rt-thread-official/bsp/gkipc/libraries/drv/710XS/gh/inc/gh_spi2.h

1827 lines
64 KiB
C

/*!
*******************************************************************************
**
** \file gh_spi2.h
**
** \brief Slave interface; Slave3, TSSI.
**
** Copyright: 2012 - 2013 (C) GoKe Microelectronics ShangHai Branch
**
** \attention THIS SAMPLE CODE IS PROVIDED AS IS. GOKE MICROELECTRONICS
** ACCEPTS NO RESPONSIBILITY OR LIABILITY FOR ANY ERRORS OR
** OMMISSIONS.
**
** \note Do not modify this file as it is generated automatically.
**
******************************************************************************/
#ifndef _GH_SPI2_H
#define _GH_SPI2_H
#ifdef __LINUX__
#include "reg4linux.h"
#else
#define FIO_ADDRESS(block,address) (address)
#define FIO_MOFFSET(block,moffset) (moffset)
#endif
#ifndef __LINUX__
#include "gtypes.h" /* global type definitions */
#include "gh_lib_cfg.h" /* configuration */
#endif
#define GH_SPI2_ENABLE_DEBUG_PRINT 0
#ifdef __LINUX__
#define GH_SPI2_DEBUG_PRINT_FUNCTION printk
#else
#define GH_SPI2_DEBUG_PRINT_FUNCTION printf
#endif
#ifndef __LINUX__
#if GH_SPI2_ENABLE_DEBUG_PRINT
#include <stdio.h>
#endif
#endif
/* check configuration */
#ifndef GH_INLINE_LEVEL
#error "GH_INLINE_LEVEL is not defined!"
#endif
#if GH_INLINE_LEVEL > 2
#error "GH_INLINE_LEVEL must be set 0, 1 or 2!"
#endif
#ifndef GH_INLINE
#error "GH_INLINE is not defined!"
#endif
/* disable inlining for debugging */
#ifdef DEBUG
#undef GH_INLINE_LEVEL
#define GH_INLINE_LEVEL 0
#endif
/*----------------------------------------------------------------------------*/
/* registers */
/*----------------------------------------------------------------------------*/
#define REG_SPI2_CTRLR0 FIO_ADDRESS(SPI2,0xA001D000) /* read/write */
#define REG_SPI2_CTRLR1 FIO_ADDRESS(SPI2,0xA001D004) /* read/write */
#define REG_SPI2_SSIENR FIO_ADDRESS(SPI2,0xA001D008) /* read/write */
#define REG_SPI2_SER FIO_ADDRESS(SPI2,0xA001D010) /* read/write */
#define REG_SPI2_BAUDR FIO_ADDRESS(SPI2,0xA001D014) /* read/write */
#define REG_SPI2_TXFTLR FIO_ADDRESS(SPI2,0xA001D018) /* read/write */
#define REG_SPI2_RXFTLR FIO_ADDRESS(SPI2,0xA001D01C) /* read/write */
#define REG_SPI2_TXFLR FIO_ADDRESS(SPI2,0xA001D020) /* read/write */
#define REG_SPI2_RXFLR FIO_ADDRESS(SPI2,0xA001D024) /* read/write */
#define REG_SPI2_SR FIO_ADDRESS(SPI2,0xA001D028) /* read */
#define REG_SPI2_IMR FIO_ADDRESS(SPI2,0xA001D02C) /* read/write */
#define REG_SPI2_ISR FIO_ADDRESS(SPI2,0xA001D030) /* read */
#define REG_SPI2_RISR FIO_ADDRESS(SPI2,0xA001D034) /* read */
#define REG_SPI2_TXOICR FIO_ADDRESS(SPI2,0xA001D038) /* read */
#define REG_SPI2_RXOICR FIO_ADDRESS(SPI2,0xA001D03C) /* read */
#define REG_SPI2_RXUICR FIO_ADDRESS(SPI2,0xA001D040) /* read */
#define REG_SPI2_MSTICR FIO_ADDRESS(SPI2,0xA001D044) /* read */
#define REG_SPI2_ICR FIO_ADDRESS(SPI2,0xA001D048) /* read */
#define REG_SPI2_IDR FIO_ADDRESS(SPI2,0xA001D058) /* read */
#define REG_SPI2_DR FIO_ADDRESS(SPI2,0xA001D060) /* read */
#define REG_SPI2_DW FIO_ADDRESS(SPI2,0xA001D060) /* write */
/*----------------------------------------------------------------------------*/
/* bit group structures */
/*----------------------------------------------------------------------------*/
typedef union { /* SPI2_CTRLR0 */
U32 all;
struct {
U32 dfs : 4;
U32 frf : 2;
U32 scph : 1;
U32 scpol : 1;
U32 tmod : 2;
U32 slv_oe : 1;
U32 srl : 1;
U32 cfs : 4;
U32 : 16;
} bitc;
} GH_SPI2_CTRLR0_S;
typedef union { /* SPI2_CTRLR1 */
U32 all;
struct {
U32 ndf : 16;
U32 : 16;
} bitc;
} GH_SPI2_CTRLR1_S;
typedef union { /* SPI2_SSIENR */
U32 all;
struct {
U32 ssi_enb : 1;
U32 : 31;
} bitc;
} GH_SPI2_SSIENR_S;
typedef union { /* SPI2_SER */
U32 all;
struct {
U32 ser_l : 2;
U32 : 2;
U32 ser_h : 4;
U32 : 24;
} bitc;
} GH_SPI2_SER_S;
typedef union { /* SPI2_BAUDR */
U32 all;
struct {
U32 sckdv : 16;
U32 : 16;
} bitc;
} GH_SPI2_BAUDR_S;
typedef union { /* SPI2_TXFTLR */
U32 all;
struct {
U32 tft : 4;
U32 : 28;
} bitc;
} GH_SPI2_TXFTLR_S;
typedef union { /* SPI2_RXFTLR */
U32 all;
struct {
U32 rft : 4;
U32 : 28;
} bitc;
} GH_SPI2_RXFTLR_S;
typedef union { /* SPI2_TXFLR */
U32 all;
struct {
U32 txtfl : 5;
U32 : 27;
} bitc;
} GH_SPI2_TXFLR_S;
typedef union { /* SPI2_RXFLR */
U32 all;
struct {
U32 rxtfl : 5;
U32 : 27;
} bitc;
} GH_SPI2_RXFLR_S;
typedef union { /* SPI2_SR */
U32 all;
struct {
U32 busy : 1;
U32 tfnf : 1;
U32 tfe : 1;
U32 rfne : 1;
U32 rff : 1;
U32 txe : 1;
U32 dcol : 1;
U32 : 25;
} bitc;
} GH_SPI2_SR_S;
typedef union { /* SPI2_IMR */
U32 all;
struct {
U32 txeim : 1;
U32 txoim : 1;
U32 rxuim : 1;
U32 rxoim : 1;
U32 rxfim : 1;
U32 mstim : 1;
U32 : 26;
} bitc;
} GH_SPI2_IMR_S;
typedef union { /* SPI2_ISR */
U32 all;
struct {
U32 txeis : 1;
U32 txois : 1;
U32 rxuis : 1;
U32 rxois : 1;
U32 rxfis : 1;
U32 mstis : 1;
U32 : 26;
} bitc;
} GH_SPI2_ISR_S;
typedef union { /* SPI2_RISR */
U32 all;
struct {
U32 txeir : 1;
U32 txoir : 1;
U32 rxuir : 1;
U32 rxoir : 1;
U32 rxfir : 1;
U32 mstir : 1;
U32 : 26;
} bitc;
} GH_SPI2_RISR_S;
typedef union { /* SPI2_TXOICR */
U32 all;
struct {
U32 txoicr : 1;
U32 : 31;
} bitc;
} GH_SPI2_TXOICR_S;
typedef union { /* SPI2_RXOICR */
U32 all;
struct {
U32 rxoicr : 1;
