_m_read_node_path(seqv);

					if(index < seqv.size())
					{
						if(index)
							seqv.erase(seqv.begin(), seqv.begin() + index);
						return true;
					}
					return false;
				}

				void splitstr(const std::string& ss)
				{
					if(ss.size())
						splitstr_ = ss;
				}

				const std::string& splitstr() const
				{
					return splitstr_;
				}

				std::string path() const
				{
					std::vector<node_handle> v;
					_m_read_node_path(v);

					std::string str;
					bool not_head = false;
					for(auto i : v)
					{
						if(not_head)
							str += splitstr_;
						else
							not_head = true;
						str += i->value.first;
					}
					return str;
				}

				void path(const std::string& key)
				{
					cur_ = tree_.ref(key);
				}

				node_handle at(std::size_t pos) const
				{
					std::vector<node_handle> v;
					_m_read_node_path(v);
					return (pos < v.size() ? v[pos] : nullptr);
				}

				node_handle tail(std::size_t index)
				{
					auto node = at(index);
					if(node)
						cur_ = node;
					return node;
				}

				node_handle cur() const
				{
					return cur_;
				}

				void cur(node_handle node)
				{
					cur_ = node;
				}

				void insert(const std::string& name, const nana::any& value)
				{
					item_tag m;
					m.pixels = 0;
					m.value = value;
					cur_ = tree_.insert(cur_, name, m);
				}

				bool childset(const std::string& name, const nana::any& value)
				{
					if(cur_)
					{
						auto cur_before_insert = cur_;

						insert(name, value);
						cur_ = cur_before_insert;
						return true;
					}
					return false;
				}

				bool childset_erase(const std::string& name)
				{
					auto node = find_child(name);
					if (!node)
						return false;

					tree_.remove(node);
					return true;
				}

				node_handle find_child(const std::string& name) const
				{
					if(cur_)
					{
						for(node_handle i = cur_->child; i; i = i->next)
						{
							if(i->value.first == name)
								return i;
						}
					}
					return nullptr;
				}

				bool clear()
				{
					if(tree_.get_root()->child)
					{
						tree_.clear();
						return true;
					}
					return false;
				}
			private:
				void _m_read_node_path(std::vector<node_handle>& nodes) const
				{
					auto root = tree_.get_root();
					for(auto i = cur_; i && (i != root); i = i->owner)
						nodes.insert(nodes.begin(), i);
				}
			private:
				container tree_;
				std::string splitstr_ ;
				node_handle cur_{ nullptr };
			};

			//class scheme
			class trigger::scheme
			{
			public:
				typedef tree_wrapper container;
				typedef container::node_handle node_handle;
				typedef renderer::ui_element	ui_element;

				enum class mode
				{
					normal, floatlist
				};

				scheme()
				{
					proto_.ui_renderer = pat::cloneable<renderer>(interior_renderer());
					style_.mode = mode::normal;
					style_.listbox = nullptr;
				}

				void attach(window wd)
				{
					window_ = wd;
					API::bgcolor(wd, colors::white);
				}

				void detach()
				{
					window_ = nullptr;
				}

				window window_handle() const
				{
					return window_;
				}

				container& tree()
				{
					return treebase_;
				}

				void draw(graph_reference graph)
				{
					_m_calc_scale(graph);

					nana::rectangle r = _m_make_rectangle(); //_m_make_rectangle must be called after _m_calc_scale()
					_m_calc_pixels(r);

					proto_.ui_renderer->background(graph, window_, r, ui_el_);
					if(head_)
						proto_.ui_renderer->root_arrow(graph, _m_make_root_rectangle(), style_.state);
					_m_draw_items(graph, r);
					proto_.ui_renderer->border(graph);
				}

				bool locate(int x, int y) const
				{
					if(head_)
					{
						auto r = _m_make_root_rectangle();
						if (r.is_hit(x, y))
						{
							style_.active_item_rectangle = r;
							if(ui_el_.what == ui_el_.item_root)
								return false;
							ui_el_.what = ui_el_.item_root;
							return true;
						}
					}

					nana::rectangle r = _m_make_rectangle();
					std::vector<node_handle> seq;
					if(r.is_hit(x, y) && treebase_.seq(head_, seq))
					{
						const int xbase = r.x;
						const int xend = r.right();

