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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=2 et sw=2 tw=80: */
/* 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
#include "InterfaceInitFuncs.h"
#include "mozilla/a11y/PDocAccessible.h"
#include "nsAccessibilityService.h"
#include "LocalAccessible-inl.h"
#include "HyperTextAccessible-inl.h"
#include "nsMai.h"
#include "RemoteAccessible.h"
#include "AccAttributes.h"
#include "nsIAccessibleTypes.h"
#include "nsISimpleEnumerator.h"
#include "nsUTF8Utils.h"
#include "mozilla/Likely.h"
#include "DOMtoATK.h"
using namespace mozilla;
using namespace mozilla::a11y;
static const char* sAtkTextAttrNames[ATK_TEXT_ATTR_LAST_DEFINED];
static AtkAttributeSet* ConvertToAtkTextAttributeSet(
AccAttributes* aAttributes) {
if (!aAttributes) {
// This can happen if an Accessible dies in the content process, but the
// parent hasn't been udpated yet.
return nullptr;
}
AtkAttributeSet* atkAttributeSet = nullptr;
for (auto iter : *aAttributes) {
AtkAttribute* atkAttr = (AtkAttribute*)g_malloc(sizeof(AtkAttribute));
nsAutoString value;
// We set atkAttr->name directly for each case. For the value, we set the
// value string for each case. atkAttr->value is set at the end based on the
// value string.
// Set atkAttr->name to a specific ATK attribute name.
auto atkName = [&atkAttr](AtkTextAttribute aAttrNum) {
atkAttr->name = g_strdup(sAtkTextAttrNames[aAttrNum]);
};
// Set value to a formatted ATK color value.
auto colorValue = [&iter, &value] {
// The format of the atk attribute is r,g,b and the gecko one is
// rgb(r, g, b).
auto color = iter.Value<Color>();
MOZ_ASSERT(color);
value.AppendInt(NS_GET_R(color->mValue));
value.Append(',');
value.AppendInt(NS_GET_G(color->mValue));
value.Append(',');
value.AppendInt(NS_GET_B(color->mValue));
};
nsAtom* name = iter.Name();
if (name == nsGkAtoms::color) {
atkName(ATK_TEXT_ATTR_FG_COLOR);
colorValue();
} else if (name == nsGkAtoms::backgroundColor) {
atkName(ATK_TEXT_ATTR_BG_COLOR);
colorValue();
} else if (name == nsGkAtoms::font_family) {
atkName(ATK_TEXT_ATTR_FAMILY_NAME);
iter.ValueAsString(value);
} else if (name == nsGkAtoms::font_size) {
atkName(ATK_TEXT_ATTR_SIZE);
// ATK wants the number of points without pt at the end.
auto fontSize = iter.Value<FontSize>();
MOZ_ASSERT(fontSize);
value.AppendInt(fontSize->mValue);
} else if (name == nsGkAtoms::fontWeight) {
atkName(ATK_TEXT_ATTR_WEIGHT);
iter.ValueAsString(value);
} else if (name == nsGkAtoms::invalid) {
atkName(ATK_TEXT_ATTR_INVALID);
iter.ValueAsString(value);
} else {
nsAutoString nameStr;
iter.NameAsString(nameStr);
atkAttr->name = g_strdup(NS_ConvertUTF16toUTF8(nameStr).get());
iter.ValueAsString(value);
}
atkAttr->value = g_strdup(NS_ConvertUTF16toUTF8(value).get());
atkAttributeSet = g_slist_prepend(atkAttributeSet, atkAttr);
}
// libatk-adaptor will free it
return atkAttributeSet;
}
extern "C" {
static gchar* getTextCB(AtkText* aText, gint aStartOffset, gint aEndOffset) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc || !acc->IsTextRole()) {
return nullptr;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text) {
return nullptr;
}
return DOMtoATK::NewATKString(text, aStartOffset, aEndOffset);
}
static gint getCharacterCountCB(AtkText* aText);
// Note: this does not support magic offsets, which is fine for its callers
// which do not implement any.
static gchar* getCharTextAtOffset(AtkText* aText, gint aOffset,
gint* aStartOffset, gint* aEndOffset) {
gint end = aOffset + 1;
gint count = getCharacterCountCB(aText);
if (aOffset > count) {
aOffset = count;
}
if (end > count) {
end = count;
}
if (aOffset < 0) {
aOffset = 0;
}
if (end < 0) {
end = 0;
}
*aStartOffset = aOffset;
*aEndOffset = end;
return getTextCB(aText, aOffset, end);
}
static gchar* getTextAfterOffsetCB(AtkText* aText, gint aOffset,
AtkTextBoundary aBoundaryType,
gint* aStartOffset, gint* aEndOffset) {
if (aBoundaryType == ATK_TEXT_BOUNDARY_CHAR) {
return getCharTextAtOffset(aText, aOffset + 1, aStartOffset, aEndOffset);
}
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return nullptr;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return nullptr;
}
nsAutoString autoStr;
int32_t startOffset = 0, endOffset = 0;
text->TextAfterOffset(aOffset, aBoundaryType, &startOffset, &endOffset,
autoStr);
*aStartOffset = startOffset;
*aEndOffset = endOffset;
// libspi will free it.