U32 : 31;
} bitc;
} GH_SPI2_RXOICR_S;
typedef union { /* SPI2_RXUICR */
U32 all;
struct {
U32 rxuicr : 1;
U32 : 31;
} bitc;
} GH_SPI2_RXUICR_S;
typedef union { /* SPI2_MSTICR */
U32 all;
struct {
U32 msticr : 1;
U32 : 31;
} bitc;
} GH_SPI2_MSTICR_S;
typedef union { /* SPI2_ICR */
U32 all;
struct {
U32 icr : 1;
U32 : 31;
} bitc;
} GH_SPI2_ICR_S;
typedef union { /* SPI2_IDR */
U32 all;
struct {
U32 id : 1;
U32 : 31;
} bitc;
} GH_SPI2_IDR_S;
typedef union { /* SPI2_DR */
U32 all;
struct {
U32 dr : 16;
U32 : 16;
} bitc;
} GH_SPI2_DR_S;
typedef union { /* SPI2_DW */
U32 all;
struct {
U32 dw : 16;
U32 : 16;
} bitc;
} GH_SPI2_DW_S;
/*----------------------------------------------------------------------------*/
/* mirror variables */
/*----------------------------------------------------------------------------*/
extern GH_SPI2_DW_S m_spi2_dw;
#ifdef __cplusplus
extern "C" {
#endif
/*----------------------------------------------------------------------------*/
/* register SPI2_CTRLR0 (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0(U32 data);
/*! \brief Reads the register 'SPI2_CTRLR0'. */
U32 GH_SPI2_get_CTRLR0(void);
/*! \brief Writes the bit group 'DFS' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_DFS(U8 data);
/*! \brief Reads the bit group 'DFS' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_DFS(void);
/*! \brief Writes the bit group 'FRF' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_FRF(U8 data);
/*! \brief Reads the bit group 'FRF' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_FRF(void);
/*! \brief Writes the bit group 'SCPH' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_SCPH(U8 data);
/*! \brief Reads the bit group 'SCPH' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_SCPH(void);
/*! \brief Writes the bit group 'SCPOL' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_SCPOL(U8 data);
/*! \brief Reads the bit group 'SCPOL' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_SCPOL(void);
/*! \brief Writes the bit group 'TMOD' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_TMOD(U8 data);
/*! \brief Reads the bit group 'TMOD' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_TMOD(void);
/*! \brief Writes the bit group 'SLV_OE' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_SLV_OE(U8 data);
/*! \brief Reads the bit group 'SLV_OE' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_SLV_OE(void);
/*! \brief Writes the bit group 'SRL' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_SRL(U8 data);
/*! \brief Reads the bit group 'SRL' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_SRL(void);
/*! \brief Writes the bit group 'CFS' of register 'SPI2_CTRLR0'. */
void GH_SPI2_set_CTRLR0_CFS(U8 data);
/*! \brief Reads the bit group 'CFS' of register 'SPI2_CTRLR0'. */
U8 GH_SPI2_get_CTRLR0_CFS(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_CTRLR0(U32 data)
{
*(volatile U32 *)REG_SPI2_CTRLR0 = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0] <-- 0x%08x\n",
REG_SPI2_CTRLR0,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_CTRLR0(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_CTRLR0_DFS(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.dfs = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_DFS] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_DFS(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_DFS] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.dfs;
}
GH_INLINE void GH_SPI2_set_CTRLR0_FRF(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.frf = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_FRF] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_FRF(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_FRF] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.frf;
}
GH_INLINE void GH_SPI2_set_CTRLR0_SCPH(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.scph = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_SCPH] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_SCPH(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_SCPH] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.scph;
}
GH_INLINE void GH_SPI2_set_CTRLR0_SCPOL(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.scpol = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_SCPOL] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_SCPOL(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_SCPOL] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.scpol;
}
GH_INLINE void GH_SPI2_set_CTRLR0_TMOD(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.tmod = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_TMOD] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_TMOD(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_TMOD] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.tmod;
}
GH_INLINE void GH_SPI2_set_CTRLR0_SLV_OE(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.slv_oe = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_SLV_OE] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_SLV_OE(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_SLV_OE] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.slv_oe;
}
