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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
/*
* This file contains painting functions for each of the gtk2 widgets.
* Adapted from the gtkdrawing.c, and gtk+2.0 source.
*/
#include <gtk/gtk.h>
#include <gdk/gdkprivate.h>
#include <string.h>
#include "gtkdrawing.h"
#include "mozilla/Assertions.h"
#include "mozilla/ScopeExit.h"
#include "prinrval.h"
#include "WidgetStyleCache.h"
#include "nsString.h"
#include "nsDebug.h"
#include "WidgetUtilsGtk.h"
#include <math.h>
#include <dlfcn.h>
static gboolean checkbox_check_state;
static gboolean notebook_has_tab_gap;
static ToggleGTKMetrics sCheckboxMetrics;
static ToggleGTKMetrics sRadioMetrics;
static ToolbarGTKMetrics sToolbarMetrics;
static CSDWindowDecorationSize sToplevelWindowDecorationSize;
static CSDWindowDecorationSize sPopupWindowDecorationSize;
using mozilla::Span;
#define ARROW_UP 0
#define ARROW_DOWN G_PI
#define ARROW_RIGHT G_PI_2
#define ARROW_LEFT (G_PI + G_PI_2)
#if 0
// It's used for debugging only to compare Gecko widget style with
// the ones used by Gtk+ applications.
static void
style_path_print(GtkStyleContext *context)
{
const GtkWidgetPath* path = gtk_style_context_get_path(context);
static auto sGtkWidgetPathToStringPtr =
(char * (*)(const GtkWidgetPath *))
dlsym(RTLD_DEFAULT, "gtk_widget_path_to_string");
fprintf(stderr, "Style path:\n%s\n\n", sGtkWidgetPathToStringPtr(path));
}
#endif
static GtkBorder operator+=(GtkBorder& first, const GtkBorder& second) {
first.left += second.left;
first.right += second.right;
first.top += second.top;
first.bottom += second.bottom;
return first;
}
static gint moz_gtk_get_tab_thickness(GtkStyleContext* style);
static void Inset(GdkRectangle*, const GtkBorder&);
static void InsetByMargin(GdkRectangle*, GtkStyleContext* style);
static void moz_gtk_add_style_margin(GtkStyleContext* style, gint* left,
gint* top, gint* right, gint* bottom) {
GtkBorder margin;
gtk_style_context_get_margin(style, gtk_style_context_get_state(style),
&margin);
*left += margin.left;
*right += margin.right;
*top += margin.top;
*bottom += margin.bottom;
}
static void moz_gtk_add_style_border(GtkStyleContext* style, gint* left,
gint* top, gint* right, gint* bottom) {
GtkBorder border;
gtk_style_context_get_border(style, gtk_style_context_get_state(style),
&border);
*left += border.left;
*right += border.right;
*top += border.top;
*bottom += border.bottom;
}
static void moz_gtk_add_style_padding(GtkStyleContext* style, gint* left,
gint* top, gint* right, gint* bottom) {
GtkBorder padding;
gtk_style_context_get_padding(style, gtk_style_context_get_state(style),
&padding);
*left += padding.left;
*right += padding.right;
*top += padding.top;
*bottom += padding.bottom;
}
static void moz_gtk_add_margin_border_padding(GtkStyleContext* style,
gint* left, gint* top,
gint* right, gint* bottom) {
moz_gtk_add_style_margin(style, left, top, right, bottom);
moz_gtk_add_style_border(style, left, top, right, bottom);
moz_gtk_add_style_padding(style, left, top, right, bottom);
}
static void moz_gtk_add_border_padding(GtkStyleContext* style, gint* left,
gint* top, gint* right, gint* bottom) {
moz_gtk_add_style_border(style, left, top, right, bottom);
moz_gtk_add_style_padding(style, left, top, right, bottom);
}
// In case there's an error in Gtk theme and preferred size is zero,
// return some sane values to pass mozilla automation tests.
// It should not happen in real-life.
#define MIN_WIDGET_SIZE 10
static void moz_gtk_sanity_preferred_size(GtkRequisition* requisition) {
if (requisition->width <= 0) {
requisition->width = MIN_WIDGET_SIZE;
}
if (requisition->height <= 0) {
requisition->height = MIN_WIDGET_SIZE;
}
}
// GetStateFlagsFromGtkWidgetState() can be safely used for the specific
// GtkWidgets that set both prelight and active flags. For other widgets,
// either the GtkStateFlags or Gecko's GtkWidgetState need to be carefully
// adjusted to match GTK behavior. Although GTK sets insensitive and focus
// flags in the generic GtkWidget base class, GTK adds prelight and active
// flags only to widgets that are expected to demonstrate prelight or active
// states. This contrasts with HTML where any element may have :active and
// :hover states, and so Gecko's GtkStateFlags do not necessarily map to GTK
// flags. Failure to restrict the flags in the same way as GTK can cause
// generic CSS selectors from some themes to unintentionally match elements
// that are not expected to change appearance on hover or mouse-down.
static GtkStateFlags GetStateFlagsFromGtkWidgetState(GtkWidgetState* state) {
GtkStateFlags stateFlags = GTK_STATE_FLAG_NORMAL;
if (state->disabled)
stateFlags = GTK_STATE_FLAG_INSENSITIVE;
else {
if (state->depressed || state->active)
stateFlags =
static_cast<GtkStateFlags>(stateFlags | GTK_STATE_FLAG_ACTIVE);
if (state->inHover)
stateFlags =
static_cast<GtkStateFlags>(stateFlags | GTK_STATE_FLAG_PRELIGHT);
if (state->focused)
stateFlags =
static_cast<GtkStateFlags>(stateFlags | GTK_STATE_FLAG_FOCUSED);
if (state->backdrop)
stateFlags =
static_cast<GtkStateFlags>(stateFlags | GTK_STATE_FLAG_BACKDROP);
}
return stateFlags;
}
static GtkStateFlags GetStateFlagsFromGtkTabFlags(GtkTabFlags flags) {
return ((flags & MOZ_GTK_TAB_SELECTED) == 0) ? GTK_STATE_FLAG_NORMAL
: GTK_STATE_FLAG_ACTIVE;
}
gint moz_gtk_init() {
if (gtk_major_version > 3 ||
(gtk_major_version == 3 && gtk_minor_version >= 14))
checkbox_check_state = GTK_STATE_FLAG_CHECKED;
else
checkbox_check_state = GTK_STATE_FLAG_ACTIVE;
moz_gtk_refresh();
return MOZ_GTK_SUCCESS;
}
void moz_gtk_refresh() {
if (gtk_check_version(3, 20, 0) != nullptr) {
// Deprecated for Gtk >= 3.20+
GtkStyleContext* style = GetStyleContext(MOZ_GTK_TAB_TOP);
gtk_style_context_get_style(style, "has-tab-gap", ¬ebook_has_tab_gap,
NULL);
} else {
notebook_has_tab_gap = true;
}
sCheckboxMetrics.initialized = false;
sRadioMetrics.initialized = false;
sToolbarMetrics.initialized = false;
sToplevelWindowDecorationSize.initialized = false;
sPopupWindowDecorationSize.initialized = false;
/* This will destroy all of our widgets */
ResetWidgetCache();
}
gint moz_gtk_button_get_default_overflow(gint* border_top, gint* border_left,
gint* border_bottom,
gint* border_right) {
GtkBorder* default_outside_border;
GtkStyleContext* style = GetStyleContext(MOZ_GTK_BUTTON);
gtk_style_context_get_style(style, "default-outside-border",
&default_outside_border, NULL);
if (default_outside_border) {
*border_top = default_outside_border->top;
*border_left = default_outside_border->left;
*border_bottom = default_outside_border->bottom;
*border_right = default_outside_border->right;
gtk_border_free(default_outside_border);
} else {
*border_top = *border_left = *border_bottom = *border_right = 0;
}
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_button_get_default_border(gint* border_top,
gint* border_left,
gint* border_bottom,
gint* border_right) {
GtkBorder* default_border;
GtkStyleContext* style = GetStyleContext(MOZ_GTK_BUTTON);
gtk_style_context_get_style(style, "default-border", &default_border, NULL);
if (default_border) {
*border_top = default_border->top;
*border_left = default_border->left;
*border_bottom = default_border->bottom;
*border_right = default_border->right;
gtk_border_free(default_border);
} else {
/* see gtkbutton.c */
*border_top = *border_left = *border_bottom = *border_right = 1;
}
return MOZ_GTK_SUCCESS;
}
gint moz_gtk_splitter_get_metrics(gint orientation, gint* size) {
GtkStyleContext* style;
if (orientation == GTK_ORIENTATION_HORIZONTAL) {
style = GetStyleContext(MOZ_GTK_SPLITTER_HORIZONTAL);
} else {
style = GetStyleContext(MOZ_GTK_SPLITTER_VERTICAL);
}
gtk_style_context_get_style(style, "handle_size", size, NULL);
return MOZ_GTK_SUCCESS;
}
static void CalculateToolbarButtonMetrics(WidgetNodeType aAppearance,
ToolbarButtonGTKMetrics* aMetrics) {
gint iconWidth, iconHeight;
if (!gtk_icon_size_lookup(GTK_ICON_SIZE_MENU, &iconWidth, &iconHeight)) {
NS_WARNING("Failed to get Gtk+ icon size for titlebar button!");
// Use some reasonable fallback size
iconWidth = 16;
iconHeight = 16;
}
GtkStyleContext* style = GetStyleContext(aAppearance);
gint width = 0, height = 0;
if (!gtk_check_version(3, 20, 0)) {
gtk_style_context_get(style, gtk_style_context_get_state(style),
"min-width", &width, "min-height", &height, NULL);
}
// Cover cases when min-width/min-height is not set, it's invalid
// or we're running on Gtk+ < 3.20.
if (width < iconWidth) width = iconWidth;
if (height < iconHeight) height = iconHeight;
gint left = 0, top = 0, right = 0, bottom = 0;
moz_gtk_add_border_padding(style, &left, &top, &right, &bottom);
// Button size is calculated as min-width/height + border/padding.
width += left + right;
height += top + bottom;
// Place icon at button center.
aMetrics->iconXPosition = (width - iconWidth) / 2;
aMetrics->iconYPosition = (height - iconHeight) / 2;
aMetrics->minSizeWithBorder = {width, height};
}
size_t GetGtkHeaderBarButtonLayout(Span<ButtonLayout> aButtonLayout,
bool* aReversedButtonsPlacement) {
gchar* decorationLayoutSetting = nullptr;
GtkSettings* settings = gtk_settings_get_default();
g_object_get(settings, "gtk-decoration-layout", &decorationLayoutSetting,
nullptr);
auto free = mozilla::MakeScopeExit([&] { g_free(decorationLayoutSetting); });
// Use a default layout
const gchar* decorationLayout = "menu:minimize,maximize,close";
if (decorationLayoutSetting) {
decorationLayout = decorationLayoutSetting;
}
// "minimize,maximize,close:" layout means buttons are on the opposite
// titlebar side. close button is always there.
if (aReversedButtonsPlacement) {
const char* closeButton = strstr(decorationLayout, "close");
const char* separator = strchr(decorationLayout, ':');
*aReversedButtonsPlacement =
closeButton && separator && closeButton < separator;
}
// We check what position a button string is stored in decorationLayout.
