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Merge branch 'geometric_scheme' of https://github.com/qPCR4vir/nana into qPCR4vir-geometric_scheme

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This commit is contained in:
Jinhao 2016-05-23 22:22:29 +08:00
commit 6ed65e27d2
2 changed files with 150 additions and 101 deletions
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35
include/nana/gui/widgets/listbox.hpp
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@ -17,8 +17,6 @@
#ifndef NANA_GUI_WIDGETS_LISTBOX_HPP #ifndef NANA_GUI_WIDGETS_LISTBOX_HPP
#define NANA_GUI_WIDGETS_LISTBOX_HPP #define NANA_GUI_WIDGETS_LISTBOX_HPP
#include <nana/push_ignore_diagnostic>
#include "widget.hpp" #include "widget.hpp"
#include "detail/inline_widget.hpp" #include "detail/inline_widget.hpp"
#include <nana/pat/abstract_factory.hpp> #include <nana/pat/abstract_factory.hpp>
@ -531,15 +529,17 @@ namespace nana
/// \todo how to implement some geometrical parameters ?? /// \todo how to implement some geometrical parameters ??
unsigned max_header_width{ 3000 }; ///< during auto width don't alow more than this unsigned max_header_width{ 3000 }; ///< during auto width don't alow more than this
unsigned min_header_width{ 20 }; ///< non counting suspension_width unsigned min_header_width{ 20 }; ///< def=20 . non counting suspension_width
unsigned suspension_width{ 0 }; ///< the trigger will set this to the width if ("...") unsigned suspension_width{ 8 }; ///< def= . the trigger will set this to the width if ("...")
unsigned ext_w { 5 }; ///< ?? unsigned ext_w { 5 }; ///< def= 5. Additional or extended with added (before) to the text width to determine the cell width. cell_w = text_w + ext_w +1
unsigned header_height { 20 }; ///< header height header_size unsigned header_height { 25 }; ///< def=25 . header height header_size
unsigned text_height { 0 }; ///< the trigger will set this to the height of the text font unsigned text_height { 14 }; ///< the trigger will set this to the height of the text font
unsigned item_height_ex { 6 }; ///< 6? item_height = text_height + item_height_ex unsigned item_height_ex { 6 }; ///< Set !=0 !!!! def=6. item_height = text_height + item_height_ex
unsigned item_height { 0 }; ///< the trigger will set this TO item_height = text_height + item_height_ex unsigned item_height { 24 }; ///< def=24 . the trigger will set this TO item_height = text_height + item_height_ex
unsigned header_mouse_spliter_area_before{ 2 }; unsigned header_mouse_spliter_area_before{ 2 }; ///< def=2. But 4 is better... IMO
unsigned header_mouse_spliter_area_after { 3 }; unsigned header_mouse_spliter_area_after { 3 }; ///< def=3. But 4 is better...
//void debug_print(const std::string &msg);
}; };
} }
@ -586,6 +586,17 @@ By \a clicking on one header the list get \a reordered, first up, and then down
} }
listbox.anyobj(0, 0, 10); //the type of customer's object is int. listbox.anyobj(0, 0, 10); //the type of customer's object is int.
listbox.anyobj(0, 0, 20); listbox.anyobj(0, 0, 20);
5. listbox is a widget_object, with template parameters drawerbase::listbox::trigger and drawerbase::listbox::scheme
amon others.
That means that listbox have a member trigger_ constructed first and accecible with get_drawer_trigger() and
a member (unique pointer to) scheme_ accesible with scheme_type& scheme() created in the constructor
with API::dev::make_scheme<Scheme>() which call API::detail::make_scheme(::nana::detail::scheme_factory<Scheme>())
which call restrict::bedrock.make_scheme(static_cast<::nana::detail::scheme_factory_base&&>(factory));
which call pi_data_->scheme.create(std::move(factory));
which call factory.create(scheme_template(std::move(factory)));
which call (new Scheme(static_cast<Scheme&>(other)));
and which in create is setted with: API::dev::set_scheme(handle_, scheme_.get()); which save the scheme pointer in
the nana::detail::basic_window member pointer scheme
\todo doc: actualize this example listbox.at(0)... \todo doc: actualize this example listbox.at(0)...
