w32_keypad_sw.h
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/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2005
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*****************************************************************************
*
* Filename:
* ---------
* keypad_sw.h
*
* Project:
* --------
* Maui_Software
*
* Description:
* ------------
* This file is intends for keypad driver and adaption.
*
* Author:
* -------
* -------
*
*============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
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*------------------------------------------------------------------------------
* Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
*============================================================================
****************************************************************************/
#ifndef _W32_KEYPAD_SW_H
#define _W32_KEYPAD_SW_H
#include "drv_features.h"
#include "kal_release.h"
#include "intrCtrl.h"
#include "kal_non_specific_general_types.h"
#include "drv_comm.h"
#if !defined(__WISDOM__) || defined(L4_NOT_PRESENT)
#define KBD_PUSH_ONEKEY_TO_KBDBUFFER kbd_push_onekey_to_kbdbuffer
#define KBD_GPTI_STARTITEM(a,b,c,d) GPTI_StartItem(a,b,c,d)
#define KBD_GPTI_GETHANDLE(a) GPTI_GetHandle(a)
#define KBD_GPTI_STOPITEM(a) GPTI_StopItem(a)
#define KBD_GPTI_RELEASEHANDLE(a) GPTI_ReleaseHandle(a)
#else
#define DRV_KBD_ONLY_UP_DOWN_KEY
#define KBD_PUSH_ONEKEY_TO_KBDBUFFER kbd_push_onekey_to_kbdbuffer_ilm
#define KBD_GPTI_STARTITEM(a,b,c,d) 0
#define KBD_GPTI_GETHANDLE(a) 0
#define KBD_GPTI_STOPITEM(a) ;
#define KBD_GPTI_RELEASEHANDLE(a) ;
#endif //#if !defined(WISDOM_MMI) || defined(L4_NOT_PRESENT)
#if defined(__EXTEND_QWERTY_KEYPAD__)
// Not unmask KBD IRQ under extend key, unless all key are released.
//#define KBD_IRQUnmask(a) ;
#define KBD_MASKIRQ SetINTMask(IRQ_KPAD_CODE)
#define KBD_UNMASKIRQ RestoreINTMask(IRQ_KPAD_CODE)
#else
#define KBD_MASKIRQ IRQMask(IRQ_KPAD_CODE)
#define KBD_UNMASKIRQ IRQUnmask(IRQ_KPAD_CODE)
//#define KBD_IRQUnmask(a) IRQUnmask(a)
#endif //#if defined(__EXTEND_QWERTY_KEYPAD__)
/* #define TWO_KEY_ENABLE */
/*#define KBD_DBGMODE */ /*to check buffer full when MMI is too slow */
#if defined(__TWO_KEY_DETECTION_SWITCHABLE__)
#define KBD_KEY_DETECTION_CNT 2
#ifdef __EXTRA_A_B_KEY_SUPPORT__
#define KBD_GPT_HDL_CNT 4
#else /*__EXTRA_A_B_KEY_SUPPORT__*/
#define KBD_GPT_HDL_CNT 2
#endif/*__EXTRA_A_B_KEY_SUPPORT__*/
#elif defined(__THREE_KEY_DETECTION_SWITCHABLE__)
#define KBD_KEY_DETECTION_CNT 3
#ifdef __EXTRA_A_B_KEY_SUPPORT__
#define KBD_GPT_HDL_CNT 5
#else /*__EXTRA_A_B_KEY_SUPPORT__*/
#define KBD_GPT_HDL_CNT 3
#endif/*__EXTRA_A_B_KEY_SUPPORT__*/
#else
#define KBD_KEY_DETECTION_CNT 1
#define KBD_GPT_HDL_CNT 1
// #define KBD_DETECT_ONLY_ONE_KEY
#endif /* __TWO_KEY_DETECTION_SWITCHABLE__ */
typedef enum {
kbd_1_key_det_mode = 0,
kbd_2_keys_det_mode,
kbd_3_keys_det_mode
} kbd_key_det_mode;
#if defined(TWO_KEY_ENABLE)
#if defined(__TWO_KEY_DETECTION_SWITCHABLE__) || defined(__THREE_KEY_DETECTION_SWITCHABLE__)
#error " kbd config conflicts!!"
