// 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/label.h"
#include <algorithm>
#include <cmath>
#include <limits>
#include <vector>
#include "base/i18n/rtl.h"
#include "base/logging.h"
#include "base/strings/string_split.h"
#include "base/strings/string_util.h"
#include "base/strings/utf_string_conversions.h"
#include "ui/base/accessibility/accessible_view_state.h"
#include "ui/base/resource/resource_bundle.h"
#include "ui/gfx/canvas.h"
#include "ui/gfx/color_utils.h"
#include "ui/gfx/insets.h"
#include "ui/gfx/shadow_value.h"
#include "ui/gfx/text_elider.h"
#include "ui/gfx/text_utils.h"
#include "ui/native_theme/native_theme.h"
#include "ui/views/background.h"
namespace {
// The padding for the focus border when rendering focused text.
const int kFocusBorderPadding = 1;
const int kCachedSizeLimit = 10;
gfx::FontList GetDefaultFontList() {
return ui::ResourceBundle::GetSharedInstance().GetFontList(
ui::ResourceBundle::BaseFont);
}
} // namespace
namespace views {
// static
const char Label::kViewClassName[] = "Label";
Label::Label() {
Init(string16(), GetDefaultFontList());
}
Label::Label(const string16& text) {
Init(text, GetDefaultFontList());
}
Label::Label(const string16& text, const gfx::FontList& font_list) {
Init(text, font_list);
}
Label::Label(const string16& text, const gfx::Font& font) {
Init(text, gfx::FontList(font));
}
Label::~Label() {
}
void Label::SetFontList(const gfx::FontList& font_list) {
font_list_ = font_list;
ResetCachedSize();
PreferredSizeChanged();
SchedulePaint();
}
const gfx::Font& Label::font() const {
return font_list_.GetPrimaryFont();
}
void Label::SetFont(const gfx::Font& font) {
SetFontList(gfx::FontList(font));
}
void Label::SetText(const string16& text) {
if (text == text_)
return;
text_ = text;
ResetCachedSize();
PreferredSizeChanged();
SchedulePaint();
}
void Label::SetAutoColorReadabilityEnabled(bool enabled) {
auto_color_readability_ = enabled;
RecalculateColors();
}
void Label::SetEnabledColor(SkColor color) {
requested_enabled_color_ = color;
enabled_color_set_ = true;
RecalculateColors();
}
void Label::SetDisabledColor(SkColor color) {
requested_disabled_color_ = color;
disabled_color_set_ = true;
RecalculateColors();
}
void Label::SetBackgroundColor(SkColor color) {
background_color_ = color;
background_color_set_ = true;
RecalculateColors();
}
void Label::SetShadowColors(SkColor enabled_color, SkColor disabled_color) {
enabled_shadow_color_ = enabled_color;
disabled_shadow_color_ = disabled_color;
has_shadow_ = true;
}
void Label::SetShadowOffset(int x, int y) {
shadow_offset_.SetPoint(x, y);
}
void Label::ClearEmbellishing() {
has_shadow_ = false;
}
void Label::SetHorizontalAlignment(gfx::HorizontalAlignment alignment) {
// If the View's UI layout is right-to-left and directionality_mode_ is
// USE_UI_DIRECTIONALITY, we need to flip the alignment so that the alignment
// settings take into account the text directionality.
if (base::i18n::IsRTL() && (directionality_mode_ == USE_UI_DIRECTIONALITY) &&
(alignment != gfx::ALIGN_CENTER)) {
alignment = (alignment == gfx::ALIGN_LEFT) ?