GH_INLINE void GH_SPI2_set_CTRLR0_SRL(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.srl = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_SRL] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_SRL(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_SRL] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.srl;
}
GH_INLINE void GH_SPI2_set_CTRLR0_CFS(U8 data)
{
GH_SPI2_CTRLR0_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR0;
d.bitc.cfs = data;
*(volatile U32 *)REG_SPI2_CTRLR0 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR0_CFS] <-- 0x%08x\n",
REG_SPI2_CTRLR0,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_CTRLR0_CFS(void)
{
GH_SPI2_CTRLR0_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR0);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR0_CFS] --> 0x%08x\n",
REG_SPI2_CTRLR0,value);
#endif
return tmp_value.bitc.cfs;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_CTRLR1 (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_CTRLR1'. */
void GH_SPI2_set_CTRLR1(U32 data);
/*! \brief Reads the register 'SPI2_CTRLR1'. */
U32 GH_SPI2_get_CTRLR1(void);
/*! \brief Writes the bit group 'NDF' of register 'SPI2_CTRLR1'. */
void GH_SPI2_set_CTRLR1_NDF(U16 data);
/*! \brief Reads the bit group 'NDF' of register 'SPI2_CTRLR1'. */
U16 GH_SPI2_get_CTRLR1_NDF(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_CTRLR1(U32 data)
{
*(volatile U32 *)REG_SPI2_CTRLR1 = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR1] <-- 0x%08x\n",
REG_SPI2_CTRLR1,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_CTRLR1(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR1);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR1] --> 0x%08x\n",
REG_SPI2_CTRLR1,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_CTRLR1_NDF(U16 data)
{
GH_SPI2_CTRLR1_S d;
d.all = *(volatile U32 *)REG_SPI2_CTRLR1;
d.bitc.ndf = data;
*(volatile U32 *)REG_SPI2_CTRLR1 = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_CTRLR1_NDF] <-- 0x%08x\n",
REG_SPI2_CTRLR1,d.all,d.all);
#endif
}
GH_INLINE U16 GH_SPI2_get_CTRLR1_NDF(void)
{
GH_SPI2_CTRLR1_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_CTRLR1);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_CTRLR1_NDF] --> 0x%08x\n",
REG_SPI2_CTRLR1,value);
#endif
return tmp_value.bitc.ndf;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_SSIENR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_SSIENR'. */
void GH_SPI2_set_SSIENR(U32 data);
/*! \brief Reads the register 'SPI2_SSIENR'. */
U32 GH_SPI2_get_SSIENR(void);
/*! \brief Writes the bit group 'ssi_enb' of register 'SPI2_SSIENR'. */
void GH_SPI2_set_SSIENR_ssi_enb(U8 data);
/*! \brief Reads the bit group 'ssi_enb' of register 'SPI2_SSIENR'. */
U8 GH_SPI2_get_SSIENR_ssi_enb(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_SSIENR(U32 data)
{
*(volatile U32 *)REG_SPI2_SSIENR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_SSIENR] <-- 0x%08x\n",
REG_SPI2_SSIENR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_SSIENR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_SSIENR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SSIENR] --> 0x%08x\n",
REG_SPI2_SSIENR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_SSIENR_ssi_enb(U8 data)
{
GH_SPI2_SSIENR_S d;
d.all = *(volatile U32 *)REG_SPI2_SSIENR;
d.bitc.ssi_enb = data;
*(volatile U32 *)REG_SPI2_SSIENR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_SSIENR_ssi_enb] <-- 0x%08x\n",
REG_SPI2_SSIENR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_SSIENR_ssi_enb(void)
{
GH_SPI2_SSIENR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SSIENR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SSIENR_ssi_enb] --> 0x%08x\n",
REG_SPI2_SSIENR,value);
#endif
return tmp_value.bitc.ssi_enb;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_SER (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_SER'. */
void GH_SPI2_set_SER(U32 data);
/*! \brief Reads the register 'SPI2_SER'. */
U32 GH_SPI2_get_SER(void);
/*! \brief Writes the bit group 'SER_L' of register 'SPI2_SER'. */
void GH_SPI2_set_SER_SER_L(U8 data);
/*! \brief Reads the bit group 'SER_L' of register 'SPI2_SER'. */
U8 GH_SPI2_get_SER_SER_L(void);
/*! \brief Writes the bit group 'SER_H' of register 'SPI2_SER'. */
void GH_SPI2_set_SER_SER_H(U8 data);
/*! \brief Reads the bit group 'SER_H' of register 'SPI2_SER'. */
U8 GH_SPI2_get_SER_SER_H(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_SER(U32 data)
{
*(volatile U32 *)REG_SPI2_SER = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_SER] <-- 0x%08x\n",
REG_SPI2_SER,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_SER(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_SER);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SER] --> 0x%08x\n",
REG_SPI2_SER,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_SER_SER_L(U8 data)
{
GH_SPI2_SER_S d;
d.all = *(volatile U32 *)REG_SPI2_SER;
d.bitc.ser_l = data;
*(volatile U32 *)REG_SPI2_SER = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_SER_SER_L] <-- 0x%08x\n",
REG_SPI2_SER,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_SER_SER_L(void)
{
GH_SPI2_SER_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SER);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SER_SER_L] --> 0x%08x\n",