\see nana::drawerbase::listbox::cat_proxy \see nana::drawerbase::listbox::cat_proxy
\see nana::drawerbase::listbox::item_proxy \see nana::drawerbase::listbox::item_proxy
@ -736,6 +747,4 @@ By \a clicking on one header the list get \a reordered, first up, and then down
void _m_erase_key(nana::detail::key_interface*); void _m_erase_key(nana::detail::key_interface*);
}; };
}//end namespace nana }//end namespace nana
#include <nana/pop_ignore_diagnostic>
#endif #endif

208
source/gui/widgets/listbox.cpp
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@ -28,13 +28,33 @@
#include <algorithm> #include <algorithm>
#include <nana/system/dataexch.hpp> #include <nana/system/dataexch.hpp>
#include <cassert> #include <cassert>
#include <iostream> // for debug
namespace nana namespace nana
{ {
//void debug(const std::string &msg, const rectangle&r)
//{
// std::cerr <<"\n" <<msg << "(" << r.x << ", " << r.y << " (" << r.width << ", " << r.height << ") )";
//}
namespace drawerbase namespace drawerbase
{ {
namespace listbox namespace listbox
{ {
//void scheme::debug_print(const std::string &msg)
//{
//
// std::cerr << "\n " << msg;
// std::cerr << "\n max_header_width: " << max_header_width;
// std::cerr << "\n min_header_width: " << min_header_width;
// std::cerr << "\n suspension_width: " << suspension_width;
// std::cerr << "\n ext_w: " << ext_w;
// std::cerr << "\n header_height: " << header_height;
// std::cerr << "\n text_height: " << text_height;
// std::cerr << "\n item_height_ex: " << item_height_ex;
// std::cerr << "\n item_height: " << item_height;
// std::cerr << "\n header_mouse_spliter_area_before: " << header_mouse_spliter_area_before;
// std::cerr << "\n header_mouse_spliter_area_after: " << header_mouse_spliter_area_after;
//}
//struct cell //struct cell
cell::format::format(const ::nana::color& bgcolor, const ::nana::color& fgcolor) cell::format::format(const ::nana::color& bgcolor, const ::nana::color& fgcolor)
: bgcolor{ bgcolor }, fgcolor{ fgcolor } : bgcolor{ bgcolor }, fgcolor{ fgcolor }
@ -1845,10 +1865,10 @@ namespace nana
bool auto_draw{true}; bool auto_draw{true};
bool checkable{false}; bool checkable{false};
bool if_image{false}; bool if_image{false};
unsigned header_size{25}; //unsigned header_size{25};
unsigned item_size{24}; //unsigned item_size{24};
unsigned text_height{0}; //unsigned text_height{0};
unsigned suspension_width{0}; //unsigned suspension_width{0};
::nana::listbox::export_options def_exp_options; ::nana::listbox::export_options def_exp_options;
@ -1951,7 +1971,7 @@ namespace nana
size_type number_of_lister_items(bool with_rest) const size_type number_of_lister_items(bool with_rest) const
{ {
unsigned lister_s = graph->height() - 2 - header_visible_px() - (scroll.h.empty() ? 0 : scroll.scale); unsigned lister_s = graph->height() - 2 - header_visible_px() - (scroll.h.empty() ? 0 : scroll.scale);
return (lister_s / item_size) + (with_rest && (lister_s % item_size) ? 1 : 0); return (lister_s / scheme_ptr->item_height) + (with_rest && (lister_s % scheme_ptr->item_height) ? 1 : 0);
} }
//keep the first selected item in the display area: the distances are in display positions! //keep the first selected item in the display area: the distances are in display positions!
@ -2068,10 +2088,10 @@ namespace nana
window wd = lister.wd_ptr()->handle(); window wd = lister.wd_ptr()->handle();
//H scroll enabled //H scroll enabled
bool h = (header_s > sz.width - 4); bool h = (header_s + 4 > sz.width ); // 4?
unsigned head_scroll = 2 + header_visible_px() + (h ? scroll.scale : 0); // 2?
unsigned lister_s = sz.height - 2 - header_visible_px() - (h ? scroll.scale : 0); unsigned lister_s = sz.height > head_scroll ? sz.height - head_scroll : 0 ;
size_type screen_number = (lister_s / item_size); size_type screen_number = (lister_s / scheme_ptr->item_height);
//V scroll enabled //V scroll enabled
bool v = (lister.the_number_of_expanded() > screen_number); bool v = (lister.the_number_of_expanded() > screen_number);
@ -2103,7 +2123,7 @@ namespace nana
if(h) if(h)
{ {
rectangle r(1, sz.height - scroll.scale - 1, width, scroll.scale); rectangle r(1, sz.height - scroll.scale - 1, width, scroll.scale); // -?
if(scroll.h.empty()) if(scroll.h.empty())
{ {
scroll.h.create(wd, r); scroll.h.create(wd, r);
@ -2118,7 +2138,7 @@ namespace nana
if(v) if(v)
{ {
rectangle r(sz.width - 1 - scroll.scale, 1, scroll.scale, height); rectangle r(sz.width - 1 - scroll.scale, 1, scroll.scale, height); // -?
if(scroll.v.empty()) if(scroll.v.empty())
{ {
scroll.v.create(wd, r); scroll.v.create(wd, r);
@ -2139,7 +2159,7 @@ namespace nana
{ {
if(header_s > r.width) if(header_s > r.width)
{ {
if((header_s - scroll.offset_x) < r.width) if(header_s < r.width - scroll.offset_x)
scroll.offset_x = header_s - r.width; scroll.offset_x = header_s - r.width;
} }
else else
@ -2162,9 +2182,9 @@ namespace nana
} }
} }
nana::rectangle checkarea(int x, int y) const nana::rectangle checkarea(int x, int y) const /// move to scheme ?? 16 ?
