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Partial implementation of missing nana::typeface()

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This commit is contained in:
James Bremner 2018-12-18 17:05:45 -05:00
parent e7bc1405ec
commit 1d2c7f85f4
2 changed files with 254 additions and 235 deletions
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9
include/nana/gui/widgets/group.hpp
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@ -3,8 +3,8 @@
* Nana C++ Library(http://www.nanaro.org)
* Copyright(C) 2015-2018 Jinhao(cnjinhao@hotmail.com)
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
* 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/group.hpp
@ -77,6 +77,9 @@ namespace nana{
/// Determines whether a specified option is checked, it throws an out_of_range if !(pos < number of options)
bool option_checked(std::size_t pos) const;
/// Change typeface of caption label ( does not effect child widgets )
void typeface( const nana::paint::font& font );
group& enable_format_caption(bool format);
group& collocate() noexcept;
@ -86,7 +89,7 @@ namespace nana{
void field_display(const char* field_name, bool display); ///<Displays/Discards an existing field.
bool field_display(const char* field_name) const; ///<Determines whether the specified field is displayed.
void erase(window handle); ///< Erases a window from field.
template<typename Widget, typename ...Args>
Widget* create_child(const char* field, Args && ... args)
{

480
source/gui/widgets/group.cpp
View File

@ -3,8 +3,8 @@
* Nana C++ Library(http://www.nanaro.org)
* Copyright(C) 2015-2018 Jinhao(cnjinhao@hotmail.com)
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
* 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/group.cpp
@ -14,7 +14,7 @@
* @brief group is a widget used to visually group and layout other widgets.
*
* @contributor:
* dankan1890(https://github.com/dankan1890)
* dankan1890(https://github.com/dankan1890)
*/
@ -27,300 +27,316 @@
if(empty()) \
throw std::logic_error("the group is invalid");
namespace nana{
namespace nana
{
static const char* field_title = "__nana_group_title__";
static const char* field_options = "__nana_group_options__";
static const char* field_title = "__nana_group_title__";
static const char* field_options = "__nana_group_options__";
struct group::implement
{
label caption;
align caption_align{ align::left };
place place_content;
unsigned gap{2};
std::string usr_div_str;
struct group::implement
{
label caption;
align caption_align{ align::left };
place place_content;
unsigned gap{2};
std::string usr_div_str;
nana::size caption_dimension;
nana::size caption_dimension;
std::vector<std::unique_ptr<checkbox>> options;
radio_group * radio_logic{nullptr};
std::vector<std::unique_ptr<checkbox>> options;
radio_group * radio_logic{nullptr};
implement() = default;
implement() = default;
implement(window grp_panel, ::std::string titel, bool vsb, unsigned gap=2)
: caption (grp_panel, std::move(titel), vsb),
place_content{grp_panel},
gap{gap}
{
}
implement(window grp_panel, ::std::string titel, bool vsb, unsigned gap=2)
: caption (grp_panel, std::move(titel), vsb),
place_content{grp_panel},
gap{gap}
{
}
void create(window pnl)
{
caption.create(pnl);
caption.caption("");
place_content.bind(pnl);
void create(window pnl)
{
caption.create(pnl);
caption.caption("");
place_content.bind(pnl);
if (!radio_logic)
radio_logic = new radio_group;
}
if (!radio_logic)
radio_logic = new radio_group;
}
void update_div()
{
const std::size_t padding = 10;
caption_dimension = caption.measure(1000);
caption_dimension.width += 1;
void update_div()
{
const std::size_t padding = 10;
caption_dimension = caption.measure(1000);
caption_dimension.width += 1;
std::string div = "vert margin=[0," + std::to_string(gap) + "," + std::to_string(gap + 5) + "," + std::to_string(gap) + "]";
std::string div = "vert margin=[0," + std::to_string(gap) + "," + std::to_string(gap + 5) + "," + std::to_string(gap) + "]";
div += "<weight=" + std::to_string(caption_dimension.height) + " ";
div += "<weight=" + std::to_string(caption_dimension.height) + " ";