//
// decorationLayout gets its value from the GNOME preference:
// org.gnome.desktop.vm.preferences.button-layout via the
// gtk-decoration-layout property.
//
// Documentation of the gtk-decoration-layout property can be found here:
if (aButtonLayout.IsEmpty()) {
return 0;
}
nsDependentCSubstring layout(decorationLayout, strlen(decorationLayout));
size_t activeButtons = 0;
for (const auto& part : layout.Split(':')) {
for (const auto& button : part.Split(',')) {
if (button.EqualsLiteral("close")) {
aButtonLayout[activeButtons++] = {MOZ_GTK_HEADER_BAR_BUTTON_CLOSE};
} else if (button.EqualsLiteral("minimize")) {
aButtonLayout[activeButtons++] = {MOZ_GTK_HEADER_BAR_BUTTON_MINIMIZE};
} else if (button.EqualsLiteral("maximize")) {
aButtonLayout[activeButtons++] = {MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE};
}
if (activeButtons == aButtonLayout.Length()) {
return activeButtons;
}
}
}
return activeButtons;
}
static void EnsureToolbarMetrics() {
if (sToolbarMetrics.initialized) {
return;
}
// Make sure we have clean cache after theme reset, etc.
memset(&sToolbarMetrics, 0, sizeof(sToolbarMetrics));
// Calculate titlebar button visibility and positions.
ButtonLayout buttonLayout[TOOLBAR_BUTTONS];
size_t activeButtonNums =
GetGtkHeaderBarButtonLayout(Span(buttonLayout), nullptr);
for (const auto& layout : Span(buttonLayout, activeButtonNums)) {
int buttonIndex = layout.mType - MOZ_GTK_HEADER_BAR_BUTTON_CLOSE;
ToolbarButtonGTKMetrics* metrics = &sToolbarMetrics.button[buttonIndex];
CalculateToolbarButtonMetrics(layout.mType, metrics);
}
sToolbarMetrics.initialized = true;
}
const ToolbarButtonGTKMetrics* GetToolbarButtonMetrics(
WidgetNodeType aAppearance) {
EnsureToolbarMetrics();
int buttonIndex = (aAppearance - MOZ_GTK_HEADER_BAR_BUTTON_CLOSE);
NS_ASSERTION(buttonIndex >= 0 && buttonIndex <= TOOLBAR_BUTTONS,
"GetToolbarButtonMetrics(): Wrong titlebar button!");
return sToolbarMetrics.button + buttonIndex;
}
static gint moz_gtk_window_decoration_paint(cairo_t* cr,
const GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
if (mozilla::widget::GdkIsWaylandDisplay()) {
// Doesn't seem to be needed.
return MOZ_GTK_SUCCESS;
}
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
GtkStyleContext* windowStyle =
GetStyleContext(MOZ_GTK_HEADERBAR_WINDOW, state->image_scale);
const bool solidDecorations =
gtk_style_context_has_class(windowStyle, "solid-csd");
GtkStyleContext* decorationStyle =
GetStyleContext(solidDecorations ? MOZ_GTK_WINDOW_DECORATION_SOLID
: MOZ_GTK_WINDOW_DECORATION,
state->image_scale, GTK_TEXT_DIR_LTR, state_flags);
gtk_render_background(decorationStyle, cr, rect->x, rect->y, rect->width,
rect->height);
gtk_render_frame(decorationStyle, cr, rect->x, rect->y, rect->width,
rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_button_paint(cairo_t* cr, const GdkRectangle* rect,
GtkWidgetState* state, GtkReliefStyle relief,
GtkWidget* widget,
GtkTextDirection direction) {
if (!widget) {
return MOZ_GTK_UNKNOWN_WIDGET;
}
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
GtkStyleContext* style = gtk_widget_get_style_context(widget);
gint x = rect->x, y = rect->y, width = rect->width, height = rect->height;
gtk_widget_set_direction(widget, direction);
gtk_style_context_save(style);
StyleContextSetScale(style, state->image_scale);
gtk_style_context_set_state(style, state_flags);
if (state->isDefault && relief == GTK_RELIEF_NORMAL && !state->focused &&
!(state_flags & GTK_STATE_FLAG_PRELIGHT)) {
/* handle default borders both outside and inside the button */
gint default_top, default_left, default_bottom, default_right;
moz_gtk_button_get_default_overflow(&default_top, &default_left,
&default_bottom, &default_right);
x -= default_left;
y -= default_top;
width += default_left + default_right;
height += default_top + default_bottom;
gtk_render_background(style, cr, x, y, width, height);
gtk_render_frame(style, cr, x, y, width, height);
moz_gtk_button_get_default_border(&default_top, &default_left,
&default_bottom, &default_right);
x += default_left;
y += default_top;
width -= (default_left + default_right);
height -= (default_top + default_bottom);
} else if (relief != GTK_RELIEF_NONE || state->depressed ||
(state_flags & GTK_STATE_FLAG_PRELIGHT)) {
/* the following line can trigger an assertion (Crux theme)
file ../../gdk/gdkwindow.c: line 1846 (gdk_window_clear_area):
assertion `GDK_IS_WINDOW (window)' failed */
gtk_render_background(style, cr, x, y, width, height);
gtk_render_frame(style, cr, x, y, width, height);
}
if (state->focused) {
GtkBorder border;
gtk_style_context_get_border(style, state_flags, &border);
x += border.left;
y += border.top;
width -= (border.left + border.right);
height -= (border.top + border.bottom);
gtk_render_focus(style, cr, x, y, width, height);
}
gtk_style_context_restore(style);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_header_bar_button_paint(cairo_t* cr, GdkRectangle* aRect,
GtkWidgetState* state,
GtkReliefStyle relief,
WidgetNodeType aIconWidgetType,
GtkTextDirection direction) {
GtkWidget* buttonWidget = GetWidget(aIconWidgetType);
if (!buttonWidget) {
return MOZ_GTK_UNKNOWN_WIDGET;
}
const ToolbarButtonGTKMetrics* metrics = GetToolbarButtonMetrics(
aIconWidgetType == MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE_RESTORE
? MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE
: aIconWidgetType);
// Vertically center and clamp the rect to the desired size.
if (aRect->height > metrics->minSizeWithBorder.height) {
gint diff = aRect->height - metrics->minSizeWithBorder.height;
aRect->y += diff / 2;
aRect->height = metrics->minSizeWithBorder.height;
}
moz_gtk_button_paint(cr, aRect, state, relief, buttonWidget, direction);
GtkWidget* iconWidget =
gtk_bin_get_child(GTK_BIN(GetWidget(aIconWidgetType)));
if (!iconWidget) {
return MOZ_GTK_UNKNOWN_WIDGET;
}
cairo_surface_t* surface =
GetWidgetIconSurface(iconWidget, state->image_scale);
if (surface) {
GtkStyleContext* style = gtk_widget_get_style_context(buttonWidget);
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
gtk_style_context_save(style);
StyleContextSetScale(style, state->image_scale);
gtk_style_context_set_state(style, state_flags);
/* This is available since Gtk+ 3.10 as well as GtkHeaderBar */
gtk_render_icon_surface(style, cr, surface,
aRect->x + metrics->iconXPosition,
aRect->y + metrics->iconYPosition);
gtk_style_context_restore(style);
}
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_toggle_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state, gboolean selected,
gboolean inconsistent, gboolean isradio,
GtkTextDirection direction) {
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
gint x, y, width, height;
GtkStyleContext* style;
// We need to call this before GetStyleContext, because otherwise we would
// reset state flags
const ToggleGTKMetrics* metrics =
GetToggleMetrics(isradio ? MOZ_GTK_RADIOBUTTON : MOZ_GTK_CHECKBUTTON);
// Clamp the rect and paint it center aligned in the rect.
x = rect->x;
y = rect->y;
width = rect->width;
height = rect->height;
if (rect->width < rect->height) {
y = rect->y + (rect->height - rect->width) / 2;
height = rect->width;
}
if (rect->height < rect->width) {
x = rect->x + (rect->width - rect->height) / 2;
width = rect->height;
}
if (selected)
state_flags =
static_cast<GtkStateFlags>(state_flags | checkbox_check_state);
if (inconsistent)
state_flags =
static_cast<GtkStateFlags>(state_flags | GTK_STATE_FLAG_INCONSISTENT);
style = GetStyleContext(isradio ? MOZ_GTK_RADIOBUTTON : MOZ_GTK_CHECKBUTTON,
state->image_scale, direction, state_flags);
if (gtk_check_version(3, 20, 0) == nullptr) {
gtk_render_background(style, cr, x, y, width, height);
gtk_render_frame(style, cr, x, y, width, height);
// Indicator is inset by the toggle's padding and border.
