传统方法:
#define CPUTIMER0 (volatile unsigned long*) 0x0c00
缺点: 不便对寄存器的值进行位操作;
无法单独查看寄存器的某一位。
DSP外设寄存器定义:
- 第一步:采用结构体、共用体、位域结构定义寄存器变量;
- 第二步:通过 pragma 伪指令将寄存器变量分配到数据段;
- 第三步:通过 MEMORY 伪指令指示寄存器的实际硬件空间;
- 第四步:通过 SECTION 伪指令将寄存器数据段分配到实际硬件空间。
举例:【以 PCLKCR1 外设时钟控制寄存器1 为例(TMS320F2803x)】
第一步:定义寄存器变量
- 1、位域结构体定义外设时钟控制寄存器1 PCLKCR1
struct PCLKCR1_BITS { // bits description
Uint16 EPWM1ENCLK:1; // 0 Enable SYSCLKOUT to EPWM1
Uint16 EPWM2ENCLK:1; // 1 Enable SYSCLKOUT to EPWM2
Uint16 EPWM3ENCLK:1; // 2 Enable SYSCLKOUT to EPWM3
Uint16 EPWM4ENCLK:1; // 3 Enable SYSCLKOUT to EPWM4
Uint16 EPWM5ENCLK:1; // 4 Enable SYSCLKOUT to EPWM5
Uint16 EPWM6ENCLK:1; // 5 Enable SYSCLKOUT to EPWM6
Uint16 EPWM7ENCLK:1; // 6 Enable SYSCLKOUT to EPWM7
Uint16 rsvd1:1; // 7 reserved
Uint16 ECAP1ENCLK:1; // 8 Enable SYSCLKOUT to ECAP1
Uint16 rsvd2:5; // 13:9 reserved
Uint16 EQEP1ENCLK:1; // 14 Enable SYSCLKOUT to EQEP1
Uint16 rsvd3:1; // 15 reserved
};
- 2、共用体定义外设时钟控制寄存器1 PCLKCR1
union PCLKCR1_REG {
Uint16 all;
struct PCLKCR1_BITS bit;
};- 3、结构体定义系统控制结构体,包含系统控制所有寄存器
struct SYS_CTRL_REGS {
union XCLK_REG XCLK; // 0: XCLKOUT Control
union PLLSTS_REG PLLSTS; // 1: PLL Status Register
union CLKCTL_REG CLKCTL; // 2: Clock Control Register
Uint16 PLLLOCKPRD; // 3: PLL Lock Period Register
union INTOSC1TRIM_REG INTOSC1TRIM; // 4: Internal Oscillator 1 Trim
Uint16 rsvd1; // 5: reserved
union INTOSC2TRIM_REG INTOSC2TRIM; // 6: Internal Oscillator 2 Trim
Uint16 rsvd2[2]; // 8-7
//
// 9: Peripheral clock control register 2
//
union PCLKCR2_REG PCLKCR2;
Uint16 rsvd3; // 10
//
// 11: Low-speed peripheral clock pre-scaler
//
union LOSPCP_REG LOSPCP;
//
// 12: Peripheral clock control register
//
union PCLKCR0_REG PCLKCR0;
//
// 13: Peripheral clock control register
//
union PCLKCR1_REG PCLKCR1;
//
// 14: Low-power mode control register 0
//
union LPMCR0_REG LPMCR0;
Uint16 rsvd4; // 15: reserved
union PCLKCR3_REG PCLKCR3; // 16: Peripheral clock register
union PLLCR_REG PLLCR; // 17: PLL control register
//
// No bit definitions are defined for SCSR because
// a read-modify-write instruction can clear the WDOVERRIDE bit
//
Uint16 SCSR; //18: System control and status register
Uint16 WDCNTR; //19: WD counter register
Uint16 rsvd5; //20
Uint16 WDKEY; //21: WD reset key register
Uint16 rsvd6[3]; //22-24
//
// No bit definitions are defined for WDCR because
// the proper value must be written to the WDCHK field
// whenever writing to this register.
//
Uint16 WDCR; // 25: WD timer control register
Uint16 rsvd7[6]; // 26-30
};
- 4、定义系统控制结构体变量
extern volatile struct SYS_CTRL_REGS SysCtrlRegs;第二步: 将寄存器变量分配到数据段
代码位于:DSP2803x_GlobalVariableDefs.c
#ifdef __cplusplus
#pragma DATA_SECTION("SysCtrlRegsFile")
#else
#pragma DATA_SECTION(SysCtrlRegs,"SysCtrlRegsFile");
#endif
volatile struct SYS_CTRL_REGS SysCtrlRegs;第三步: 指示寄存器的实际硬件空间
代码位于:DSP2803x_Headers_nonBIOS.cmd
MEMORY
{
PAGE 1: /* Data Memory */
SYSTEM : origin = 0x007010, length = 0x000020 /* System control registers */
}
第四步: 将寄存器数据段分配到实际硬件空间
代码位于:DSP2803x_Headers_nonBIOS.cmd
SECTIONS
{
/*** Peripheral Frame 2 Register Structures ***/
SysCtrlRegsFile : > SYSTEM, PAGE = 1
}