{ {
return nana::rectangle(x + 4, y + (item_size - 16) / 2, 16, 16); return nana::rectangle(x + 4, y + (static_cast<int>(scheme_ptr->item_height) - 16) / 2, 16, 16);
} }
int item_xpos(const nana::rectangle& r) const int item_xpos(const nana::rectangle& r) const
@ -2178,23 +2198,25 @@ namespace nana
std::pair<parts, size_t> new_where; std::pair<parts, size_t> new_where;
if(2 < x && x < static_cast<int>(graph->width()) - 2 && 1 < y && y < static_cast<int>(graph->height()) - 1) if(2 < x && x < static_cast<int>(graph->width()) - 2 && 1 < y && y < static_cast<int>(graph->height()) - 1)
{ { /// we are inside
if(header.visible() && y < static_cast<int>(header_size + 1))
{ if(header.visible() && y < static_cast<int>(scheme_ptr->header_height + 1))
{ /// we are in the header
x -= (2 - scroll.offset_x); x -= (2 - scroll.offset_x);
new_where.first = parts::header; new_where.first = parts::header;
new_where.second = static_cast<int>(header.item_by_x(x)); new_where.second = header.item_by_x(x);
} }
else else
{ {
new_where.second = ((y + 1) - header_visible_px()) / item_size; // y>1 ! new_where.second = ((y + 1) - header_visible_px()) / scheme_ptr->item_height; // y>1 !
new_where.first = parts::lister; new_where.first = parts::lister;
if(checkable) if(checkable)
{ {
nana::rectangle r; nana::rectangle r;
if(rect_lister(r)) if(rect_lister(r))
{ {
std::size_t top = new_where.second * item_size + header_visible_px(); std::size_t top = new_where.second * scheme_ptr->item_height + header_visible_px();
if(checkarea(item_xpos(r), static_cast<int>(top)).is_hit(x, y)) if(checkarea(item_xpos(r), static_cast<int>(top)).is_hit(x, y))
new_where.first = parts::checker; new_where.first = parts::checker;
} }
@ -2222,7 +2244,7 @@ namespace nana
void widget_to_header(nana::point& pos) void widget_to_header(nana::point& pos)
{ {
--pos.y; --pos.y;
pos.x += (scroll.offset_x - 2); pos.x += (scroll.offset_x - 2); // why not: pos.x -= (scroll.offset_x + 1);
} }
bool rect_header(nana::rectangle& r) const bool rect_header(nana::rectangle& r) const
@ -2232,7 +2254,7 @@ namespace nana
if (lister.wd_ptr()->borderless()) if (lister.wd_ptr()->borderless())
{ {
r = graph->size(); r = graph->size();
r.height = header_size; r.height = scheme_ptr->header_height;
return !r.empty(); return !r.empty();
} }
@ -2242,7 +2264,7 @@ namespace nana
r.x = 2; r.x = 2;
r.y = 1; r.y = 1;
r.width = graph->width() - ex_width; r.width = graph->width() - ex_width;
r.height = header_size; r.height = scheme_ptr->header_height;
return true; return true;
} }
} }
@ -2251,7 +2273,7 @@ namespace nana
unsigned header_visible_px() const unsigned header_visible_px() const
{ {
return (header.visible() ? header_size : 0); return (header.visible() ? scheme_ptr->header_height : 0);
} }
bool rect_lister(nana::rectangle& r) const bool rect_lister(nana::rectangle& r) const
@ -2317,8 +2339,9 @@ namespace nana
return seqs; return seqs;
} }
unsigned auto_width(size_type pos, unsigned max = 3000) /// \todo introduce parametr max_header_width unsigned auto_width(size_type pos, unsigned max = 100000)
{ {
max = std::min(max, scheme_ptr->max_header_width);
unsigned max_w{ 0 }; unsigned max_w{ 0 };
for (const auto &cat : lister.cat_container()) for (const auto &cat : lister.cat_container())
for (const auto &it : cat.items) for (const auto &it : cat.items)
@ -2333,8 +2356,8 @@ namespace nana
unsigned ext_w = scheme_ptr->ext_w; unsigned ext_w = scheme_ptr->ext_w;
if (pos == 0 && checkable) // only before the first column (display_order=0 ?) if (pos == 0 && checkable) // only before the first column (display_order=0 ?)
ext_w += 18; ext_w += 18; // add to geom. scheme (width of the checker) ??
