Commit 9520ebf2 by 刘大爷来也

提交电机驱动

parent 7f5eea5b
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#ifndef BUZZER_H
#define BUZZER_H
void Buzzer_On(void);
void Buzzer_Off(void);
#endif
#ifndef COMMON_H
#define COMMON_H
#include "stm32f10x.h"
#define D14_GET() (((GPIOD->IDR >> 14) & 1) ? 1 : 0)
// 定义系统状态的枚举类型
typedef enum {
STATE_IDLE, // 系统处于空闲状态
STATE_MOTOR_RUNNING, // 电机正在运行
STATE_EMERGENCY_STOP, // 紧急停止状态
STATE_BACKUP_RADAR_ACTIVE, // 备用雷达激活状态
STATE_PARKING_SENSOR_ACTIVE, //倒车雷达激活状态
STATE_DISTANCE_SWITCH_ACTIVE,// 距离开关激活状态
STATE_PHOTOELECTRIC_SWITCH_ACTIVE // 光电开关激活状态
} SystemState;
// 状态处理函数
void StateMachineHandler(SystemState newState);
void Delay(uint32_t time, char unit);
void Total_GPIO_Init(void);
void Total_EXTI_Init(void);
#endif // COMMON
#ifndef DISTANCE_SWITCH_H
#define DISTANCE_SWITCH_H
void Distance_Switch_Interruption(void);
#endif // DISTANCE_SWITCH
#ifndef DS18B20_H
#define DS18B20_H
#include "stm32f10x.h"
// 引脚定义
#define DS18B20_DQ_PIN (1 << 12) // PD12
#define DS18B20_PORT GPIOD
// 设置 DQ 引脚为输出模式
#define DQ_OUT() { \
GPIOD->CRH &= ~(0xF << (4 * 4)); /* 清除配置 */ \
GPIOD->CRH |= (0x3 << (4 * 4)); /* 设置为推挽输出模式,最大50MHz */ \
}
// 设置 DQ 引脚为输入模式
#define DQ_IN() { \
GPIOD->CRH &= ~(0xF << (4 * 4)); /* 清除配置 */ \
GPIOD->CRH |= (0x4 << (4 * 4)); /* 设置为浮空输入模式 */ \
}
// 获取 DQ 引脚的电平变化
#define DQ_GET() ((GPIOD->IDR & DS18B20_DQ_PIN) ? 1 : 0)
// DQ 输出高电平或低电平
#define DQ(x) ((x) ? (GPIOD->BSRR = DS18B20_DQ_PIN) : (GPIOD->BRR = DS18B20_DQ_PIN))
uint8_t DS18B20_Check(void);
char DS18B20_Init(void);
void DS18B20_Start(void);
float DS18B20_GetTemperture(void);
#endif // DS18B20_H
#ifndef EMERGENCY_STOP_H
#define EMERGENCY_STOP_H
void Emergency_Stop_Interrupt(void);
#endif // EMERGENCY_STOP
#ifndef MOTOR_COMMON_H
#define MOTOR_COMMON_H
#define SYSCLK_FREQUENCY 72000000 // 主时钟频率(72 MHz)
#define STEPMOTOR_ANGLEPERSTEP 1.8 //步进电机步距角
#define STEPMOTOR_FREDIV 32 //步进电机分频系数(细分数)
#define STEPMOTOR_PERDISTANCE 2 //步进电机一转走2mm
#define STEPMOTOR_PULSEPERROUND ((360/STEPMOTOR_ANGLEPERSTEP)*STEPMOTOR_FREDIV) //步进电机每转所需要脉冲的脉冲个数
#define STEPMOTOR_PULSEPERDISTANCE STEPMOTOR_PULSEPERROUND/STEPMOTOR_PERDISTANCE //步进电机每1mm所需要脉冲的脉冲个数
#define STEPMOTOR_FREQ_ROUNDPERMIN (9375/(STEPMOTOR_FREDIV*2)) //步进电机1r/min需要配置的定时器重载值((72000000*60/STEPMOTOR_PULSEPERROUND)/72)(假设时钟分频为8) 定时时间=60s/(每转需要的脉冲个数) 秒冲个数*2是因为只认高-低
#define STEPMOTOR_MAX_SPEED(psc, arr) (SYSCLK_FREQUENCY / ((psc + 1) * (arr + 1)) * 60 / STEPMOTOR_PULSEPERROUND)
#include "stdint.h"
#include <stdbool.h>
typedef enum {
SPEED_NONE, // 匀速
SPEED_ACC, // 加速
SPEED_DEC, // 减速
SPEED_STOP, // 停止
} SpeedStatus;
typedef enum {
ABSOLUTE_COUNT,
RELATIVE_COUNT,
CIRCULAR_COUNT,
BIDIRECTIONAL_COUNT,
INCREMENTAL_COUNT
} StepCountMode;
typedef struct {
uint32_t stepcount; // 步数(脉冲数)
uint8_t direction; // 方向 (0: 逆时针, 1: 顺时针)
uint16_t curSpeed; // 当前速度 (步/秒)
uint16_t desSpeed; // 目标速度 (步/秒)
uint16_t maxSpeed; // 最大转速
SpeedStatus speedStatus; // 速度状态
uint8_t speedlevel; // 速度级别 0:正常、1:快速、2:慢速
StepCountMode stepcountMode; // 脉冲计数模式
uint16_t curlocation; // 当前位置(角度判断)
uint16_t deslocation; // 目标位置
uint16_t acceleration; // 加速度 (步/秒^2)
uint16_t deceleration; // 减速度 (步/秒^2)
uint16_t psc; // 预分频器
uint16_t arr; // 自动重装载寄存器
} Motor;
#endif // MOTOR_COMMON_H
#ifndef ONEWIRE_H
#define ONEWIRE_H
#include "stm32f10x.h"
// 引脚定义
#define ONEWIRE_PIN (1 << 12) // PD12
#define ONEWIRE_PORT GPIOD
// 初始化 One-Wire 总线 (PE1)
void Onewire_Init(void);
// 设置引脚为输出模式
void Onewire_Pin_Output(void);
// 设置引脚为输入模式
void Onewire_Pin_Input(void);
// 复位 One-Wire 总线并检测传感器是否存在
uint8_t Onewire_Reset(void);
// 向 One-Wire 设备发送一位数据
void Onewire_SendBit(unsigned char Bit);
// 从 One-Wire 设备接收一位数据
unsigned char Onewire_ReceiveBit(void);
// 向 One-Wire 设备发送一个字节数据
void Onewire_SendByte(unsigned char Byte);
// 从 One-Wire 设备接收一个字节数据
unsigned char Onewire_ReceiveByte(void);
#endif // ONEWIRE_H
#ifndef PARKING_SENSOR_H
#define PARKING_SENSOR_H
#include "stm32f10x.h" // 包含STM32F103的寄存器定义头文件
// 全局变量
extern volatile uint32_t pulse_time ; // 脉宽时间
extern volatile double distance_cm ; // 距离
extern volatile uint8_t capture_state ; // 捕获状态标志
// 动态配置 PE0 - PE15 引脚
void Configure_PE_Pin(uint8_t pin, uint8_t mode);
// 初始化 TIM2 为捕获模式
void TIM2_Capture_Init(void);
// 发送触发信号
void SendTriggerSignal(void);
double CalculateDistance();
void Parking_Sensor_Interruption(void);
#endif // parking_sensor
#ifndef PHOTOELECTRIC_SWITCH_H
#define PHOTOELECTRIC_SWITCH_H
void Photoelectric_Switch_Interrupt(void);
#endif // PHOTOELECTRIC_SWITCH
#ifndef PNEUMATIC_SOLENOID_H
#define PNEUMATIC_SOLENOID_H
#include "stdint.h"
//控制气动电磁阀的高低电平
void Pneumatic_Solenoid_Control(uint8_t index,unsigned char bitValue);
//查询气动电磁阀的电平
unsigned char find_Pneumatic_Solenoid(uint8_t index);
#endif // PNEUMATIC_SOLENOID
#ifndef STEPPER_MOTOR_H
#define STEPPER_MOTOR_H
#include "motor_common.h"
#include "stdint.h"
#include <stdbool.h>
typedef struct {
Motor base; // 继承自公共结构体
} RotateMotor;
// 更新电机状态
void Update_Motor_Status(RotateMotor *motor, SpeedStatus status, uint32_t targetSpeed, uint32_t acceleration);
;
void Rotate_SetDirection(int direction);
// 使能或禁用旋转电机
void Rotate_Enable_Rotate(bool enable);
// 设置PWM频率
void Set_PWM_Frequency(uint32_t frequency);
// 梯形加速算法
void RotateMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration);
//梯形减速算法
void RotateMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration);
void TIM3_CH1_Init(uint16_t psc,uint16_t arr);
#endif // STEPPER_MOTOR_H
#ifndef STEPPER_MOTOR_H
#define STEPPER_MOTOR_H
#define SYSCLK_FREQUENCY 72000000 // 主时钟频率(72 MHz)
#define STEPMOTOR_ANGLEPERSTEP 1.8 //步进电机步距角
#define STEPMOTOR_FREDIV 32 //步进电机分频系数(细分数)
#define STEPMOTOR_PERDISTANCE 2 //步进电机一转走2mm
#define STEPMOTOR_PULSEPERROUND ((360/STEPMOTOR_ANGLEPERSTEP)*STEPMOTOR_FREDIV) //步进电机每转所需要脉冲的脉冲个数
#define STEPMOTOR_PULSEPERDISTANCE STEPMOTOR_PULSEPERROUND/STEPMOTOR_PERDISTANCE //步进电机每1mm所需要脉冲的脉冲个数
#define STEPMOTOR_FREQ_ROUNDPERMIN (9375/(STEPMOTOR_FREDIV*2)) //步进电机1r/min需要配置的定时器重载值((72000000*60/STEPMOTOR_PULSEPERROUND)/72)(假设时钟分频为8) 定时时间=60s/(每转需要的脉冲个数) 秒冲个数*2是因为只认高-低
#define STEPMOTOR_MAX_SPEED(psc, arr) (SYSCLK_FREQUENCY / ((psc + 1) * (arr + 1)) * 60 / STEPMOTOR_PULSEPERROUND)
typedef enum
{
SPEED_NONE, // 无速度变化
SPEED_ACC, // 加速
SPEED_DEC, // 减速
SPEED_STOP, // 停止
} SpeedStatus;
// 定义步进电机配置结构体
typedef struct {
unsigned stepcount; // 步数(脉冲数)
unsigned direction; // 方向 (0: 逆时针, 1: 顺时针)
unsigned curSpeed; // 当前速度 (步/秒)
unsigned desSpeed; // 目标速度 (步/秒)
unsigned maxSpeed; //最大转速
SpeedStatus speedStatus; // 速度状态
unsigned stepcountMode; // 脉冲计数模式
unsigned curlocation; // 当前位置
unsigned deslocation; // 目标位置
unsigned acceleration; // 加速度 (步/秒^2)
unsigned deceleration; // 减速度 (步/秒^2)
uint16_t psc; //预分频器
uint16_t arr; //自动重装载寄存器
} StepMotor;
// 更新电机状态
void Update_Motor_Status(StepMotor *motor, SpeedStatus status, uint32_t targetSpeed, uint32_t acceleration);
;
void Set_Direction(int direction);
// 使能或禁用步进电机
void Enable_Stepper(bool enable);
// 设置PWM频率
void Set_PWM_Frequency(uint32_t frequency)
// 梯形加减速算法
void StepMotor(int steps, int direction, int max_speed, int acceleration);
void Delay(uint32_t delay);
void Timer_Frequency(int & frequency,StepMotor *stepMotor);
void TIM3_Init(uint16_t &psc,uint16_t &arr);
#endif // STEPPER_MOTOR_H
\ No newline at end of file
// ds18b20.h
#ifndef TEMPERATURE_SENSOR_H