REG_SPI2_SER,value);
#endif
return tmp_value.bitc.ser_l;
}
GH_INLINE void GH_SPI2_set_SER_SER_H(U8 data)
{
GH_SPI2_SER_S d;
d.all = *(volatile U32 *)REG_SPI2_SER;
d.bitc.ser_h = data;
*(volatile U32 *)REG_SPI2_SER = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_SER_SER_H] <-- 0x%08x\n",
REG_SPI2_SER,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_SER_SER_H(void)
{
GH_SPI2_SER_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SER);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SER_SER_H] --> 0x%08x\n",
REG_SPI2_SER,value);
#endif
return tmp_value.bitc.ser_h;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_BAUDR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_BAUDR'. */
void GH_SPI2_set_BAUDR(U32 data);
/*! \brief Reads the register 'SPI2_BAUDR'. */
U32 GH_SPI2_get_BAUDR(void);
/*! \brief Writes the bit group 'SCKDV' of register 'SPI2_BAUDR'. */
void GH_SPI2_set_BAUDR_SCKDV(U16 data);
/*! \brief Reads the bit group 'SCKDV' of register 'SPI2_BAUDR'. */
U16 GH_SPI2_get_BAUDR_SCKDV(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_BAUDR(U32 data)
{
*(volatile U32 *)REG_SPI2_BAUDR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_BAUDR] <-- 0x%08x\n",
REG_SPI2_BAUDR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_BAUDR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_BAUDR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_BAUDR] --> 0x%08x\n",
REG_SPI2_BAUDR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_BAUDR_SCKDV(U16 data)
{
GH_SPI2_BAUDR_S d;
d.all = *(volatile U32 *)REG_SPI2_BAUDR;
d.bitc.sckdv = data;
*(volatile U32 *)REG_SPI2_BAUDR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_BAUDR_SCKDV] <-- 0x%08x\n",
REG_SPI2_BAUDR,d.all,d.all);
#endif
}
GH_INLINE U16 GH_SPI2_get_BAUDR_SCKDV(void)
{
GH_SPI2_BAUDR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_BAUDR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_BAUDR_SCKDV] --> 0x%08x\n",
REG_SPI2_BAUDR,value);
#endif
return tmp_value.bitc.sckdv;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_TXFTLR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_TXFTLR'. */
void GH_SPI2_set_TXFTLR(U32 data);
/*! \brief Reads the register 'SPI2_TXFTLR'. */
U32 GH_SPI2_get_TXFTLR(void);
/*! \brief Writes the bit group 'TFT' of register 'SPI2_TXFTLR'. */
void GH_SPI2_set_TXFTLR_TFT(U8 data);
/*! \brief Reads the bit group 'TFT' of register 'SPI2_TXFTLR'. */
U8 GH_SPI2_get_TXFTLR_TFT(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_TXFTLR(U32 data)
{
*(volatile U32 *)REG_SPI2_TXFTLR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_TXFTLR] <-- 0x%08x\n",
REG_SPI2_TXFTLR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_TXFTLR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_TXFTLR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_TXFTLR] --> 0x%08x\n",
REG_SPI2_TXFTLR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_TXFTLR_TFT(U8 data)
{
GH_SPI2_TXFTLR_S d;
d.all = *(volatile U32 *)REG_SPI2_TXFTLR;
d.bitc.tft = data;
*(volatile U32 *)REG_SPI2_TXFTLR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_TXFTLR_TFT] <-- 0x%08x\n",
REG_SPI2_TXFTLR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_TXFTLR_TFT(void)
{
GH_SPI2_TXFTLR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_TXFTLR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_TXFTLR_TFT] --> 0x%08x\n",
REG_SPI2_TXFTLR,value);
#endif
return tmp_value.bitc.tft;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_RXFTLR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_RXFTLR'. */
void GH_SPI2_set_RXFTLR(U32 data);
/*! \brief Reads the register 'SPI2_RXFTLR'. */
U32 GH_SPI2_get_RXFTLR(void);
/*! \brief Writes the bit group 'RFT' of register 'SPI2_RXFTLR'. */
void GH_SPI2_set_RXFTLR_RFT(U8 data);
/*! \brief Reads the bit group 'RFT' of register 'SPI2_RXFTLR'. */
U8 GH_SPI2_get_RXFTLR_RFT(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_RXFTLR(U32 data)
{
*(volatile U32 *)REG_SPI2_RXFTLR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_RXFTLR] <-- 0x%08x\n",
REG_SPI2_RXFTLR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_RXFTLR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_RXFTLR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXFTLR] --> 0x%08x\n",
REG_SPI2_RXFTLR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_RXFTLR_RFT(U8 data)
{
GH_SPI2_RXFTLR_S d;
d.all = *(volatile U32 *)REG_SPI2_RXFTLR;
d.bitc.rft = data;
*(volatile U32 *)REG_SPI2_RXFTLR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_RXFTLR_RFT] <-- 0x%08x\n",
REG_SPI2_RXFTLR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_RXFTLR_RFT(void)
{
GH_SPI2_RXFTLR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RXFTLR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXFTLR_RFT] --> 0x%08x\n",
REG_SPI2_RXFTLR,value);
#endif
return tmp_value.bitc.rft;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_TXFLR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_TXFLR'. */
void GH_SPI2_set_TXFLR(U32 data);
/*! \brief Reads the register 'SPI2_TXFLR'. */
U32 GH_SPI2_get_TXFLR(void);
/*! \brief Writes the bit group 'TXTFL' of register 'SPI2_TXFLR'. */