gint indicator_x = x + metrics->borderAndPadding.left;
gint indicator_y = y + metrics->borderAndPadding.top;
gint indicator_width = metrics->minSizeWithBorder.width -
metrics->borderAndPadding.left -
metrics->borderAndPadding.right;
gint indicator_height = metrics->minSizeWithBorder.height -
metrics->borderAndPadding.top -
metrics->borderAndPadding.bottom;
if (isradio) {
gtk_render_option(style, cr, indicator_x, indicator_y, indicator_width,
indicator_height);
} else {
gtk_render_check(style, cr, indicator_x, indicator_y, indicator_width,
indicator_height);
}
} else {
if (isradio) {
gtk_render_option(style, cr, x, y, width, height);
} else {
gtk_render_check(style, cr, x, y, width, height);
}
}
return MOZ_GTK_SUCCESS;
}
static gint calculate_button_inner_rect(GtkWidget* button,
const GdkRectangle* rect,
GdkRectangle* inner_rect,
GtkTextDirection direction) {
GtkStyleContext* style;
GtkBorder border;
GtkBorder padding = {0, 0, 0, 0};
style = gtk_widget_get_style_context(button);
/* This mirrors gtkbutton's child positioning */
gtk_style_context_get_border(style, gtk_style_context_get_state(style),
&border);
gtk_style_context_get_padding(style, gtk_style_context_get_state(style),
&padding);
inner_rect->x = rect->x + border.left + padding.left;
inner_rect->y = rect->y + padding.top + border.top;
inner_rect->width =
MAX(1, rect->width - padding.left - padding.right - border.left * 2);
inner_rect->height =
MAX(1, rect->height - padding.top - padding.bottom - border.top * 2);
return MOZ_GTK_SUCCESS;
}
static gint calculate_arrow_rect(GtkWidget* arrow, GdkRectangle* rect,
GdkRectangle* arrow_rect,
GtkTextDirection direction) {
/* defined in gtkarrow.c */
gfloat arrow_scaling = 0.7;
gfloat xalign, xpad;
gint extent;
gint mxpad, mypad;
gfloat mxalign, myalign;
GtkMisc* misc = GTK_MISC(arrow);
gtk_style_context_get_style(gtk_widget_get_style_context(arrow),
"arrow_scaling", &arrow_scaling, NULL);
gtk_misc_get_padding(misc, &mxpad, &mypad);
extent = MIN((rect->width - mxpad * 2), (rect->height - mypad * 2)) *
arrow_scaling;
gtk_misc_get_alignment(misc, &mxalign, &myalign);
xalign = direction == GTK_TEXT_DIR_LTR ? mxalign : 1.0 - mxalign;
xpad = mxpad + (rect->width - extent) * xalign;
arrow_rect->x = direction == GTK_TEXT_DIR_LTR ? floor(rect->x + xpad)
: ceil(rect->x + xpad);
arrow_rect->y = floor(rect->y + mypad + ((rect->height - extent) * myalign));
arrow_rect->width = arrow_rect->height = extent;
return MOZ_GTK_SUCCESS;
}
/**
* Get minimum widget size as sum of margin, padding, border and
* min-width/min-height.
*/
static void moz_gtk_get_widget_min_size(GtkStyleContext* style, int* width,
int* height) {
GtkStateFlags state_flags = gtk_style_context_get_state(style);
gtk_style_context_get(style, state_flags, "min-height", height, "min-width",
width, nullptr);
GtkBorder border, padding, margin;
gtk_style_context_get_border(style, state_flags, &border);
gtk_style_context_get_padding(style, state_flags, &padding);
gtk_style_context_get_margin(style, state_flags, &margin);
*width += border.left + border.right + margin.left + margin.right +
padding.left + padding.right;
*height += border.top + border.bottom + margin.top + margin.bottom +
padding.top + padding.bottom;
}
static void Inset(GdkRectangle* rect, const GtkBorder& aBorder) {
rect->x += aBorder.left;
rect->y += aBorder.top;
rect->width -= aBorder.left + aBorder.right;
rect->height -= aBorder.top + aBorder.bottom;
}
// Inset a rectangle by the margins specified in a style context.
static void InsetByMargin(GdkRectangle* rect, GtkStyleContext* style) {
GtkBorder margin;
gtk_style_context_get_margin(style, gtk_style_context_get_state(style),
&margin);
Inset(rect, margin);
}
// Inset a rectangle by the border and padding specified in a style context.
static void InsetByBorderPadding(GdkRectangle* rect, GtkStyleContext* style) {
GtkStateFlags state = gtk_style_context_get_state(style);
GtkBorder padding, border;
gtk_style_context_get_padding(style, state, &padding);
Inset(rect, padding);
gtk_style_context_get_border(style, state, &border);
Inset(rect, border);
}
static void moz_gtk_draw_styled_frame(GtkStyleContext* style, cairo_t* cr,
const GdkRectangle* aRect,
bool drawFocus) {
GdkRectangle rect = *aRect;
InsetByMargin(&rect, style);
gtk_render_background(style, cr, rect.x, rect.y, rect.width, rect.height);
gtk_render_frame(style, cr, rect.x, rect.y, rect.width, rect.height);
if (drawFocus) {
gtk_render_focus(style, cr, rect.x, rect.y, rect.width, rect.height);
}
}
static gint moz_gtk_inner_spin_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_SPINBUTTON, state->image_scale, direction,
GetStateFlagsFromGtkWidgetState(state));
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
/* hard code these values */
GdkRectangle arrow_rect;
arrow_rect.width = 6;
arrow_rect.height = 6;
// align spin to the left
arrow_rect.x = rect->x;
// up button
arrow_rect.y = rect->y + (rect->height - arrow_rect.height) / 2 - 3;
gtk_render_arrow(style, cr, ARROW_UP, arrow_rect.x, arrow_rect.y,
arrow_rect.width);
// down button
arrow_rect.y = rect->y + (rect->height - arrow_rect.height) / 2 + 3;
gtk_render_arrow(style, cr, ARROW_DOWN, arrow_rect.x, arrow_rect.y,
arrow_rect.width);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_spin_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_SPINBUTTON, state->image_scale, direction);
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_spin_updown_paint(cairo_t* cr, GdkRectangle* rect,
gboolean isDown, GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_SPINBUTTON, state->image_scale, direction,
GetStateFlagsFromGtkWidgetState(state));
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
/* hard code these values */
GdkRectangle arrow_rect;
arrow_rect.width = 6;
arrow_rect.height = 6;
arrow_rect.x = rect->x + (rect->width - arrow_rect.width) / 2;
arrow_rect.y = rect->y + (rect->height - arrow_rect.height) / 2;
arrow_rect.y += isDown ? -1 : 1;
gtk_render_arrow(style, cr, isDown ? ARROW_DOWN : ARROW_UP, arrow_rect.x,
arrow_rect.y, arrow_rect.width);
return MOZ_GTK_SUCCESS;
}
/* See gtk_range_draw() for reference.
*/
static gint moz_gtk_scale_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state, GtkOrientation flags,
GtkTextDirection direction) {
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
gint x, y, width, height, min_width, min_height;
GtkStyleContext* style;
GtkBorder margin;
moz_gtk_get_scale_metrics(flags, &min_width, &min_height);
WidgetNodeType widget = (flags == GTK_ORIENTATION_HORIZONTAL)
? MOZ_GTK_SCALE_TROUGH_HORIZONTAL
: MOZ_GTK_SCALE_TROUGH_VERTICAL;
style = GetStyleContext(widget, state->image_scale, direction, state_flags);
gtk_style_context_get_margin(style, state_flags, &margin);
// Clamp the dimension perpendicular to the direction that the slider crosses
// to the minimum size.
if (flags == GTK_ORIENTATION_HORIZONTAL) {
width = rect->width - (margin.left + margin.right);
height = min_height - (margin.top + margin.bottom);
x = rect->x + margin.left;
y = rect->y + (rect->height - height) / 2;
} else {
width = min_width - (margin.left + margin.right);
height = rect->height - (margin.top + margin.bottom);
x = rect->x + (rect->width - width) / 2;
y = rect->y + margin.top;
}
gtk_render_background(style, cr, x, y, width, height);
gtk_render_frame(style, cr, x, y, width, height);
if (state->focused)
gtk_render_focus(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_scale_thumb_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkOrientation flags,
GtkTextDirection direction) {
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
GtkStyleContext* style;
gint thumb_width, thumb_height, x, y;
/* determine the thumb size, and position the thumb in the center in the
* opposite axis
*/
if (flags == GTK_ORIENTATION_HORIZONTAL) {
moz_gtk_get_scalethumb_metrics(GTK_ORIENTATION_HORIZONTAL, &thumb_width,
&thumb_height);
x = rect->x;
y = rect->y + (rect->height - thumb_height) / 2;
} else {
moz_gtk_get_scalethumb_metrics(GTK_ORIENTATION_VERTICAL, &thumb_height,
&thumb_width);
x = rect->x + (rect->width - thumb_width) / 2;
y = rect->y;
}
WidgetNodeType widget = (flags == GTK_ORIENTATION_HORIZONTAL)
? MOZ_GTK_SCALE_THUMB_HORIZONTAL
: MOZ_GTK_SCALE_THUMB_VERTICAL;
style = GetStyleContext(widget, state->image_scale, direction, state_flags);
gtk_render_slider(style, cr, x, y, thumb_width, thumb_height, flags);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_hpaned_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_SPLITTER_SEPARATOR_HORIZONTAL, state->image_scale,
GTK_TEXT_DIR_LTR, GetStateFlagsFromGtkWidgetState(state));
gtk_render_handle(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_vpaned_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_SPLITTER_SEPARATOR_VERTICAL, state->image_scale,
GTK_TEXT_DIR_LTR, GetStateFlagsFromGtkWidgetState(state));
gtk_render_handle(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
// See gtk_entry_draw() for reference.
static gint moz_gtk_entry_paint(cairo_t* cr, const GdkRectangle* aRect,
GtkWidgetState* state, GtkStyleContext* style,
WidgetNodeType widget) {
GdkRectangle rect = *aRect;
gtk_render_background(style, cr, rect.x, rect.y, rect.width, rect.height);
// Paint the border, except for 'menulist-textfield' that isn't focused:
if (widget != MOZ_GTK_DROPDOWN_ENTRY || state->focused) {
gtk_render_frame(style, cr, rect.x, rect.y, rect.width, rect.height);
}
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_text_view_paint(cairo_t* cr, GdkRectangle* aRect,
GtkWidgetState* state,
GtkTextDirection direction) {
// GtkTextView and GtkScrolledWindow do not set active and prelight flags.