#define TEMPERATURE_SENSOR_H
void TemperatureSensor_ConvertT(void); // 启动温度转换
float TemperatureSensor_ReadT(void); // 读取温度数据
#endif
#ifndef WALKING_MOTOR_H
#define WALKING_MOTOR_H
#include "motor_common.h"
#include "stdint.h"
#include <stdbool.h>
typedef struct {
Motor base; // 继承自公共结构体
} WalkingMotor;
// 更新电机状态
void Walking_Update_Motor_Status(WalkingMotor *motor, SpeedStatus status, uint32_t targetSpeed, uint32_t acceleration);
;
void Walking_SetDirection(int direction);
// 使能或禁用旋转电机
void Walking_Enable_Rotate(bool enable);
// 设置PWM频率
void Walking_Set_PWM_Frequency(uint32_t frequency);
// 梯形加速算法
void WalkingMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration);
//梯形减速算法
void WalkingMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration);
void TIM3_CH2_Init(uint16_t psc,uint16_t arr);
#endif
#include "buzzer.h"
#include "stm32f10x.h"
#include "common.h"
void Buzzer_On(void) {
GPIOE->BSRR = GPIO_BSRR_BS9; // 设置PE9为高电平
Delay(1, 's');
}
void Buzzer_Off(void) {
GPIOE->BRR = GPIO_BRR_BR9; // 设置PE9为低电平
Delay(1, 's');
}
#include "common.h"
#include "stm32f10x.h"
#include "parking_sensor.h"
#include "distance_switch.h"
#include "photoelectric_switch.h"
#include "emergency_stop.h"
#include "uart_log.h"
void Delay(uint32_t time, char unit) {
uint32_t cycles = 0;
const uint32_t SYSCLK_FREQ = 72000000; // 72 MHz
// 根据单位选择不同的延时计算
switch (unit) {
case 'n': // 纳秒延时
// 每个时钟周期为 13.89 纳秒
cycles = (time * SYSCLK_FREQ) / 1000000000; // 纳秒转为时钟周期
break;
case 'u': // 微秒延时
cycles = (time * SYSCLK_FREQ) / 1000000; // 微秒转为时钟周期
break;
case 'm': // 毫秒延时
cycles = (time * SYSCLK_FREQ) / 1000; // 毫秒转为时钟周期
break;
case 's': // 秒延时
cycles = time * SYSCLK_FREQ; // 秒转为时钟周期
break;
default:
// 无效的单位,直接返回
return;
}
// 使用空操作进行延时
for (volatile uint32_t i = 0; i < cycles; i++) {
__NOP(); // 空操作
}
}
void Total_GPIO_Init(void) {
//电机配置01
// 使能 GPIOC 和 GPIOF 的时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPCEN;
RCC->APB2ENR |= RCC_APB2ENR_IOPFEN;
RCC->APB2ENR |= RCC_APB2ENR_IOPGEN; // 启用GPIOG时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPEEN; // 启用GPIOE时钟
// 使能GPIOE和GPIOD时钟,同时使能AFIO时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPDEN;
// 使能GPIOB
RCC->APB2ENR |= RCC_APB2ENR_IOPBEN;
// 使能 AFIO 时钟,用于重映射
RCC->APB2ENR |= RCC_APB2ENR_AFIOEN;
// 配置 PC6 引脚为复用推挽输出 (50 MHz)
GPIOC->CRL &= ~(0xF << 24); // 清空 PC6 配置
GPIOC->CRL |= (0xB << 24); // 配置为复用推挽输出 (0xB = 1011)
// 配置 PC5 为通用推挽输出 (方向)
GPIOC->CRL &= ~(0xF << 20); // 清空 PC5 配置
GPIOC->CRL |= (0x3 << 20); // 配置为通用推挽输出 (0x3 = 0011)
// 配置 PF11 为通用推挽输出 (使能)
GPIOF->CRH &= ~(0xF <<12); // 清空 PF11 配置
GPIOF->CRH |= (0x3 << 12); // 配置为通用推挽输出 (0x3 = 0011)
//电机配置02
// 配置 PC7 引脚为复用推挽输出 (50 MHz)
GPIOC->CRL &= ~((uint32_t)0xF << (4*7)); // 清空 PC7 配置
GPIOC->CRL |= ((uint32_t)0xB << (4*7)); // 配置为复用推挽输出 (0xB = 1011)
// 配置 PF12 为通用推挽输出 (方向)
GPIOF->CRH &= ~(0xF << (4*4)); // 清空 PF12 配置
GPIOF->CRH |= (0x3 <<(4*4)); // 配置为通用推挽输出 (0x3 = 0011)
// 配置 PC4 为通用推挽输出 (使能)
GPIOC->CRL &= ~(0xF <<(4*4)); // 清空 PC4 配置
GPIOC->CRL |= (0x3 << (4*4)); // 配置为通用推挽输出 (0x3 = 0011)
// 重映射 TIM3_CH1 到 PC6 TIM3_CH2 到 PC7
AFIO->MAPR |= AFIO_MAPR_TIM3_REMAP_FULLREMAP;
//气动电磁阀GPIO配置
// 配置 PF13, PF14, PF15 为复用推挽输出 (50 MHz)
GPIOF->CRH &= ~(0xF <<(4*5)); // 清空 PF13 配置 (位20-23)
GPIOF->CRH |= (0x3 <<(4*5)); // 配置 PF13 为通用推挽输出
GPIOF->CRH &= ~(0xF <<(4*6)); // 清空 PF14 配置 (位24-27)
GPIOF->CRH |= (0x3 << (4*6)); // 配置 PF14 为通用推挽输出
GPIOF->CRH &= ~((uint32_t)0x3 <<(4*7)); // 清空 PF15 配置 (位28-31)
GPIOF->CRH |= ((uint32_t)0x3 << (4*7)); // 配置 PF15 为通用推挽输出
// 配置 PG0, PG1 为复用推挽输出 (50 MHz)
GPIOG->CRL &= ~(0xF << (4*0)); // 清空 PG0 配置 (位0-3)
GPIOG->CRL |= (0x3 << (4*0)); // 配置 PG0 为通用推挽输出
GPIOG->CRL &= ~(0xF << (4*1)); // 清空 PG1 配置 (位4-7)
GPIOG->CRL |= (0x3 << (4*1)); // 配置 PG1 为通用推挽输出
// 配置 PE7, PE8 为复用推挽输出 (50 MHz)
GPIOE->CRL &= ~(0xF << (4*7)); // 清空 PE7 配置 (位20-23)
GPIOE->CRL |= (0x3 << (4*7)); // 配置 PE7 为通用推挽输出
GPIOE->CRH &= ~(0xF << (4*0)); // 清空 PE8 配置 (位24-27)
GPIOE->CRH |= (0x3 << (4*0)); // 配置 PE8 为通用推挽输出
//倒车雷达
// 配置PE10-PE15为推挽输出,默认为低电平
GPIOE->CRH &= ~(0xFFFFF << 8); // 清空PE10-PE15配置
GPIOE->CRH |= 0x11111 << 8; // 设置PE10-PE15为推挽输出
GPIOE->BRR = 0xFC00; // 默认低电平(PE10到PE15)
// 配置 PD14 为上拉输入模式
GPIOD->CRH &= ~(0xF << 24); // 清空 PD14 的配置
GPIOD->CRH |= (0x4 << 24); // 设置为上拉/下拉输入模式
//行走距离开关 distance_switch
// 配置PG15为输入模式(浮空输入)
GPIOG->CRH &= ~((uint32_t)0xF << (4*7)); // 清除PG15的配置
GPIOG->CRH |= ((uint32_t)0x4 << (4*7)); // 设置为浮空输入模式
// 配置PD6为输入模式(浮空输入)
GPIOD->CRL &= ~(0xF << 24); // 清除PD6的配置
GPIOD->CRL |= (0x4 << 24); // 设置为浮空输入模式
//旋转光电开关 photoelectric_switch
// 配置PB9为输入模式(浮空输入)
GPIOB->CRH &= ~(0xF << 4); // 清除PB9的配置
GPIOB->CRH |= (0x4 << 4); // 设置为浮空输入模式
// 配置PE0为输入模式(浮空输入)
GPIOE->CRL &= ~(0xF << 0); // 清除PE0的配置
GPIOE->CRL |= (0x4 << 0); // 设置为浮空输入模式
//Onewire_Init
// 配置 PE1 为推挽输出(初始为高电平)
GPIOD->CRH &= ~(0xF << 4*4); // 清除PD12的配置
GPIOD->CRH |= (0x3 << 4*4); // 设置为推挽输出模式
//急停按钮 emergency_stop
// 配置 PE2 为输入上拉
GPIOE->CRL &= ~(0xF << (2 * 4)); // 清除 PE2 配置位
GPIOE->CRL |= (0x8 << (2 * 4)); // 配置 PE2 为上拉输入模式
GPIOE->ODR |= (1 << 2);
//蜂鸣器 buzzer
GPIOE->CRH &= ~(0xF << (4 * 1));
GPIOE->CRH |= (0x03 << (4 * 1));
}
void Total_EXTI_Init(void) {
// 设置优先级组为组2 (2位抢占优先级 + 2位子优先级)
//SCB->AIRCR = (0x05FA << 16) | (2 << 8); // 设置优先级分组
// 倒车雷达中断
AFIO->EXTICR[3] &= ~AFIO_EXTICR4_EXTI14; // 清除EXTI14
AFIO->EXTICR[3] |= AFIO_EXTICR4_EXTI14_PD; // 将PD14连接到EXTI14
EXTI->FTSR &= ~EXTI_FTSR_TR14; // 先清除下降沿触发配置
EXTI->RTSR &= ~EXTI_RTSR_TR14; // 先清除上升沿触发配置
EXTI->RTSR |= EXTI_RTSR_TR14; // 上升沿触发
EXTI->FTSR |= EXTI_RTSR_TR14; // 下降沿触发
EXTI->IMR |= EXTI_IMR_MR14; // 使能中断
NVIC_EnableIRQ(EXTI15_10_IRQn);
NVIC_SetPriority(EXTI15_10_IRQn, 0x02); // 设置中断优先级
// 行走距离开关中断
AFIO->EXTICR[1] &= ~(AFIO_EXTICR2_EXTI6); // 清除EXTI6的配置
AFIO->EXTICR[1] |= AFIO_EXTICR2_EXTI6_PD; // 连接PD6到EXTI6
AFIO->EXTICR[3] &= ~(AFIO_EXTICR4_EXTI15); // 清除EXTI15的配置
AFIO->EXTICR[3] |= AFIO_EXTICR4_EXTI15_PG; // 连接PG15到EXTI15
EXTI->RTSR |= EXTI_RTSR_TR6 | EXTI_RTSR_TR15; // 配置上升沿触发
EXTI->FTSR |= EXTI_FTSR_TR6 | EXTI_FTSR_TR15; // 配置下降沿触发
EXTI->IMR |= EXTI_IMR_MR6 | EXTI_IMR_MR15; // 使能中断线6和15
// 使能EXTI9_5_IRQn中断
//NVIC_EnableIRQ(EXTI9_5_IRQn); // PD6 属于 EXTI9_5_IRQn
NVIC_SetPriority(EXTI9_5_IRQn, 0x0B); // 设置中断优先级
// 使能EXTI15_10_IRQn中断
//NVIC_EnableIRQ(EXTI15_10_IRQn); // EXTI15 属于 EXTI15_10_IRQn
//NVIC_SetPriority(EXTI15_10_IRQn, 0x06); // 设置中断优先级
// 旋转光电开关中断
AFIO->EXTICR[2] &= ~(AFIO_EXTICR3_EXTI9); // 清除EXTI9的配置
AFIO->EXTICR[2] |= AFIO_EXTICR3_EXTI9_PB; // 连接PB9到EXTI9
AFIO->EXTICR[0] &= ~(AFIO_EXTICR1_EXTI0); // 清除EXTI0的配置
AFIO->EXTICR[0] |= AFIO_EXTICR1_EXTI0_PE; // 连接PE0到EXTI0
EXTI->RTSR |= EXTI_RTSR_TR9 | EXTI_RTSR_TR0; // 配置上升沿触发
EXTI->FTSR |= EXTI_FTSR_TR9 | EXTI_FTSR_TR0; // 配置下降沿触发
EXTI->IMR |= EXTI_IMR_MR9 | EXTI_IMR_MR0; // 使能中断线9和0
// 使能EXTI9_5_IRQn中断
NVIC_EnableIRQ(EXTI9_5_IRQn); // PB9 属于 EXTI9_5 中断
NVIC_SetPriority(EXTI9_5_IRQn, 0x0C); // 设置优先级
// 使能EXTI0_IRQn中断
NVIC_EnableIRQ(EXTI0_IRQn); // PE0 属于 EXTI0 中断
NVIC_SetPriority(EXTI0_IRQn, 0x0D); // 设置优先级
// 急停按钮中断
//AFIO->EXTICR[0] = (AFIO->EXTICR[0] & ~0xF) | 0x4; // PE2
AFIO->EXTICR[0] &= ~(AFIO_EXTICR1_EXTI2); // 清除EXTI9的配置
AFIO->EXTICR[0] |= AFIO_EXTICR1_EXTI2_PE; // 连接PE2到EXTI2
EXTI->FTSR &= ~EXTI_FTSR_TR2; // 清除上升沿触发
EXTI->RTSR &= ~EXTI_RTSR_TR2; // 清除上升沿触发
EXTI->FTSR |= EXTI_FTSR_TR2; // 使能下降沿触发
EXTI->IMR |= EXTI_IMR_MR2;
NVIC_EnableIRQ(EXTI2_IRQn);