if (align::left == caption_align)
div += "<weight=" + std::to_string(padding) + ">";
else
div += "<>"; //right or center
if (align::left == caption_align)
div += "<weight=" + std::to_string(padding) + ">";
else
div += "<>"; //right or center
div += "<" + std::string{ field_title } + " weight=" + std::to_string(caption_dimension.width) + ">";
div += "<" + std::string{ field_title } + " weight=" + std::to_string(caption_dimension.width) + ">";
if (align::right == caption_align)
div += "<weight=" + std::to_string(padding) + ">";
else if (align::center == caption_align)
div += "<>";
if (align::right == caption_align)
div += "<weight=" + std::to_string(padding) + ">";
else if (align::center == caption_align)
div += "<>";
div += "><<vert margin=5 " + std::string(field_options) + ">";
div += "><<vert margin=5 " + std::string(field_options) + ">";
if (!usr_div_str.empty())
div += "<" + usr_div_str + ">>";
else
div += ">";
if (!usr_div_str.empty())
div += "<" + usr_div_str + ">>";
else
div += ">";
place_content.div(div.c_str());
place_content.div(div.c_str());
if (options.empty())
place_content.field_display(field_options, false);
if (options.empty())
place_content.field_display(field_options, false);
if (caption.caption().empty())
place_content.field_display(field_title, false);
}
};
if (caption.caption().empty())
place_content.field_display(field_title, false);
}
};
group::group()
: impl_(new implement)
{
}
group::group()
: impl_(new implement)
{
}
group::group(window parent, const rectangle& r, bool vsb)
: group()
{
create(parent, r, vsb);
}
group::group(window parent, const rectangle& r, bool vsb)
: group()
{
create(parent, r, vsb);
}
using groupbase_type = widget_object<category::widget_tag, drawerbase::panel::drawer, general_events, drawerbase::group::scheme>;
using groupbase_type = widget_object<category::widget_tag, drawerbase::panel::drawer, general_events, drawerbase::group::scheme>;
group::group(window parent, ::std::string titel, bool formatted, unsigned gap, const rectangle& r, bool vsb)
: group(parent, r, vsb)
{
this->bgcolor(API::bgcolor(parent));
group::group(window parent, ::std::string titel, bool formatted, unsigned gap, const rectangle& r, bool vsb)
: group(parent, r, vsb)
{
this->bgcolor(API::bgcolor(parent));
impl_.reset(new implement(*this, std::move(titel), vsb, gap));
impl_.reset(new implement(*this, std::move(titel), vsb, gap));
impl_->caption.format(formatted);
_m_init();
}
impl_->caption.format(formatted);
_m_init();
}
group::~group()
{
delete impl_->radio_logic;
}
group::~group()
{
delete impl_->radio_logic;
}
checkbox& group::add_option(std::string text)
{
_THROW_IF_EMPTY()
checkbox& group::add_option(std::string text)
{
_THROW_IF_EMPTY()
#ifdef _nana_std_has_emplace_return_type
auto & opt = impl_->options.emplace_back(new checkbox{ handle() });
auto & opt = impl_->options.emplace_back(new checkbox { handle() });
#else
impl_->options.emplace_back(new checkbox(handle()));
auto & opt = impl_->options.back();
impl_->options.emplace_back(new checkbox(handle()));
auto & opt = impl_->options.back();
#endif
opt->transparent(true);
opt->caption(std::move(text));
impl_->place_content[field_options] << *opt;
impl_->place_content.field_display(field_options, true);
impl_->place_content.collocate();
opt->transparent(true);
opt->caption(std::move(text));
impl_->place_content[field_options] << *opt;
impl_->place_content.field_display(field_options, true);
impl_->place_content.collocate();
if (impl_->radio_logic)
impl_->radio_logic->add(*opt);
if (impl_->radio_logic)
impl_->radio_logic->add(*opt);
return *impl_->options.back();
}
return *impl_->options.back();
}
void group::caption_align(align position)
{
if (position != impl_->caption_align)
{
impl_->caption_align = position;
impl_->update_div();
impl_->place_content.collocate();
API::refresh_window(*this);
}
}
void group::caption_align(align position)
{
if (position != impl_->caption_align)
{
impl_->caption_align = position;
impl_->update_div();
impl_->place_content.collocate();
API::refresh_window(*this);
}
}