header.item_width(pos, max_w + ext_w + 1 < max ? max_w + ext_w + 1 : max); header.item_width(pos, std::min(max, max_w + ext_w + 1 ));
return max_w; return max_w;
} }
@ -2660,7 +2683,8 @@ namespace nana
{ {
if(hd.visible) if(hd.visible)
{ {
if((static_cast<int>(hd.pixels) < x + 2) && (x < static_cast<int>(hd.pixels) + 3)) if(( static_cast<int>(hd.pixels) < x + static_cast<int>(essence_->scheme_ptr->header_mouse_spliter_area_before))
&& (x < static_cast<int>(hd.pixels) + static_cast<int>(essence_->scheme_ptr->header_mouse_spliter_area_after)) )
{ {
item_spliter_ = hd.index; // original index item_spliter_ = hd.index; // original index
return true; return true;
@ -2707,7 +2731,10 @@ namespace nana
auto new_w = orig_item_width_ - (ref_xpos_ - pos.x); auto new_w = orig_item_width_ - (ref_xpos_ - pos.x);
if(item.pixels != new_w) if(item.pixels != new_w)
{ {
essence_->header.item_width(item_spliter_, (new_w < (essence_->suspension_width + 20) ? essence_->suspension_width + 20 : new_w)); essence_->header.item_width(item_spliter_,
(new_w < ( essence_->scheme_ptr->suspension_width + essence_->scheme_ptr->min_header_width) ?
( essence_->scheme_ptr->suspension_width + essence_->scheme_ptr->min_header_width)
: new_w) );
new_w = essence_->header.pixels(); new_w = essence_->header.pixels();
if(new_w < (rect.width + essence_->scroll.offset_x)) if(new_w < (rect.width + essence_->scroll.offset_x))
essence_->scroll.offset_x = (new_w > rect.width ? new_w - rect.width : 0); essence_->scroll.offset_x = (new_w > rect.width ? new_w - rect.width : 0);
@ -2723,7 +2750,7 @@ namespace nana
{ {
graph_reference graph = *(essence_->graph); graph_reference graph = *(essence_->graph);
int text_top = (r.height - essence_->text_height) / 2 + r.y; int text_top = (r.height - essence_->scheme_ptr->text_height) / 2 + r.y;
auto text_color = essence_->lister.wd_ptr()->fgcolor(); auto text_color = essence_->lister.wd_ptr()->fgcolor();
auto state = item_state::normal; auto state = item_state::normal;
@ -2809,13 +2836,13 @@ namespace nana
} }
graph.gradual_rectangle({ x, y, item.pixels, height }, bgcolor.blend(colors::white, 0.9), bgcolor.blend(colors::black, 0.9), true); graph.gradual_rectangle({ x, y, item.pixels, height }, bgcolor.blend(colors::white, 0.9), bgcolor.blend(colors::black, 0.9), true);
graph.string({ x + 5, txtop }, item.text, fgcolor); graph.string({ x + static_cast<int>(essence_->scheme_ptr->ext_w), txtop }, item.text, fgcolor);
if(item.index == essence_->lister.sort_index()) if(item.index == essence_->lister.sort_index())
{ {
facade<element::arrow> arrow("hollow_triangle"); facade<element::arrow> arrow("hollow_triangle");
arrow.direction(essence_->lister.sort_reverse() ? ::nana::direction::south : ::nana::direction::north); arrow.direction(essence_->lister.sort_reverse() ? ::nana::direction::south : ::nana::direction::north);
arrow.draw(graph, {}, colors::black, { x + static_cast<int>(item.pixels - 16) / 2, -4, 16, 16 }, element_state::normal); arrow.draw(graph, {}, colors::black, { x + (static_cast<int>(item.pixels) - 16) / 2, -4, 16, 16 }, element_state::normal); // geometric scheme?