NVIC_SetPriority(EXTI2_IRQn, 0x00); // 设置急停按钮中断优先级为最高
}
// 状态处理函数
void StateMachineHandler(SystemState currentState) {
switch (currentState) {
case STATE_IDLE:
// 处理IDLE状态
break;
case STATE_MOTOR_RUNNING:
// 处理MOTOR_RUNNING状态
break;
case STATE_EMERGENCY_STOP:
// 处理EMERGENCY_STOP状态
Emergency_Stop_Interrupt();
break;
case STATE_PARKING_SENSOR_ACTIVE:
Parking_Sensor_Interruption();
break;
case STATE_DISTANCE_SWITCH_ACTIVE:
Distance_Switch_Interruption();
// 处理DISTANCE_SWITCH_ACTIVE状态
break;
case STATE_PHOTOELECTRIC_SWITCH_ACTIVE:
// 处理PHOTOELECTRIC_SWITCH_ACTIVE状态
Photoelectric_Switch_Interrupt();
break;
default:
// 默认处理
break;
}
}
// 中断服务例程
void EXTI9_5_IRQHandler(void) {
if (EXTI->PR & EXTI_PR_PR6) { // 检查是否是 EXTI 线 6 触发了中断
// 处理 PD6 中断
StateMachineHandler(STATE_DISTANCE_SWITCH_ACTIVE);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR6;
}
if (EXTI->PR & EXTI_PR_PR9) { // 检查是否是 EXTI 线 9 触发了中断
// 处理 PB9 中断
StateMachineHandler(STATE_PHOTOELECTRIC_SWITCH_ACTIVE);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR9;
}
}
// 中断服务例程
void EXTI0_IRQHandler(void) {
if (EXTI->PR & EXTI_PR_PR0) { // 检查是否是EXTI线0触发了中断
// 处理PE0中断
StateMachineHandler(STATE_PHOTOELECTRIC_SWITCH_ACTIVE);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR0;
}
}
//STATE_PARKING_SENSOR_ACTIVE
void EXTI15_10_IRQHandler(void) {
// 处理 PD14 中断
if (EXTI->PR & EXTI_PR_PR14) { // 检查是否是EXTI线14触发了中断
StateMachineHandler(STATE_PARKING_SENSOR_ACTIVE);
EXTI->PR = EXTI_PR_PR14; // 清除中断标志位
}
if (EXTI->PR & EXTI_PR_PR15) { // 检查是否是EXTI线15触发了中断
Serial_Print("EXTI15 triggered\n");
StateMachineHandler(STATE_DISTANCE_SWITCH_ACTIVE);
EXTI->PR = EXTI_PR_PR15; // 清除中断标志位
}
}
void EXTI2_IRQHandler(void) {
if (EXTI->PR & EXTI_PR_PR2) { // 检查是否是EXTI线2触发了中断
// 处理PE2中断(急停按钮)
StateMachineHandler(STATE_EMERGENCY_STOP);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR2;
}
}
#include "common.h"
#include "stm32f10x.h"
#include "parking_sensor.h"
#include "distance_switch.h"
#include "photoelectric_switch.h"
#include "emergency_stop.h"
#include "uart_log.h"
void Delay(uint32_t time, char unit) {
uint32_t cycles = 0;
const uint32_t SYSCLK_FREQ = 72000000; // 72 MHz
// 根据单位选择不同的延时计算
switch (unit) {
case 'n': // 纳秒延时
// 每个时钟周期为 13.89 纳秒
cycles = (time * SYSCLK_FREQ) / 1000000000; // 纳秒转为时钟周期
break;
case 'u': // 微秒延时
cycles = (time * SYSCLK_FREQ) / 1000000; // 微秒转为时钟周期
break;
case 'm': // 毫秒延时
cycles = (time * SYSCLK_FREQ) / 1000; // 毫秒转为时钟周期
break;
case 's': // 秒延时
cycles = time * SYSCLK_FREQ; // 秒转为时钟周期
break;
default:
// 无效的单位,直接返回
return;
}
// 使用空操作进行延时
for (volatile uint32_t i = 0; i < cycles; i++) {
__NOP(); // 空操作
}
}
void Total_GPIO_Init(void) {
//电机配置01
// 使能 GPIOC 和 GPIOF 的时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPCEN;
RCC->APB2ENR |= RCC_APB2ENR_IOPFEN;
RCC->APB2ENR |= RCC_APB2ENR_IOPGEN; // 启用GPIOG时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPEEN; // 启用GPIOE时钟
// 使能GPIOE和GPIOD时钟,同时使能AFIO时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPDEN;
// 使能GPIOB
RCC->APB2ENR |= RCC_APB2ENR_IOPBEN;
// 使能 AFIO 时钟,用于重映射
RCC->APB2ENR |= RCC_APB2ENR_AFIOEN;
// 配置 PC6 引脚为复用推挽输出 (50 MHz)
GPIOC->CRL &= ~(0xF << 24); // 清空 PC6 配置
GPIOC->CRL |= (0xB << 24); // 配置为复用推挽输出 (0xB = 1011)
// 配置 PC5 为通用推挽输出 (方向)
GPIOC->CRL &= ~(0xF << 20); // 清空 PC5 配置
GPIOC->CRL |= (0x3 << 20); // 配置为通用推挽输出 (0x3 = 0011)
// 配置 PF11 为通用推挽输出 (使能)
GPIOF->CRH &= ~(0xF <<12); // 清空 PF11 配置
GPIOF->CRH |= (0x3 << 12); // 配置为通用推挽输出 (0x3 = 0011)
//电机配置02
// 配置 PC7 引脚为复用推挽输出 (50 MHz)
GPIOC->CRL &= ~((uint32_t)0xF << (4*7)); // 清空 PC7 配置
GPIOC->CRL |= ((uint32_t)0xB << (4*7)); // 配置为复用推挽输出 (0xB = 1011)
// 配置 PF12 为通用推挽输出 (方向)
GPIOF->CRH &= ~(0xF << (4*4)); // 清空 PF12 配置
GPIOF->CRH |= (0x3 <<(4*4)); // 配置为通用推挽输出 (0x3 = 0011)
// 配置 PC4 为通用推挽输出 (使能)
GPIOC->CRL &= ~(0xF <<(4*4)); // 清空 PC4 配置
GPIOC->CRL |= (0x3 << (4*4)); // 配置为通用推挽输出 (0x3 = 0011)
// 重映射 TIM3_CH1 到 PC6 TIM3_CH2 到 PC7
AFIO->MAPR |= AFIO_MAPR_TIM3_REMAP_FULLREMAP;
//气动电磁阀GPIO配置
// 配置 PF13, PF14, PF15 为复用推挽输出 (50 MHz)
GPIOF->CRH &= ~(0xF <<(4*5)); // 清空 PF13 配置 (位20-23)
GPIOF->CRH |= (0x3 <<(4*5)); // 配置 PF13 为通用推挽输出
GPIOF->CRH &= ~(0xF <<(4*6)); // 清空 PF14 配置 (位24-27)
GPIOF->CRH |= (0x3 << (4*6)); // 配置 PF14 为通用推挽输出
GPIOF->CRH &= ~((uint32_t)0x3 <<(4*7)); // 清空 PF15 配置 (位28-31)
GPIOF->CRH |= ((uint32_t)0x3 << (4*7)); // 配置 PF15 为通用推挽输出
// 配置 PG0, PG1 为复用推挽输出 (50 MHz)
GPIOG->CRL &= ~(0xF << (4*0)); // 清空 PG0 配置 (位0-3)
GPIOG->CRL |= (0x3 << (4*0)); // 配置 PG0 为通用推挽输出
GPIOG->CRL &= ~(0xF << (4*1)); // 清空 PG1 配置 (位4-7)
GPIOG->CRL |= (0x3 << (4*1)); // 配置 PG1 为通用推挽输出
// 配置 PE7, PE8 为复用推挽输出 (50 MHz)
GPIOE->CRH &= ~(0xF << (4*1)); // 清空 PE7 配置 (位20-23)
GPIOE->CRH |= (0x3 << (4*1)); // 配置 PE7 为通用推挽输出
GPIOE->CRH &= ~(0xF << (4*2)); // 清空 PE8 配置 (位24-27)
GPIOE->CRH |= (0x3 << (4*2)); // 配置 PE8 为通用推挽输出
//倒车雷达
// 配置PE10-PE15为推挽输出,默认为低电平
GPIOE->CRH &= ~(0xFFFFF << 8); // 清空PE10-PE15配置
GPIOE->CRH |= 0x11111 << 8; // 设置PE10-PE15为推挽输出
GPIOE->BRR = 0xFC00; // 默认低电平(PE10到PE15)
// 配置 PD14 为上拉输入模式
GPIOD->CRH &= ~(0xF << 24); // 清空 PD14 的配置
GPIOD->CRH |= (0x4 << 24); // 设置为上拉/下拉输入模式
//行走距离开关 distance_switch
// 配置PG15为输入模式(浮空输入)
GPIOG->CRH &= ~((uint32_t)0xF << (4*7)); // 清除PG15的配置
GPIOG->CRH |= ((uint32_t)0x4 << (4*7)); // 设置为浮空输入模式
// 配置PD6为输入模式(浮空输入)
GPIOD->CRL &= ~(0xF << 24); // 清除PD6的配置
GPIOD->CRL |= (0x4 << 24); // 设置为浮空输入模式
//旋转光电开关 photoelectric_switch
// 配置PB9为输入模式(浮空输入)
GPIOB->CRH &= ~(0xF << 4); // 清除PB9的配置
GPIOB->CRH |= (0x4 << 4); // 设置为浮空输入模式
// 配置PE0为输入模式(浮空输入)
GPIOE->CRL &= ~(0xF << 0); // 清除PE0的配置
GPIOE->CRL |= (0x4 << 0); // 设置为浮空输入模式
//Onewire_Init
// 配置 PE1 为推挽输出(初始为高电平)
GPIOD->CRH &= ~(0xF << 4*4); // 清除PD12的配置
GPIOD->CRH |= (0x3 << 4*4); // 设置为推挽输出模式
//急停按钮 emergency_stop
// 配置 PE2 为输入上拉
GPIOE->CRL &= ~(0xF << (2 * 4)); // 清除 PE2 配置位
GPIOE->CRL |= (0x8 << (2 * 4)); // 配置 PE2 为上拉输入模式
GPIOE->ODR |= (1 << 2);
//蜂鸣器 buzzer
GPIOE->CRH &= ~(0xF << (4 * 1));
GPIOE->CRH |= (0x03 << (4 * 1));
}
void Total_EXTI_Init(void) {
// 设置优先级组为组2 (2位抢占优先级 + 2位子优先级)
SCB->AIRCR = (0x05FA << 16) | (2 << 8); // 设置优先级分组
// 倒车雷达中断
AFIO->EXTICR[3] &= ~AFIO_EXTICR4_EXTI14; // 清除EXTI14
AFIO->EXTICR[3] |= AFIO_EXTICR4_EXTI14_PD; // 将PD14连接到EXTI14
EXTI->IMR |= EXTI_IMR_MR14; // 使能中断
EXTI->FTSR &= ~EXTI_FTSR_TR14; // 先清除下降沿触发配置
EXTI->RTSR &= ~EXTI_RTSR_TR14; // 先清除上升沿触发配置
EXTI->RTSR |= EXTI_RTSR_TR14; // 上升沿触发
EXTI->FTSR |= EXTI_RTSR_TR14; // 下降沿触发
NVIC_EnableIRQ(EXTI15_10_IRQn);
NVIC_SetPriority(EXTI15_10_IRQn, 0x05); // 设置中断优先级
// 行走距离开关中断
AFIO->EXTICR[1] &= ~(AFIO_EXTICR2_EXTI6); // 清除EXTI6的配置
AFIO->EXTICR[1] |= AFIO_EXTICR2_EXTI6_PD; // 连接PD6到EXTI6
AFIO->EXTICR[3] &= ~(AFIO_EXTICR4_EXTI15); // 清除EXTI15的配置
AFIO->EXTICR[3] |= AFIO_EXTICR4_EXTI15_PG; // 连接PG15到EXTI15
EXTI->IMR |= EXTI_IMR_MR6 | EXTI_IMR_MR15; // 使能中断线6和15
EXTI->RTSR |= EXTI_RTSR_TR6 | EXTI_RTSR_TR15; // 配置上升沿触发
EXTI->FTSR |= EXTI_FTSR_TR6 | EXTI_FTSR_TR15; // 配置下降沿触发
// 使能EXTI9_5_IRQn中断
NVIC_EnableIRQ(EXTI9_5_IRQn); // PD6 属于 EXTI9_5_IRQn
NVIC_SetPriority(EXTI9_5_IRQn, 0x0B); // 设置中断优先级
// 使能EXTI15_10_IRQn中断
NVIC_EnableIRQ(EXTI15_10_IRQn); // EXTI15 属于 EXTI15_10_IRQn
NVIC_SetPriority(EXTI15_10_IRQn, 0x06); // 设置中断优先级
// 旋转光电开关中断
AFIO->EXTICR[2] &= ~(AFIO_EXTICR3_EXTI9); // 清除EXTI9的配置
AFIO->EXTICR[2] |= AFIO_EXTICR3_EXTI9_PB; // 连接PB9到EXTI9
AFIO->EXTICR[0] &= ~(AFIO_EXTICR1_EXTI0); // 清除EXTI0的配置
AFIO->EXTICR[0] |= AFIO_EXTICR1_EXTI0_PE; // 连接PE0到EXTI0