void GH_SPI2_set_TXFLR_TXTFL(U8 data);
/*! \brief Reads the bit group 'TXTFL' of register 'SPI2_TXFLR'. */
U8 GH_SPI2_get_TXFLR_TXTFL(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_TXFLR(U32 data)
{
*(volatile U32 *)REG_SPI2_TXFLR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_TXFLR] <-- 0x%08x\n",
REG_SPI2_TXFLR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_TXFLR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_TXFLR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_TXFLR] --> 0x%08x\n",
REG_SPI2_TXFLR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_TXFLR_TXTFL(U8 data)
{
GH_SPI2_TXFLR_S d;
d.all = *(volatile U32 *)REG_SPI2_TXFLR;
d.bitc.txtfl = data;
*(volatile U32 *)REG_SPI2_TXFLR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_TXFLR_TXTFL] <-- 0x%08x\n",
REG_SPI2_TXFLR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_TXFLR_TXTFL(void)
{
GH_SPI2_TXFLR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_TXFLR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_TXFLR_TXTFL] --> 0x%08x\n",
REG_SPI2_TXFLR,value);
#endif
return tmp_value.bitc.txtfl;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_RXFLR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_RXFLR'. */
void GH_SPI2_set_RXFLR(U32 data);
/*! \brief Reads the register 'SPI2_RXFLR'. */
U32 GH_SPI2_get_RXFLR(void);
/*! \brief Writes the bit group 'RXTFL' of register 'SPI2_RXFLR'. */
void GH_SPI2_set_RXFLR_RXTFL(U8 data);
/*! \brief Reads the bit group 'RXTFL' of register 'SPI2_RXFLR'. */
U8 GH_SPI2_get_RXFLR_RXTFL(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_RXFLR(U32 data)
{
*(volatile U32 *)REG_SPI2_RXFLR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_RXFLR] <-- 0x%08x\n",
REG_SPI2_RXFLR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_RXFLR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_RXFLR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXFLR] --> 0x%08x\n",
REG_SPI2_RXFLR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_RXFLR_RXTFL(U8 data)
{
GH_SPI2_RXFLR_S d;
d.all = *(volatile U32 *)REG_SPI2_RXFLR;
d.bitc.rxtfl = data;
*(volatile U32 *)REG_SPI2_RXFLR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_RXFLR_RXTFL] <-- 0x%08x\n",
REG_SPI2_RXFLR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_RXFLR_RXTFL(void)
{
GH_SPI2_RXFLR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RXFLR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXFLR_RXTFL] --> 0x%08x\n",
REG_SPI2_RXFLR,value);
#endif
return tmp_value.bitc.rxtfl;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_SR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_SR'. */
U32 GH_SPI2_get_SR(void);
/*! \brief Reads the bit group 'BUSY' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_BUSY(void);
/*! \brief Reads the bit group 'TFNF' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_TFNF(void);
/*! \brief Reads the bit group 'TFE' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_TFE(void);
/*! \brief Reads the bit group 'RFNE' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_RFNE(void);
/*! \brief Reads the bit group 'RFF' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_RFF(void);
/*! \brief Reads the bit group 'TXE' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_TXE(void);
/*! \brief Reads the bit group 'DCOL' of register 'SPI2_SR'. */
U8 GH_SPI2_get_SR_DCOL(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_SR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_SR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_SR_BUSY(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_BUSY] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.busy;
}
GH_INLINE U8 GH_SPI2_get_SR_TFNF(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_TFNF] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.tfnf;
}
GH_INLINE U8 GH_SPI2_get_SR_TFE(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_TFE] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.tfe;
}
GH_INLINE U8 GH_SPI2_get_SR_RFNE(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_RFNE] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.rfne;
}
GH_INLINE U8 GH_SPI2_get_SR_RFF(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_RFF] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.rff;
}
GH_INLINE U8 GH_SPI2_get_SR_TXE(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_TXE] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.txe;
}
GH_INLINE U8 GH_SPI2_get_SR_DCOL(void)
{
GH_SPI2_SR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_SR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_SR_DCOL] --> 0x%08x\n",
REG_SPI2_SR,value);
#endif
return tmp_value.bitc.dcol;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_IMR (read/write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Writes the register 'SPI2_IMR'. */
void GH_SPI2_set_IMR(U32 data);
/*! \brief Reads the register 'SPI2_IMR'. */
U32 GH_SPI2_get_IMR(void);
/*! \brief Writes the bit group 'TXEIM' of register 'SPI2_IMR'. */
void GH_SPI2_set_IMR_TXEIM(U8 data);
/*! \brief Reads the bit group 'TXEIM' of register 'SPI2_IMR'. */
U8 GH_SPI2_get_IMR_TXEIM(void);
/*! \brief Writes the bit group 'TXOIM' of register 'SPI2_IMR'. */