// The use of focus with MOZ_GTK_SCROLLED_WINDOW here is questionable
// because a parent widget will not have focus when its child GtkTextView
// has focus, but perhaps this may help identify a focused textarea with
// some themes as GtkTextView backgrounds do not typically render
// differently with focus.
GtkStateFlags state_flags = state->disabled ? GTK_STATE_FLAG_INSENSITIVE
: state->focused ? GTK_STATE_FLAG_FOCUSED
: GTK_STATE_FLAG_NORMAL;
GtkStyleContext* style_frame = GetStyleContext(
MOZ_GTK_SCROLLED_WINDOW, state->image_scale, direction, state_flags);
gtk_render_frame(style_frame, cr, aRect->x, aRect->y, aRect->width,
aRect->height);
GdkRectangle rect = *aRect;
InsetByBorderPadding(&rect, style_frame);
GtkStyleContext* style = GetStyleContext(
MOZ_GTK_TEXT_VIEW, state->image_scale, direction, state_flags);
gtk_render_background(style, cr, rect.x, rect.y, rect.width, rect.height);
// There is a separate "text" window, which usually provides the
// background behind the text. However, this is transparent in Ambiance
// for GTK 3.20, in which case the MOZ_GTK_TEXT_VIEW background is
// visible.
style = GetStyleContext(MOZ_GTK_TEXT_VIEW_TEXT, state->image_scale, direction,
state_flags);
gtk_render_background(style, cr, rect.x, rect.y, rect.width, rect.height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_treeview_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
gint xthickness, ythickness;
GtkStyleContext* style;
GtkStyleContext* style_tree;
GtkStateFlags state_flags;
GtkBorder border;
/* only handle disabled and normal states, otherwise the whole background
* area will be painted differently with other states */
state_flags =
state->disabled ? GTK_STATE_FLAG_INSENSITIVE : GTK_STATE_FLAG_NORMAL;
style =
GetStyleContext(MOZ_GTK_SCROLLED_WINDOW, state->image_scale, direction);
gtk_style_context_get_border(style, state_flags, &border);
xthickness = border.left;
ythickness = border.top;
style_tree =
GetStyleContext(MOZ_GTK_TREEVIEW_VIEW, state->image_scale, direction);
gtk_render_background(style_tree, cr, rect->x + xthickness,
rect->y + ythickness, rect->width - 2 * xthickness,
rect->height - 2 * ythickness);
style =
GetStyleContext(MOZ_GTK_SCROLLED_WINDOW, state->image_scale, direction);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_tree_header_cell_paint(cairo_t* cr,
const GdkRectangle* aRect,
GtkWidgetState* state,
gboolean isSorted,
GtkTextDirection direction) {
moz_gtk_button_paint(cr, aRect, state, GTK_RELIEF_NORMAL,
GetWidget(MOZ_GTK_TREE_HEADER_CELL), direction);
return MOZ_GTK_SUCCESS;
}
/* See gtk_expander_paint() for reference.
*/
static gint moz_gtk_treeview_expander_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkExpanderStyle expander_state,
GtkTextDirection direction) {
/* Because the frame we get is of the entire treeview, we can't get the
* precise event state of one expander, thus rendering hover and active
* feedback useless. */
GtkStateFlags state_flags =
state->disabled ? GTK_STATE_FLAG_INSENSITIVE : GTK_STATE_FLAG_NORMAL;
if (state->inHover)
state_flags =
static_cast<GtkStateFlags>(state_flags | GTK_STATE_FLAG_PRELIGHT);
if (state->selected)
state_flags =
static_cast<GtkStateFlags>(state_flags | GTK_STATE_FLAG_SELECTED);
/* GTK_STATE_FLAG_ACTIVE controls expanded/colapsed state rendering
* in gtk_render_expander()
*/
if (expander_state == GTK_EXPANDER_EXPANDED)
state_flags =
static_cast<GtkStateFlags>(state_flags | checkbox_check_state);
else
state_flags =
static_cast<GtkStateFlags>(state_flags & ~(checkbox_check_state));
GtkStyleContext* style = GetStyleContext(
MOZ_GTK_TREEVIEW_EXPANDER, state->image_scale, direction, state_flags);
gtk_render_expander(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
/* See gtk_separator_draw() for reference.
*/
static gint moz_gtk_combo_box_paint(cairo_t* cr, const GdkRectangle* aRect,
GtkWidgetState* state,
GtkTextDirection direction) {
GdkRectangle arrow_rect, real_arrow_rect;
gint separator_width;
gboolean wide_separators;
GtkStyleContext* style;
GtkRequisition arrow_req;
GtkWidget* comboBoxButton = GetWidget(MOZ_GTK_COMBOBOX_BUTTON);
GtkWidget* comboBoxArrow = GetWidget(MOZ_GTK_COMBOBOX_ARROW);
if (!comboBoxButton || !comboBoxArrow) {
return MOZ_GTK_UNKNOWN_WIDGET;
}
/* Also sets the direction on gComboBoxButtonWidget, which is then
* inherited by the separator and arrow */
moz_gtk_button_paint(cr, aRect, state, GTK_RELIEF_NORMAL, comboBoxButton,
direction);
calculate_button_inner_rect(comboBoxButton, aRect, &arrow_rect, direction);
/* Now arrow_rect contains the inner rect ; we want to correct the width
* to what the arrow needs (see gtk_combo_box_size_allocate) */
gtk_widget_get_preferred_size(comboBoxArrow, NULL, &arrow_req);
moz_gtk_sanity_preferred_size(&arrow_req);
if (direction == GTK_TEXT_DIR_LTR)
arrow_rect.x += arrow_rect.width - arrow_req.width;
arrow_rect.width = arrow_req.width;
calculate_arrow_rect(comboBoxArrow, &arrow_rect, &real_arrow_rect, direction);
style = GetStyleContext(MOZ_GTK_COMBOBOX_ARROW, state->image_scale);
gtk_render_arrow(style, cr, ARROW_DOWN, real_arrow_rect.x, real_arrow_rect.y,
real_arrow_rect.width);
/* If there is no separator in the theme, there's nothing left to do. */
GtkWidget* widget = GetWidget(MOZ_GTK_COMBOBOX_SEPARATOR);
if (!widget) {
return MOZ_GTK_SUCCESS;
}
style = gtk_widget_get_style_context(widget);
StyleContextSetScale(style, state->image_scale);
gtk_style_context_get_style(style, "wide-separators", &wide_separators,
"separator-width", &separator_width, NULL);
if (wide_separators) {
if (direction == GTK_TEXT_DIR_LTR)
arrow_rect.x -= separator_width;
else
arrow_rect.x += arrow_rect.width;
gtk_render_frame(style, cr, arrow_rect.x, arrow_rect.y, separator_width,
arrow_rect.height);
} else {
if (direction == GTK_TEXT_DIR_LTR) {
GtkBorder padding;
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
gtk_style_context_get_padding(style, state_flags, &padding);
arrow_rect.x -= padding.left;
} else
arrow_rect.x += arrow_rect.width;
gtk_render_line(style, cr, arrow_rect.x, arrow_rect.y, arrow_rect.x,
arrow_rect.y + arrow_rect.height);
}
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_arrow_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state, GtkArrowType arrow_type,
GtkTextDirection direction) {
GdkRectangle arrow_rect;
gdouble arrow_angle;
if (direction == GTK_TEXT_DIR_RTL) {
if (arrow_type == GTK_ARROW_LEFT) {
arrow_type = GTK_ARROW_RIGHT;
} else if (arrow_type == GTK_ARROW_RIGHT) {
arrow_type = GTK_ARROW_LEFT;
}
}
switch (arrow_type) {
case GTK_ARROW_LEFT:
arrow_angle = ARROW_LEFT;
break;
case GTK_ARROW_RIGHT:
arrow_angle = ARROW_RIGHT;
break;
case GTK_ARROW_DOWN:
arrow_angle = ARROW_DOWN;
break;
default:
arrow_angle = ARROW_UP;
break;
}
if (arrow_type == GTK_ARROW_NONE) return MOZ_GTK_SUCCESS;
GtkWidget* widget = GetWidget(MOZ_GTK_BUTTON_ARROW);
if (!widget) {
return MOZ_GTK_UNKNOWN_WIDGET;
}
calculate_arrow_rect(widget, rect, &arrow_rect, direction);
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
GtkStyleContext* style = GetStyleContext(
MOZ_GTK_BUTTON_ARROW, state->image_scale, direction, state_flags);
gtk_render_arrow(style, cr, arrow_angle, arrow_rect.x, arrow_rect.y,
arrow_rect.width);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_tooltip_paint(cairo_t* cr, const GdkRectangle* aRect,
GtkWidgetState* state,
GtkTextDirection direction) {
// Tooltip widget is made in GTK3 as following tree:
// Tooltip window
// Horizontal Box
// Icon (not supported by Firefox)
// Label
// Each element can be fully styled by CSS of GTK theme.
// We have to draw all elements with appropriate offset and right dimensions.