EXTI->IMR |= EXTI_IMR_MR9 | EXTI_IMR_MR0; // 使能中断线9和0
EXTI->RTSR |= EXTI_RTSR_TR9 | EXTI_RTSR_TR0; // 配置上升沿触发
EXTI->FTSR |= EXTI_FTSR_TR9 | EXTI_FTSR_TR0; // 配置下降沿触发
// 使能EXTI9_5_IRQn中断
NVIC_EnableIRQ(EXTI9_5_IRQn); // PB9 属于 EXTI9_5 中断
NVIC_SetPriority(EXTI9_5_IRQn, 0x0C); // 设置优先级
// 使能EXTI0_IRQn中断
NVIC_EnableIRQ(EXTI0_IRQn); // PE0 属于 EXTI0 中断
NVIC_SetPriority(EXTI0_IRQn, 0x0D); // 设置优先级
// 急停按钮中断
//AFIO->EXTICR[0] = (AFIO->EXTICR[0] & ~0xF) | 0x4; // PE2
AFIO->EXTICR[0] &= ~(AFIO_EXTICR1_EXTI2); // 清除EXTI9的配置
AFIO->EXTICR[0] |= AFIO_EXTICR1_EXTI2_PE; // 连接PE2到EXTI2
EXTI->FTSR &= ~EXTI_FTSR_TR2; // 清除上升沿触发
EXTI->RTSR &= ~EXTI_RTSR_TR2; // 清除上升沿触发
EXTI->FTSR |= EXTI_FTSR_TR2; // 使能下降沿触发
EXTI->IMR |= EXTI_IMR_MR2;
NVIC_EnableIRQ(EXTI2_IRQn);
NVIC_SetPriority(EXTI2_IRQn, 0x00); // 设置急停按钮中断优先级为最高
}
// 状态处理函数
void StateMachineHandler(SystemState currentState) {
switch (currentState) {
case STATE_IDLE:
// 处理IDLE状态
break;
case STATE_MOTOR_RUNNING:
// 处理MOTOR_RUNNING状态
break;
case STATE_EMERGENCY_STOP:
// 处理EMERGENCY_STOP状态
Emergency_Stop_Interrupt();
break;
case STATE_PARKING_SENSOR_ACTIVE:
Parking_Sensor_Interruption();
break;
case STATE_DISTANCE_SWITCH_ACTIVE:
Distance_Switch_Interruption();
// 处理DISTANCE_SWITCH_ACTIVE状态
break;
case STATE_PHOTOELECTRIC_SWITCH_ACTIVE:
// 处理PHOTOELECTRIC_SWITCH_ACTIVE状态
Photoelectric_Switch_Interrupt();
break;
default:
// 默认处理
break;
}
}
// 中断服务例程
void EXTI9_5_IRQHandler(void) {
if (EXTI->PR & EXTI_PR_PR6) { // 检查是否是 EXTI 线 6 触发了中断
// 处理 PD6 中断
StateMachineHandler(STATE_DISTANCE_SWITCH_ACTIVE);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR6;
}
if (EXTI->PR & EXTI_PR_PR9) { // 检查是否是 EXTI 线 9 触发了中断
// 处理 PB9 中断
StateMachineHandler(STATE_PHOTOELECTRIC_SWITCH_ACTIVE);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR9;
}
}
// 中断服务例程
void EXTI0_IRQHandler(void) {
if (EXTI->PR & EXTI_PR_PR0) { // 检查是否是EXTI线0触发了中断
// 处理PE0中断
StateMachineHandler(STATE_PHOTOELECTRIC_SWITCH_ACTIVE);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR0;
}
}
//STATE_PARKING_SENSOR_ACTIVE
void EXTI15_10_IRQHandler(void) {
// 处理 PD14 中断
if (EXTI->PR & EXTI_PR_PR14) { // 检查是否是EXTI线14触发了中断
StateMachineHandler(STATE_PARKING_SENSOR_ACTIVE);
EXTI->PR = EXTI_PR_PR14; // 清除中断标志位
}
if (EXTI->PR & EXTI_PR_PR15) { // 检查是否是EXTI线15触发了中断
Serial_Print("EXTI15 triggered\n");
StateMachineHandler(STATE_DISTANCE_SWITCH_ACTIVE);
EXTI->PR = EXTI_PR_PR15; // 清除中断标志位
}
}
void EXTI2_IRQHandler(void) {
if (EXTI->PR & EXTI_PR_PR2) { // 检查是否是EXTI线2触发了中断
// 处理PE2中断(急停按钮)
StateMachineHandler(STATE_EMERGENCY_STOP);
// 清除中断标志位
EXTI->PR = EXTI_PR_PR2;
}
}
#include "stm32f10x.h" // 包含STM32F103ZET6的标准库
#include "uart_log.h"
#include "distance_switch.h"
void Distance_Switch_Interruption(void) {
Serial_Printf("Hello, Distance_Switch_Interruption!\n");
// 检查是否是PG15触发的中断
if (EXTI->PR & EXTI_PR_PR15) {
if (GPIOG->IDR & (1 << 15)) { // 检测PG15的上升沿
Serial_Print("PG15: 接近 (NPN传感器 - 高电平)\n");
} else { // 检测PG15的下降沿
Serial_Print("PG15: 远离 (NPN传感器 - 低电平)\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR15;
}
// 检查是否是PD6触发的中断
if (EXTI->PR & EXTI_PR_PR6) {
if (GPIOD->IDR & (1 << 6)) { // 检测PD14的上升沿
Serial_Print("PD6: 接近 (PNP传感器 - 高电平)\n");
} else { // 检测PD14的下降沿
Serial_Print("PD6: 远离 (PNP传感器 - 低电平)\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR6;
}
}
#include "ds18b20.h"
#include "common.h"
/******************************************************************
* 函 数 名 称:bsp_ds18b20_Init
* 函 数 说 明:MLX90614的初始化
* 函 数 形 参:无
* 函 数 返 回:1未检测到器件 0检测到器件
* 作 者:LC
* 备 注:无
******************************************************************/
char DS18B20_Init(void)
{
int ret = DS18B20_Check();//检测器件是否存在
return ret;
}
/******************************************************************
* 函 数 名 称:DS18B20_Read_Byte
* 函 数 说 明:从DS18B20读取一个字节
* 函 数 形 参:无
* 函 数 返 回:读取到的字节数据
* 作 者:LC
* 备 注:无
******************************************************************/
uint8_t DS18B20_Read_Byte(void)
{
uint8_t i=0,dat=0;
for (i=0; i<8; i++)
{
DQ_OUT();//设置为输入模式
DQ(0); //拉低
Delay(2, 'u');
DQ(1); //释放总线
DQ_IN();//设置为输入模式
Delay(12, 'u');
dat>>=1;
if( DQ_GET() )
{
dat=dat|0x80;
}
Delay(50, 'u');
}
return dat;
}
/******************************************************************
* 函 数 名 称:DS18B20_Write_Byte
* 函 数 说 明:写一个字节到DS18B20
* 函 数 形 参:dat:要写入的字节
* 函 数 返 回:无
* 作 者:LC
* 备 注:无
******************************************************************/
void DS18B20_Write_Byte(uint8_t dat)
{
uint8_t i;
DQ_OUT();//设置输出模式
for (i=0; i<8; i++)
{
if ( (dat&0x01) ) //写1
{
DQ(0);
Delay(2, 'u');
DQ(1);
Delay(60, 'u');
}
else //写0
{
DQ(0);//拉低60us
Delay(60, 'u');
DQ(1);//释放总线
Delay(2, 'u');
}
dat=dat>>1;//传输下一位
}
}
/******************************************************************
* 函 数 名 称:DS18B20_Check
* 函 数 说 明:检测DS18B20是否存在
* 函 数 形 参:无
* 函 数 返 回:1:未检测到DS18B20的存在 0:存在
* 作 者:LC
* 备 注:无
******************************************************************/
uint8_t DS18B20_Check(void)
{
uint8_t timeout=0;
//复位DS18B20
DQ_OUT(); //设置为输出模式
DQ(0); //拉低DQ
Delay(750, 'u');
DQ(1); //拉高DQ
Delay(15, 'u');
//设置为输入模式
DQ_IN();
//等待拉低,拉低说明有应答
while ( DQ_GET() &&timeout<200)
{
timeout++;//超时判断
Delay(1, 'u');
};
//设备未应答
if(timeout>=200)
return 1;
else
timeout=0;
//等待18B20释放总线
while ( !DQ_GET() &&timeout<240)
{
timeout++;//超时判断
Delay(1, 'u');
};
//释放总线失败
if(timeout>=240)
return 1;
return 0;
}
/******************************************************************
* 函 数 名 称:DS18B20_Start
* 函 数 说 明:DS18B20开始温度转换
* 函 数 形 参:无
* 函 数 返 回:无
* 作 者:LC
* 备 注:无
******************************************************************/
void DS18B20_Start(void)
{
DS18B20_Check(); //查询是否有设备应答
DS18B20_Write_Byte(0xcc); //对总线上所有设备进行寻址
DS18B20_Write_Byte(0x44); //启动温度转换
}
/******************************************************************
* 函 数 名 称:DS18B20_GetTemperture
* 函 数 说 明:从ds18b20得到温度值
* 函 数 形 参:无
* 函 数 返 回:温度数据
* 作 者:LC
* 备 注:无
******************************************************************/
float DS18B20_GetTemperture(void)
{
uint16_t temp;
uint8_t dataL=0,dataH=0;
float value;
DS18B20_Start();
DS18B20_Check();
DS18B20_Write_Byte(0xcc);//对总线上所有设备进行寻址
DS18B20_Write_Byte(0xbe);// 读取数据命令
dataL=DS18B20_Read_Byte(); //LSB
dataH=DS18B20_Read_Byte(); //MSB
temp=(dataH<<8)+dataL;//整合数据
if(dataH&0X80)//高位为1,说明是负温度
{
temp=(~temp)+1;
value=temp*(-0.0625);
}
else
{
value=temp*0.0625;
}
return value;
}
#include "ds18b20.h"
#include "common.h"
/******************************************************************
* 函 数 名 称:bsp_ds18b20_Init
* 函 数 说 明:MLX90614的初始化
* 函 数 形 参:无
* 函 数 返 回:1未检测到器件 0检测到器件
* 作 者:LC
* 备 注:无
******************************************************************/
char DS18B20_Init(void)
{
int ret = DS18B20_Check();//检测器件是否存在
return ret;
}
/******************************************************************
* 函 数 名 称:DS18B20_Read_Byte
* 函 数 说 明:从DS18B20读取一个字节
* 函 数 形 参:无
* 函 数 返 回:读取到的字节数据
* 作 者:LC
* 备 注:无
******************************************************************/
uint8_t DS18B20_Read_Byte(void)
{
uint8_t i=0,dat=0;
for (i=0;i<8;i++)
{
DQ_OUT();//设置为输入模式
DQ(0); //拉低
Delay(2, 'u');
DQ(1); //释放总线
DQ_IN();//设置为输入模式
Delay(12, 'u');
dat>>=1;
if( DQ_GET() )
{
dat=dat|0x80;
}
Delay(50, 'u');
}
return dat;
}
/******************************************************************
* 函 数 名 称:DS18B20_Write_Byte
* 函 数 说 明:写一个字节到DS18B20