#endif
#endif
#if defined(DRV_KBD_25_KEYS) || defined(FPGA)
#define kbd_allkeys 25
#define KBD_ROW 5
#define KBD_COLUMN_MASK 0x1F //5 bits mask
#define KBD_COLUMN 5
#elif defined(DRV_KBD_36_KEYS)
#define kbd_allkeys 36
#define KBD_ROW 6
#define KBD_COLUMN_MASK 0x3F //6 bits mask
#define KBD_COLUMN 6
#elif defined(DRV_KBD_42_KEYS)
#define kbd_allkeys 42
#define KBD_ROW 6
#define KBD_COLUMN_MASK 0x3F //6 bits mask
#define KBD_COLUMN 7
#elif defined(DRV_KBD_35_KEYS)
#define kbd_allkeys 35
#define KBD_ROW 5
#define KBD_COLUMN_MASK 0x1F //5 bits mask
#define KBD_COLUMN 7
#elif defined(DRV_KBD_54_KEYS)
#define kbd_allkeys 54
#define KBD_ROW 6
#define KBD_COLUMN_MASK 0x3F //6 bits mask
#define KBD_COLUMN 9
#elif defined(DRV_KBD_72_KEYS)
#define kbd_allkeys 72
#define KBD_ROW 8
#define KBD_COLUMN_MASK 0xFF //8 bits mask
#define KBD_COLUMN 9
#elif defined(DRV_KBD_55_KEYS)
#define kbd_allkeys 55
#define KBD_ROW 5
#define KBD_COLUMN_MASK 0xFF //8 bits mask
#define KBD_COLUMN 11 //simulate 5*11,while the real col and row is 5*5
#elif defined(DRV_KBD_NOT_EXIST)
#define kbd_allkeys 1
#define KBD_ROW 1
#define KBD_COLUMN_MASK 0x1 //1 bits mask
#define KBD_COLUMN 1
#endif /*DRV_KBD_25_KEYS,FPGA*/
#define kbd_buffer_size 32
#define EVENT_REQUESTED (KBD_STATUS_CHANGE_EVENT|KBD_SWITCH_DETCTION_MODE_EVENT |KEY_UP_EVENT| KEY_DOWN_EVENT| KEY_RIGHT_EVENT | KEY_LEFT_EVENT)
/*keypad*/
typedef enum {
low_key=0,
#if defined(DRV_KBD_32KEYS_ABOVE)
medium_key,
#elif defined(DRV_KBD_48KEYS_ABOVE)
medium_key,
medium_key1,
#elif defined(DRV_KBD_64KEYS_ABOVE)
medium_key,
medium_key1,
medium_key2,
#endif
high_key
} kbd_type;
/*keypad*/
typedef enum {
kbd_onekey_press=0,
kbd_onekey_release,
#ifdef TWO_KEY_ENABLE
kbd_twokey_press,
kbd_twokey_release,
#endif /*TWO_KEY_ENABLE*/
kbd_onekey_longpress,
kbd_onekey_repeated,
kbd_onekey_fullpress,
kbd_twokey_detection_enable,
kbd_threekey_detection_enable,
kbd_multikey_detection_disable
} kbd_event;
typedef struct
{
kbd_event Keyevent;
#ifdef TWO_KEY_ENABLE
kal_uint8 Keydata[2];
#else /*!TWO_KEY_ENABLE*/
kal_uint8 Keydata[1];
#endif /*TWO_KEY_ENABLE*/
#if defined(__TC01__)
/* under construction !*/
#endif
} kbd_data;
typedef struct
{
kal_uint32 kbdmap_reg;
#if defined(DRV_KBD_32KEYS_ABOVE) || defined(DRV_KBD_48KEYS_ABOVE) || defined(DRV_KBD_64KEYS_ABOVE)
kal_uint32 kbdmap_reg1;
#endif /*DRV_KBD_32KEYS_ABOVE*/
#if defined(DRV_KBD_64KEYS_ABOVE)
kal_uint32 kbdmap_reg2;
#endif
}kbd_map_reg_struct;
typedef enum
{
KEY_DIRECTION_EVENT_NUll,
KBD_STATUS_CHANGE_EVENT = 0x01, /*keypad status changes event id */
KBD_SWITCH_DETCTION_MODE_EVENT = 0x02, /*keypad switch detection mode event id*/
KEY_UP_EVENT = 0x10,
KEY_DOWN_EVENT = 0x20,
KEY_LEFT_EVENT = 0x40,