} }
} }
@ -2823,11 +2850,11 @@ namespace nana
{ {
const auto & item = essence_->header.column(essence_->pointer_where.second); const auto & item = essence_->header.column(essence_->pointer_where.second);
nana::paint::graphics ext_graph({ item.pixels, essence_->header_size }); nana::paint::graphics ext_graph({ item.pixels, essence_->scheme_ptr->header_height });
ext_graph.typeface(essence_->graph->typeface()); ext_graph.typeface(essence_->graph->typeface());
int txtop = (essence_->header_size - essence_->text_height) / 2; int txtop = (essence_->scheme_ptr->header_height - essence_->scheme_ptr->text_height) / 2;
_m_draw_header_item(ext_graph, 0, 0, essence_->header_size, txtop, colors::white, item, item_state::floated); _m_draw_header_item(ext_graph, 0, 0, essence_->scheme_ptr->header_height, txtop, colors::white, item, item_state::floated);
int xpos = essence_->header.item_pos(item.index, nullptr) + pos.x - ref_xpos_; int xpos = essence_->header.item_pos(item.index, nullptr) + pos.x - ref_xpos_;
ext_graph.blend(rectangle{ ext_graph.size() }, *(essence_->graph), nana::point(xpos - essence_->scroll.offset_x + rect.x, rect.y), 0.5); ext_graph.blend(rectangle{ ext_graph.size() }, *(essence_->graph), nana::point(xpos - essence_->scroll.offset_x + rect.x, rect.y), 0.5);
@ -2865,11 +2892,11 @@ namespace nana
auto bgcolor = wdptr->bgcolor(); auto bgcolor = wdptr->bgcolor();
auto fgcolor = wdptr->fgcolor(); auto fgcolor = wdptr->fgcolor();
unsigned header_w = essence_->header.pixels(); int header_w = essence_->header.pixels();
essence_->graph->palette(false, bgcolor); essence_->graph->palette(false, bgcolor);
if(header_w - essence_->scroll.offset_x < rect.width) if( header_w - essence_->scroll.offset_x < static_cast<int>(rect.width) )
essence_->graph->rectangle(rectangle{ point(rect.x + static_cast<int>(header_w)-essence_->scroll.offset_x, rect.y), essence_->graph->rectangle(rectangle{ point(rect.x + header_w -essence_->scroll.offset_x, rect.y),
size(static_cast<int>(rect.width) + essence_->scroll.offset_x - static_cast<int>(header_w), rect.height) }, size(static_cast<int>(rect.width) + essence_->scroll.offset_x - header_w , rect.height) },
true); true);
es_lister & lister = essence_->lister; es_lister & lister = essence_->lister;
@ -2888,7 +2915,7 @@ namespace nana
int x = essence_->item_xpos(rect); int x = essence_->item_xpos(rect);
int y = rect.y; int y = rect.y;
int txtoff = (essence_->item_size - essence_->text_height) / 2; int txtoff = (essence_->scheme_ptr->item_height - essence_->scheme_ptr->text_height) / 2;
auto i_categ = lister.get(essence_->scroll.offset_y_dpl.cat); auto i_categ = lister.get(essence_->scroll.offset_y_dpl.cat);
@ -2925,7 +2952,7 @@ namespace nana
item_index = lister.absolute_pair(item_index); item_index = lister.absolute_pair(item_index);
_m_draw_item(*i_categ, item_index, x, y, txtoff, header_w, rect, subitems, bgcolor,fgcolor, state); _m_draw_item(*i_categ, item_index, x, y, txtoff, header_w, rect, subitems, bgcolor,fgcolor, state);
y += essence_->item_size; y += essence_->scheme_ptr->item_height;
} }
++i_categ; ++i_categ;
@ -2940,7 +2967,7 @@ namespace nana
state = (tracker.is_category() && (idx.cat == tracker.cat) ? item_state::highlighted : item_state::normal); state = (tracker.is_category() && (idx.cat == tracker.cat) ? item_state::highlighted : item_state::normal);
_m_draw_categ(*i_categ, rect.x - essence_->scroll.offset_x, y, txtoff, header_w, rect, bgcolor, state); _m_draw_categ(*i_categ, rect.x - essence_->scroll.offset_x, y, txtoff, header_w, rect, bgcolor, state);
y += essence_->item_size; y += essence_->scheme_ptr->item_height;
if(false == i_categ->expand) if(false == i_categ->expand)
continue; continue;
@ -2956,7 +2983,7 @@ namespace nana
item_pos.item = lister.absolute(item_pos); item_pos.item = lister.absolute(item_pos);
_m_draw_item(*i_categ, item_pos, x, y, txtoff, header_w, rect, subitems, bgcolor, fgcolor, state); _m_draw_item(*i_categ, item_pos, x, y, txtoff, header_w, rect, subitems, bgcolor, fgcolor, state);
y += essence_->item_size; y += essence_->scheme_ptr->item_height;
++idx.item; ++idx.item;
} }
} }
@ -2977,14 +3004,14 @@ namespace nana
bgcolor = bgcolor.blend(static_cast<color_rgb>(0x99defd), 0.8); bgcolor = bgcolor.blend(static_cast<color_rgb>(0x99defd), 0.8);
auto graph = essence_->graph; auto graph = essence_->graph;
graph->rectangle(rectangle{ x, y, width, essence_->item_size }, true, bgcolor); graph->rectangle(rectangle{ x, y, width, essence_->scheme_ptr->item_height }, true, bgcolor);
color txt_color{ static_cast<color_rgb>(0x3399) }; color txt_color{ static_cast<color_rgb>(0x3399) };
facade<element::arrow> arrow("double"); facade<element::arrow> arrow("double");
arrow.direction(categ.expand ? ::nana::direction::north : ::nana::direction::south); arrow.direction(categ.expand ? ::nana::direction::north : ::nana::direction::south);
arrow.draw( *graph, {}, txt_color, arrow.draw( *graph, {}, txt_color,
{ x + 5, y + static_cast<int>(essence_->item_size - 16) / 2, 16, 16 }, { x + 5, y + static_cast<int>(essence_->scheme_ptr->item_height - 16) / 2, 16, 16 },
element_state::normal); element_state::normal);
graph->string({ x + 20, y + txtoff }, categ.text, txt_color); graph->string({ x + 20, y + txtoff }, categ.text, txt_color);
@ -2998,7 +3025,7 @@ namespace nana
if (x + 35 + extend_text_w < x + width) if (x + 35 + extend_text_w < x + width)
{ {
::nana::point pos{ x + 30 + static_cast<int>(extend_text_w), y + static_cast<int>(essence_->item_size) / 2 }; ::nana::point pos{ x + 30 + static_cast<int>(extend_text_w), y + static_cast<int>(essence_->scheme_ptr->item_height) / 2 };
graph->line(pos, { x + static_cast<int>(width)-5, pos.y }, txt_color); graph->line(pos, { x + static_cast<int>(width)-5, pos.y }, txt_color);
} }
@ -3013,12 +3040,12 @@ namespace nana
/// Draws an item /// Draws an item
void _m_draw_item(const category_t& cat, void _m_draw_item(const category_t& cat,
const index_pair& item_pos, const index_pair& item_pos,
const int x, const int x, ///< left coordinate ?