* 函 数 形 参:dat:要写入的字节
* 函 数 返 回:无
* 作 者:LC
* 备 注:无
******************************************************************/
void DS18B20_Write_Byte(uint8_t dat)
{
uint8_t i;
DQ_OUT();//设置输出模式
for (i=0;i<8;i++)
{
if ( (dat&0x01) ) //写1
{
DQ(0);
Delay(2, 'u');
DQ(1);
Delay(60, 'u');
}
else //写0
{
DQ(0);//拉低60us
Delay(60, 'u');
DQ(1);//释放总线
Delay(2, 'u');
}
dat=dat>>1;//传输下一位
}
}
/******************************************************************
* 函 数 名 称:DS18B20_Check
* 函 数 说 明:检测DS18B20是否存在
* 函 数 形 参:无
* 函 数 返 回:1:未检测到DS18B20的存在 0:存在
* 作 者:LC
* 备 注:无
******************************************************************/
uint8_t DS18B20_Check(void)
{
uint8_t timeout=0;
//复位DS18B20
DQ_OUT(); //设置为输出模式
DQ(0); //拉低DQ
Delay(750, 'u');
DQ(1); //拉高DQ
Delay(15, 'u');
//设置为输入模式
DQ_IN();
//等待拉低,拉低说明有应答
while ( DQ_GET() &&timeout<200)
{
timeout++;//超时判断
Delay(1, 'u');
};
//设备未应答
if(timeout>=200)
return 1;
else
timeout=0;
//等待18B20释放总线
while ( !DQ_GET() &&timeout<240)
{
timeout++;//超时判断
Delay(1, 'u');
};
//释放总线失败
if(timeout>=240)
return 1;
return 0;
}
/******************************************************************
* 函 数 名 称:DS18B20_Start
* 函 数 说 明:DS18B20开始温度转换
* 函 数 形 参:无
* 函 数 返 回:无
* 作 者:LC
* 备 注:无
******************************************************************/
void DS18B20_Start(void)
{
DS18B20_Check(); //查询是否有设备应答
DS18B20_Write_Byte(0xcc); //对总线上所有设备进行寻址
DS18B20_Write_Byte(0x44); //启动温度转换
}
/******************************************************************
* 函 数 名 称:DS18B20_GetTemperture
* 函 数 说 明:从ds18b20得到温度值
* 函 数 形 参:无
* 函 数 返 回:温度数据
* 作 者:LC
* 备 注:无
******************************************************************/
float DS18B20_GetTemperture(void)
{
uint16_t temp;
uint8_t dataL=0,dataH=0;
float value;
DS18B20_Start();
DS18B20_Check();
DS18B20_Write_Byte(0xcc);//对总线上所有设备进行寻址
DS18B20_Write_Byte(0xbe);// 读取数据命令
dataL=DS18B20_Read_Byte(); //LSB
dataH=DS18B20_Read_Byte(); //MSB
temp=(dataH<<8)+dataL;//整合数据
if(dataH&0X80)//高位为1,说明是负温度
{
temp=(~temp)+1;
value=temp*(-0.0625);
}
else
{
value=temp*0.0625;
}
return value;
}
#include "emergency_stop.h"
#include "stm32f10x.h"
#include "uart_log.h"
// EXTI线2中断服务例程
void Emergency_Stop_Interrupt(void) {
Serial_Print("Emergency_Stop_Interrupt\n");
// PE2 急停按钮
if (EXTI->PR & EXTI_PR_PR2) {
if (GPIOE->IDR & (1 << 2)) { // 检测PE2的上升沿
Serial_Print("PE2: 抬起 (急停按钮 - 高电平)\n");
} else { // 检测PD14的下降沿
Serial_Print("PE2: 按下 (急停按钮 - 低电平)\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR2;
}
}
#include "onewire.h"
#include "common.h"
// 初始化 One-Wire 总线 (PD12)
void Onewire_Init(void) {
// 设置高电平
ONEWIRE_PORT->BSRR = ONEWIRE_PIN;
}
// 设置引脚为输出模式
void Onewire_Pin_Output(void) {
// 设置PD12为推挽输出模式
GPIOD->CRH &= ~(0xF << 16); // 清除PD12的配置
GPIOD->CRH |= (0x3 << 16); // 设置为推挽输出模式
}
// 设置引脚为输入模式
void Onewire_Pin_Input(void) {
// 设置PD12为浮空输入模式
GPIOD->CRH &= ~(0xF << 16); // 清除PD12的配置
GPIOD->CRH |= (0x4 << 16); // 设置为浮空输入模式
}
// 复位 One-Wire 总线并检测传感器是否存在
uint8_t Onewire_Reset(void) {
uint8_t response = 0;
// 拉低总线 480 微秒
Onewire_Pin_Output();
ONEWIRE_PORT->BRR = ONEWIRE_PIN; // 拉低
Delay(480, 'u');
// 释放总线,并等待响应
Onewire_Pin_Input();
Delay(60, 'u');
// 检测传感器响应
response = (ONEWIRE_PORT->IDR & ONEWIRE_PIN) ? 1 : 0;
// 等待 420 微秒
Delay(420, 'u');
return !response; // 返回响应信号,0 表示设备存在
}
// 向 One-Wire 设备发送一位数据
void Onewire_SendBit(unsigned char Bit) {
Onewire_Pin_Output(); // 设置为输出模式
if (Bit) {
ONEWIRE_PORT->BRR = ONEWIRE_PIN; // 拉低 1 微秒
Delay(1, 'u');
Onewire_Pin_Input(); // 释放总线
Delay(60, 'u'); // 保持高电平 60 微秒
} else {
ONEWIRE_PORT->BRR = ONEWIRE_PIN; // 拉低 60 微秒
Delay(60, 'u');
Onewire_Pin_Input(); // 释放总线
}
}
// 从 One-Wire 设备接收一位数据
unsigned char Onewire_ReceiveBit(void) {
unsigned char Bit = 0;
Onewire_Pin_Output(); // 设置为输出模式
ONEWIRE_PORT->BRR = ONEWIRE_PIN; // 拉低 1 微秒
Delay(1, 'u');
Onewire_Pin_Input(); // 释放总线
Delay(14, 'u');
// 读取数据
if (ONEWIRE_PORT->IDR & ONEWIRE_PIN) {
Bit = 1;
}
Delay(45, 'u'); // 等待剩余时间
return Bit;
}
// 向 One-Wire 设备发送一个字节数据
void Onewire_SendByte(unsigned char Byte) {
for (unsigned char i = 0; i < 8; i++) {
Onewire_SendBit(Byte & 0x01); // 发送每一位
Byte >>= 1;
}
}
// 从 One-Wire 设备接收一个字节数据
unsigned char Onewire_ReceiveByte(void) {
unsigned char Byte = 0;
for (unsigned char i = 0; i < 8; i++) {
Byte >>= 1;
if (Onewire_ReceiveBit()) {
Byte |= 0x80; // 设置最高位
}
}
return Byte;
}
#include "parking_sensor.h"
#include "common.h"
#include "uart_log.h"
// 全局变量
volatile uint32_t pulse_time = 0; // 脉宽时间
volatile double distance_cm = 0.0; // 距离
volatile uint8_t capture_state = 0; // 捕获状态标志
volatile uint8_t last_pd14_state = 0; // 上一次 PD14 的状态
// 动态配置 PE0 - PE15 引脚
void Configure_PE_Pin(uint8_t pin, uint8_t mode) {
// 根据引脚号选择配置寄存器
if (pin < 8) {
// 配置低 8 位(PE0 - PE7)
GPIOE->CRL &= ~(0xF << (pin * 4)); // 清除该引脚的配置
GPIOE->CRL |= (mode << (pin * 4)); // 设置该引脚的模式
} else {
// 配置高 8 位(PE8 - PE15)
GPIOE->CRH &= ~(0xF << ((pin - 8) * 4)); // 清除该引脚的配置
GPIOE->CRH |= (mode << ((pin - 8) * 4)); // 设置该引脚的模式
}
}
// 发送触发信号
void SendTriggerSignal(void) {
GPIOE->BSRR = (1 << 14); // 设置 PE14 为高电平
Delay(25, 'u'); // 延时 10 微秒
GPIOE->BRR = (1 << 14); // 设置 PE14 为低电平
}
// 初始化 TIM2 捕获模式
void TIM2_Capture_Init(void)
{
// 使能TIM2时钟
RCC->APB1ENR |= RCC_APB1ENR_TIM2EN;
// 设置预分频器,使TIM2计数频率为1MHz
TIM2->PSC = 72 - 1; // 72MHz / 72 = 1MHz
// 设置自动重装载寄存器
TIM2->ARR = 0xFFFF;
// 选择计数模式
TIM2->CR1 &= ~TIM_CR1_DIR;
// 使能TIM2
//TIM2->CR1 |= TIM_CR1_CEN;
}
// 计算距离,不考虑温度校正
double CalculateDistance()
{
const double soundSpeed = 340.0; // 固定声速 = 340 m/s
const double timeToDistanceFactor = soundSpeed / 2 / 10000000.0; // 转换因子(米/us)
return pulse_time * timeToDistanceFactor * 100; // 返回距离(cm)
}
// TIM2 中断服务程序,捕获脉宽
void Parking_Sensor_Interruption(void) {
uint32_t end_time;
uint8_t pd14_level = (GPIOD->IDR & GPIO_IDR_IDR14) ? 1 : 0;
Serial_Printf("pd14_level: %u\n", pd14_level);
if (pd14_level != last_pd14_state) { // 检测到电平变化
if (pd14_level == 1 && capture_state == 0) { // 上升沿
TIM2->CNT = 0; // 清零计数器
TIM2->CR1 |= TIM_CR1_CEN; // 启动计数器
capture_state = 1; // 标记上升沿已捕获,等待下降沿
} else if (pd14_level == 0 && capture_state == 1) { // 下降沿且上升沿已捕获
end_time = TIM2->CNT; // 读取当前计数器值作为脉宽时间
pulse_time = end_time; // 记录脉宽时间
TIM2->CR1 &= ~TIM_CR1_CEN; // 关闭计数器
TIM2->CNT = 0; // 清零计数器
capture_state = 0; // 重置捕获状态
// 计算距离
distance_cm = CalculateDistance();
// 打印距离信息
Serial_Printf("EXTI14_IRQHandler Pulse Time: %u us, Distance: %.5f cm\n", pulse_time, distance_cm);
}
last_pd14_state = pd14_level;
}
}
#include "parking_sensor.h"
#include "common.h"
#include "uart_log.h"
// 全局变量
volatile uint32_t pulse_time = 0; // 脉宽时间
volatile double distance_cm = 0.0; // 距离
volatile uint8_t capture_state = 0; // 捕获状态标志
volatile uint8_t last_pd14_state = 0; // 上一次 PD14 的状态
int HH = 1000000;
// 动态配置 PE0 - PE15 引脚
void Configure_PE_Pin(uint8_t pin, uint8_t mode) {
// 使能 GPIOE 时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPEEN;
// 根据引脚号选择配置寄存器
if (pin < 8) {
// 配置低 8 位(PE0 - PE7)
GPIOE->CRL &= ~(0xF << (pin * 4)); // 清除该引脚的配置
GPIOE->CRL |= (mode << (pin * 4)); // 设置该引脚的模式
} else {
// 配置高 8 位(PE8 - PE15)
GPIOE->CRH &= ~(0xF << ((pin - 8) * 4)); // 清除该引脚的配置
GPIOE->CRH |= (mode << ((pin - 8) * 4)); // 设置该引脚的模式
}
}
// 发送触发信号
void SendTriggerSignal(void) {
GPIOE->BSRR = (1 << 14); // 设置 PE14 为高电平
Delay(15, 'u'); // 延时 10 微秒
GPIOE->BRR = (1 << 14); // 设置 PE14 为低电平
}
// 初始化 TIM2 捕获模式
void TIM2_Capture_Init(void)
{
// 使能TIM2时钟