gfx::ALIGN_RIGHT : gfx::ALIGN_LEFT;
}
if (horizontal_alignment_ != alignment) {
horizontal_alignment_ = alignment;
SchedulePaint();
}
}
void Label::SetLineHeight(int height) {
if (height != line_height_) {
line_height_ = height;
ResetCachedSize();
PreferredSizeChanged();
SchedulePaint();
}
}
void Label::SetMultiLine(bool multi_line) {
DCHECK(!multi_line || elide_behavior_ != ELIDE_IN_MIDDLE);
if (multi_line != is_multi_line_) {
is_multi_line_ = multi_line;
ResetCachedSize();
PreferredSizeChanged();
SchedulePaint();
}
}
void Label::SetAllowCharacterBreak(bool allow_character_break) {
if (allow_character_break != allow_character_break_) {
allow_character_break_ = allow_character_break;
ResetCachedSize();
PreferredSizeChanged();
SchedulePaint();
}
}
void Label::SetElideBehavior(ElideBehavior elide_behavior) {
DCHECK(elide_behavior != ELIDE_IN_MIDDLE || !is_multi_line_);
if (elide_behavior != elide_behavior_) {
elide_behavior_ = elide_behavior;
ResetCachedSize();
PreferredSizeChanged();
SchedulePaint();
}
}
void Label::SetTooltipText(const string16& tooltip_text) {
tooltip_text_ = tooltip_text;
}
void Label::SizeToFit(int max_width) {
DCHECK(is_multi_line_);
std::vector<string16> lines;
base::SplitString(text_, '\n', &lines);
int label_width = 0;
for (std::vector<string16>::const_iterator iter = lines.begin();
iter != lines.end(); ++iter) {
label_width = std::max(label_width, gfx::GetStringWidth(*iter, font_list_));
}
label_width += GetInsets().width();
if (max_width > 0)
label_width = std::min(label_width, max_width);
SetBounds(x(), y(), label_width, 0);
SizeToPreferredSize();
}
void Label::SetHasFocusBorder(bool has_focus_border) {
has_focus_border_ = has_focus_border;
if (is_multi_line_) {
ResetCachedSize();
PreferredSizeChanged();
}
}
gfx::Insets Label::GetInsets() const {
gfx::Insets insets = View::GetInsets();
if (focusable() || has_focus_border_) {
insets += gfx::Insets(kFocusBorderPadding, kFocusBorderPadding,
kFocusBorderPadding, kFocusBorderPadding);
}
return insets;
}
int Label::GetBaseline() const {
return GetInsets().top() + font_list_.GetBaseline();
}
gfx::Size Label::GetPreferredSize() {
// Return a size of (0, 0) if the label is not visible and if the
// collapse_when_hidden_ flag is set.
// TODO(munjal): This logic probably belongs to the View class. But for now,
// put it here since putting it in View class means all inheriting classes
// need ot respect the collapse_when_hidden_ flag.
if (!visible() && collapse_when_hidden_)
return gfx::Size();
gfx::Size prefsize(GetTextSize());
gfx::Insets insets = GetInsets();
prefsize.Enlarge(insets.width(), insets.height());
return prefsize;
}
int Label::GetHeightForWidth(int w) {
if (!is_multi_line_)
return View::GetHeightForWidth(w);
w = std::max(0, w - GetInsets().width());
for (size_t i = 0; i < cached_heights_.size(); ++i) {
const gfx::Size& s = cached_heights_[i];
if (s.width() == w)
return s.height() + GetInsets().height();
}
int cache_width = w;
int h = font_list_.GetHeight();
const int flags = ComputeDrawStringFlags();
gfx::Canvas::SizeStringInt(text_, font_list_, &w, &h, line_height_, flags);
cached_heights_[cached_heights_cursor_] = gfx::Size(cache_width, h);
cached_heights_cursor_ = (cached_heights_cursor_ + 1) % kCachedSizeLimit;
return h + GetInsets().height();
}
const char* Label::GetClassName() const {
return kViewClassName;
}
View* Label::GetTooltipHandlerForPoint(const gfx::Point& point) {
// Bail out if the label does not contain the point.
// Note that HitTestPoint() cannot be used here as it uses
// Label::HitTestRect() to determine if the point hits the label; and
// Label::HitTestRect() always fails. Instead, default HitTestRect()
// implementation should be used.
if (!View::HitTestRect(gfx::Rect(point, gfx::Size(1, 1))))
return NULL;
if (tooltip_text_.empty() && !ShouldShowDefaultTooltip())
return NULL;
return this;
}
bool Label::HitTestRect(const gfx::Rect& rect) const {
return false;
}
bool Label::GetTooltipText(const gfx::Point& p, string16* tooltip) const {
DCHECK(tooltip);
// If a tooltip has been explicitly set, use it.
if (!tooltip_text_.empty()) {
tooltip->assign(tooltip_text_);
return true;
}
// Show the full text if the text does not fit.