void GH_SPI2_set_IMR_TXOIM(U8 data);
/*! \brief Reads the bit group 'TXOIM' of register 'SPI2_IMR'. */
U8 GH_SPI2_get_IMR_TXOIM(void);
/*! \brief Writes the bit group 'RXUIM' of register 'SPI2_IMR'. */
void GH_SPI2_set_IMR_RXUIM(U8 data);
/*! \brief Reads the bit group 'RXUIM' of register 'SPI2_IMR'. */
U8 GH_SPI2_get_IMR_RXUIM(void);
/*! \brief Writes the bit group 'RXOIM' of register 'SPI2_IMR'. */
void GH_SPI2_set_IMR_RXOIM(U8 data);
/*! \brief Reads the bit group 'RXOIM' of register 'SPI2_IMR'. */
U8 GH_SPI2_get_IMR_RXOIM(void);
/*! \brief Writes the bit group 'RXFIM' of register 'SPI2_IMR'. */
void GH_SPI2_set_IMR_RXFIM(U8 data);
/*! \brief Reads the bit group 'RXFIM' of register 'SPI2_IMR'. */
U8 GH_SPI2_get_IMR_RXFIM(void);
/*! \brief Writes the bit group 'MSTIM' of register 'SPI2_IMR'. */
void GH_SPI2_set_IMR_MSTIM(U8 data);
/*! \brief Reads the bit group 'MSTIM' of register 'SPI2_IMR'. */
U8 GH_SPI2_get_IMR_MSTIM(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE void GH_SPI2_set_IMR(U32 data)
{
*(volatile U32 *)REG_SPI2_IMR = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR] <-- 0x%08x\n",
REG_SPI2_IMR,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_get_IMR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return value;
}
GH_INLINE void GH_SPI2_set_IMR_TXEIM(U8 data)
{
GH_SPI2_IMR_S d;
d.all = *(volatile U32 *)REG_SPI2_IMR;
d.bitc.txeim = data;
*(volatile U32 *)REG_SPI2_IMR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR_TXEIM] <-- 0x%08x\n",
REG_SPI2_IMR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_IMR_TXEIM(void)
{
GH_SPI2_IMR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR_TXEIM] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return tmp_value.bitc.txeim;
}
GH_INLINE void GH_SPI2_set_IMR_TXOIM(U8 data)
{
GH_SPI2_IMR_S d;
d.all = *(volatile U32 *)REG_SPI2_IMR;
d.bitc.txoim = data;
*(volatile U32 *)REG_SPI2_IMR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR_TXOIM] <-- 0x%08x\n",
REG_SPI2_IMR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_IMR_TXOIM(void)
{
GH_SPI2_IMR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR_TXOIM] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return tmp_value.bitc.txoim;
}
GH_INLINE void GH_SPI2_set_IMR_RXUIM(U8 data)
{
GH_SPI2_IMR_S d;
d.all = *(volatile U32 *)REG_SPI2_IMR;
d.bitc.rxuim = data;
*(volatile U32 *)REG_SPI2_IMR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR_RXUIM] <-- 0x%08x\n",
REG_SPI2_IMR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_IMR_RXUIM(void)
{
GH_SPI2_IMR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR_RXUIM] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return tmp_value.bitc.rxuim;
}
GH_INLINE void GH_SPI2_set_IMR_RXOIM(U8 data)
{
GH_SPI2_IMR_S d;
d.all = *(volatile U32 *)REG_SPI2_IMR;
d.bitc.rxoim = data;
*(volatile U32 *)REG_SPI2_IMR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR_RXOIM] <-- 0x%08x\n",
REG_SPI2_IMR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_IMR_RXOIM(void)
{
GH_SPI2_IMR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR_RXOIM] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return tmp_value.bitc.rxoim;
}
GH_INLINE void GH_SPI2_set_IMR_RXFIM(U8 data)
{
GH_SPI2_IMR_S d;
d.all = *(volatile U32 *)REG_SPI2_IMR;
d.bitc.rxfim = data;
*(volatile U32 *)REG_SPI2_IMR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR_RXFIM] <-- 0x%08x\n",
REG_SPI2_IMR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_IMR_RXFIM(void)
{
GH_SPI2_IMR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR_RXFIM] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return tmp_value.bitc.rxfim;
}
GH_INLINE void GH_SPI2_set_IMR_MSTIM(U8 data)
{
GH_SPI2_IMR_S d;
d.all = *(volatile U32 *)REG_SPI2_IMR;
d.bitc.mstim = data;
*(volatile U32 *)REG_SPI2_IMR = d.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_IMR_MSTIM] <-- 0x%08x\n",
REG_SPI2_IMR,d.all,d.all);
#endif
}
GH_INLINE U8 GH_SPI2_get_IMR_MSTIM(void)
{
GH_SPI2_IMR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IMR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IMR_MSTIM] --> 0x%08x\n",
REG_SPI2_IMR,value);
#endif
return tmp_value.bitc.mstim;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_ISR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_ISR'. */
U32 GH_SPI2_get_ISR(void);
/*! \brief Reads the bit group 'TXEIS' of register 'SPI2_ISR'. */
U8 GH_SPI2_get_ISR_TXEIS(void);
/*! \brief Reads the bit group 'TXOIS' of register 'SPI2_ISR'. */
U8 GH_SPI2_get_ISR_TXOIS(void);
/*! \brief Reads the bit group 'RXUIS' of register 'SPI2_ISR'. */
U8 GH_SPI2_get_ISR_RXUIS(void);
/*! \brief Reads the bit group 'RXOIS' of register 'SPI2_ISR'. */
U8 GH_SPI2_get_ISR_RXOIS(void);
/*! \brief Reads the bit group 'RXFIS' of register 'SPI2_ISR'. */
U8 GH_SPI2_get_ISR_RXFIS(void);
/*! \brief Reads the bit group 'MSTIS' of register 'SPI2_ISR'. */
U8 GH_SPI2_get_ISR_MSTIS(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_ISR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_ISR_TXEIS(void)
{
GH_SPI2_ISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR_TXEIS] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return tmp_value.bitc.txeis;