const int y, const int y, ///< top coordinate
const int txtoff, const int txtoff, ///< below y to print the text
unsigned width, unsigned width,
const nana::rectangle& content_r, ///< the rectangle where the full list content have to be drawn const nana::rectangle& content_r, ///< the rectangle where the full list content have to be drawn
const std::vector<size_type>& seqs, const std::vector<size_type>& seqs, ///< columns to print
nana::color bgcolor, nana::color bgcolor,
nana::color fgcolor, nana::color fgcolor,
item_state state item_state state
@ -3042,15 +3069,15 @@ namespace nana
bgcolor = bgcolor.blend(essence_->scheme_ptr->item_selected, 0.7); /// \todo create a parametre for amount of blend bgcolor = bgcolor.blend(essence_->scheme_ptr->item_selected, 0.7); /// \todo create a parametre for amount of blend
} }
unsigned show_w = width - essence_->scroll.offset_x; unsigned show_w = std::min(content_r.width, width - essence_->scroll.offset_x);
if(show_w >= content_r.width) show_w = content_r.width;
auto graph = essence_->graph; auto graph = essence_->graph;
//draw the background
graph->rectangle(rectangle{ content_r.x, y, show_w, essence_->item_size }, true, bgcolor); //draw the background for the whole item
graph->rectangle(rectangle{ content_r.x, y, show_w, essence_->scheme_ptr->item_height }, true, bgcolor);
int item_xpos = x; int item_xpos = x;
unsigned extreme_text = x; int extreme_text = x;
for (size_type display_order{ 0 }; display_order < seqs.size(); ++display_order) // get the cell (column) index in the order headers are displayed for (size_type display_order{ 0 }; display_order < seqs.size(); ++display_order) // get the cell (column) index in the order headers are displayed
{ {
@ -3058,16 +3085,16 @@ namespace nana
const auto & header = essence_->header.column(column_pos); // deduce the corresponding header which is in a kind of dislay order const auto & header = essence_->header.column(column_pos); // deduce the corresponding header which is in a kind of dislay order
auto it_bgcolor = bgcolor; auto it_bgcolor = bgcolor;
if (header.pixels > 5) if (header.pixels > essence_->scheme_ptr->ext_w )
{ {
int content_pos = 5; int content_pos = essence_->scheme_ptr->ext_w;
//Draw the image in the 1st column in display order //Draw the image in the 1st column in display order
if (0 == display_order) if (0 == display_order)
{ {
if (essence_->checkable) if (essence_->checkable)
{ {
content_pos += 18; content_pos += 18; // checker width, geom scheme?
element_state estate = element_state::normal; element_state estate = element_state::normal;
if (essence_->pointer_where.first == parts::checker) if (essence_->pointer_where.first == parts::checker)
@ -3093,17 +3120,17 @@ namespace nana
if (item.img) if (item.img)
{ {
nana::rectangle img_r(item.img_show_size); nana::rectangle img_r(item.img_show_size);
img_r.x = content_pos + item_xpos + static_cast<int>(16 - item.img_show_size.width) / 2; img_r.x = content_pos + item_xpos + (16 - static_cast<int>(item.img_show_size.width)) / 2; // center in 16 - geom scheme?
img_r.y = y + static_cast<int>(essence_->item_size - item.img_show_size.height) / 2; img_r.y = y + (static_cast<int>(essence_->scheme_ptr->item_height) - static_cast<int>(item.img_show_size.height)) / 2; // center
item.img.stretch(rectangle{ item.img.size() }, *graph, img_r); item.img.stretch(rectangle{ item.img.size() }, *graph, img_r);
} }
content_pos += 18; content_pos += 18; // image width, geom scheme?