RCC->APB1ENR |= RCC_APB1ENR_TIM2EN;
// 设置预分频器,使TIM2计数频率为1MHz
TIM2->PSC = 72 - 1; // 72MHz / 72 = 1MHz
// 设置自动重装载寄存器
TIM2->ARR = 0xFFFF;
// 选择计数模式
TIM2->CR1 &= ~TIM_CR1_DIR; // 向上计数
// 使能TIM2
TIM2->CR1 |= TIM_CR1_CEN;
}
// 计算距离,不考虑温度校正
double CalculateDistance()
{
const double soundSpeed = 340.0; // 固定声速 = 340 m/s
const double timeToDistanceFactor = soundSpeed / 2 / 10000000.0; // 转换因子(米/us)
return pulse_time * timeToDistanceFactor * 100; // 返回距离(cm)
}
// TIM2 中断服务程序,捕获脉宽
void Parking_Sensor_Interruption(void)
{
static uint32_t start_time = 0;
uint32_t end_time;
volatile uint32_t idr_value = GPIOD->IDR;
uint8_t pd14_state = ((idr_value & (1 << 14)) != 0) ? 1 : 0;
Serial_Printf("PD14: %u\n", pd14_state);
if (pd14_state != last_pd14_state) // 检测到电平变化
{
if (pd14_state && capture_state == 0 ) // 上升沿
{
start_time = TIM2->CNT; // 记录上升沿时间
capture_state = 1; // 标记上升沿已捕获
}
else {
end_time = TIM2->CNT; // 记录下降沿时间
pulse_time = (end_time >= start_time) ? (end_time - start_time) : (0xFFFF - start_time + end_time + 1);
Serial_Printf("下降沿: %u \n", pulse_time);
capture_state = 2; // 标记捕获完成
// 计算距离
distance_cm = CalculateDistance();
// 打印距离信息
Serial_Printf("EXTI14_IRQHandler Pulse Time: %u, Distance: %.5f cm\n", pulse_time, distance_cm);
}
last_pd14_state = pd14_state ;
}
}
\ No newline at end of file
#include "stm32f10x.h" // 包含STM32F103ZET6的标准库
#include "photoelectric_switch.h"
#include "uart_log.h"
void Photoelectric_Switch_Interrupt(void) {
if (EXTI->PR & EXTI_PR_PR9) { // 检查是否是中断线9触发的中断(PB9)
if (GPIOB->IDR & (1 << 9)) { // 检测PB9的上升沿
Serial_Printf("PB9: 物体遮挡 (NPN 传感器 - 高电平)\n");
} else { // 检测PB9的下降沿
Serial_Printf("PB9: 物体移开 (NPN 传感器 - 低电平)\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR9;
}
if (EXTI->PR & EXTI_PR_PR0) { // 检查是否是中断线0触发的中断(PE0)
if (GPIOE->IDR & (1 << 0)) { // 检测PE0的上升沿
Serial_Printf("PE0: 物体遮挡 (NPN 传感器 - 高电平)\n");
} else { // 检测PE0的下降沿
Serial_Printf("PE0: 物体移开 (NPN 传感器 - 低电平)\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR0;
}
}
#include "stm32f10x.h" // 包含STM32F103ZET6的标准库
#include "photoelectric_switch.h"
#include "uart_log.h"
void Photoelectric_Switch_Interrupt(void) {
if (EXTI->PR & EXTI_PR_PR9) { // 检查是否是中断线9触发的中断(PB9)
if (GPIOB->IDR & (1 << 9)) { // 检测PB9的上升沿
Serial_Printf("PB9: 物体遮挡 (NPN 传感器 - 高电平)\r\n");
} else { // 检测PB9的下降沿
Serial_Printf("PB9: 物体移开 (NPN 传感器 - 低电平)\r\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR9;
}
if (EXTI->PR & EXTI_PR_PR0) { // 检查是否是中断线0触发的中断(PE0)
if (GPIOE->IDR & (1 << 0)) { // 检测PE0的上升沿
Serial_Printf("PE0: 物体遮挡 (NPN 传感器 - 高电平)\r\n");
} else { // 检测PE0的下降沿
Serial_Printf("PE0: 物体移开 (NPN 传感器 - 低电平)\r\n");
}
// 清除中断标志位
EXTI->PR = EXTI_PR_PR0;
}
}
#include "pneumatic_solenoid.h"
#include "stm32f10x.h"
#include "uart_log.h"
//控制气动电磁阀的高低电平
void Pneumatic_Solenoid_Control(uint8_t index,unsigned char bitValue) {
switch (index) {
case 0 :
if (bitValue != 0) {
// 如果bitValue不为0,设置PF13为高电平
GPIOF->ODR |= (1 << 13);
} else {
// 如果bitValue为0,设置PF13为低电平
GPIOF->ODR &= ~(1 << 13);
}
break;
case 0x01:
if (bitValue != 0) {
// 如果bitValue不为0,设置PF14为高电平
GPIOF->ODR |= (1 << 14);
} else {
// 如果bitValue为0,设置PF14为低电平
GPIOF->ODR &= ~(1 << 14);
}
break;
case 0x02:
if (bitValue != 0) {
// 如果bitValue不为0,设置PF15为高电平
GPIOF->ODR |= (1 << 15);
} else {
// 如果bitValue为0,设置PF15为低电平
GPIOF->ODR &= ~(1 << 15);
}
break;
case 0x03:
if (bitValue != 0) {
// 如果bitValue不为0,设置PG0为高电平
GPIOG->ODR |= (1 << 0);
} else {
// 如果bitValue为0,设置PG0为低电平
GPIOG->ODR &= ~(1 << 0);
}
break;
case 0x04:
if (bitValue != 0) {
// 如果bitValue不为0,设置PG1为高电平
GPIOG->ODR |= (1 << 1);
} else {
// 如果bitValue为0,设置PG1为低电平
GPIOG->ODR &= ~(1 << 1);
}
break;
case 0x05:
if (bitValue != 0) {
// 如果bitValue不为0,设置PE7为高电平
GPIOE->ODR |= (1 << 7);
} else {
// 如果bitValue为0,设置PE7为低电平
GPIOE->ODR &= ~(1 << 7);
}
break;
case 0x06:
if (bitValue != 0) {
// 如果bitValue不为0,设置PE8为高电平
GPIOE->ODR |= (1 << 8);
} else {
// 如果bitValue为0,设置PE8为低电平
GPIOE->ODR &= ~(1 << 8);
}
break;
default :
Serial_Print("不存在阀门! \n");
break;
}
}
// 查询气动电磁阀的电平
unsigned char find_Pneumatic_Solenoid(uint8_t index) {
switch (index) {
case 0:
return (GPIOF->IDR & (1 << 13)) ? 1 : 0;
case 1:
return (GPIOF->IDR & (1 << 14)) ? 1 : 0;
case 2:
return (GPIOF->IDR & (1 << 15)) ? 1 : 0;
case 3:
return (GPIOG->IDR & (1 << 0)) ? 1 : 0;
case 4:
return (GPIOG->IDR & (1 << 1)) ? 1 : 0;
case 5:
return (GPIOE->IDR & (1 << 7)) ? 1 : 0;
case 6:
return (GPIOE->IDR & (1 << 8)) ? 1 : 0;
default:
Serial_Print("不存在阀门! \n");
return 0;
}
}
#include "pneumatic_solenoid.h"
#include "stm32f10x.h"
void Pneumatic_Solenoid_Init(void) {
RCC->APB2ENR |= RCC_APB2ENR_IOPFEN; // 启用GPIOF时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPGEN; // 启用GPIOG时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPEEN; // 启用GPIOE时钟
// 配置 PF13, PF14, PF15 为复用推挽输出 (50 MHz)
GPIOF->CRH &= ~(0xF << 4*5); // 清空 PF13 配置 (位20-23)
GPIOF->CRH |= (0xB << 4*5); // 配置 PF13 为复用推挽输出
GPIOF->CRH &= ~(0xF << 4*6); // 清空 PF14 配置 (位24-27)
GPIOF->CRH |= (0xB << 4*6); // 配置 PF14 为复用推挽输出
GPIOF->CRH &= ~(0xF << 4*7); // 清空 PF15 配置 (位28-31)
GPIOF->CRH |= (0xB << 4*7); // 配置 PF15 为复用推挽输出
// 配置 PG0, PG1 为复用推挽输出 (50 MHz)
GPIOG->CRL &= ~(0xF << 4*0); // 清空 PG0 配置 (位0-3)
GPIOG->CRL |= (0xB << 4*0); // 配置 PG0 为复用推挽输出
GPIOG->CRL &= ~(0xF << 4*1); // 清空 PG1 配置 (位4-7)
GPIOG->CRL |= (0xB << 4*1); // 配置 PG1 为复用推挽输出
// 配置 PE7, PE8 为复用推挽输出 (50 MHz)
GPIOE->CRH &= ~(0xF << 4*1); // 清空 PE7 配置 (位20-23)
GPIOE->CRH |= (0xB << 4*1); // 配置 PE7 为复用推挽输出
GPIOE->CRH &= ~(0xF << 4*2); // 清空 PE8 配置 (位24-27)
GPIOE->CRH |= (0xB << 4*2); // 配置 PE8 为复用推挽输出
}
//控制气动电磁阀的高低电平
void Pneumatic_Solenoid_Control(uint8_t index,unsigned char bitValue) {
switch (index) {
case 0 :
break;
case 0x01:
break;
case 0x02:
break;
case 0x03:
break;
case 0x04:
break;
case 0x05:
break;
case 0x06:
break;
default : /* 可选的 */
statement(s);
}
}
//查询气动电磁阀的电平
unsigned char find_Pneumatic_Solenoid(uint8_t index);
#include "step_motor.h" #include "rotate_motor.h"
#include "stm32f10x.h" #include "stm32f10x.h"
// 初始化步进电机控制 #include "common.h"
void StepperMotor_Init(void){
// 使能 GPIOC 和 GPIOF 的时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPCEN;
RCC->APB2ENR |= RCC_APB2ENR_IOPFEN;
// 使能 AFIO 时钟,用于重映射
RCC->APB2ENR |= RCC_APB2ENR_AFIOEN;
// 配置 PC6 引脚为复用推挽输出 (50 MHz)
GPIOC->CRL &= ~(0xF << 24); // 清空 PC6 配置
GPIOC->CRL |= (0xB << 24); // 配置为复用推挽输出 (0xB = 1011)
// 配置 PC5 为通用推挽输出 (方向)
GPIOC->CRL &= ~(0xF << 20); // 清空 PC5 配置
GPIOC->CRL |= (0x3 << 20); // 配置为通用推挽输出 (0x3 = 0011)
// 配置 PF11 为通用推挽输出 (使能)
GPIOF->CRH &= ~(0xF <<12); // 清空 PF11 配置
GPIOF->CRH |= (0x3 << 12); // 配置为通用推挽输出 (0x3 = 0011)
// 重映射 TIM3_CH1 到 PC6
AFIO->MAPR |= AFIO_MAPR_TIM3_REMAP_FULLREMAP;
}
// 初始化定时器 TIM3 函数 // 初始化定时器 TIM3 函数
void TIM3_Init(uint16_t &psc,uint16_t &arr); void TIM3_CH1_Init(uint16_t psc,uint16_t arr){
// 使能 TIM3 时钟 // 使能 TIM3 时钟
RCC->APB1ENR |= RCC_APB1ENR_TIM3EN; RCC->APB1ENR |= RCC_APB1ENR_TIM3EN;
...@@ -49,21 +25,10 @@ void TIM3_Init(uint16_t &psc,uint16_t &arr); ...@@ -49,21 +25,10 @@ void TIM3_Init(uint16_t &psc,uint16_t &arr);
} }
//f定时器输出频率 系统时钟/(PSC+1)*(ARR+1)
void Timer_Frequency(int &frequency, StepMotor *stepMotor) {
// 预先计算 psc 和 arr
int psc_plus_1 = stepMotor->psc + 1;
int arr_plus_1 = stepMotor->arr + 1;
// 简化并避免除法的额外开销
frequency = 72000000 / (psc_plus_1 * arr_plus_1);
}
// 设置方向 // 设置方向
// 设置方向函数 // 设置方向函数