if (ShouldShowDefaultTooltip()) {
*tooltip = text_;
return true;
}
return false;
}
void Label::GetAccessibleState(ui::AccessibleViewState* state) {
state->role = ui::AccessibilityTypes::ROLE_STATICTEXT;
state->state = ui::AccessibilityTypes::STATE_READONLY;
state->name = text_;
}
void Label::PaintText(gfx::Canvas* canvas,
const string16& text,
const gfx::Rect& text_bounds,
int flags) {
gfx::ShadowValues shadows;
if (has_shadow_)
shadows.push_back(gfx::ShadowValue(shadow_offset_, 0,
enabled() ? enabled_shadow_color_ : disabled_shadow_color_));
canvas->DrawStringRectWithShadows(text, font_list_,
enabled() ? actual_enabled_color_ : actual_disabled_color_,
text_bounds, line_height_, flags, shadows);
if (HasFocus()) {
gfx::Rect focus_bounds = text_bounds;
focus_bounds.Inset(-kFocusBorderPadding, -kFocusBorderPadding);
canvas->DrawFocusRect(focus_bounds);
}
}
gfx::Size Label::GetTextSize() const {
if (!text_size_valid_) {
// For single-line strings, we supply the largest possible width, because
// while adding NO_ELLIPSIS to the flags works on Windows for forcing
// SizeStringInt() to calculate the desired width, it doesn't seem to work
// on Linux.
int w = is_multi_line_ ?
GetAvailableRect().width() : std::numeric_limits<int>::max();
int h = font_list_.GetHeight();
// For single-line strings, ignore the available width and calculate how
// wide the text wants to be.
int flags = ComputeDrawStringFlags();
if (!is_multi_line_)
flags |= gfx::Canvas::NO_ELLIPSIS;
gfx::Canvas::SizeStringInt(text_, font_list_, &w, &h, line_height_, flags);
text_size_.SetSize(w, h);
text_size_valid_ = true;
}
return text_size_;
}
void Label::OnBoundsChanged(const gfx::Rect& previous_bounds) {
text_size_valid_ &= !is_multi_line_;
}
void Label::OnPaint(gfx::Canvas* canvas) {
OnPaintBackground(canvas);
// We skip painting the focus border because it is being handled seperately by
// some subclasses of Label. We do not want View's focus border painting to
// interfere with that.
OnPaintBorder(canvas);
string16 paint_text;
gfx::Rect text_bounds;
int flags = 0;
CalculateDrawStringParams(&paint_text, &text_bounds, &flags);
PaintText(canvas, paint_text, text_bounds, flags);
}
void Label::OnNativeThemeChanged(const ui::NativeTheme* theme) {
UpdateColorsFromTheme(theme);
}
void Label::Init(const string16& text, const gfx::FontList& font_list) {
font_list_ = font_list;
enabled_color_set_ = disabled_color_set_ = background_color_set_ = false;
auto_color_readability_ = true;
UpdateColorsFromTheme(ui::NativeTheme::instance());
horizontal_alignment_ = gfx::ALIGN_CENTER;
line_height_ = 0;
is_multi_line_ = false;
allow_character_break_ = false;
elide_behavior_ = ELIDE_AT_END;
collapse_when_hidden_ = false;
directionality_mode_ = USE_UI_DIRECTIONALITY;
has_focus_border_ = false;
enabled_shadow_color_ = 0;
disabled_shadow_color_ = 0;
shadow_offset_.SetPoint(1, 1);
has_shadow_ = false;
cached_heights_.resize(kCachedSizeLimit);
ResetCachedSize();
SetText(text);
}
void Label::RecalculateColors() {
actual_enabled_color_ = auto_color_readability_ ?
color_utils::GetReadableColor(requested_enabled_color_,
background_color_) :
requested_enabled_color_;
actual_disabled_color_ = auto_color_readability_ ?
color_utils::GetReadableColor(requested_disabled_color_,
background_color_) :
requested_disabled_color_;
}
gfx::Rect Label::GetTextBounds() const {
gfx::Rect available_rect(GetAvailableRect());
gfx::Size text_size(GetTextSize());
text_size.set_width(std::min(available_rect.width(), text_size.width()));
gfx::Insets insets = GetInsets();
gfx::Point text_origin(insets.left(), insets.top());
switch (horizontal_alignment_) {
case gfx::ALIGN_LEFT:
break;
case gfx::ALIGN_CENTER:
// We put any extra margin pixel on the left rather than the right. We
// used to do this because measurement on Windows used
// GetTextExtentPoint32(), which could report a value one too large on the
// right; we now use DrawText(), and who knows if it can also do this.