KEY_RIGHT_EVENT = 0x80,
KEY_DIRECTION_EVENT_ALL = 0xF0
}kbd_task_event;
typedef struct
{
kal_hisrid hisr;
kal_eventgrpid event;
#if defined(__KBD_JOYSTICK_SUPPORT__)
kal_uint8 gpthandle;
#else
#ifdef __EXTRA_A_B_KEY_SUPPORT__
kal_uint8 gpthandle[KBD_GPT_HDL_CNT];
kal_bool ext_status[2];
#else /*__EXTRA_A_B_KEY_SUPPORT__*/
kal_uint8 gpthandle[KBD_GPT_HDL_CNT];
#endif/*__EXTRA_A_B_KEY_SUPPORT__*/
#endif
#ifdef __KBD_2STEP_KEY_SUPPORT__
kal_uint8 kbd_2key_handle;
#endif
#if defined(__EXTEND_QWERTY_KEYPAD__)
kal_uint8 kbd_extend_gpthandle;
kal_uint32 polling_timeout;
#endif //#if defined(__EXTEND_QWERTY_KEYPAD__)
kal_uint32 longpress_timeout;
kal_uint32 repeat_time;
#if defined(__KBD_JOYSTICK_SUPPORT__)
kal_uint32 kbdmap_reg;
#if defined(DRV_KBD_32KEYS_ABOVE) || defined(DRV_KBD_48KEYS_ABOVE) || defined(DRV_KBD_64KEYS_ABOVE)
kal_uint32 kbdmap_reg1;
#endif /*DRV_KBD_32KEYS_ABOVE*/
#if defined(DRV_KBD_64KEYS_ABOVE)
kal_uint32 kbdmap_reg2;
#endif /*DRV_KBD_64KEYS_ABOVE*/
#endif
} kbd_struct;
typedef struct
{
kbd_data kbd_data_buffer[kbd_buffer_size];
kal_uint8 kbd_data_buffer_rindex;
kal_uint8 kbd_data_buffer_windex;
} kbd_buffer_struct;
/*Customizae Keypad*/
typedef struct {
/*keypad mapping*/
#if defined(DRV_KBD_DRVTOOL_EXTEND_72_KEYS)
kal_uint8 keypad[72];//kbd_allkeys+KBD_COLUMN*2]; //reserve one GND row and GPO row.
#else
kal_uint8 keypad[kbd_allkeys];
#endif//#if defined(DRV_KBD_DRVTOOL_EXTEND_72_KEYS)
#if defined(__EXTEND_QWERTY_KEYPAD__)
kal_uint16 kbd_extend_row_GPO; //extend row use which GPO
#endif //#if defined(__EXTEND_QWERTY_KEYPAD__)
/*power on period*/
kal_uint32 Custom_Keypress_Period;
/*power key position*/
kal_uint8 powerkey_position;
} keypad_struct;
typedef struct {
const keypad_struct * (*keypad_Get_Data)(void);
#ifdef __KBD_2STEP_KEY_SUPPORT__
kal_bool (*keypad_is_fullpress)(kal_uint8 key);
kal_bool (*keypad_check_fullpress)(void);
#endif
}keypad_customize_function_struct;
#if defined(__EXTEND_QWERTY_KEYPAD__)
typedef struct
{
kal_bool key_column_all_low_GND[KBD_COLUMN]; //column all low cause by GND_ROW
kal_bool key_column_all_low_GPO[KBD_COLUMN]; //column all low cause by GPO_ROW
}keypad_Ext_QwertyKey_Status;
typedef struct
{
kal_bool key_column_all_low_GND[KBD_COLUMN]; //column all low cause by GND_ROW
kal_bool key_column_all_low_GPO[KBD_COLUMN]; //column all low cause by GPO_ROW
kal_uint8 kbd_press_GND_column[KBD_KEY_DETECTION_CNT]; // which column pressed
kal_uint8 kbd_press_GPO_column[KBD_KEY_DETECTION_CNT]; // which column pressed
}keypad_Ext_QwertyKey_detect_info_struct;
#endif
/*keypad detect keys result during one key event*/
typedef struct
{
#if defined(__EXTEND_QWERTY_KEYPAD__)
keypad_Ext_QwertyKey_detect_info_struct kbd_Ext_Qwerty_key_info;