// Tooltip drawing
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_TOOLTIP, state->image_scale, direction);
GdkRectangle rect = *aRect;
gtk_render_background(style, cr, rect.x, rect.y, rect.width, rect.height);
gtk_render_frame(style, cr, rect.x, rect.y, rect.width, rect.height);
// Horizontal Box drawing
//
// The box element has hard-coded 6px margin-* GtkWidget properties, which
// are added between the window dimensions and the CSS margin box of the
// horizontal box. The frame of the tooltip window is drawn in the
// 6px margin.
// For drawing Horizontal Box we have to inset drawing area by that 6px
// plus its CSS margin.
GtkStyleContext* boxStyle =
GetStyleContext(MOZ_GTK_TOOLTIP_BOX, state->image_scale, direction);
rect.x += 6;
rect.y += 6;
rect.width -= 12;
rect.height -= 12;
InsetByMargin(&rect, boxStyle);
gtk_render_background(boxStyle, cr, rect.x, rect.y, rect.width, rect.height);
gtk_render_frame(boxStyle, cr, rect.x, rect.y, rect.width, rect.height);
// Label drawing
InsetByBorderPadding(&rect, boxStyle);
GtkStyleContext* labelStyle =
GetStyleContext(MOZ_GTK_TOOLTIP_BOX_LABEL, state->image_scale, direction);
moz_gtk_draw_styled_frame(labelStyle, cr, &rect, false);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_resizer_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_RESIZER, state->image_scale, GTK_TEXT_DIR_LTR,
GetStateFlagsFromGtkWidgetState(state));
// Workaround unico not respecting the text direction for resizers.
cairo_save(cr);
if (direction == GTK_TEXT_DIR_RTL) {
cairo_matrix_t mat;
cairo_matrix_init_translate(&mat, 2 * rect->x + rect->width, 0);
cairo_matrix_scale(&mat, -1, 1);
cairo_transform(cr, &mat);
}
gtk_render_handle(style, cr, rect->x, rect->y, rect->width, rect->height);
cairo_restore(cr);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_frame_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_FRAME, state->image_scale, direction);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_progressbar_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_PROGRESS_TROUGH, state->image_scale, direction);
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_progress_chunk_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction,
WidgetNodeType widget) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_PROGRESS_CHUNK, state->image_scale, direction);
if (widget == MOZ_GTK_PROGRESS_CHUNK_INDETERMINATE ||
widget == MOZ_GTK_PROGRESS_CHUNK_VERTICAL_INDETERMINATE) {
/**
* The bar's size and the bar speed are set depending of the progress'
* size. These could also be constant for all progress bars easily.
*/
gboolean vertical =
(widget == MOZ_GTK_PROGRESS_CHUNK_VERTICAL_INDETERMINATE);
/* The size of the dimension we are going to use for the animation. */
const gint progressSize = vertical ? rect->height : rect->width;
/* The bar is using a fifth of the element size, based on GtkProgressBar
* activity-blocks property. */
const gint barSize = MAX(1, progressSize / 5);
/* Represents the travel that has to be done for a complete cycle. */
const gint travel = 2 * (progressSize - barSize);
/* period equals to travel / pixelsPerMillisecond
* where pixelsPerMillisecond equals progressSize / 1000.0.
* This is equivalent to 1600. */
static const guint period = 1600;
const gint t = PR_IntervalToMilliseconds(PR_IntervalNow()) % period;
const gint dx = travel * t / period;
if (vertical) {
rect->y += (dx < travel / 2) ? dx : travel - dx;
rect->height = barSize;
} else {
rect->x += (dx < travel / 2) ? dx : travel - dx;
rect->width = barSize;
}
}
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_get_tab_thickness(GtkStyleContext* style) {
if (!notebook_has_tab_gap)
return 0; /* tabs do not overdraw the tabpanel border with "no gap" style */
GtkBorder border;
gtk_style_context_get_border(style, gtk_style_context_get_state(style),
&border);
if (border.top < 2) return 2; /* some themes don't set ythickness correctly */
return border.top;
}
gint moz_gtk_get_tab_thickness(WidgetNodeType aNodeType) {
GtkStyleContext* style = GetStyleContext(aNodeType);
int thickness = moz_gtk_get_tab_thickness(style);
return thickness;
}
/* actual small tabs */
static gint moz_gtk_tab_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state, GtkTabFlags flags,
GtkTextDirection direction,
WidgetNodeType widget) {
/* When the tab isn't selected, we just draw a notebook extension.
* When it is selected, we overwrite the adjacent border of the tabpanel
* touching the tab with a pierced border (called "the gap") to make the
* tab appear physically attached to the tabpanel; see details below. */
GtkStyleContext* style;
GdkRectangle tabRect;
GdkRectangle focusRect;
GdkRectangle backRect;
int initial_gap = 0;
bool isBottomTab = (widget == MOZ_GTK_TAB_BOTTOM);
style = GetStyleContext(widget, state->image_scale, direction,
GetStateFlagsFromGtkTabFlags(flags));
tabRect = *rect;
if (flags & MOZ_GTK_TAB_FIRST) {
gtk_style_context_get_style(style, "initial-gap", &initial_gap, NULL);
tabRect.width -= initial_gap;
if (direction != GTK_TEXT_DIR_RTL) {
tabRect.x += initial_gap;
}
}
focusRect = backRect = tabRect;
if (notebook_has_tab_gap) {
if ((flags & MOZ_GTK_TAB_SELECTED) == 0) {
/* Only draw the tab */
gtk_render_extension(style, cr, tabRect.x, tabRect.y, tabRect.width,
tabRect.height,
isBottomTab ? GTK_POS_TOP : GTK_POS_BOTTOM);
} else {
/* Draw the tab and the gap
* We want the gap to be positioned exactly on the tabpanel top
* border; since tabbox.css may set a negative margin so that the tab
* frame rect already overlaps the tabpanel frame rect, we need to take
* that into account when drawing. To that effect, nsNativeThemeGTK
* passes us this negative margin (bmargin in the graphic below) in the
* lowest bits of |flags|. We use it to set gap_voffset, the distance
* between the top of the gap and the bottom of the tab (resp. the
* bottom of the gap and the top of the tab when we draw a bottom tab),
* while ensuring that the gap always touches the border of the tab,
* i.e. 0 <= gap_voffset <= gap_height, to avoid surprinsing results
* with big negative or positive margins.
* Here is a graphical explanation in the case of top tabs:
* ___________________________
* / \
* | T A B |
* ----------|. . . . . . . . . . . . . . .|----- top of tabpanel
* : ^ bmargin : ^
* : | (-negative margin, : |
* bottom : v passed in flags) : | gap_height
* of -> :.............................: | (the size of the
* the tab . part of the gap . | tabpanel top border)
* . outside of the tab . v
* ----------------------------------------------
*
* To draw the gap, we use gtk_render_frame_gap(), see comment in
* moz_gtk_tabpanels_paint(). This gap is made 3 * gap_height tall,
* which should suffice to ensure that the only visible border is the
* pierced one. If the tab is in the middle, we make the box_gap begin
* a bit to the left of the tab and end a bit to the right, adjusting
* the gap position so it still is under the tab, because we want the
* rendering of a gap in the middle of a tabpanel. This is the role of
* the gints gap_{l,r}_offset. On the contrary, if the tab is the
* first, we align the start border of the box_gap with the start
* border of the tab (left if LTR, right if RTL), by setting the
* appropriate offset to 0.*/
gint gap_loffset, gap_roffset, gap_voffset, gap_height;
/* Get height needed by the gap */
gap_height = moz_gtk_get_tab_thickness(style);
/* Extract gap_voffset from the first bits of flags */
gap_voffset = flags & MOZ_GTK_TAB_MARGIN_MASK;
if (gap_voffset > gap_height) gap_voffset = gap_height;
/* Set gap_{l,r}_offset to appropriate values */
gap_loffset = gap_roffset = 20; /* should be enough */
if (flags & MOZ_GTK_TAB_FIRST) {
if (direction == GTK_TEXT_DIR_RTL)
gap_roffset = initial_gap;
else
gap_loffset = initial_gap;
}
GtkStyleContext* panelStyle =
GetStyleContext(MOZ_GTK_TABPANELS, state->image_scale, direction);
if (isBottomTab) {
/* Draw the tab on bottom */
focusRect.y += gap_voffset;
focusRect.height -= gap_voffset;
gtk_render_extension(style, cr, tabRect.x, tabRect.y + gap_voffset,
tabRect.width, tabRect.height - gap_voffset,
GTK_POS_TOP);
backRect.y += (gap_voffset - gap_height);
backRect.height = gap_height;
/* Draw the gap; erase with background color before painting in
* case theme does not */
gtk_render_background(panelStyle, cr, backRect.x, backRect.y,
backRect.width, backRect.height);
cairo_save(cr);
cairo_rectangle(cr, backRect.x, backRect.y, backRect.width,
backRect.height);
cairo_clip(cr);
gtk_render_frame_gap(panelStyle, cr, tabRect.x - gap_loffset,
tabRect.y + gap_voffset - 3 * gap_height,
tabRect.width + gap_loffset + gap_roffset,
3 * gap_height, GTK_POS_BOTTOM, gap_loffset,
gap_loffset + tabRect.width);
cairo_restore(cr);
} else {
/* Draw the tab on top */
focusRect.height -= gap_voffset;
gtk_render_extension(style, cr, tabRect.x, tabRect.y, tabRect.width,
tabRect.height - gap_voffset, GTK_POS_BOTTOM);
backRect.y += (tabRect.height - gap_voffset);
backRect.height = gap_height;
/* Draw the gap; erase with background color before painting in
* case theme does not */
gtk_render_background(panelStyle, cr, backRect.x, backRect.y,
backRect.width, backRect.height);
cairo_save(cr);
cairo_rectangle(cr, backRect.x, backRect.y, backRect.width,
backRect.height);
cairo_clip(cr);
gtk_render_frame_gap(panelStyle, cr, tabRect.x - gap_loffset,
tabRect.y + tabRect.height - gap_voffset,
tabRect.width + gap_loffset + gap_roffset,
3 * gap_height, GTK_POS_TOP, gap_loffset,
gap_loffset + tabRect.width);
cairo_restore(cr);
}
}
} else {
gtk_render_background(style, cr, tabRect.x, tabRect.y, tabRect.width,
tabRect.height);
gtk_render_frame(style, cr, tabRect.x, tabRect.y, tabRect.width,
tabRect.height);
}
if (state->focused) {
/* Paint the focus ring */
GtkBorder padding;
gtk_style_context_get_padding(style, GetStateFlagsFromGtkWidgetState(state),
&padding);
focusRect.x += padding.left;
focusRect.width -= (padding.left + padding.right);
focusRect.y += padding.top;
focusRect.height -= (padding.top + padding.bottom);
gtk_render_focus(style, cr, focusRect.x, focusRect.y, focusRect.width,
focusRect.height);
}
return MOZ_GTK_SUCCESS;
}
/* tab area*/
static gint moz_gtk_tabpanels_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkTextDirection direction) {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_TABPANELS, state->image_scale, direction);
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
/*
* The gap size is not needed in moz_gtk_tabpanels_paint because
* the gap will be painted with the foreground tab in moz_gtk_tab_paint.
