root/ui/views/controls/single_split_view.cc

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DEFINITIONS

This source file includes following definitions.
  1. Layout
  2. GetClassName
  3. GetAccessibleState
  4. GetPreferredSize
  5. GetCursor
  6. GetDividerSize
  7. CalculateChildrenBounds
  8. SetAccessibleName
  9. OnMousePressed
  10. OnMouseDragged
  11. OnMouseCaptureLost
  12. OnBoundsChanged
  13. IsPointInDivider
  14. CalculateDividerOffset
  15. NormalizeDividerOffset

// 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 "ui/views/controls/single_split_view.h"

#include "skia/ext/skia_utils_win.h"
#include "ui/accessibility/ax_view_state.h"
#include "ui/base/cursor/cursor.h"
#include "ui/gfx/canvas.h"
#include "ui/views/background.h"
#include "ui/views/controls/single_split_view_listener.h"

namespace views {

// static
const char SingleSplitView::kViewClassName[] = "SingleSplitView";

// Size of the divider in pixels.
static const int kDividerSize = 4;

SingleSplitView::SingleSplitView(View* leading,
                                 View* trailing,
                                 Orientation orientation,
                                 SingleSplitViewListener* listener)
    : is_horizontal_(orientation == HORIZONTAL_SPLIT),
      divider_offset_(-1),
      resize_leading_on_bounds_change_(true),
      resize_disabled_(false),
      listener_(listener) {
  AddChildView(leading);
  AddChildView(trailing);
#if defined(OS_WIN)
  set_background(
      views::Background::CreateSolidBackground(
          skia::COLORREFToSkColor(GetSysColor(COLOR_3DFACE))));
#endif
}

void SingleSplitView::Layout() {
  gfx::Rect leading_bounds;
  gfx::Rect trailing_bounds;
  CalculateChildrenBounds(bounds(), &leading_bounds, &trailing_bounds);

  if (has_children()) {
    if (child_at(0)->visible())
      child_at(0)->SetBoundsRect(leading_bounds);
    if (child_count() > 1) {
      if (child_at(1)->visible())
        child_at(1)->SetBoundsRect(trailing_bounds);
    }
  }

  // Invoke super's implementation so that the children are layed out.
  View::Layout();
}

const char* SingleSplitView::GetClassName() const {
  return kViewClassName;
}

void SingleSplitView::GetAccessibleState(ui::AXViewState* state) {
  state->role = ui::AX_ROLE_GROUP;
  state->name = accessible_name_;
}

gfx::Size SingleSplitView::GetPreferredSize() {
  int width = 0;
  int height = 0;
  for (int i = 0; i < 2 && i < child_count(); ++i) {
    View* view = child_at(i);
    gfx::Size pref = view->GetPreferredSize();
    if (is_horizontal_) {
      width += pref.width();
      height = std::max(height, pref.height());
    } else {
      width = std::max(width, pref.width());
      height += pref.height();
    }
  }
  if (is_horizontal_)
    width += GetDividerSize();
  else
    height += GetDividerSize();
  return gfx::Size(width, height);
}

gfx::NativeCursor SingleSplitView::GetCursor(const ui::MouseEvent& event) {
  if (!IsPointInDivider(event.location()))
    return gfx::kNullCursor;
  return is_horizontal_ ?
      ui::kCursorEastWestResize : ui::kCursorNorthSouthResize;
}

int SingleSplitView::GetDividerSize() const {
  bool both_visible = child_count() > 1 && child_at(0)->visible() &&
      child_at(1)->visible();
  return both_visible && !resize_disabled_ ? kDividerSize : 0;
}

void SingleSplitView::CalculateChildrenBounds(
    const gfx::Rect& bounds,
    gfx::Rect* leading_bounds,
    gfx::Rect* trailing_bounds) const {
  bool is_leading_visible = has_children() && child_at(0)->visible();
  bool is_trailing_visible = child_count() > 1 && child_at(1)->visible();

  if (!is_leading_visible && !is_trailing_visible) {
    *leading_bounds = gfx::Rect();
    *trailing_bounds = gfx::Rect();
    return;
  }

  int divider_at;

  if (!is_trailing_visible) {
    divider_at = GetPrimaryAxisSize(bounds.width(), bounds.height());
  } else if (!is_leading_visible) {
    divider_at = 0;
  } else {
    divider_at =
        CalculateDividerOffset(divider_offset_, this->bounds(), bounds);
    divider_at = NormalizeDividerOffset(divider_at, bounds);
  }

  int divider_size = GetDividerSize();