}
GH_INLINE U8 GH_SPI2_get_ISR_TXOIS(void)
{
GH_SPI2_ISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR_TXOIS] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return tmp_value.bitc.txois;
}
GH_INLINE U8 GH_SPI2_get_ISR_RXUIS(void)
{
GH_SPI2_ISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR_RXUIS] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return tmp_value.bitc.rxuis;
}
GH_INLINE U8 GH_SPI2_get_ISR_RXOIS(void)
{
GH_SPI2_ISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR_RXOIS] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return tmp_value.bitc.rxois;
}
GH_INLINE U8 GH_SPI2_get_ISR_RXFIS(void)
{
GH_SPI2_ISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR_RXFIS] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return tmp_value.bitc.rxfis;
}
GH_INLINE U8 GH_SPI2_get_ISR_MSTIS(void)
{
GH_SPI2_ISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ISR_MSTIS] --> 0x%08x\n",
REG_SPI2_ISR,value);
#endif
return tmp_value.bitc.mstis;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_RISR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_RISR'. */
U32 GH_SPI2_get_RISR(void);
/*! \brief Reads the bit group 'TXEIR' of register 'SPI2_RISR'. */
U8 GH_SPI2_get_RISR_TXEIR(void);
/*! \brief Reads the bit group 'TXOIR' of register 'SPI2_RISR'. */
U8 GH_SPI2_get_RISR_TXOIR(void);
/*! \brief Reads the bit group 'RXUIR' of register 'SPI2_RISR'. */
U8 GH_SPI2_get_RISR_RXUIR(void);
/*! \brief Reads the bit group 'RXOIR' of register 'SPI2_RISR'. */
U8 GH_SPI2_get_RISR_RXOIR(void);
/*! \brief Reads the bit group 'RXFIR' of register 'SPI2_RISR'. */
U8 GH_SPI2_get_RISR_RXFIR(void);
/*! \brief Reads the bit group 'MSTIR' of register 'SPI2_RISR'. */
U8 GH_SPI2_get_RISR_MSTIR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_RISR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_RISR_TXEIR(void)
{
GH_SPI2_RISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR_TXEIR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return tmp_value.bitc.txeir;
}
GH_INLINE U8 GH_SPI2_get_RISR_TXOIR(void)
{
GH_SPI2_RISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR_TXOIR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return tmp_value.bitc.txoir;
}
GH_INLINE U8 GH_SPI2_get_RISR_RXUIR(void)
{
GH_SPI2_RISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR_RXUIR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return tmp_value.bitc.rxuir;
}
GH_INLINE U8 GH_SPI2_get_RISR_RXOIR(void)
{
GH_SPI2_RISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR_RXOIR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return tmp_value.bitc.rxoir;
}
GH_INLINE U8 GH_SPI2_get_RISR_RXFIR(void)
{
GH_SPI2_RISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR_RXFIR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return tmp_value.bitc.rxfir;
}
GH_INLINE U8 GH_SPI2_get_RISR_MSTIR(void)
{
GH_SPI2_RISR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RISR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RISR_MSTIR] --> 0x%08x\n",
REG_SPI2_RISR,value);
#endif
return tmp_value.bitc.mstir;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_TXOICR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_TXOICR'. */
U32 GH_SPI2_get_TXOICR(void);
/*! \brief Reads the bit group 'TXOICR' of register 'SPI2_TXOICR'. */
U8 GH_SPI2_get_TXOICR_TXOICR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_TXOICR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_TXOICR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_TXOICR] --> 0x%08x\n",
REG_SPI2_TXOICR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_TXOICR_TXOICR(void)
{
GH_SPI2_TXOICR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_TXOICR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_TXOICR_TXOICR] --> 0x%08x\n",
REG_SPI2_TXOICR,value);
#endif
return tmp_value.bitc.txoicr;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_RXOICR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_RXOICR'. */
U32 GH_SPI2_get_RXOICR(void);
/*! \brief Reads the bit group 'RXOICR' of register 'SPI2_RXOICR'. */
U8 GH_SPI2_get_RXOICR_RXOICR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_RXOICR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_RXOICR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXOICR] --> 0x%08x\n",
REG_SPI2_RXOICR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_RXOICR_RXOICR(void)
{
GH_SPI2_RXOICR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RXOICR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXOICR_RXOICR] --> 0x%08x\n",
REG_SPI2_RXOICR,value);
#endif
return tmp_value.bitc.rxoicr;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_RXUICR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_RXUICR'. */
U32 GH_SPI2_get_RXUICR(void);
/*! \brief Reads the bit group 'RXUICR' of register 'SPI2_RXUICR'. */
U8 GH_SPI2_get_RXUICR_RXUICR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_RXUICR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_RXUICR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXUICR] --> 0x%08x\n",
REG_SPI2_RXUICR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_RXUICR_RXUICR(void)
{