group& group::radio_mode(bool enable)
{
_THROW_IF_EMPTY()
group& group::radio_mode(bool enable)
{
_THROW_IF_EMPTY()
if (enable)
{
//Create radio_group if it is null
if (!impl_->radio_logic)
impl_->radio_logic = new ::nana::radio_group;
if (enable)
{
//Create radio_group if it is null
if (!impl_->radio_logic)
impl_->radio_logic = new ::nana::radio_group;
//add all options into the radio_group
for (auto & opt : impl_->options)
impl_->radio_logic->add(*opt);
}
else
{
delete impl_->radio_logic;
impl_->radio_logic = nullptr;
}
return *this;
}
//add all options into the radio_group
for (auto & opt : impl_->options)
impl_->radio_logic->add(*opt);
}
else
{
delete impl_->radio_logic;
impl_->radio_logic = nullptr;
}
return *this;
}
std::size_t group::option() const
{
_THROW_IF_EMPTY();
std::size_t group::option() const
{
_THROW_IF_EMPTY();
if (impl_->radio_logic)
return impl_->radio_logic->checked();
if (impl_->radio_logic)
return impl_->radio_logic->checked();
throw std::logic_error("the radio_mode of the group is disabled");
}
throw std::logic_error("the radio_mode of the group is disabled");
}
bool group::option_checked(std::size_t pos) const
{
_THROW_IF_EMPTY();
return impl_->options.at(pos)->checked();
}
bool group::option_checked(std::size_t pos) const
{
_THROW_IF_EMPTY();
return impl_->options.at(pos)->checked();
}
group& group::enable_format_caption(bool format)
{
impl_->caption.format(format);
return *this;
}
void group::typeface( const nana::paint::font& font )
{
// change typeface of caption label
impl_->caption.typeface( font );
group& group::collocate() noexcept
{
impl_->place_content.collocate();
return *this;
}
/* change size of caption label
group& group::div(const char* div_str) noexcept
{
if (div_str)
impl_->usr_div_str = div_str;
else
impl_->usr_div_str.clear();
The caption may be changed AFTER this call
so the neccessary label size is unknown
set it to 80% of the current widget width and 50 pixels
*/
impl_->caption.move( rectangle(0,0,size().width * 0.8,50));
}
impl_->update_div();
return *this;
}
group& group::enable_format_caption(bool format)
{
impl_->caption.format(format);
return *this;
}
group::field_reference group::operator[](const char* field)
{
return impl_->place_content.field(field);
}
group& group::collocate() noexcept
{
impl_->place_content.collocate();
return *this;
}
void group::field_display(const char* field_name, bool display)
{
impl_->place_content.field_display(field_name, display);
}
group& group::div(const char* div_str) noexcept
{
if (div_str)
impl_->usr_div_str = div_str;
else
impl_->usr_div_str.clear();
bool group::field_display(const char* field_name) const
{
return impl_->place_content.field_display(field_name);
}
impl_->update_div();
return *this;
}
void group::erase(window handle)
{
impl_->place_content.erase(handle);
}
group::field_reference group::operator[](const char* field)
{
return impl_->place_content.field(field);
}
void group::_m_add_child(const char* field, widget* wdg)
{
impl_->place_content[field] << wdg->handle();
}
void group::field_display(const char* field_name, bool display)
{
impl_->place_content.field_display(field_name, display);
}
void group::_m_init()
{
this->div(nullptr);
bool group::field_display(const char* field_name) const
{
return impl_->place_content.field_display(field_name);
}
auto & outter = impl_->place_content;
void group::erase(window handle)
{
impl_->place_content.erase(handle);
}
outter[field_title] << impl_->caption;
outter.collocate();
void group::_m_add_child(const char* field, widget* wdg)
{
impl_->place_content[field] << wdg->handle();
}
impl_->caption.transparent(true);
color pbg = API::bgcolor(this->parent());
impl_->caption.bgcolor(pbg.blend(colors::black, 0.025));
void group::_m_init()
{
this->div(nullptr);
this->bgcolor(pbg.blend(colors::black, 0.05));
auto & outter = impl_->place_content;
drawing dw(*this);
outter[field_title] << impl_->caption;
outter.collocate();
//When the group is resized, the drawing is called before moving the caption, but
//the drawing of group requires the lastest position of caption for gradual rectangle.