void Set_Direction(int direction) { void Rotate_SetDirection(int direction){
if (direction) { if (direction){
GPIOC->ODR |= (1 << 5); // 设置高电平 (顺时针方向) GPIOC->ODR |= (1 << 5); // 设置高电平 (顺时针方向)
} else { } else {
GPIOC->ODR &= ~(1 << 5); // 设置低电平 (逆时针方向) GPIOC->ODR &= ~(1 << 5); // 设置低电平 (逆时针方向)
...@@ -71,8 +36,9 @@ void Set_Direction(int direction) { ...@@ -71,8 +36,9 @@ void Set_Direction(int direction) {
} }
// 使能控制函数
void Enable_Stepper(bool enable) { // 使能控制函数
void Rotate_Enable_Rotate(bool enable) {
if (enable) { if (enable) {
GPIOF->ODR &= ~(1 << 11); // 设置低电平 (使能步进电机) GPIOF->ODR &= ~(1 << 11); // 设置低电平 (使能步进电机)
} else { } else {
...@@ -92,7 +58,7 @@ void Set_PWM_Frequency(uint32_t frequency) { ...@@ -92,7 +58,7 @@ void Set_PWM_Frequency(uint32_t frequency) {
// 梯形加速函数 // 梯形加速函数
void StepMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) { void RotateMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) {
uint32_t currentRPM = 0; uint32_t currentRPM = 0;
uint32_t deltaRPM = (acceleration / 60000) * 10; // 10ms内的速度增量 uint32_t deltaRPM = (acceleration / 60000) * 10; // 10ms内的速度增量
...@@ -110,8 +76,8 @@ void StepMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) { ...@@ -110,8 +76,8 @@ void StepMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) {
currentRPM = targetRPM; // 防止超过目标速度 currentRPM = targetRPM; // 防止超过目标速度
} }
// 延时 10ms,每次迭代增加速度 // 延时 10ms,每次迭代增加速度
Delay(10); Delay(10, 'm');
} }
// 达到目标速度,保持目标速度的PWM频率 // 达到目标速度,保持目标速度的PWM频率
...@@ -119,8 +85,10 @@ void StepMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) { ...@@ -119,8 +85,10 @@ void StepMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) {
Set_PWM_Frequency(finalFrequency); Set_PWM_Frequency(finalFrequency);
} }
// 梯形减速函数:将当前转速逐步减速为 0 // 梯形减速函数:将当前转速逐步减速为 0
void StepMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration) { void RotateMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration) {
uint32_t deltaRPM = (deceleration / 60000) * 10; // 10ms 内的速度减量 uint32_t deltaRPM = (deceleration / 60000) * 10; // 10ms 内的速度减量
while (currentRPM > 0) { while (currentRPM > 0) {
...@@ -135,42 +103,36 @@ void StepMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration) { ...@@ -135,42 +103,36 @@ void StepMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration) {
currentRPM = 0; currentRPM = 0;
} }
Delay(10); Delay(10, 'm');
} }
Set_PWM_Frequency(0); Set_PWM_Frequency(0);
} }
void Delay(uint32_t delay) { void Update_Motor_Status(RotateMotor *motor, SpeedStatus status, uint32_t targetSpeed, uint32_t acceleration) {
for (volatile uint32_t i = 0; i < delay * 1000; i++) { motor->base.speedStatus = status; // 更新电机的速度状态
__NOP(); // 空操作,用于延时 motor->base.desSpeed= targetSpeed; // 更新目标速度
} motor->base.acceleration = acceleration; // 更新加速度
}
void Update_Motor_Status(StepMotor *motor, SpeedStatus status, uint32_t targetSpeed, uint32_t acceleration) {
motor->speedStatus = status; // 更新电机的速度状态
motor->desSpeed = targetSpeed; // 更新目标速度
motor->acceleration = acceleration; // 更新加速度
switch (status) { switch (status) {
case SPEED_ACC: case SPEED_ACC:
// 加速过程 // 加速过程
StepMotor_Accelerate(targetSpeed, acceleration); RotateMotor_Accelerate(targetSpeed, acceleration);
break; break;
case SPEED_DEC: case SPEED_DEC:
// 减速过程 // 减速过程
StepMotor_Decelerate(motor->curSpeed, acceleration); RotateMotor_Decelerate(motor->base.curSpeed, acceleration);
break; break;
case SPEED_NONE: case SPEED_NONE:
// 匀速,保持当前速度 // 匀速,保持当前速度
Set_PWM_Frequency((motor->curSpeed * STEPMOTOR_PULSEPERROUND) / 60); Set_PWM_Frequency((motor->base.curSpeed * STEPMOTOR_PULSEPERROUND) / 60);
break; break;
case SPEED_STOP: case SPEED_STOP:
// 停止电机 // 停止电机
motor->curSpeed = 0; motor->base.curSpeed = 0;
Set_PWM_Frequency(0); // 关闭PWM Set_PWM_Frequency(0); // 关闭PWM
break; break;
......
#include "temperature_sensor.h"
#include "onewire.h"
#include "uart_log.h"
#include <stddef.h> // 引入 size_t 类型定义
#define CRC8_POLYNOMIAL 0x31
uint8_t crc8(const uint8_t *buf, size_t len) {
uint8_t crc = 0;
for (size_t pos = 0; pos < len; ++pos) {
crc ^= buf[pos];
for (uint8_t bit = 8; bit; --bit) {
if (crc & 0x80) {
crc = (crc << 1) ^ CRC8_POLYNOMIAL;
} else {
crc = (crc << 1);
}
}
}
return crc;
}
void TemperatureSensor_ConvertT(void) {
Onewire_Init(); // 初始化 One-Wire 总线
if (!Onewire_Reset()) { // 复位总线并检查是否有设备响应
Serial_Printf("No device detected.\n");
return;
}
// 跳过 ROM
Onewire_SendByte(0xCC);
// 启动温度转换
Onewire_SendByte(0x44); // 启动温度转换命令
}
float TemperatureSensor_ReadT(void) {
// uint8_t rom_address[8]; // 存储ROM地址 如果不需要,可以移除这一行
uint8_t scratchpad[9]; // 存储Scratchpad数据
uint8_t crc_result;
int16_t Temp;
float temperature;
Onewire_Init(); // 初始化 One-Wire 总线
if (!Onewire_Reset()) { // 复位总线并检查是否有设备响应
Serial_Printf("No device detected.\n");
return -1.0;
}
// 跳过 ROM
Onewire_SendByte(0xCC);
// 读取 Scratchpad
Onewire_SendByte(0xBE);
// 读取 Scratchpad 数据
for (int i = 0; i < 9; i++) {
scratchpad[i] = Onewire_ReceiveByte();
}
// 计算 CRC 并验证
crc_result = crc8(scratchpad, 8);
if (crc_result != scratchpad[8]) {
Serial_Printf("CRC error.\n");
return -1.0;
}
// 提取温度数据
uint8_t TLSB = scratchpad[0]; // 低字节
uint8_t TMSB = scratchpad[1]; // 高字节
Temp = (TMSB << 8) | TLSB; // 合并两个字节
temperature = Temp / 16.0; // 计算实际温度
Serial_Printf("TLSB: %02X, TMSB: %02X, Temp: %d, Temperature: %.2f C\n",
TLSB, TMSB, Temp, temperature);
return temperature;
}
//#include "uart_log.h"
//#include <stdarg.h>
//#include <string.h>
//#include <stdio.h> // 包含<stdio.h>头文件
//// 缓冲区大小
//#define SERIAL_BUFFER_SIZE 128
//// USART1 GPIO初始化
//void USART1_GPIO_Init(void) {
// // 使能GPIOA和USART1时钟
// RCC->APB2ENR |= RCC_APB2ENR_IOPAEN | RCC_APB2ENR_USART1EN;
// GPIOA->CRH &= ~(0xF << 4); // 清除PA9配置
// GPIOA->CRH |= (0xB << 4); // 配置PA9为复用功能推挽输出
// GPIOA->CRH &= ~(0xF << 8); // 清除PA10配置
// GPIOA->CRH |= (0x4 << 8); // 配置PA10为浮空输入(接收器)
//}
//// USART1初始化
//void USART1_Init(void) {
// // 设置波特率
// USART1->BRR =0x1D4C;
// // 配置USART1
// USART1->CR1 = USART_CR1_UE | USART_CR1_TE | USART_CR1_RE; // 使能USART1、发送器和接收器
// USART1->CR2 = 0; // 不使用流控制
// USART1->CR3 = 0; // 不使用额外功能
//}
//// 发送一个字符
//void USART1_SendChar(char ch) {
// while (!(USART1->SR & USART_SR_TXE)); // 等待发送缓冲区为空
// USART1->DR = (ch & 0xFF); // 发送字符
//}
//// 发送字符串
//void USART1_SendString(const char *str) {
// while (*str) {
// USART1_SendChar(*str++);
// }
//}
//// 格式化字符串并发送
//void USART1_SendFormatted(const char *format, ...) {
// char buffer[SERIAL_BUFFER_SIZE];
// va_list args;
// va_start(args, format);
// vsnprintf(buffer, sizeof(buffer), format, args);
// va_end(args);
// USART1_SendString(buffer);
//}
//// 初始化串口日志
//void Serial_Init(void) {
// USART1_GPIO_Init();
// USART1_Init();
//}
//// 打印字符串
//void Serial_Print(const char *str) {
// USART1_SendString(str);
//}
//// 打印字符
//void Serial_Write(char ch) {
// USART1_SendChar(ch);
//}
//// 打印格式化字符串
//void Serial_Printf(const char *format, ...) {
// va_list args;
// va_start(args, format);
// USART1_SendFormatted(format, args);
// va_end(args);
//}
#include "uart_log.h" #include "uart_log.h"
#include <stdarg.h> #include <stdarg.h>
#include <string.h> #include <string.h>
#include <stdio.h> // 包含<stdio.h>头文件 #include <stdio.h> // 包含<stdio.h>头文件
// 缓冲区大小
#define SERIAL_BUFFER_SIZE 128 #define SERIAL_BUFFER_SIZE 128
// USART1 GPIO初始化
void USART1_GPIO_Init(void) { void USART1_GPIO_Init(void) {
// 使能GPIOA和USART1时钟