#endif
kal_uint8 key_presscount;
kal_uint8 key_releasecount;
kal_uint8 key_total_count;
kal_uint8 kbd_press_key[KBD_KEY_DETECTION_CNT];
kal_uint8 kbd_release_key[KBD_KEY_DETECTION_CNT];
} keypad_detect_info_struct;
typedef enum
{
Normal_ROW = 0,
Ext_GPO_ROW,
Ext_GND_ROW
}Keypad_ROW_Type;
/*every key information*/
typedef struct
{
kal_bool bKeyStatus; /*0: press; 1: release */
kal_uint16 key_index; /*key index defined during customization*/
#if defined(__EXTEND_QWERTY_KEYPAD__)
kal_uint8 key_column; /*extend keys in which column*/
Keypad_ROW_Type Row_Type;
#endif
}keypad_key_info;
typedef struct
{
kbd_map_reg_struct kbd_map_reg;
#if defined(__EXTEND_QWERTY_KEYPAD__)
kal_bool key_column_all_low_GND[KBD_COLUMN]; //column all low cause by GND_ROW
kal_bool key_column_all_low_GPO[KBD_COLUMN]; //column all low cause by GPO_ROW
#endif
}keypad_status_struct;
#if !defined(KBD_DETECT_ONLY_ONE_KEY) && defined(__EXTRA_A_B_KEY_SUPPORT__)
extern const kal_uint8 EXTRA_A_KEY_EINT_NO;
extern const kal_uint8 EXTRA_B_KEY_EINT_NO;
#define EINT_A_KEY EXTRA_A_KEY_EINT_NO
#define EINT_B_KEY EXTRA_B_KEY_EINT_NO
#endif
#if defined(__TC01__)
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
#else
#define kbd_push_time_stamp() ;
#define kbd_pop_time_stamp(_key_data) ;
#endif
#define kbd_push_onekey_to_kbdbuffer(_event,_key) \
{\
ASSERT(kbd_push_assert == KAL_FALSE);\
kbd_push_assert = KAL_TRUE;\
kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_windex].Keyevent = (_event);\
kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_windex].Keydata[0] = (_key);\
kbd_push_time_stamp();\
kbd_buffer.kbd_data_buffer_windex++;\
kbd_buffer.kbd_data_buffer_windex &= (kbd_buffer_size-1);\
kbd_push_assert = KAL_FALSE;\
}
#define kbd_push_onekey_to_kbdbuffer_ilm(_event,_key) \
{\
kbd_push_onekey_to_kbdbuffer((_event),(_key));\
DRV_BuildPrimitive(Kp_ilm, MOD_DRVKBD, MOD_UEM, MSG_ID_DRVUEM_KEYPAD_IND, NULL);\
msg_send_ext_queue(Kp_ilm);\
}
#define kbd_push_twokey_to_kbdbuffer(_event,_key1,_key2) \
{\
ASSERT(kbd_push_assert == KAL_FALSE);\
kbd_push_assert = KAL_TRUE;\
kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_windex].Keyevent = (_event);\
kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_windex].Keydata[0] = (_key1);\
kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_windex].Keydata[1] = (_key2);\
kbd_push_time_stamp();\
kbd_buffer.kbd_data_buffer_windex++;\
kbd_buffer.kbd_data_buffer_windex &= (kbd_buffer_size-1);\
kbd_push_assert = KAL_FALSE;\
}
#define kbdbuffer_get_roomleft(_left) \
{\
if ( kbd_buffer.kbd_data_buffer_rindex <= kbd_buffer.kbd_data_buffer_windex ) \
{\
_left = kbd_buffer_size - kbd_buffer.kbd_data_buffer_windex + kbd_buffer.kbd_data_buffer_rindex - 1;\
