// Copyright (c) 2013 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/base/ime/input_method_imm32.h"
#include "base/basictypes.h"
#include "ui/base/ime/composition_text.h"
#include "ui/base/ime/text_input_client.h"
#include "ui/base/ime/win/tsf_input_scope.h"
namespace ui {
InputMethodIMM32::InputMethodIMM32(internal::InputMethodDelegate* delegate,
HWND toplevel_window_handle)
: InputMethodWin(delegate, toplevel_window_handle),
enabled_(false), is_candidate_popup_open_(false),
composing_window_handle_(NULL) {
// In non-Aura environment, appropriate callbacks to OnFocus() and OnBlur()
// are not implemented yet. To work around this limitation, here we use
// "always focused" model.
// TODO(ime): Fix the caller of OnFocus() and OnBlur() so that appropriate
// focus event will be passed.
InputMethodWin::OnFocus();
}
void InputMethodIMM32::OnFocus() {
// Ignore OnFocus event for "always focused" model. See the comment in the
// constructor.
// TODO(ime): Implement OnFocus once the callers are fixed.
}
void InputMethodIMM32::OnBlur() {
// Ignore OnBlur event for "always focused" model. See the comment in the
// constructor.
// TODO(ime): Implement OnFocus once the callers are fixed.
}
bool InputMethodIMM32::OnUntranslatedIMEMessage(
const base::NativeEvent& event, InputMethod::NativeEventResult* result) {
LRESULT original_result = 0;
BOOL handled = FALSE;
switch (event.message) {
case WM_IME_SETCONTEXT:
original_result = OnImeSetContext(
event.hwnd, event.message, event.wParam, event.lParam, &handled);
break;
case WM_IME_STARTCOMPOSITION:
original_result = OnImeStartComposition(
event.hwnd, event.message, event.wParam, event.lParam, &handled);
break;
case WM_IME_COMPOSITION:
original_result = OnImeComposition(
event.hwnd, event.message, event.wParam, event.lParam, &handled);
break;
case WM_IME_ENDCOMPOSITION:
original_result = OnImeEndComposition(
event.hwnd, event.message, event.wParam, event.lParam, &handled);
break;
case WM_IME_REQUEST:
original_result = OnImeRequest(
event.message, event.wParam, event.lParam, &handled);
break;
case WM_CHAR:
case WM_SYSCHAR:
original_result = OnChar(
event.hwnd, event.message, event.wParam, event.lParam, &handled);
break;
case WM_DEADCHAR:
case WM_SYSDEADCHAR:
original_result = OnDeadChar(
event.message, event.wParam, event.lParam, &handled);
break;
case WM_IME_NOTIFY:
original_result = OnImeNotify(
event.message, event.wParam, event.lParam, &handled);
break;
default:
NOTREACHED() << "Unknown IME message:" << event.message;
break;
}
if (result)
*result = original_result;
return !!handled;
}
void InputMethodIMM32::OnTextInputTypeChanged(const TextInputClient* client) {
if (IsTextInputClientFocused(client) && IsWindowFocused(client)) {
imm32_manager_.CancelIME(GetAttachedWindowHandle(client));
UpdateIMEState();
}
InputMethodWin::OnTextInputTypeChanged(client);
}
void InputMethodIMM32::OnCaretBoundsChanged(const TextInputClient* client) {
if (!enabled_ || !IsTextInputClientFocused(client) ||
!IsWindowFocused(client)) {
return;
}
// The current text input type should not be NONE if |client| is focused.
DCHECK(!IsTextInputTypeNone());
gfx::Rect screen_bounds(GetTextInputClient()->GetCaretBounds());
HWND attached_window = GetAttachedWindowHandle(client);
// TODO(ime): see comment in TextInputClient::GetCaretBounds(), this
// conversion shouldn't be necessary.
RECT r = {};
GetClientRect(attached_window, &r);
POINT window_point = { screen_bounds.x(), screen_bounds.y() };
ScreenToClient(attached_window, &window_point);
gfx::Rect caret_rect(gfx::Point(window_point.x, window_point.y),
screen_bounds.size());
imm32_manager_.UpdateCaretRect(attached_window, caret_rect);
}
void InputMethodIMM32::CancelComposition(const TextInputClient* client) {
if (enabled_ && IsTextInputClientFocused(client))
imm32_manager_.CancelIME(GetAttachedWindowHandle(client));
}
bool InputMethodIMM32::IsCandidatePopupOpen() const {
return is_candidate_popup_open_;
}
void InputMethodIMM32::OnWillChangeFocusedClient(
TextInputClient* focused_before,
TextInputClient* focused) {
if (IsWindowFocused(focused_before)) {
ConfirmCompositionText();
}
}
void InputMethodIMM32::OnDidChangeFocusedClient(TextInputClient* focused_before,
TextInputClient* focused) {
if (IsWindowFocused(focused)) {
// Force to update the input type since client's TextInputStateChanged()
// function might not be called if text input types before the client loses
// focus and after it acquires focus again are the same.
OnTextInputTypeChanged(focused);
UpdateIMEState();
// Force to update caret bounds, in case the client thinks that the caret
// bounds has not changed.