  if (is_horizontal_) {
    *leading_bounds = gfx::Rect(0, 0, divider_at, bounds.height());
    *trailing_bounds =
        gfx::Rect(divider_at + divider_size, 0,
                  std::max(0, bounds.width() - divider_at - divider_size),
                  bounds.height());
  } else {
    *leading_bounds = gfx::Rect(0, 0, bounds.width(), divider_at);
    *trailing_bounds =
        gfx::Rect(0, divider_at + divider_size, bounds.width(),
                  std::max(0, bounds.height() - divider_at - divider_size));
  }
}

void SingleSplitView::SetAccessibleName(const base::string16& name) {
  accessible_name_ = name;
}

bool SingleSplitView::OnMousePressed(const ui::MouseEvent& event) {
  if (!IsPointInDivider(event.location()))
    return false;
  drag_info_.initial_mouse_offset = GetPrimaryAxisSize(event.x(), event.y());
  drag_info_.initial_divider_offset =
      NormalizeDividerOffset(divider_offset_, bounds());
  return true;
}

bool SingleSplitView::OnMouseDragged(const ui::MouseEvent& event) {
  if (child_count() < 2)
    return false;

  int delta_offset = GetPrimaryAxisSize(event.x(), event.y()) -
      drag_info_.initial_mouse_offset;
  if (is_horizontal_ && base::i18n::IsRTL())
    delta_offset *= -1;
  // Honor the first child's minimum size when resizing.
  gfx::Size min = child_at(0)->GetMinimumSize();
  int new_size = std::max(GetPrimaryAxisSize(min.width(), min.height()),
                          drag_info_.initial_divider_offset + delta_offset);

  // Honor the second child's minimum size, and don't let the view
  // get bigger than our width.
  min = child_at(1)->GetMinimumSize();
  new_size = std::min(GetPrimaryAxisSize() - kDividerSize -
      GetPrimaryAxisSize(min.width(), min.height()), new_size);

  if (new_size != divider_offset_) {
    set_divider_offset(new_size);
    if (!listener_ || listener_->SplitHandleMoved(this))
      Layout();
  }
  return true;
}

void SingleSplitView::OnMouseCaptureLost() {
  if (child_count() < 2)
    return;

  if (drag_info_.initial_divider_offset != divider_offset_) {
    set_divider_offset(drag_info_.initial_divider_offset);
    if (!listener_ || listener_->SplitHandleMoved(this))
      Layout();
  }
}

void SingleSplitView::OnBoundsChanged(const gfx::Rect& previous_bounds) {
  divider_offset_ = CalculateDividerOffset(divider_offset_, previous_bounds,
                                           bounds());
}

bool SingleSplitView::IsPointInDivider(const gfx::Point& p) {
  if (resize_disabled_)
    return false;

  if (child_count() < 2)
    return false;

  if (!child_at(0)->visible() || !child_at(1)->visible())
    return false;

  int divider_relative_offset;
  if (is_horizontal_) {
    divider_relative_offset =
        p.x() - child_at(base::i18n::IsRTL() ? 1 : 0)->width();
  } else {
    divider_relative_offset = p.y() - child_at(0)->height();
  }
  return (divider_relative_offset >= 0 &&
      divider_relative_offset < GetDividerSize());
}

int SingleSplitView::CalculateDividerOffset(
    int divider_offset,
    const gfx::Rect& previous_bounds,
    const gfx::Rect& new_bounds) const {
  if (resize_leading_on_bounds_change_ && divider_offset != -1) {
    // We do not update divider_offset on minimize (to zero) and on restore
    // (to largest value). As a result we get back to the original value upon
    // window restore.
    bool is_minimize_or_restore =
        previous_bounds.height() == 0 || new_bounds.height() == 0;
    if (!is_minimize_or_restore) {
      if (is_horizontal_)
        divider_offset += new_bounds.width() - previous_bounds.width();
      else
        divider_offset += new_bounds.height() - previous_bounds.height();

      if (divider_offset < 0)
        divider_offset = GetDividerSize();
    }
  }
  return divider_offset;
}

int SingleSplitView::NormalizeDividerOffset(int divider_offset,
                                            const gfx::Rect& bounds) const {
  int primary_axis_size = GetPrimaryAxisSize(bounds.width(), bounds.height());
  if (divider_offset < 0)
    // primary_axis_size may < GetDividerSize during initial layout.
    return std::max(0, (primary_axis_size - GetDividerSize()) / 2);
  return std::min(divider_offset,
                  std::max(primary_axis_size - GetDividerSize(), 0));
}

}  // namespace views

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