}\
else\
{\
_left = kbd_buffer.kbd_data_buffer_rindex - kbd_buffer.kbd_data_buffer_windex - 1;\
}\
}
#ifdef TWO_KEY_ENABLE
#define kbd_pop_twokey_from_kbdbuffer(_key_data) \
{\
kbd_data* key_data = (kbd_data*)(_key_data);\
ASSERT(kbd_pop_assert == KAL_FALSE);\
kbd_pop_assert = KAL_TRUE;\
key_data->Keyevent = kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_rindex].Keyevent;\
key_data->Keydata[0] = kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_rindex].Keydata[0];\
key_data->Keydata[1] = kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_rindex].Keydata[1];\
kbd_pop_time_stamp(_key_data);\
kbd_buffer.kbd_data_buffer_rindex++;\
kbd_buffer.kbd_data_buffer_rindex &= (kbd_buffer_size-1);\
kbd_pop_assert = KAL_FALSE;\
}
#else /*!TWO_KEY_ENABLE*/
#define kbd_pop_onekey_from_kbdbuffer(_key_data) \
{\
kbd_data* key_data = (kbd_data*)(_key_data);\
ASSERT(kbd_pop_assert == KAL_FALSE);\
kbd_pop_assert = KAL_TRUE;\
key_data->Keyevent = kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_rindex].Keyevent;\
key_data->Keydata[0] = kbd_buffer.kbd_data_buffer[kbd_buffer.kbd_data_buffer_rindex].Keydata[0];\
kbd_pop_time_stamp(_key_data);\
kbd_buffer.kbd_data_buffer_rindex++;\
kbd_buffer.kbd_data_buffer_rindex &= (kbd_buffer_size-1);\
kbd_pop_assert = KAL_FALSE;\
}
#endif /*TWO_KEY_ENABLE*/
#ifdef TWO_KEY_ENABLE
#define kbd_peek_twokey_from_kbdbuffer_index(_key_data, _index) \
{\
kbd_data* key_data = (kbd_data*)(_key_data);\
kal_uint8 index = (kal_uint8)(_index);\
ASSERT(index != kbd_buffer_size);\
key_data->Keyevent = kbd_buffer.kbd_data_buffer[index].Keyevent;\
key_data->Keydata[0] = kbd_buffer.kbd_data_buffer[index].Keydata[0];\
key_data->Keydata[1] = kbd_buffer.kbd_data_buffer[index].Keydata[1];\
}
#else /*!TWO_KEY_ENABLE*/
#define kbd_peek_onekey_from_kbdbuffer_index(_key_data, _index) \
{\
kbd_data* key_data = (kbd_data*)(_key_data);\
kal_uint8 index = (kal_uint8)(_index);\
ASSERT(index != kbd_buffer_size);\
key_data->Keyevent = kbd_buffer.kbd_data_buffer[index].Keyevent;\
key_data->Keydata[0] = kbd_buffer.kbd_data_buffer[index].Keydata[0];\
}
#endif /*TWO_KEY_ENABLE*/
// MoDIS parser skip start
// The following are private APIs
extern void keypad_customize_init(void);
// MoDIS parser skip end
// MoDIS parser skip start
// The following APIs are implemented in other dummy API files
extern kal_bool kbd_key_det_mode_switch(kbd_key_det_mode mode);
extern kal_bool kbd_IsKeyButtonSupported(kal_uint8 key);
// MoDIS parser skip end
extern kal_bool PowerKey_Pressed(void);
extern kal_bool kbd_is_mutiple_key(kal_uint8 key);
extern kal_bool kbd_IsKeyPressed(kal_uint8 key);
extern kal_uint32 Kbd_GetKeyEventCount(void);
extern kal_uint32 kbd_PutKeyData(kal_uint8 key);