OnCaretBoundsChanged(focused);
}
InputMethodWin::OnDidChangeFocusedClient(focused_before, focused);
}
LRESULT InputMethodIMM32::OnImeSetContext(HWND window_handle,
UINT message,
WPARAM wparam,
LPARAM lparam,
BOOL* handled) {
if (!!wparam)
imm32_manager_.CreateImeWindow(window_handle);
OnInputMethodChanged();
return imm32_manager_.SetImeWindowStyle(
window_handle, message, wparam, lparam, handled);
}
LRESULT InputMethodIMM32::OnImeStartComposition(HWND window_handle,
UINT message,
WPARAM wparam,
LPARAM lparam,
BOOL* handled) {
// We have to prevent WTL from calling ::DefWindowProc() because the function
// calls ::ImmSetCompositionWindow() and ::ImmSetCandidateWindow() to
// over-write the position of IME windows.
*handled = TRUE;
// Reset the composition status and create IME windows.
composing_window_handle_ = window_handle;
imm32_manager_.CreateImeWindow(window_handle);
imm32_manager_.ResetComposition(window_handle);
return 0;
}
LRESULT InputMethodIMM32::OnImeComposition(HWND window_handle,
UINT message,
WPARAM wparam,
LPARAM lparam,
BOOL* handled) {
// We have to prevent WTL from calling ::DefWindowProc() because we do not
// want for the IMM (Input Method Manager) to send WM_IME_CHAR messages.
*handled = TRUE;
// At first, update the position of the IME window.
imm32_manager_.UpdateImeWindow(window_handle);
// Retrieve the result string and its attributes of the ongoing composition
// and send it to a renderer process.
ui::CompositionText composition;
if (imm32_manager_.GetResult(window_handle, lparam, &composition.text)) {
if (!IsTextInputTypeNone())
GetTextInputClient()->InsertText(composition.text);
imm32_manager_.ResetComposition(window_handle);
// Fall though and try reading the composition string.
// Japanese IMEs send a message containing both GCS_RESULTSTR and
// GCS_COMPSTR, which means an ongoing composition has been finished
// by the start of another composition.
}
// Retrieve the composition string and its attributes of the ongoing
// composition and send it to a renderer process.
if (imm32_manager_.GetComposition(window_handle, lparam, &composition) &&
!IsTextInputTypeNone())
GetTextInputClient()->SetCompositionText(composition);
return 0;
}
LRESULT InputMethodIMM32::OnImeEndComposition(HWND window_handle,
UINT message,
WPARAM wparam,
LPARAM lparam,
BOOL* handled) {
// Let WTL call ::DefWindowProc() and release its resources.
*handled = FALSE;
composing_window_handle_ = NULL;
if (!IsTextInputTypeNone() && GetTextInputClient()->HasCompositionText())
GetTextInputClient()->ClearCompositionText();
imm32_manager_.ResetComposition(window_handle);
imm32_manager_.DestroyImeWindow(window_handle);
return 0;
}
LRESULT InputMethodIMM32::OnImeNotify(UINT message,
WPARAM wparam,
LPARAM lparam,
BOOL* handled) {
*handled = FALSE;
bool previous_state = is_candidate_popup_open_;
// Update |is_candidate_popup_open_|, whether a candidate window is open.
switch (wparam) {
case IMN_OPENCANDIDATE:
is_candidate_popup_open_ = true;
if (!previous_state)
OnCandidateWindowShown();
break;
case IMN_CLOSECANDIDATE:
is_candidate_popup_open_ = false;
if (previous_state)
OnCandidateWindowHidden();
break;
case IMN_CHANGECANDIDATE:
// TODO(kochi): The IME API expects this event to notify window size change,
// while this may fire more often without window resize. There is no generic
// way to get bounds of candidate window.
OnCandidateWindowUpdated();
break;
}
return 0;
}
void InputMethodIMM32::ConfirmCompositionText() {
if (composing_window_handle_)
imm32_manager_.CleanupComposition(composing_window_handle_);
if (!IsTextInputTypeNone()) {
// Though above line should confirm the client's composition text by sending
// a result text to us, in case the input method and the client are in
// inconsistent states, we check the client's composition state again.
if (GetTextInputClient()->HasCompositionText())
GetTextInputClient()->ConfirmCompositionText();
}
}
void InputMethodIMM32::UpdateIMEState() {
// Use switch here in case we are going to add more text input types.
// We disable input method in password field.
const HWND window_handle = GetAttachedWindowHandle(GetTextInputClient());
const TextInputType text_input_type = GetTextInputType();
const TextInputMode text_input_mode = GetTextInputMode();
switch (text_input_type) {
case ui::TEXT_INPUT_TYPE_NONE:
case ui::TEXT_INPUT_TYPE_PASSWORD:
imm32_manager_.DisableIME(window_handle);
enabled_ = false;
break;
default:
imm32_manager_.EnableIME(window_handle);
enabled_ = true;
break;
}
imm32_manager_.SetTextInputMode(window_handle, text_input_mode);
tsf_inputscope::SetInputScopeForTsfUnawareWindow(
window_handle, text_input_type, text_input_mode);
}
} // namespace ui