// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include #include #if defined(ENABLE_OSR) #include "atom/browser/osr/osr_render_widget_host_view.h" #include "atom/browser/osr/osr_view_proxy.h" #endif #include "atom/browser/ui/autofill_popup.h" #include "atom/common/api/api_messages.h" #include "ui/display/display.h" #include "ui/display/screen.h" #include "ui/gfx/geometry/point.h" #include "ui/gfx/geometry/rect.h" #include "ui/gfx/geometry/vector2d.h" #include "ui/gfx/text_utils.h" namespace atom { namespace { std::pair CalculatePopupXAndWidth( const display::Display& left_display, const display::Display& right_display, int popup_required_width, const gfx::Rect& element_bounds, bool is_rtl) { int leftmost_display_x = left_display.bounds().x(); int rightmost_display_x = right_display.GetSizeInPixel().width() + right_display.bounds().x(); // Calculate the start coordinates for the popup if it is growing right or // the end position if it is growing to the left, capped to screen space. int right_growth_start = std::max( leftmost_display_x, std::min(rightmost_display_x, element_bounds.x())); int left_growth_end = std::max(leftmost_display_x, std::min(rightmost_display_x, element_bounds.right())); int right_available = rightmost_display_x - right_growth_start; int left_available = left_growth_end - leftmost_display_x; int popup_width = std::min(popup_required_width, std::max(right_available, left_available)); std::pair grow_right(right_growth_start, popup_width); std::pair grow_left(left_growth_end - popup_width, popup_width); // Prefer to grow towards the end (right for LTR, left for RTL). But if there // is not enough space available in the desired direction and more space in // the other direction, reverse it. if (is_rtl) { return left_available >= popup_width || left_available >= right_available ? grow_left : grow_right; } return right_available >= popup_width || right_available >= left_available ? grow_right : grow_left; } std::pair CalculatePopupYAndHeight( const display::Display& top_display, const display::Display& bottom_display, int popup_required_height, const gfx::Rect& element_bounds) { int topmost_display_y = top_display.bounds().y(); int bottommost_display_y = bottom_display.GetSizeInPixel().height() + bottom_display.bounds().y(); // Calculate the start coordinates for the popup if it is growing down or // the end position if it is growing up, capped to screen space. int top_growth_end = std::max( topmost_display_y, std::min(bottommost_display_y, element_bounds.y())); int bottom_growth_start = std::max(topmost_display_y, std::min(bottommost_display_y, element_bounds.bottom())); int top_available = bottom_growth_start - topmost_display_y; int bottom_available = bottommost_display_y - top_growth_end; // TODO(csharp): Restrict the popup height to what is available. if (bottom_available >= popup_required_height || bottom_available >= top_available) { // The popup can appear below the field. return std::make_pair(bottom_growth_start, popup_required_height); } else { // The popup must appear above the field. return std::make_pair(top_growth_end - popup_required_height, popup_required_height); } } display::Display GetDisplayNearestPoint( const gfx::Point& point, gfx::NativeView container_view) { return display::Screen::GetScreen()->GetDisplayNearestPoint(point); } } // namespace AutofillPopup::AutofillPopup(gfx::NativeView container_view) : container_view_(container_view), view_(nullptr) { bold_font_list_ = gfx::FontList().DeriveWithWeight(gfx::Font::Weight::BOLD); smaller_font_list_ = gfx::FontList().DeriveWithSizeDelta(kSmallerFontSizeDelta); } AutofillPopup::~AutofillPopup() { Hide(); } void AutofillPopup::CreateView( content::RenderFrameHost* frame_host, bool offscreen, views::Widget* parent_widget, const gfx::RectF& r) { frame_host_ = frame_host; gfx::Rect lb(std::floor(r.x()), std::floor(r.y() + r.height()), std::floor(r.width()), std::floor(r.height())); gfx::Point menu_position(lb.origin()); popup_bounds_in_view_ = lb; views::View::ConvertPointToScreen( parent_widget->GetContentsView(), &menu_position); popup_bounds_ = gfx::Rect(menu_position, lb.size()); element_bounds_ = popup_bounds_; Hide(); view_ = new AutofillPopupView(this, parent_widget); view_->Show(); #if defined(ENABLE_OSR) if (offscreen) { auto* osr_rwhv = static_cast( frame_host_->GetView()); view_->view_proxy_.reset(new OffscreenViewProxy(view_)); osr_rwhv->AddViewProxy(view_->view_proxy_.get()); } #endif } void AutofillPopup::Hide() { if (view_) { view_->Hide(); view_ = nullptr; } } void AutofillPopup::SetItems(const std::vector& values, const std::vector& labels) { values_ = values; labels_ = labels; if (view_) { view_->OnSuggestionsChanged(); } } void AutofillPopup::AcceptSuggestion(int index) { frame_host_->Send(new AtomAutofillFrameMsg_AcceptSuggestion( frame_host_->GetRoutingID(), GetValueAt(index))); } void AutofillPopup::UpdatePopupBounds(int height_compensation) { int desired_width = GetDesiredPopupWidth(); int desired_height = GetDesiredPopupHeight(); bool is_rtl = false; gfx::Point origin(element_bounds_.origin().x(), element_bounds_.origin().y() - height_compensation); gfx::Rect bounds(origin, element_bounds_.size()); gfx::Point top_left_corner_of_popup = origin + gfx::Vector2d(bounds.width() - desired_width, -desired_height); // This is the bottom right point of the popup if the popup is below the // element and grows to the right (since the is the lowest and furthest right // the popup could go). gfx::Point bottom_right_corner_of_popup = origin + gfx::Vector2d(desired_width, bounds.height() + desired_height); display::Display top_left_display = GetDisplayNearestPoint(top_left_corner_of_popup, container_view_); display::Display bottom_right_display = GetDisplayNearestPoint(bottom_right_corner_of_popup, container_view_); std::pair popup_x_and_width = CalculatePopupXAndWidth(top_left_display, bottom_right_display, desired_width, bounds, is_rtl); std::pair popup_y_and_height = CalculatePopupYAndHeight(top_left_display, bottom_right_display, desired_height, bounds); popup_bounds_ = gfx::Rect( popup_x_and_width.first, popup_y_and_height.first, popup_x_and_width.second, popup_y_and_height.second); popup_bounds_in_view_ = gfx::Rect( popup_bounds_in_view_.origin(), gfx::Size(popup_x_and_width.second, popup_y_and_height.second)); if (view_) view_->DoUpdateBoundsAndRedrawPopup(); } int AutofillPopup::GetDesiredPopupHeight() { return 2 * kPopupBorderThickness + values_.size() * kRowHeight; } int AutofillPopup::GetDesiredPopupWidth() { int popup_width = element_bounds_.width(); for (size_t i = 0; i < values_.size(); ++i) { int row_size = kEndPadding + 2 * kPopupBorderThickness + gfx::GetStringWidth(GetValueAt(i), GetValueFontListForRow(i)) + gfx::GetStringWidth(GetLabelAt(i), GetLabelFontListForRow(i)); if (GetLabelAt(i).length() > 0) row_size += kNamePadding + kEndPadding; popup_width = std::max(popup_width, row_size); } return popup_width; } gfx::Rect AutofillPopup::GetRowBounds(int index) { int top = kPopupBorderThickness + index * kRowHeight; return gfx::Rect(kPopupBorderThickness, top, popup_bounds_.width() - 2 * kPopupBorderThickness, kRowHeight); } const gfx::FontList& AutofillPopup::GetValueFontListForRow(int index) const { return bold_font_list_; } const gfx::FontList& AutofillPopup::GetLabelFontListForRow(int index) const { return smaller_font_list_; } ui::NativeTheme::ColorId AutofillPopup::GetBackgroundColorIDForRow( int index) const { return (view_ && index == view_->GetSelectedLine()) ? ui::NativeTheme::kColorId_ResultsTableHoveredBackground : ui::NativeTheme::kColorId_ResultsTableNormalBackground; } int AutofillPopup::GetLineCount() { return values_.size(); } base::string16 AutofillPopup::GetValueAt(int i) { return values_.at(i); } base::string16 AutofillPopup::GetLabelAt(int i) { return labels_.at(i); } int AutofillPopup::LineFromY(int y) const { int current_height = kPopupBorderThickness; for (size_t i = 0; i < values_.size(); ++i) { current_height += kRowHeight; if (y <= current_height) return i; } return values_.size() - 1; } } // namespace atom