return DOMtoATK::Convert(autoStr);
}
static gchar* getTextAtOffsetCB(AtkText* aText, gint aOffset,
AtkTextBoundary aBoundaryType,
gint* aStartOffset, gint* aEndOffset) {
if (aBoundaryType == ATK_TEXT_BOUNDARY_CHAR) {
return getCharTextAtOffset(aText, aOffset, aStartOffset, aEndOffset);
}
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return nullptr;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return nullptr;
}
nsAutoString autoStr;
int32_t startOffset = 0, endOffset = 0;
text->TextAtOffset(aOffset, aBoundaryType, &startOffset, &endOffset, autoStr);
*aStartOffset = startOffset;
*aEndOffset = endOffset;
// libspi will free it.
return DOMtoATK::Convert(autoStr);
}
static gunichar getCharacterAtOffsetCB(AtkText* aText, gint aOffset) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return 0;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (text) {
return DOMtoATK::ATKCharacter(text, aOffset);
}
return 0;
}
static gchar* getTextBeforeOffsetCB(AtkText* aText, gint aOffset,
AtkTextBoundary aBoundaryType,
gint* aStartOffset, gint* aEndOffset) {
if (aBoundaryType == ATK_TEXT_BOUNDARY_CHAR) {
return getCharTextAtOffset(aText, aOffset - 1, aStartOffset, aEndOffset);
}
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return nullptr;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return nullptr;
}
nsAutoString autoStr;
int32_t startOffset = 0, endOffset = 0;
text->TextBeforeOffset(aOffset, aBoundaryType, &startOffset, &endOffset,
autoStr);
*aStartOffset = startOffset;
*aEndOffset = endOffset;
// libspi will free it.
return DOMtoATK::Convert(autoStr);
}
static gint getCaretOffsetCB(AtkText* aText) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return -1;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return -1;
}
return static_cast<gint>(text->CaretOffset());
}
static AtkAttributeSet* getRunAttributesCB(AtkText* aText, gint aOffset,
gint* aStartOffset,
gint* aEndOffset) {
*aStartOffset = -1;
*aEndOffset = -1;
int32_t startOffset = 0, endOffset = 0;
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return nullptr;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return nullptr;
}
RefPtr<AccAttributes> attributes =
text->TextAttributes(false, aOffset, &startOffset, &endOffset);
*aStartOffset = startOffset;
*aEndOffset = endOffset;
return ConvertToAtkTextAttributeSet(attributes);
}
static AtkAttributeSet* getDefaultAttributesCB(AtkText* aText) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return nullptr;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return nullptr;
}
RefPtr<AccAttributes> attributes = text->DefaultTextAttributes();
return ConvertToAtkTextAttributeSet(attributes);
}
static void getCharacterExtentsCB(AtkText* aText, gint aOffset, gint* aX,
gint* aY, gint* aWidth, gint* aHeight,
AtkCoordType aCoords) {
if (!aX || !aY || !aWidth || !aHeight) {
return;
}
*aX = *aY = *aWidth = *aHeight = -1;
uint32_t geckoCoordType;
if (aCoords == ATK_XY_SCREEN) {
geckoCoordType = nsIAccessibleCoordinateType::COORDTYPE_SCREEN_RELATIVE;
} else {
geckoCoordType = nsIAccessibleCoordinateType::COORDTYPE_WINDOW_RELATIVE;
}
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return;
}
LayoutDeviceIntRect rect = text->CharBounds(aOffset, geckoCoordType);
*aX = rect.x;
*aY = rect.y;
*aWidth = rect.width;
*aHeight = rect.height;
}
static void getRangeExtentsCB(AtkText* aText, gint aStartOffset,
gint aEndOffset, AtkCoordType aCoords,
AtkTextRectangle* aRect) {
if (!aRect) {
return;
}
aRect->x = aRect->y = aRect->width = aRect->height = -1;
uint32_t geckoCoordType;
if (aCoords == ATK_XY_SCREEN) {
geckoCoordType = nsIAccessibleCoordinateType::COORDTYPE_SCREEN_RELATIVE;
} else {
geckoCoordType = nsIAccessibleCoordinateType::COORDTYPE_WINDOW_RELATIVE;
}
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return;
}
LayoutDeviceIntRect rect =
text->TextBounds(aStartOffset, aEndOffset, geckoCoordType);
aRect->x = rect.x;
aRect->y = rect.y;
aRect->width = rect.width;
aRect->height = rect.height;
}
static gint getCharacterCountCB(AtkText* aText) {
if (Accessible* acc = GetInternalObj(ATK_OBJECT(aText))) {
if (HyperTextAccessibleBase* text = acc->AsHyperTextBase()) {
return static_cast<gint>(text->CharacterCount());
}
}
return 0;
}
static gint getOffsetAtPointCB(AtkText* aText, gint aX, gint aY,
AtkCoordType aCoords) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return -1;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return -1;
}
return static_cast<gint>(text->OffsetAtPoint(