} }
} }
bool draw_column = true; bool draw_column = true;
if (static_cast<unsigned>(content_pos) < header.pixels) if ( content_pos < static_cast<int>(header.pixels)) // we have room
{ {
auto inline_wdg = _m_get_inline_pane(cat, column_pos); auto inline_wdg = _m_get_inline_pane(cat, column_pos);
if (inline_wdg) if (inline_wdg)
@ -3114,7 +3141,7 @@ namespace nana
auto wdg_w = header.pixels - static_cast<unsigned>(content_pos); auto wdg_w = header.pixels - static_cast<unsigned>(content_pos);
bool visible_state = true; bool visible_state = true;
if (::nana::overlap(content_r, { wdg_x, y, wdg_w, essence_->item_size }, pane_r)) if (::nana::overlap(content_r, { wdg_x, y, wdg_w, essence_->scheme_ptr->item_height }, pane_r))
{ {
::nana::point pane_pos; ::nana::point pane_pos;
if (wdg_x < content_r.x) if (wdg_x < content_r.x)
@ -3129,7 +3156,7 @@ namespace nana
else else
visible_state = false; visible_state = false;
::nana::size sz{ wdg_w, essence_->item_size }; ::nana::size sz{ wdg_w, essence_->scheme_ptr->item_height };
inline_wdg->pane_widget.size(sz); inline_wdg->pane_widget.size(sz);
inline_wdg->inline_ptr->resize(sz); inline_wdg->inline_ptr->resize(sz);
@ -3176,7 +3203,7 @@ namespace nana
if (item_state::highlighted == state) if (item_state::highlighted == state)
it_bgcolor = it_bgcolor.blend(static_cast<color_rgb>(0x99defd), 0.8); it_bgcolor = it_bgcolor.blend(static_cast<color_rgb>(0x99defd), 0.8);
graph->rectangle(rectangle{ item_xpos, y, header.pixels, essence_->item_size }, true, it_bgcolor); graph->rectangle(rectangle{ item_xpos, y, header.pixels, essence_->scheme_ptr->item_height }, true, it_bgcolor);
cell_txtcolor = m_cell.custom_format->fgcolor; cell_txtcolor = m_cell.custom_format->fgcolor;
} }
@ -3185,35 +3212,37 @@ namespace nana
{ {
graph->string(point{ item_xpos + content_pos, y + txtoff }, m_cell.text, cell_txtcolor); // draw full text of the cell index (column) graph->string(point{ item_xpos + content_pos, y + txtoff }, m_cell.text, cell_txtcolor); // draw full text of the cell index (column)
if (static_cast<int>(ts.width) > static_cast<int>(header.pixels) - (content_pos + item_xpos)) // it was an excess int item_right = item_xpos + static_cast<int>(header.pixels);
int text_right = item_xpos + content_pos + static_cast<int>(ts.width);
int excess = text_right - item_right ;
if (excess > 0) // it was an excess
{ {
//The text is painted over the next subitem // here beging the ... //The text is painted over the next subitem // here beging the ...
int xpos = item_xpos + static_cast<int>(header.pixels) - static_cast<int>(essence_->suspension_width); int xpos = item_right - static_cast<int>(essence_->scheme_ptr->suspension_width);
// litter rect with the item bg end ... // litter rect with the item bg end ...
graph->rectangle(rectangle{ xpos, y + 2, essence_->suspension_width, essence_->item_size - 4 }, true, it_bgcolor); graph->rectangle(rectangle{ xpos, y /*+ 2*/, essence_->scheme_ptr->suspension_width, essence_->scheme_ptr->item_height /*- 4*/ }, true, it_bgcolor);
graph->string(point{ xpos, y + 2 }, L"..."); graph->string(point{ xpos, y /*+ 2*/ }, L"...");
//Erase the part that over the next subitem only if the right of column is less than right of listbox //Erase the part that over the next subitem only if the right of column is less than right of listbox
if (item_xpos + content_pos < content_r.right() - static_cast<int>(header.pixels)) if (item_right < content_r.right() )
{ {
graph->palette(false, bgcolor); // we need to erase the excess, because some cell may not draw text over graph->palette(false, bgcolor); // we need to erase the excess, because some cell may not draw text over
graph->rectangle(rectangle{ item_xpos + static_cast<int>(header.pixels), y + 2, graph->rectangle(rectangle( item_right, y /*+ 2*/, excess, essence_->scheme_ptr->item_height /*- 4*/ ), true);
ts.width + static_cast<unsigned>(content_pos)-header.pixels, essence_->item_size - 4 }, true);
} }
extreme_text = (std::max)(extreme_text, item_xpos + content_pos + ts.width); extreme_text = std::max(extreme_text, text_right);
} }
} }
} }