*
* However, if moz_gtk_tabpanels_paint just uses gtk_render_frame(),
* the theme will think that there are no tabs and may draw something
* different.Hence the trick of using two clip regions, and drawing the
* gap outside each clip region, to get the correct frame for
* a tabpanel with tabs.
*/
/* left side */
cairo_save(cr);
cairo_rectangle(cr, rect->x, rect->y, rect->x + rect->width / 2,
rect->y + rect->height);
cairo_clip(cr);
gtk_render_frame_gap(style, cr, rect->x, rect->y, rect->width, rect->height,
GTK_POS_TOP, rect->width - 1, rect->width);
cairo_restore(cr);
/* right side */
cairo_save(cr);
cairo_rectangle(cr, rect->x + rect->width / 2, rect->y, rect->x + rect->width,
rect->y + rect->height);
cairo_clip(cr);
gtk_render_frame_gap(style, cr, rect->x, rect->y, rect->width, rect->height,
GTK_POS_TOP, 0, 1);
cairo_restore(cr);
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_tab_scroll_arrow_paint(cairo_t* cr, GdkRectangle* rect,
GtkWidgetState* state,
GtkArrowType arrow_type,
GtkTextDirection direction) {
GtkStyleContext* style;
gdouble arrow_angle;
gint arrow_size = MIN(rect->width, rect->height);
gint x = rect->x + (rect->width - arrow_size) / 2;
gint y = rect->y + (rect->height - arrow_size) / 2;
if (direction == GTK_TEXT_DIR_RTL) {
arrow_type =
(arrow_type == GTK_ARROW_LEFT) ? GTK_ARROW_RIGHT : GTK_ARROW_LEFT;
}
switch (arrow_type) {
case GTK_ARROW_LEFT:
arrow_angle = ARROW_LEFT;
break;
case GTK_ARROW_RIGHT:
arrow_angle = ARROW_RIGHT;
break;
case GTK_ARROW_DOWN:
arrow_angle = ARROW_DOWN;
break;
default:
arrow_angle = ARROW_UP;
break;
}
if (arrow_type != GTK_ARROW_NONE) {
style = GetStyleContext(MOZ_GTK_TAB_SCROLLARROW, state->image_scale,
direction, GetStateFlagsFromGtkWidgetState(state));
gtk_render_arrow(style, cr, arrow_angle, x, y, arrow_size);
}
return MOZ_GTK_SUCCESS;
}
static gint moz_gtk_header_bar_paint(WidgetNodeType widgetType, cairo_t* cr,
GdkRectangle* rect,
GtkWidgetState* state) {
GtkStateFlags state_flags = GetStateFlagsFromGtkWidgetState(state);
GtkStyleContext* style = GetStyleContext(widgetType, state->image_scale,
GTK_TEXT_DIR_NONE, state_flags);
// Some themes like Elementary's style the container of the headerbar rather
// than the header bar itself.
if (HeaderBarShouldDrawContainer(widgetType)) {
auto containerType = widgetType == MOZ_GTK_HEADER_BAR
? MOZ_GTK_HEADERBAR_FIXED
: MOZ_GTK_HEADERBAR_FIXED_MAXIMIZED;
style = GetStyleContext(containerType, state->image_scale,
GTK_TEXT_DIR_NONE, state_flags);
}
gtk_render_background(style, cr, rect->x, rect->y, rect->width, rect->height);
gtk_render_frame(style, cr, rect->x, rect->y, rect->width, rect->height);
return MOZ_GTK_SUCCESS;
}
gint moz_gtk_get_widget_border(WidgetNodeType widget, gint* left, gint* top,
gint* right, gint* bottom,
// NOTE: callers depend on direction being used
// only for MOZ_GTK_DROPDOWN widgets.
GtkTextDirection direction) {
GtkWidget* w;
GtkStyleContext* style;
*left = *top = *right = *bottom = 0;
switch (widget) {
case MOZ_GTK_BUTTON:
case MOZ_GTK_TOOLBAR_BUTTON: {
style = GetStyleContext(MOZ_GTK_BUTTON);
*left = *top = *right = *bottom = gtk_container_get_border_width(
GTK_CONTAINER(GetWidget(MOZ_GTK_BUTTON)));
if (widget == MOZ_GTK_TOOLBAR_BUTTON) {
gtk_style_context_save(style);
gtk_style_context_add_class(style, "image-button");
}
moz_gtk_add_style_padding(style, left, top, right, bottom);
if (widget == MOZ_GTK_TOOLBAR_BUTTON) gtk_style_context_restore(style);
moz_gtk_add_style_border(style, left, top, right, bottom);
return MOZ_GTK_SUCCESS;
}
case MOZ_GTK_ENTRY:
case MOZ_GTK_DROPDOWN_ENTRY: {
style = GetStyleContext(widget);
// XXX: Subtract 1 pixel from the padding to account for the default
*left = *top = *right = *bottom = -1;
moz_gtk_add_border_padding(style, left, top, right, bottom);
return MOZ_GTK_SUCCESS;
}
case MOZ_GTK_TEXT_VIEW:
case MOZ_GTK_TREEVIEW: {
style = GetStyleContext(MOZ_GTK_SCROLLED_WINDOW);
moz_gtk_add_style_border(style, left, top, right, bottom);
return MOZ_GTK_SUCCESS;
}
case MOZ_GTK_TREE_HEADER_CELL: {
/* A Tree Header in GTK is just a different styled button
* It must be placed in a TreeView for getting the correct style
* assigned.
* That is why the following code is the same as for MOZ_GTK_BUTTON.
* */
*left = *top = *right = *bottom = gtk_container_get_border_width(
GTK_CONTAINER(GetWidget(MOZ_GTK_TREE_HEADER_CELL)));
style = GetStyleContext(MOZ_GTK_TREE_HEADER_CELL);
moz_gtk_add_border_padding(style, left, top, right, bottom);
return MOZ_GTK_SUCCESS;
}
case MOZ_GTK_DROPDOWN: {
/* We need to account for the arrow on the dropdown, so text
* doesn't come too close to the arrow, or in some cases spill
* into the arrow. */
gboolean wide_separators;
gint separator_width;
GtkRequisition arrow_req;
GtkBorder border;
*left = *top = *right = *bottom = gtk_container_get_border_width(
GTK_CONTAINER(GetWidget(MOZ_GTK_COMBOBOX_BUTTON)));
style = GetStyleContext(MOZ_GTK_COMBOBOX_BUTTON);
moz_gtk_add_border_padding(style, left, top, right, bottom);
/* If there is no separator, don't try to count its width. */
separator_width = 0;
GtkWidget* comboBoxSeparator = GetWidget(MOZ_GTK_COMBOBOX_SEPARATOR);
if (comboBoxSeparator) {
style = gtk_widget_get_style_context(comboBoxSeparator);
gtk_style_context_get_style(style, "wide-separators", &wide_separators,
"separator-width", &separator_width, NULL);
if (!wide_separators) {
gtk_style_context_get_border(
style, gtk_style_context_get_state(style), &border);
separator_width = border.left;
}
}
gtk_widget_get_preferred_size(GetWidget(MOZ_GTK_COMBOBOX_ARROW), NULL,
&arrow_req);
moz_gtk_sanity_preferred_size(&arrow_req);
if (direction == GTK_TEXT_DIR_RTL)
*left += separator_width + arrow_req.width;
else
*right += separator_width + arrow_req.width;
return MOZ_GTK_SUCCESS;
}
case MOZ_GTK_TABPANELS:
w = GetWidget(MOZ_GTK_TABPANELS);
break;
case MOZ_GTK_PROGRESSBAR:
w = GetWidget(MOZ_GTK_PROGRESSBAR);
break;
case MOZ_GTK_SPINBUTTON_ENTRY:
case MOZ_GTK_SPINBUTTON_UP:
case MOZ_GTK_SPINBUTTON_DOWN:
w = GetWidget(MOZ_GTK_SPINBUTTON);
break;
case MOZ_GTK_SCALE_HORIZONTAL:
case MOZ_GTK_SCALE_VERTICAL:
w = GetWidget(widget);
break;
case MOZ_GTK_FRAME:
w = GetWidget(MOZ_GTK_FRAME);
break;
case MOZ_GTK_TOOLTIP: {
// In GTK 3 there are 6 pixels of additional margin around the box.
// See details there:
*left = *right = *top = *bottom = 6;
// We also need to add margin/padding/borders from Tooltip content.
// Tooltip contains horizontal box, where icon and label is put.
// We ignore icon as long as we don't have support for it.