						//Change the meaning of variable r. Now, r indicates the area of a item
						r.height = item_height_;

						std::size_t seq_index = 0;
						for(auto i : seq)
						{
							r.width = i->value.second.pixels;
							//If the item is over the right border of widget, the item would be painted at
							//the begining of the next line.
							if(r.right() > xend)
							{
								r.x = xbase;
								r.y += r.height;
							}

							if(r.is_hit(x, y))
							{
								style_.active_item_rectangle = r;
								std::size_t index = seq_index + head_;

								ui_element::t what = ((i->child && (r.right() - 16 < x))
														? ui_el_.item_arrow : ui_el_.item_name);
								if(what == ui_el_.what && index == ui_el_.index)
									return false;

								ui_el_.what = what;
								ui_el_.index = index;
								return true;
							}
							r.x += r.width;
							++seq_index;
						}
					}
					
					if(ui_el_.what == ui_el_.somewhere) return false;
					ui_el_.what = ui_el_.somewhere;
					return true;
				}

				bool erase_locate()
				{
					ui_el_.index = npos;
					if(ui_el_.what == ui_el_.none)
						return false;

					ui_el_.what = ui_el_.none;
					return true;
				}

				const ui_element& locate() const
				{
					return ui_el_;
				}

				void mouse_pressed()
				{
					style_.state = mouse_action::pressed;

					//Check the click whether to show the list
					if (ui_element::item_root == ui_el_.what || ui_element::item_arrow == ui_el_.what)
					{
						_m_show_list();
						style_.mode = mode::floatlist;
					}
				}

				void mouse_release()
				{
					if(style_.mode != mode::floatlist)
					{
						style_.state = mouse_action::normal;
						if (ui_element::item_name == ui_el_.what)
							_m_selected(treebase_.tail(ui_el_.index));
					}
				}

				bool is_list_shown() const
				{
					return (nullptr != style_.listbox);
				}

				event_agent_holder& evt_holder() const
				{
					return evt_holder_;
				}
			private:
				void _m_selected(node_handle node)
				{
					if(node)
					{
						API::dev::window_caption(window_handle(), to_nstring(tree().path()));
						if(evt_holder_.selected)
							evt_holder_.selected(node->value.second.value);
					}
				}

				void _m_show_list()
				{
					if(style_.listbox)
						style_.listbox->close();

					style_.module.items.clear();

					nana::rectangle r;
					style_.list_trigger = ui_el_.what;
					if(ui_el_.what == ui_el_.item_arrow)
					{
						style_.active = ui_el_.index;
						node_handle i = treebase_.at(ui_el_.index);
						if(i)
						{
							for(node_handle child = i->child; child; child = child->next)
								style_.module.items.emplace_back(std::make_shared<item>(child->value.first));
						}
						r = style_.active_item_rectangle;
					}
					else if(ui_el_.item_root == ui_el_.what)
					{
						std::vector<node_handle> v;
						if(treebase_.seq(0, v))
						{
							auto end = v.cbegin() + head_;
							for(auto i = v.cbegin(); i != end; ++i)
								style_.module.items.emplace_back(std::make_shared<item>((*i)->value.first));
						}
						r = style_.active_item_rectangle;
					}
					r.y += r.height;
					r.width = r.height = 100;

					style_.listbox = &(form_loader<nana::float_listbox>()(window_, r, true));
					style_.listbox->set_module(style_.module, 16);

					style_.listbox->events().destroy.connect_unignorable([this]
					{
						//Close list when listbox is destoryed
						style_.mode = mode::normal;
						style_.state = mouse_action::normal;

						if ((style_.module.index != npos) && style_.module.have_selected)
						{
							if (ui_element::item_arrow == style_.list_trigger)
							{
								treebase_.tail(style_.active);
								node_handle node = treebase_.find_child(style_.module.items[style_.module.index]->text());
								if (!node)
								{
									style_.listbox = nullptr;
									return;
								}
								treebase_.cur(node);
								_m_selected(node);
							}
							else if (ui_element::item_root != style_.list_trigger)
							{
								style_.listbox = nullptr;
								return;
							}
							_m_selected(treebase_.tail(style_.module.index));
						}