text_origin.Offset((available_rect.width() + 1 - text_size.width()) / 2,
0);
break;
case gfx::ALIGN_RIGHT:
text_origin.set_x(available_rect.right() - text_size.width());
break;
default:
NOTREACHED();
break;
}
text_origin.Offset(0,
std::max(0, (available_rect.height() - text_size.height())) / 2);
return gfx::Rect(text_origin, text_size);
}
int Label::ComputeDrawStringFlags() const {
int flags = 0;
// We can't use subpixel rendering if the background is non-opaque.
if (SkColorGetA(background_color_) != 0xFF)
flags |= gfx::Canvas::NO_SUBPIXEL_RENDERING;
if (directionality_mode_ == AUTO_DETECT_DIRECTIONALITY) {
base::i18n::TextDirection direction =
base::i18n::GetFirstStrongCharacterDirection(text_);
if (direction == base::i18n::RIGHT_TO_LEFT)
flags |= gfx::Canvas::FORCE_RTL_DIRECTIONALITY;
else
flags |= gfx::Canvas::FORCE_LTR_DIRECTIONALITY;
}
switch (horizontal_alignment_) {
case gfx::ALIGN_LEFT:
flags |= gfx::Canvas::TEXT_ALIGN_LEFT;
break;
case gfx::ALIGN_CENTER:
flags |= gfx::Canvas::TEXT_ALIGN_CENTER;
break;
case gfx::ALIGN_RIGHT:
flags |= gfx::Canvas::TEXT_ALIGN_RIGHT;
break;
}
if (!is_multi_line_)
return flags;
flags |= gfx::Canvas::MULTI_LINE;
#if !defined(OS_WIN)
// Don't elide multiline labels on Linux.
// Todo(davemoore): Do we depend on eliding multiline text?
// Pango insists on limiting the number of lines to one if text is
// elided. You can get around this if you can pass a maximum height
// but we don't currently have that data when we call the pango code.
flags |= gfx::Canvas::NO_ELLIPSIS;
#endif
if (allow_character_break_)
flags |= gfx::Canvas::CHARACTER_BREAK;
return flags;
}
gfx::Rect Label::GetAvailableRect() const {
gfx::Rect bounds(size());
bounds.Inset(GetInsets());
return bounds;
}
void Label::CalculateDrawStringParams(string16* paint_text,
gfx::Rect* text_bounds,
int* flags) const {
DCHECK(paint_text && text_bounds && flags);
// TODO(msw): Use ElideRectangleText to support eliding multi-line text. Once
// this is done, we can set NO_ELLIPSIS unconditionally at the bottom.
if (is_multi_line_ || (elide_behavior_ == NO_ELIDE)) {
*paint_text = text_;
} else if (elide_behavior_ == ELIDE_IN_MIDDLE) {
*paint_text = gfx::ElideText(text_, font_list_, GetAvailableRect().width(),
gfx::ELIDE_IN_MIDDLE);
} else if (elide_behavior_ == ELIDE_AT_END) {
*paint_text = gfx::ElideText(text_, font_list_, GetAvailableRect().width(),
gfx::ELIDE_AT_END);
} else {
DCHECK_EQ(ELIDE_AS_EMAIL, elide_behavior_);
*paint_text = gfx::ElideEmail(text_, font_list_,
GetAvailableRect().width());
}
*text_bounds = GetTextBounds();
*flags = ComputeDrawStringFlags();
if (!is_multi_line_ || (elide_behavior_ == NO_ELIDE))
*flags |= gfx::Canvas::NO_ELLIPSIS;
}
void Label::UpdateColorsFromTheme(const ui::NativeTheme* theme) {
if (!enabled_color_set_) {
requested_enabled_color_ = theme->GetSystemColor(
ui::NativeTheme::kColorId_LabelEnabledColor);
}
if (!disabled_color_set_) {
requested_disabled_color_ = theme->GetSystemColor(
ui::NativeTheme::kColorId_LabelDisabledColor);
}
if (!background_color_set_) {
background_color_ = theme->GetSystemColor(
ui::NativeTheme::kColorId_LabelBackgroundColor);
}
RecalculateColors();
}
void Label::ResetCachedSize() {
text_size_valid_ = false;
cached_heights_cursor_ = 0;
for (int i = 0; i < kCachedSizeLimit; ++i)
cached_heights_[i] = gfx::Size();
}
bool Label::ShouldShowDefaultTooltip() const {
return !is_multi_line_ &&
gfx::GetStringWidth(text_, font_list_) > GetAvailableRect().width();
}
} // namespace views