GtkStyleContext* boxStyle = GetStyleContext(MOZ_GTK_TOOLTIP_BOX);
moz_gtk_add_margin_border_padding(boxStyle, left, top, right, bottom);
GtkStyleContext* labelStyle = GetStyleContext(MOZ_GTK_TOOLTIP_BOX_LABEL);
moz_gtk_add_margin_border_padding(labelStyle, left, top, right, bottom);
return MOZ_GTK_SUCCESS;
}
/* These widgets have no borders, since they are not containers. */
case MOZ_GTK_SPLITTER_HORIZONTAL:
case MOZ_GTK_SPLITTER_VERTICAL:
case MOZ_GTK_CHECKBUTTON:
case MOZ_GTK_RADIOBUTTON:
case MOZ_GTK_SCALE_THUMB_HORIZONTAL:
case MOZ_GTK_SCALE_THUMB_VERTICAL:
case MOZ_GTK_PROGRESS_CHUNK:
case MOZ_GTK_PROGRESS_CHUNK_INDETERMINATE:
case MOZ_GTK_PROGRESS_CHUNK_VERTICAL_INDETERMINATE:
case MOZ_GTK_TREEVIEW_EXPANDER:
case MOZ_GTK_HEADER_BAR:
case MOZ_GTK_HEADER_BAR_MAXIMIZED:
case MOZ_GTK_HEADER_BAR_BUTTON_CLOSE:
case MOZ_GTK_HEADER_BAR_BUTTON_MINIMIZE:
case MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE:
case MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE_RESTORE:
/* These widgets have no borders.*/
case MOZ_GTK_INNER_SPIN_BUTTON:
case MOZ_GTK_SPINBUTTON:
case MOZ_GTK_WINDOW_DECORATION:
case MOZ_GTK_WINDOW_DECORATION_SOLID:
case MOZ_GTK_RESIZER:
case MOZ_GTK_TOOLBARBUTTON_ARROW:
case MOZ_GTK_TAB_SCROLLARROW:
return MOZ_GTK_SUCCESS;
default:
g_warning("Unsupported widget type: %d", widget);
return MOZ_GTK_UNKNOWN_WIDGET;
}
/* TODO - we're still missing some widget implementations */
if (w) {
moz_gtk_add_style_border(gtk_widget_get_style_context(w), left, top, right,
bottom);
}
return MOZ_GTK_SUCCESS;
}
gint moz_gtk_get_tab_border(gint* left, gint* top, gint* right, gint* bottom,
GtkTextDirection direction, GtkTabFlags flags,
WidgetNodeType widget) {
GtkStyleContext* style = GetStyleContext(widget, 1, direction,
GetStateFlagsFromGtkTabFlags(flags));
*left = *top = *right = *bottom = 0;
moz_gtk_add_style_padding(style, left, top, right, bottom);
// Gtk >= 3.20 does not use those styles
if (gtk_check_version(3, 20, 0) != nullptr) {
int tab_curvature;
gtk_style_context_get_style(style, "tab-curvature", &tab_curvature, NULL);
*left += tab_curvature;
*right += tab_curvature;
if (flags & MOZ_GTK_TAB_FIRST) {
int initial_gap = 0;
gtk_style_context_get_style(style, "initial-gap", &initial_gap, NULL);
if (direction == GTK_TEXT_DIR_RTL)
*right += initial_gap;
else
*left += initial_gap;
}
} else {
GtkBorder margin;
gtk_style_context_get_margin(style, gtk_style_context_get_state(style),
&margin);
*left += margin.left;
*right += margin.right;
if (flags & MOZ_GTK_TAB_FIRST) {
style = GetStyleContext(MOZ_GTK_NOTEBOOK_HEADER, direction);
gtk_style_context_get_margin(style, gtk_style_context_get_state(style),
&margin);
*left += margin.left;
*right += margin.right;
}
}
return MOZ_GTK_SUCCESS;
}
gint moz_gtk_get_tab_scroll_arrow_size(gint* width, gint* height) {
gint arrow_size;
GtkStyleContext* style = GetStyleContext(MOZ_GTK_TABPANELS);
gtk_style_context_get_style(style, "scroll-arrow-hlength", &arrow_size, NULL);
*height = *width = arrow_size;
return MOZ_GTK_SUCCESS;
}
void moz_gtk_get_arrow_size(WidgetNodeType widgetType, gint* width,
gint* height) {
GtkWidget* widget;
switch (widgetType) {
case MOZ_GTK_DROPDOWN:
widget = GetWidget(MOZ_GTK_COMBOBOX_ARROW);
break;
default:
widget = GetWidget(MOZ_GTK_BUTTON_ARROW);
break;
}
if (widget) {
GtkRequisition requisition;
gtk_widget_get_preferred_size(widget, NULL, &requisition);
moz_gtk_sanity_preferred_size(&requisition);
*width = requisition.width;
*height = requisition.height;
} else {
*width = 0;
*height = 0;
}
}
gint moz_gtk_get_expander_size(gint* size) {
GtkStyleContext* style = GetStyleContext(MOZ_GTK_EXPANDER);
gtk_style_context_get_style(style, "expander-size", size, NULL);
return MOZ_GTK_SUCCESS;
}
gint moz_gtk_get_treeview_expander_size(gint* size) {
GtkStyleContext* style = GetStyleContext(MOZ_GTK_TREEVIEW);
gtk_style_context_get_style(style, "expander-size", size, NULL);
return MOZ_GTK_SUCCESS;
}
void moz_gtk_get_entry_min_height(gint* min_content_height,
gint* border_padding_height) {
GtkStyleContext* style = GetStyleContext(MOZ_GTK_ENTRY);
if (!gtk_check_version(3, 20, 0)) {
gtk_style_context_get(style, gtk_style_context_get_state(style),
"min-height", min_content_height, nullptr);
} else {
*min_content_height = 0;
}
GtkBorder border;
GtkBorder padding;
gtk_style_context_get_border(style, gtk_style_context_get_state(style),
&border);
gtk_style_context_get_padding(style, gtk_style_context_get_state(style),
&padding);
*border_padding_height =
(border.top + border.bottom + padding.top + padding.bottom);
}
void moz_gtk_get_scale_metrics(GtkOrientation orient, gint* scale_width,
gint* scale_height) {
if (gtk_check_version(3, 20, 0) != nullptr) {
WidgetNodeType widget = (orient == GTK_ORIENTATION_HORIZONTAL)
? MOZ_GTK_SCALE_HORIZONTAL
: MOZ_GTK_SCALE_VERTICAL;
gint thumb_length, thumb_height, trough_border;
moz_gtk_get_scalethumb_metrics(orient, &thumb_length, &thumb_height);
GtkStyleContext* style = GetStyleContext(widget);
gtk_style_context_get_style(style, "trough-border", &trough_border, NULL);
if (orient == GTK_ORIENTATION_HORIZONTAL) {
*scale_width = thumb_length + trough_border * 2;
*scale_height = thumb_height + trough_border * 2;
} else {
*scale_width = thumb_height + trough_border * 2;
*scale_height = thumb_length + trough_border * 2;
}
} else {
WidgetNodeType widget = (orient == GTK_ORIENTATION_HORIZONTAL)
? MOZ_GTK_SCALE_TROUGH_HORIZONTAL
: MOZ_GTK_SCALE_TROUGH_VERTICAL;
moz_gtk_get_widget_min_size(GetStyleContext(widget), scale_width,
scale_height);
}
}
gint moz_gtk_get_scalethumb_metrics(GtkOrientation orient, gint* thumb_length,
gint* thumb_height) {
if (gtk_check_version(3, 20, 0) != nullptr) {
WidgetNodeType widget = (orient == GTK_ORIENTATION_HORIZONTAL)
? MOZ_GTK_SCALE_HORIZONTAL
: MOZ_GTK_SCALE_VERTICAL;
GtkStyleContext* style = GetStyleContext(widget);
gtk_style_context_get_style(style, "slider_length", thumb_length,
"slider_width", thumb_height, NULL);
} else {
WidgetNodeType widget = (orient == GTK_ORIENTATION_HORIZONTAL)
? MOZ_GTK_SCALE_THUMB_HORIZONTAL
: MOZ_GTK_SCALE_THUMB_VERTICAL;
GtkStyleContext* style = GetStyleContext(widget);
gint min_width, min_height;
GtkStateFlags state = gtk_style_context_get_state(style);
gtk_style_context_get(style, state, "min-width", &min_width, "min-height",
&min_height, nullptr);
GtkBorder margin;
gtk_style_context_get_margin(style, state, &margin);
gint margin_width = margin.left + margin.right;
gint margin_height = margin.top + margin.bottom;
// Negative margin of slider element also determines its minimal size
// so use bigger of those two values.
if (min_width < -margin_width) min_width = -margin_width;
if (min_height < -margin_height) min_height = -margin_height;
*thumb_length = min_width;
*thumb_height = min_height;
}
return MOZ_GTK_SUCCESS;
}
const ToggleGTKMetrics* GetToggleMetrics(WidgetNodeType aWidgetType) {
ToggleGTKMetrics* metrics;
switch (aWidgetType) {
case MOZ_GTK_RADIOBUTTON:
metrics = &sRadioMetrics;
break;
case MOZ_GTK_CHECKBUTTON:
metrics = &sCheckboxMetrics;
break;
default:
MOZ_CRASH("Unsupported widget type for getting metrics");
return nullptr;
}
metrics->initialized = true;
if (gtk_check_version(3, 20, 0) == nullptr) {
GtkStyleContext* style = GetStyleContext(aWidgetType);
GtkStateFlags state_flags = gtk_style_context_get_state(style);
gtk_style_context_get(style, state_flags, "min-height",
&(metrics->minSizeWithBorder.height), "min-width",
&(metrics->minSizeWithBorder.width), nullptr);
// Fallback to indicator size if min dimensions are zero
if (metrics->minSizeWithBorder.height == 0 ||
metrics->minSizeWithBorder.width == 0) {
gint indicator_size = 0;
gtk_widget_style_get(GetWidget(MOZ_GTK_CHECKBUTTON_CONTAINER),
"indicator_size", &indicator_size, nullptr);
if (metrics->minSizeWithBorder.height == 0) {
metrics->minSizeWithBorder.height = indicator_size;
}
if (metrics->minSizeWithBorder.width == 0) {
metrics->minSizeWithBorder.width = indicator_size;
}
}
GtkBorder border, padding;
gtk_style_context_get_border(style, state_flags, &border);
gtk_style_context_get_padding(style, state_flags, &padding);
metrics->borderAndPadding.left = border.left + padding.left;
metrics->borderAndPadding.right = border.right + padding.right;
metrics->borderAndPadding.top = border.top + padding.top;
metrics->borderAndPadding.bottom = border.bottom + padding.bottom;
metrics->minSizeWithBorder.width +=
metrics->borderAndPadding.left + metrics->borderAndPadding.right;
metrics->minSizeWithBorder.height +=
metrics->borderAndPadding.top + metrics->borderAndPadding.bottom;
} else {
gint indicator_size = 0, indicator_spacing = 0;
gtk_widget_style_get(GetWidget(MOZ_GTK_CHECKBUTTON_CONTAINER),
"indicator_size", &indicator_size, "indicator_spacing",
&indicator_spacing, nullptr);
metrics->minSizeWithBorder.width = metrics->minSizeWithBorder.height =
indicator_size;
}
return metrics;
}
/*
* get_shadow_width() from gtkwindow.c is not public so we need
* to implement it.