						API::refresh_window(window_);
						API::update_window(window_);
						style_.listbox = nullptr;
					});
				}

			private:
				unsigned _m_item_fix_scale() const
				{
					return (API::window_size(this->window_handle()).height - 2);
				}

				nana::rectangle _m_make_root_rectangle() const
				{
					return{ 1, 1, 16, _m_item_fix_scale() };
				}

				//_m_make_rectangle
				//@brief: This function calculate the items area. This must be called after _m_calc_scale()
				nana::rectangle _m_make_rectangle() const
				{
					auto dimension = API::window_size(this->window_handle());
					nana::rectangle r(1, 1, dimension.width - 2, _m_item_fix_scale());
					
					unsigned px = r.width;
					std::size_t lines = item_lines_;
					std::vector<node_handle> v;
					treebase_.seq(0, v);
					for(auto node : v)
					{
						if(node->value.second.scale.width > px)
						{
							if(lines > 1)
							{
								--lines;
								px = r.width;
								if(px < node->value.second.scale.width)
								{
									--lines;
									continue;
								}
							}
							else
							{
								//Too many items, so some of items cann't be displayed
								r.x += 16;
								r.width -= 16;
								return r;
							}
						}
						px -= node->value.second.scale.width;
					}

					return r;
				}

				void _m_calc_scale(graph_reference graph)
				{
					nana::size tsz;
					unsigned highest = 0;
					std::vector<node_handle> v;
					treebase_.seq(0, v);
					for(auto node : v)
					{
						node->value.second.scale = graph.text_extent_size(node->value.first);

						if(highest < node->value.second.scale.height)
							highest = node->value.second.scale.height;

						node->value.second.scale.width += (node->child ? 26 : 10);
					}

					highest += 6; //the default height of item.

					auto fixed_scale_px = _m_item_fix_scale();

					item_lines_ = fixed_scale_px / highest;
					if(item_lines_ == 0)
						item_lines_ = 1;
					item_height_ = (1 != item_lines_ ? highest : fixed_scale_px);
				}

				void _m_calc_pixels(const nana::rectangle& r)
				{
					std::size_t lines = item_lines_;

					unsigned px = 0;
					head_ = 0;
					std::vector<node_handle> v;
					treebase_.seq(0, v);
					for(auto vi = v.rbegin(); vi != v.rend(); ++vi)
					{
						item_tag & m = (*vi)->value.second;
						if(r.width >= px + m.scale.width)
						{
							px += m.scale.width;
							m.pixels = m.scale.width;
							continue;
						}

						//In fact, this item must be in the font of a line.
						m.pixels = (r.width >= m.scale.width ? m.scale.width : _m_minimial_pixels());
						if(0 == px)	//This line is empty, NOT a newline
						{
							px = m.pixels;
							continue;
						}

						//Newline, and check here whether is more lines.
						if(0 == --lines)
						{
							head_ = std::distance(vi, v.rend());
							break;
						}
						px = m.pixels;
					}
				}

				static unsigned _m_minimial_pixels()
				{
					return 46;
				}

				void _m_draw_items(graph_reference graph, const nana::rectangle& r)
				{
					nana::rectangle item_r = r;
					item_r.height = item_height_;
					std::size_t index = head_;
					const int xend = static_cast<int>(r.width) + r.x;
					std::vector<node_handle> v;
					treebase_.seq(0, v);
					for(auto vi = v.begin() + head_; vi != v.end(); ++vi)
					{
						node_handle i = (*vi);
						if(static_cast<int>(i->value.second.pixels) + item_r.x > xend)
						{
							item_r.x = r.x;
							item_r.y += item_height_;
						}
						item_r.width = i->value.second.pixels;
						proto_.ui_renderer->item(graph, item_r, index++, i->value.first, i->value.second.scale.height, i->child != 0, style_.state);
						item_r.x += item_r.width;
					}
				}
			private:
				window	window_{nullptr};
				std::size_t	head_;
				unsigned	item_height_;
				std::size_t	item_lines_;
				container	treebase_;

				mutable ui_element	ui_el_;
				struct style_tag
				{
					ui_element::t list_trigger;
					std::size_t active;	//It indicates the item corresponding listbox.
					mutable ::nana::rectangle active_item_rectangle;
					::nana::float_listbox::module_type module;
					::nana::float_listbox * listbox;
					scheme::mode	mode;
					mouse_action	state;	//The state of mouse
				}style_;

				struct proto_tag
				{
					pat::cloneable<renderer> ui_renderer;
				}proto_;

				mutable event_agent_holder	evt_holder_;
			};