GH_SPI2_RXUICR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_RXUICR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_RXUICR_RXUICR] --> 0x%08x\n",
REG_SPI2_RXUICR,value);
#endif
return tmp_value.bitc.rxuicr;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_MSTICR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_MSTICR'. */
U32 GH_SPI2_get_MSTICR(void);
/*! \brief Reads the bit group 'MSTICR' of register 'SPI2_MSTICR'. */
U8 GH_SPI2_get_MSTICR_MSTICR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_MSTICR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_MSTICR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_MSTICR] --> 0x%08x\n",
REG_SPI2_MSTICR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_MSTICR_MSTICR(void)
{
GH_SPI2_MSTICR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_MSTICR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_MSTICR_MSTICR] --> 0x%08x\n",
REG_SPI2_MSTICR,value);
#endif
return tmp_value.bitc.msticr;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_ICR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_ICR'. */
U32 GH_SPI2_get_ICR(void);
/*! \brief Reads the bit group 'ICR' of register 'SPI2_ICR'. */
U8 GH_SPI2_get_ICR_ICR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_ICR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_ICR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ICR] --> 0x%08x\n",
REG_SPI2_ICR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_ICR_ICR(void)
{
GH_SPI2_ICR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_ICR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_ICR_ICR] --> 0x%08x\n",
REG_SPI2_ICR,value);
#endif
return tmp_value.bitc.icr;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_IDR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_IDR'. */
U32 GH_SPI2_get_IDR(void);
/*! \brief Reads the bit group 'ID' of register 'SPI2_IDR'. */
U8 GH_SPI2_get_IDR_ID(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_IDR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_IDR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IDR] --> 0x%08x\n",
REG_SPI2_IDR,value);
#endif
return value;
}
GH_INLINE U8 GH_SPI2_get_IDR_ID(void)
{
GH_SPI2_IDR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_IDR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_IDR_ID] --> 0x%08x\n",
REG_SPI2_IDR,value);
#endif
return tmp_value.bitc.id;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_DR (read) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL == 0
/*! \brief Reads the register 'SPI2_DR'. */
U32 GH_SPI2_get_DR(void);
/*! \brief Reads the bit group 'DR' of register 'SPI2_DR'. */
U16 GH_SPI2_get_DR_DR(void);
#else /* GH_INLINE_LEVEL == 0 */
GH_INLINE U32 GH_SPI2_get_DR(void)
{
U32 value = (*(volatile U32 *)REG_SPI2_DR);
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_DR] --> 0x%08x\n",
REG_SPI2_DR,value);
#endif
return value;
}
GH_INLINE U16 GH_SPI2_get_DR_DR(void)
{
GH_SPI2_DR_S tmp_value;
U32 value = (*(volatile U32 *)REG_SPI2_DR);
tmp_value.all = value;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_SPI2_get_DR_DR] --> 0x%08x\n",
REG_SPI2_DR,value);
#endif
return tmp_value.bitc.dr;
}
#endif /* GH_INLINE_LEVEL == 0 */
/*----------------------------------------------------------------------------*/
/* register SPI2_DW (write) */
/*----------------------------------------------------------------------------*/
#if GH_INLINE_LEVEL < 2
/*! \brief Writes the register 'SPI2_DW'. */
void GH_SPI2_set_DW(U32 data);
/*! \brief Reads the mirror variable of the register 'SPI2_DW'. */
U32 GH_SPI2_getm_DW(void);
/*! \brief Writes the bit group 'DW' of register 'SPI2_DW'. */
void GH_SPI2_set_DW_DW(U16 data);
/*! \brief Reads the bit group 'DW' from the mirror variable of register 'SPI2_DW'. */
U16 GH_SPI2_getm_DW_DW(void);
#else /* GH_INLINE_LEVEL < 2 */
GH_INLINE void GH_SPI2_set_DW(U32 data)
{
m_spi2_dw.all = data;
*(volatile U32 *)REG_SPI2_DW = data;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_DW] <-- 0x%08x\n",
REG_SPI2_DW,data,data);
#endif
}
GH_INLINE U32 GH_SPI2_getm_DW(void)
{
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "[GH_SPI2_getm_DW] --> 0x%08x\n",
m_spi2_dw.all);
#endif
return m_spi2_dw.all;
}
GH_INLINE void GH_SPI2_set_DW_DW(U16 data)
{
m_spi2_dw.bitc.dw = data;
*(volatile U32 *)REG_SPI2_DW = m_spi2_dw.all;
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_SPI2_set_DW_DW] <-- 0x%08x\n",
REG_SPI2_DW,m_spi2_dw.all,m_spi2_dw.all);
#endif
}
GH_INLINE U16 GH_SPI2_getm_DW_DW(void)
{
#if GH_SPI2_ENABLE_DEBUG_PRINT
GH_SPI2_DEBUG_PRINT_FUNCTION( "[GH_SPI2_getm_DW_DW] --> 0x%08x\n",
m_spi2_dw.bitc.dw);
#endif
return m_spi2_dw.bitc.dw;
}
#endif /* GH_INLINE_LEVEL < 2 */
/*----------------------------------------------------------------------------*/
/* init function */
/*----------------------------------------------------------------------------*/
/*! \brief Initialises the registers and mirror variables. */
void GH_SPI2_init(void);
#ifdef __cplusplus
}
#endif
#endif /* _GH_SPI2_H */
/*----------------------------------------------------------------------------*/
/* end of file */
/*----------------------------------------------------------------------------*/