*/
void InitWindowDecorationSize(CSDWindowDecorationSize* sWindowDecorationSize,
bool aPopupWindow) {
bool solidDecorations = gtk_style_context_has_class(
GetStyleContext(MOZ_GTK_HEADERBAR_WINDOW, 1), "solid-csd");
// solid-csd does not use frame extents, quit now.
if (solidDecorations) {
sWindowDecorationSize->decorationSize = {0, 0, 0, 0};
return;
}
// Scale factor is applied later when decoration size is used for actual
// gtk windows.
GtkStyleContext* context = GetStyleContext(MOZ_GTK_WINDOW_DECORATION);
/* Always sum border + padding */
GtkBorder padding;
GtkStateFlags state = gtk_style_context_get_state(context);
gtk_style_context_get_border(context, state,
&sWindowDecorationSize->decorationSize);
gtk_style_context_get_padding(context, state, &padding);
sWindowDecorationSize->decorationSize += padding;
// Available on GTK 3.20+.
static auto sGtkRenderBackgroundGetClip = (void (*)(
GtkStyleContext*, gdouble, gdouble, gdouble, gdouble,
GdkRectangle*))dlsym(RTLD_DEFAULT, "gtk_render_background_get_clip");
if (!sGtkRenderBackgroundGetClip) {
return;
}
GdkRectangle clip;
sGtkRenderBackgroundGetClip(context, 0, 0, 0, 0, &clip);
GtkBorder extents;
extents.top = -clip.y;
extents.right = clip.width + clip.x;
extents.bottom = clip.height + clip.y;
extents.left = -clip.x;
// Get shadow extents but combine with style margin; use the bigger value.
// Margin is used for resize grip size - it's not present on
// popup windows.
if (!aPopupWindow) {
GtkBorder margin;
gtk_style_context_get_margin(context, state, &margin);
extents.top = MAX(extents.top, margin.top);
extents.right = MAX(extents.right, margin.right);
extents.bottom = MAX(extents.bottom, margin.bottom);
extents.left = MAX(extents.left, margin.left);
}
sWindowDecorationSize->decorationSize += extents;
}
GtkBorder GetCSDDecorationSize(bool aIsPopup) {
auto metrics =
aIsPopup ? &sPopupWindowDecorationSize : &sToplevelWindowDecorationSize;
if (!metrics->initialized) {
InitWindowDecorationSize(metrics, aIsPopup);
metrics->initialized = true;
}
return metrics->decorationSize;
}
/* cairo_t *cr argument has to be a system-cairo. */
gint moz_gtk_widget_paint(WidgetNodeType widget, cairo_t* cr,
GdkRectangle* rect, GtkWidgetState* state, gint flags,
GtkTextDirection direction) {
*/
cairo_new_path(cr);
switch (widget) {
case MOZ_GTK_BUTTON:
case MOZ_GTK_TOOLBAR_BUTTON:
if (state->depressed) {
return moz_gtk_button_paint(cr, rect, state, (GtkReliefStyle)flags,
GetWidget(MOZ_GTK_TOGGLE_BUTTON),
direction);
}
return moz_gtk_button_paint(cr, rect, state, (GtkReliefStyle)flags,
GetWidget(MOZ_GTK_BUTTON), direction);
case MOZ_GTK_HEADER_BAR_BUTTON_CLOSE:
case MOZ_GTK_HEADER_BAR_BUTTON_MINIMIZE:
case MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE:
case MOZ_GTK_HEADER_BAR_BUTTON_MAXIMIZE_RESTORE:
return moz_gtk_header_bar_button_paint(
cr, rect, state, (GtkReliefStyle)flags, widget, direction);
case MOZ_GTK_CHECKBUTTON:
case MOZ_GTK_RADIOBUTTON:
return moz_gtk_toggle_paint(cr, rect, state,
!!(flags & MOZ_GTK_WIDGET_CHECKED),
!!(flags & MOZ_GTK_WIDGET_INCONSISTENT),
(widget == MOZ_GTK_RADIOBUTTON), direction);
case MOZ_GTK_SCALE_HORIZONTAL:
case MOZ_GTK_SCALE_VERTICAL:
return moz_gtk_scale_paint(cr, rect, state, (GtkOrientation)flags,
direction);
case MOZ_GTK_SCALE_THUMB_HORIZONTAL:
case MOZ_GTK_SCALE_THUMB_VERTICAL:
return moz_gtk_scale_thumb_paint(cr, rect, state, (GtkOrientation)flags,
direction);
case MOZ_GTK_INNER_SPIN_BUTTON:
return moz_gtk_inner_spin_paint(cr, rect, state, direction);
case MOZ_GTK_SPINBUTTON:
return moz_gtk_spin_paint(cr, rect, state, direction);
case MOZ_GTK_SPINBUTTON_UP:
case MOZ_GTK_SPINBUTTON_DOWN:
return moz_gtk_spin_updown_paint(
cr, rect, (widget == MOZ_GTK_SPINBUTTON_DOWN), state, direction);
case MOZ_GTK_SPINBUTTON_ENTRY: {
GtkStyleContext* style =
GetStyleContext(MOZ_GTK_SPINBUTTON_ENTRY, state->image_scale,
direction, GetStateFlagsFromGtkWidgetState(state));
return moz_gtk_entry_paint(cr, rect, state, style, widget);
}
case MOZ_GTK_TREEVIEW:
return moz_gtk_treeview_paint(cr, rect, state, direction);
case MOZ_GTK_TREE_HEADER_CELL:
return moz_gtk_tree_header_cell_paint(cr, rect, state, flags, direction);
case MOZ_GTK_TREEVIEW_EXPANDER:
return moz_gtk_treeview_expander_paint(
cr, rect, state, (GtkExpanderStyle)flags, direction);
case MOZ_GTK_ENTRY:
case MOZ_GTK_DROPDOWN_ENTRY: {
GtkStyleContext* style =
GetStyleContext(widget, state->image_scale, direction,
GetStateFlagsFromGtkWidgetState(state));
gint ret = moz_gtk_entry_paint(cr, rect, state, style, widget);
return ret;
}
case MOZ_GTK_TEXT_VIEW:
return moz_gtk_text_view_paint(cr, rect, state, direction);
case MOZ_GTK_DROPDOWN:
return moz_gtk_combo_box_paint(cr, rect, state, direction);
case MOZ_GTK_TOOLTIP:
return moz_gtk_tooltip_paint(cr, rect, state, direction);
case MOZ_GTK_FRAME:
return moz_gtk_frame_paint(cr, rect, state, direction);
case MOZ_GTK_RESIZER:
return moz_gtk_resizer_paint(cr, rect, state, direction);
case MOZ_GTK_PROGRESSBAR:
return moz_gtk_progressbar_paint(cr, rect, state, direction);
case MOZ_GTK_PROGRESS_CHUNK:
case MOZ_GTK_PROGRESS_CHUNK_INDETERMINATE:
case MOZ_GTK_PROGRESS_CHUNK_VERTICAL_INDETERMINATE:
return moz_gtk_progress_chunk_paint(cr, rect, state, direction, widget);
case MOZ_GTK_TAB_TOP:
case MOZ_GTK_TAB_BOTTOM:
return moz_gtk_tab_paint(cr, rect, state, (GtkTabFlags)flags, direction,
widget);
case MOZ_GTK_TABPANELS:
return moz_gtk_tabpanels_paint(cr, rect, state, direction);
case MOZ_GTK_TAB_SCROLLARROW:
return moz_gtk_tab_scroll_arrow_paint(cr, rect, state,
(GtkArrowType)flags, direction);
case MOZ_GTK_TOOLBARBUTTON_ARROW:
return moz_gtk_arrow_paint(cr, rect, state, (GtkArrowType)flags,
direction);
case MOZ_GTK_SPLITTER_HORIZONTAL:
return moz_gtk_vpaned_paint(cr, rect, state);
case MOZ_GTK_SPLITTER_VERTICAL:
return moz_gtk_hpaned_paint(cr, rect, state);
case MOZ_GTK_WINDOW_DECORATION:
return moz_gtk_window_decoration_paint(cr, rect, state, direction);
case MOZ_GTK_HEADER_BAR:
case MOZ_GTK_HEADER_BAR_MAXIMIZED:
return moz_gtk_header_bar_paint(widget, cr, rect, state);
default:
g_warning("Unknown widget type: %d", widget);
}
return MOZ_GTK_UNKNOWN_WIDGET;
}
gint moz_gtk_shutdown() {
/* This will destroy all of our widgets */
ResetWidgetCache();
return MOZ_GTK_SUCCESS;
}