			//class trigger
				trigger::trigger()
					: scheme_(new scheme)
				{}

				trigger::~trigger()
				{
					delete scheme_;
				}

				void trigger::insert(const std::string& str, nana::any value)
				{
					throw_not_utf8(str);
					scheme_->tree().insert(str, value);
					API::dev::window_caption(scheme_->window_handle(), to_nstring(scheme_->tree().path()));
					API::refresh_window(this->scheme_->window_handle());
				}

				bool trigger::childset(const std::string& str, nana::any value)
				{
					if(scheme_->tree().childset(str, value))
					{
						API::refresh_window(this->scheme_->window_handle());
						return true;
					}
					return false;
				}

				bool trigger::childset_erase(const std::string& str)
				{
					if(scheme_->tree().childset_erase(str))
					{
						API::refresh_window(this->scheme_->window_handle());
						return true;
					}
					return false;
				}

				bool trigger::clear()
				{
					if(scheme_->tree().clear())
					{
						API::refresh_window(this->scheme_->window_handle());
						return true;
					}
					return false;
				}

				void trigger::splitstr(const std::string& sstr)
				{
					scheme_->tree().splitstr(sstr);
				}

				const std::string& trigger::splitstr() const
				{
					return scheme_->tree().splitstr();
				}

				void trigger::path(const std::string& str)
				{
					scheme_->tree().path(str);
				}

				std::string trigger::path() const
				{
					return scheme_->tree().path();
				}

				nana::any& trigger::value() const
				{
					auto node = scheme_->tree().cur();
					if(node)
						return node->value.second.value;

					throw std::runtime_error("nana::categorize::value, current category is empty");
				}

				void trigger::_m_event_agent_ready() const
				{
					auto evt_agent = event_agent_.get();
					scheme_->evt_holder().selected = [evt_agent](::nana::any& val){
						evt_agent->selected(val);
					};
				}

				void trigger::attached(widget_reference widget, graph_reference)
				{
					scheme_->attach(widget);
				}

				void trigger::detached()
				{
					scheme_->detach();
				}

				void trigger::refresh(graph_reference graph)
				{
					scheme_->draw(graph);
				}

				void trigger::mouse_down(graph_reference graph, const arg_mouse&)
				{
					if(scheme_->locate().what > ui_element::somewhere)
					{
						if(API::window_enabled(scheme_->window_handle()))
						{
							scheme_->mouse_pressed();
							scheme_->draw(graph);
							API::lazy_refresh();
						}
					}
				}

				void trigger::mouse_up(graph_reference graph, const arg_mouse&)
				{
					if(scheme_->locate().what > ui_element::somewhere)
					{
						if(API::window_enabled(scheme_->window_handle()))
						{
							scheme_->mouse_release();
							scheme_->draw(graph);
							API::lazy_refresh();
						}
					}
				}

				void trigger::mouse_move(graph_reference graph, const arg_mouse& arg)
				{
					if(scheme_->locate(arg.pos.x, arg.pos.y) && API::window_enabled(scheme_->window_handle()))
					{
						scheme_->draw(graph);
						API::lazy_refresh();
					}
				}

				void trigger::mouse_leave(graph_reference graph, const arg_mouse&)
				{
					if(API::window_enabled(scheme_->window_handle()) && (scheme_->is_list_shown() == false) && scheme_->erase_locate())
					{
						scheme_->draw(graph);
						API::lazy_refresh();
					}
				}
			//end class trigger
		}//end namespace categorize
	}//end namespace draerbase
}//end namespace nana