//For the requirement, a move event handler is required for listning the change of caption's position.
impl_->caption.events().move([this](const arg_move&){
if (align::left != impl_->caption_align)
API::refresh_window(*this);
});
impl_->caption.transparent(true);
color pbg = API::bgcolor(this->parent());
impl_->caption.bgcolor(pbg.blend(colors::black, 0.025));
// This drawing function is owner by the onwer of dw (the outer panel of the group widget), not by dw !!
dw.draw([this](paint::graphics& graph)
{
auto gap_px = impl_->gap - 1;
this->bgcolor(pbg.blend(colors::black, 0.05));
auto const top_round_line = static_cast<int>(impl_->caption_dimension.height) / 2;
drawing dw(*this);
graph.rectangle(true, API::bgcolor(this->parent()));
graph.round_rectangle(rectangle(point(gap_px, top_round_line),
nana::size(graph.width() - 2 * gap_px, graph.height() - top_round_line - gap_px)
),
3, 3, this->scheme().border, true, this->bgcolor());
//When the group is resized, the drawing is called before moving the caption, but
//the drawing of group requires the lastest position of caption for gradual rectangle.
//For the requirement, a move event handler is required for listning the change of caption's position.
impl_->caption.events().move([this](const arg_move&)
{
if (align::left != impl_->caption_align)
API::refresh_window(*this);
});
auto opt_r = API::window_rectangle(impl_->caption);
if (opt_r)
{
rectangle grad_r{ opt_r->position(), nana::size{ opt_r->width + 4, static_cast<unsigned>(top_round_line - opt_r->y) } };
// This drawing function is owner by the onwer of dw (the outer panel of the group widget), not by dw !!
dw.draw([this](paint::graphics& graph)
{
auto gap_px = impl_->gap - 1;
grad_r.y += top_round_line*2 / 3;
grad_r.x -= 2;
auto const top_round_line = static_cast<int>(impl_->caption_dimension.height) / 2;
graph.gradual_rectangle(grad_r,
API::bgcolor(this->parent()), this->bgcolor(), true
);
}
});
}
graph.rectangle(true, API::bgcolor(this->parent()));
graph.round_rectangle(rectangle(point(gap_px, top_round_line),
nana::size(graph.width() - 2 * gap_px, graph.height() - top_round_line - gap_px)
),
3, 3, this->scheme().border, true, this->bgcolor());
void group::_m_complete_creation()
{
widget::_m_complete_creation();
impl_->create(handle());
_m_init();
}
auto opt_r = API::window_rectangle(impl_->caption);
if (opt_r)
{
rectangle grad_r{ opt_r->position(), nana::size{ opt_r->width + 4, static_cast<unsigned>(top_round_line - opt_r->y) } };
auto group::_m_caption() const noexcept -> native_string_type
{
return impl_->caption.caption_native();
}
grad_r.y += top_round_line*2 / 3;
grad_r.x -= 2;
void group::_m_caption(native_string_type&& str)
{
impl_->caption.caption(std::move(str));
impl_->update_div();
impl_->place_content.collocate();
}
graph.gradual_rectangle(grad_r,
API::bgcolor(this->parent()), this->bgcolor(), true
);
}
});
}
void group::_m_complete_creation()
{
widget::_m_complete_creation();
impl_->create(handle());
_m_init();
}
auto group::_m_caption() const noexcept -> native_string_type
{
return impl_->caption.caption_native();
}
void group::_m_caption(native_string_type&& str)
{
impl_->caption.caption(std::move(str));
impl_->update_div();
impl_->place_content.collocate();
}
}//end namespace nana