graph->line({ item_xpos - 1, y }, { item_xpos - 1, y + static_cast<int>(essence_->item_size) - 1 }, static_cast<color_rgb>(0xEBF4F9)); graph->line({ item_xpos - 1, y }, { item_xpos - 1, y + static_cast<int>(essence_->scheme_ptr->item_height) - 1 }, static_cast<color_rgb>(0xEBF4F9));
} }
item_xpos += static_cast<int>(header.pixels); item_xpos += static_cast<int>(header.pixels);
if (display_order + 1 >= seqs.size() && static_cast<int>(extreme_text) > item_xpos) if (display_order + 1 >= seqs.size() && extreme_text > item_xpos)
{ {
graph->rectangle(rectangle{item_xpos , y + 2, extreme_text - item_xpos, essence_->item_size - 4}, true, item.bgcolor); graph->rectangle(rectangle(item_xpos , y /*+ 2*/, extreme_text - item_xpos, essence_->scheme_ptr->item_height /*- 4*/), true, item.bgcolor);
} }
} }
@ -3260,13 +3289,13 @@ namespace nana
{ {
//Draw selecting inner rectangle //Draw selecting inner rectangle
auto graph = essence_->graph; auto graph = essence_->graph;
graph->rectangle({ x, y, width, essence_->item_size }, false, static_cast<color_rgb>(0x99defd)); graph->rectangle({ x, y, width, essence_->scheme_ptr->item_height }, false, static_cast<color_rgb>(0x99defd));
graph->rectangle({ x + 1, y + 1, width - 2, essence_->item_size - 2 }, false, colors::white); graph->rectangle({ x + 1, y + 1, width - 2, essence_->scheme_ptr->item_height - 2 }, false, colors::white);
graph->set_pixel(x, y); graph->set_pixel(x, y);
graph->set_pixel(x, y + essence_->item_size - 1); graph->set_pixel(x, y + essence_->scheme_ptr->item_height - 1);
graph->set_pixel(x + width - 1, y); graph->set_pixel(x + width - 1, y);
graph->set_pixel(x + width - 1, y + essence_->item_size - 1); graph->set_pixel(x + width - 1, y + essence_->scheme_ptr->item_height - 1);
} }
private: private:
essence_t * essence_; essence_t * essence_;
@ -3314,7 +3343,11 @@ namespace nana
void trigger::attached(widget_reference widget, graph_reference graph) void trigger::attached(widget_reference widget, graph_reference graph)
{ {
//essence_->scheme_ptr = &static_cast<::nana::listbox&>(widget).scheme();
//essence_->scheme_ptr->debug_print("In trigger::attached with &static_cast<::nana::listbox&>(widget).scheme();");
essence_->scheme_ptr = static_cast<::nana::listbox::scheme_type*>(API::dev::get_scheme(widget)); essence_->scheme_ptr = static_cast<::nana::listbox::scheme_type*>(API::dev::get_scheme(widget));
//essence_->scheme_ptr->debug_print("In trigger::attached with static_cast<::nana::listbox::scheme_type*>(API::dev::get_scheme(widget));");
essence_->graph = &graph; essence_->graph = &graph;
typeface_changed(graph); typeface_changed(graph);
@ -3329,9 +3362,9 @@ namespace nana
void trigger::typeface_changed(graph_reference graph) void trigger::typeface_changed(graph_reference graph)
{ {
essence_->text_height = graph.text_extent_size(L"jHWn0123456789/<?'{[|\\_").height; essence_->scheme_ptr->text_height = graph.text_extent_size(L"jHWn0123456789/<?'{[|\\_").height;
essence_->item_size = essence_->text_height + 6; essence_->scheme_ptr->item_height = essence_->scheme_ptr->text_height + essence_->scheme_ptr->item_height_ex;
essence_->suspension_width = graph.text_extent_size(L"...").width; essence_->scheme_ptr->suspension_width = graph.text_extent_size("...").width;
} }
void trigger::refresh(graph_reference) void trigger::refresh(graph_reference)
@ -3341,10 +3374,18 @@ namespace nana
nana::rectangle r; nana::rectangle r;
//essence_->scheme_ptr->debug_print("From trigger::refresh(graph_reference) ");
if (essence_->header.visible() && essence_->rect_header(r)) if (essence_->header.visible() && essence_->rect_header(r))
drawer_header_->draw(r); drawer_header_->draw(r);
//debug("Header: ", r);
if (essence_->rect_lister(r)) if (essence_->rect_lister(r))
drawer_lister_->draw(r); drawer_lister_->draw(r);
//debug("Lister: ", r);
_m_draw_border(); _m_draw_border();
} }
@ -3530,7 +3571,6 @@ namespace nana
} }
} }
void trigger::mouse_up(graph_reference graph, const arg_mouse& arg) void trigger::mouse_up(graph_reference graph, const arg_mouse& arg)
{ {
using item_state = essence_t::item_state; using item_state = essence_t::item_state;