aX, aY,
(aCoords == ATK_XY_SCREEN
? nsIAccessibleCoordinateType::COORDTYPE_SCREEN_RELATIVE
: nsIAccessibleCoordinateType::COORDTYPE_WINDOW_RELATIVE)));
}
static gint getTextSelectionCountCB(AtkText* aText) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return 0;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return 0;
}
return text->SelectionCount();
}
static gchar* getTextSelectionCB(AtkText* aText, gint aSelectionNum,
gint* aStartOffset, gint* aEndOffset) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return nullptr;
}
int32_t startOffset = 0, endOffset = 0;
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return nullptr;
}
text->SelectionBoundsAt(aSelectionNum, &startOffset, &endOffset);
*aStartOffset = startOffset;
*aEndOffset = endOffset;
return getTextCB(aText, *aStartOffset, *aEndOffset);
}
// set methods
static gboolean addTextSelectionCB(AtkText* aText, gint aStartOffset,
gint aEndOffset) {
AccessibleWrap* accWrap = GetAccessibleWrap(ATK_OBJECT(aText));
if (accWrap) {
HyperTextAccessible* text = accWrap->AsHyperText();
if (!text || !text->IsTextRole()) {
return FALSE;
}
return text->AddToSelection(aStartOffset, aEndOffset);
}
if (RemoteAccessible* proxy = GetProxy(ATK_OBJECT(aText))) {
return proxy->AddToSelection(aStartOffset, aEndOffset);
}
return FALSE;
}
static gboolean removeTextSelectionCB(AtkText* aText, gint aSelectionNum) {
AccessibleWrap* accWrap = GetAccessibleWrap(ATK_OBJECT(aText));
if (accWrap) {
HyperTextAccessible* text = accWrap->AsHyperText();
if (!text || !text->IsTextRole()) {
return FALSE;
}
return text->RemoveFromSelection(aSelectionNum);
}
if (RemoteAccessible* proxy = GetProxy(ATK_OBJECT(aText))) {
return proxy->RemoveFromSelection(aSelectionNum);
}
return FALSE;
}
static gboolean setTextSelectionCB(AtkText* aText, gint aSelectionNum,
gint aStartOffset, gint aEndOffset) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc || !acc->IsTextRole()) {
return FALSE;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text) {
return FALSE;
}
return text->SetSelectionBoundsAt(aSelectionNum, aStartOffset, aEndOffset);
}
static gboolean setCaretOffsetCB(AtkText* aText, gint aOffset) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return FALSE;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text || !acc->IsTextRole()) {
return FALSE;
}
text->SetCaretOffset(aOffset);
return TRUE;
}
static gboolean scrollSubstringToCB(AtkText* aText, gint aStartOffset,
gint aEndOffset, AtkScrollType aType) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return FALSE;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text) {
return FALSE;
}
text->ScrollSubstringTo(aStartOffset, aEndOffset, aType);
return TRUE;
}
static gboolean scrollSubstringToPointCB(AtkText* aText, gint aStartOffset,
gint aEndOffset, AtkCoordType aCoords,
gint aX, gint aY) {
Accessible* acc = GetInternalObj(ATK_OBJECT(aText));
if (!acc) {
return FALSE;
}
HyperTextAccessibleBase* text = acc->AsHyperTextBase();
if (!text) {
return FALSE;
}
text->ScrollSubstringToPoint(aStartOffset, aEndOffset, aCoords, aX, aY);
return TRUE;
}
}
void textInterfaceInitCB(AtkTextIface* aIface) {
NS_ASSERTION(aIface, "Invalid aIface");
if (MOZ_UNLIKELY(!aIface)) return;
aIface->get_text = getTextCB;
aIface->get_text_after_offset = getTextAfterOffsetCB;
aIface->get_text_at_offset = getTextAtOffsetCB;
aIface->get_character_at_offset = getCharacterAtOffsetCB;
aIface->get_text_before_offset = getTextBeforeOffsetCB;
aIface->get_caret_offset = getCaretOffsetCB;
aIface->get_run_attributes = getRunAttributesCB;
aIface->get_default_attributes = getDefaultAttributesCB;
aIface->get_character_extents = getCharacterExtentsCB;
aIface->get_range_extents = getRangeExtentsCB;
aIface->get_character_count = getCharacterCountCB;
aIface->get_offset_at_point = getOffsetAtPointCB;
aIface->get_n_selections = getTextSelectionCountCB;
aIface->get_selection = getTextSelectionCB;
// set methods
aIface->add_selection = addTextSelectionCB;
aIface->remove_selection = removeTextSelectionCB;
aIface->set_selection = setTextSelectionCB;
aIface->set_caret_offset = setCaretOffsetCB;
if (IsAtkVersionAtLeast(2, 32)) {
aIface->scroll_substring_to = scrollSubstringToCB;
aIface->scroll_substring_to_point = scrollSubstringToPointCB;
}
// Cache the string values of the atk text attribute names.
for (uint32_t i = 0; i < std::size(sAtkTextAttrNames); i++) {
sAtkTextAttrNames[i] =
atk_text_attribute_get_name(static_cast<AtkTextAttribute>(i));
}
}