#if defined(JOGBALL_SUPPORT)
extern void Jogball_Init(void);
extern void Jogball_Reset(void);
#endif //#if defined(JOGBALL_SUPPORT)
#include "us_timer.h"
extern kal_uint32 L1I_GetTimeStamp(void);
#define KBD_GetTimeStamp L1I_GetTimeStamp
#if defined(__MTK_INTERNAL__) && !defined(LOW_COST_SUPPORT) && !defined(__MAUI_BASIC__) && defined(__DRV_DBG_MEMORY_TRACE_SUPPORT__) && defined(__EXTEND_QWERTY_KEYPAD__)
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
#else //#if defined(__MTK_INTERNAL__) && !defined(LOW_COST_SUPPORT)
#define KBD_DBG(a,b,c,d) ;
#endif //#if defined(__MTK_INTERNAL__) && !defined(LOW_COST_SUPPORT)
#if defined(__DRV_COMM_REG_DBG__) && defined(__DRV_KBD_REG_DBG__)
#define DRV_KBD_WriteReg(addr,data) DRV_DBG_WriteReg(addr,data)
#define DRV_KBD_Reg(addr) DRV_DBG_Reg(addr)
#define DRV_KBD_WriteReg32(addr,data) DRV_DBG_WriteReg32(addr,data)
#define DRV_KBD_Reg32(addr) DRV_DBG_Reg32(addr)
#define DRV_KBD_WriteReg8(addr,data) DRV_DBG_WriteReg8(addr,data)
#define DRV_KBD_Reg8(addr) DRV_DBG_Reg8(addr)
#define DRV_KBD_ClearBits(addr,data) DRV_DBG_ClearBits(addr,data)
#define DRV_KBD_SetBits(addr,data) DRV_DBG_SetBits(addr,data)
#define DRV_KBD_SetData(addr, bitmask, value) DRV_DBG_SetData(addr, bitmask, value)
#define DRV_KBD_ClearBits32(addr,data) DRV_DBG_ClearBits32(addr,data)
#define DRV_KBD_SetBits32(addr,data) DRV_DBG_SetBits32(addr,data)
#define DRV_KBD_SetData32(addr, bitmask, value) DRV_DBG_SetData32(addr, bitmask, value)
#define DRV_KBD_ClearBits8(addr,data) DRV_DBG_ClearBits8(addr,data)
#define DRV_KBD_SetBits8(addr,data) DRV_DBG_SetBits8(addr,data)
#define DRV_KBD_SetData8(addr, bitmask, value) DRV_DBG_SetData8(addr, bitmask, value)
#else
#define DRV_KBD_WriteReg(addr,data) DRV_WriteReg(addr,data)
#define DRV_KBD_Reg(addr) DRV_Reg(addr)
#define DRV_KBD_WriteReg32(addr,data) DRV_WriteReg32(addr,data)
#define DRV_KBD_Reg32(addr) DRV_Reg32(addr)
#define DRV_KBD_WriteReg8(addr,data) DRV_WriteReg8(addr,data)
#define DRV_KBD_Reg8(addr) DRV_Reg8(addr)
#define DRV_KBD_ClearBits(addr,data) DRV_ClearBits(addr,data)
#define DRV_KBD_SetBits(addr,data) DRV_SetBits(addr,data)
#define DRV_KBD_SetData(addr, bitmask, value) DRV_SetData(addr, bitmask, value)
#define DRV_KBD_ClearBits32(addr,data) DRV_ClearBits32(addr,data)
#define DRV_KBD_SetBits32(addr,data) DRV_SetBits32(addr,data)
#define DRV_KBD_SetData32(addr, bitmask, value) DRV_SetData32(addr, bitmask, value)
#define DRV_KBD_ClearBits8(addr,data) DRV_ClearBits8(addr,data)
#define DRV_KBD_SetBits8(addr,data) DRV_SetBits8(addr,data)
#define DRV_KBD_SetData8(addr, bitmask, value) DRV_SetData8(addr, bitmask, value)
#endif //#if defined(__DRV_COMM_REG_DBG__) && defined(__DRV_KBD_REG_DBG__)
#endif