RCC->APB2ENR |= RCC_APB2ENR_IOPAEN | RCC_APB2ENR_USART1EN; RCC->APB2ENR |= RCC_APB2ENR_IOPAEN | RCC_APB2ENR_USART1EN;
GPIOA->CRH &= ~(0xF << 20); GPIOA->CRH &= ~(0xF << 4);
GPIOA->CRH |= (0xB << 20); GPIOA->CRH |= (0xB << 4);
GPIOA->CRH &= ~(0xF << 8);
GPIOA->CRH &= ~(0xF << 24); // 清除模式控制位 GPIOA->CRH |= (0x4 << 8);
GPIOA->CRH |= (0x4 << 24); // 设置为浮空输入
} }
// USART1初始化
void USART1_Init(void) { void USART1_Init(void) {
// 设置波特率 USART1->BRR = 0x1D4C;
uint32_t BRR = (uint32_t)(SystemCoreClock / 16 / 115200); USART1->CR1 = USART_CR1_UE | USART_CR1_TE | USART_CR1_RE;
USART1->BRR = BRR; USART1->CR2 = 0;
USART1->CR3 = 0;
// 配置USART1
USART1->CR1 = USART_CR1_UE | USART_CR1_TE | USART_CR1_RE; // 使能USART1、发送器和接收器
USART1->CR2 = 0; // 不使用流控制
USART1->CR3 = 0; // 不使用额外功能
} }
// 发送一个字符
void USART1_SendChar(char ch) { void USART1_SendChar(char ch) {
while (!(USART1->SR & USART_SR_TXE)); // 等待发送缓冲区为空 while (!(USART1->SR & USART_SR_TXE));
USART1->DR = (ch & 0xFF); // 发送字符 USART1->DR = (ch & 0xFF);
} }
// 发送字符串
void USART1_SendString(const char *str) { void USART1_SendString(const char *str) {
while (*str) { while (*str) {
USART1_SendChar(*str++); USART1_SendChar(*str++);
} }
} }
// 格式化字符串并发送
void USART1_SendFormatted(const char *format, ...) {
char buffer[SERIAL_BUFFER_SIZE];
va_list args;
va_start(args, format);
vsnprintf(buffer, sizeof(buffer), format, args);
va_end(args);
USART1_SendString(buffer);
}
// 初始化串口日志
void Serial_Init(void) { void Serial_Init(void) {
USART1_GPIO_Init(); USART1_GPIO_Init();
USART1_Init(); USART1_Init();
} }
// 打印字符串
void Serial_Print(const char *str) { void Serial_Print(const char *str) {
USART1_SendString(str); USART1_SendString(str);
} }
// 打印字符
void Serial_Write(char ch) { void Serial_Write(char ch) {
USART1_SendChar(ch); USART1_SendChar(ch);
} }
// 打印格式化字符串
void Serial_Printf(const char *format, ...) { void Serial_Printf(const char *format, ...) {
char buffer[SERIAL_BUFFER_SIZE];
va_list args; va_list args;
va_start(args, format); va_start(args, format);
USART1_SendFormatted(format, args); vsnprintf(buffer, sizeof(buffer), format, args);
va_end(args); va_end(args);
USART1_SendString(buffer);
} }
#include "walking_motor.h"
#include "common.h"
#include "stm32f10x.h"
// 初始化定时器 TIM3 函数
void TIM3_CH2_Init(uint16_t psc,uint16_t arr){
// 使能 TIM3 时钟
RCC->APB1ENR |= RCC_APB1ENR_TIM3EN;
// 设置预分频器为 72-1,使时钟频率为 1 MHz (72 MHz / 72)
TIM3->PSC = psc;//72 - 1;
// 设置自动重装载值为 1000 - 1,对应于 1 毫秒 (1 MHz * 1 ms)
TIM3->ARR =arr;//1000 - 1;
// 配置 TIM3 通道 1 为 PWM 模式 1
TIM3->CCMR1 &= ~TIM_CCMR1_OC2M; // 清空模式位
TIM3->CCMR1 |= TIM_CCMR1_OC2M_1 | TIM_CCMR1_OC2M_2; // PWM 模式1
TIM3->CCER |= TIM_CCER_CC2E; // 使能通道 1 输出
TIM3->CCR2 = 500; // 设置占空比为 50%
// 使能 TIM3
TIM3->CR1 |= TIM_CR1_CEN;
}
// 设置方向
// 设置方向函数
void Walking_SetDirection(int direction){
if (direction){
GPIOC->ODR |= (1 << 5); // 设置高电平 (顺时针方向)
} else {
GPIOC->ODR &= ~(1 << 5); // 设置低电平 (逆时针方向)
}
}
// 使能控制函数
void Walking_Enable_Rotate(bool enable) {
if (enable) {
GPIOF->ODR &= ~(1 << 11); // 设置低电平 (使能步进电机)
} else {
GPIOF->ODR |= (1 << 11); // 设置高电平 (关闭步进电机)
}
}
// 设置PWM频率
void Walking_Set_PWM_Frequency(uint32_t frequency) {
// 计算ARR值
uint32_t arr_value = (SYSCLK_FREQUENCY / ((TIM3->PSC + 1) * frequency)) - 1;
// 更新自动重装载寄存器
TIM3->ARR = arr_value;
TIM3->CCR2 = arr_value / 2; // 保持50%占空比
}
// 梯形加速函数
void WalkingMotor_Accelerate(uint32_t targetRPM, uint32_t acceleration) {
uint32_t currentRPM = 0;
uint32_t deltaRPM = (acceleration / 60000) * 10; // 10ms内的速度增量
while (currentRPM < targetRPM) {
if (currentRPM == 0) {
currentRPM = 100;
}
// 更新PWM频率
uint32_t pwmFrequency = (currentRPM * STEPMOTOR_PULSEPERROUND) / 60;
Walking_Set_PWM_Frequency(pwmFrequency);
// 每次加速的增量
currentRPM += deltaRPM;
if (currentRPM > targetRPM) {
currentRPM = targetRPM; // 防止超过目标速度
}
// 延时 10ms,每次迭代增加速度
Delay(10, 'm');
}
// 达到目标速度,保持目标速度的PWM频率
uint32_t finalFrequency = (targetRPM * STEPMOTOR_PULSEPERROUND) / 60;
Walking_Set_PWM_Frequency(finalFrequency);
}
// 梯形减速函数:将当前转速逐步减速为 0
void WalkingMotor_Decelerate(uint32_t currentRPM, uint32_t deceleration) {
uint32_t deltaRPM = (deceleration / 60000) * 10; // 10ms 内的速度减量
while (currentRPM > 0) {
// 计算 PWM 频率
uint32_t pwmFrequency = (currentRPM * STEPMOTOR_PULSEPERROUND) / 60;
Walking_Set_PWM_Frequency(pwmFrequency); // 更新PWM频率以调整电机速度
// 每次减速的增量
if (currentRPM > deltaRPM) {
currentRPM -= deltaRPM; // 减速
} else {
currentRPM = 0;
}
Delay(10, 'm');
}
Walking_Set_PWM_Frequency(0);
}
void Walking_Update_Motor_Status(WalkingMotor *motor, SpeedStatus status, uint32_t targetSpeed, uint32_t acceleration) {
motor->base.speedStatus = status; // 更新电机的速度状态
motor->base.desSpeed = targetSpeed; // 更新目标速度
motor->base.acceleration = acceleration; // 更新加速度
switch (status) {
case SPEED_ACC:
// 加速过程
WalkingMotor_Accelerate(targetSpeed, acceleration);
break;
case SPEED_DEC:
// 减速过程
WalkingMotor_Decelerate(motor->base.curSpeed, acceleration);
break;
case SPEED_NONE:
// 匀速,保持当前速度
Walking_Set_PWM_Frequency((motor->base.curSpeed * STEPMOTOR_PULSEPERROUND) / 60);
break;
case SPEED_STOP:
// 停止电机
motor->base.curSpeed = 0;
Walking_Set_PWM_Frequency(0); // 关闭PWM
break;
default:
break;
}
}
This source diff could not be displayed because it is too large. You can view the blob instead.
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...@@ -161,7 +161,7 @@ ...@@ -161,7 +161,7 @@
<PeripheralDll></PeripheralDll> <PeripheralDll></PeripheralDll>
<PeripheralDllArguments></PeripheralDllArguments> <PeripheralDllArguments></PeripheralDllArguments>
<InitializationFile></InitializationFile> <InitializationFile></InitializationFile>
<Driver>BIN\UL2CM3.DLL</Driver> <Driver>STLink\ST-LINKIII-KEIL_SWO.dll</Driver>
</TargetDlls> </TargetDlls>
</DebugOption> </DebugOption>
<Utilities> <Utilities>
...@@ -419,24 +419,139 @@ ...@@ -419,24 +419,139 @@
<GroupName>Module</GroupName> <GroupName>Module</GroupName>
<Files> <Files>
<File> <File>
<FileName>StepMotor.h</FileName> <FileName>uart_log.h</FileName>
<FileType>5</FileType> <FileType>5</FileType>
<FilePath>.\Module\Inc\StepMotor.h</FilePath> <FilePath>.\Module\Inc\uart_log.h</FilePath>
</File> </File>
<File> <File>
<FileName>uart_log.h</FileName> <FileName>uart_log.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\uart_log.c</FilePath>
</File>
<File>
<FileName>walking_motor.h</FileName>
<FileType>5</FileType> <FileType>5</FileType>
<FilePath>.\Module\Inc\uart_log.h</FilePath> <FilePath>.\Module\Inc\walking_motor.h</FilePath>
</File>
<File>
<FileName>rotate_motor.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\rotate_motor.h</FilePath>
</File> </File>
<File> <File>
<FileName>StepMotor.c</FileName> <FileName>rotate_motor.c</FileName>
<FileType>1</FileType> <FileType>1</FileType>
<FilePath>.\Module\Src\StepMotor.c</FilePath> <FilePath>.\Module\Src\rotate_motor.c</FilePath>
</File> </File>
<File> <File>
<FileName>uart_log.c</FileName> <FileName>pneumatic_solenoid.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\pneumatic_solenoid.h</FilePath>
</File>
<File>
<FileName>pneumatic_solenoid.c</FileName>
<FileType>1</FileType> <FileType>1</FileType>
<FilePath>.\Module\Src\uart_log.c</FilePath> <FilePath>.\Module\Src\pneumatic_solenoid.c</FilePath>
</File>
<File>
<FileName>parking_sensor.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\parking_sensor.c</FilePath>
</File>
<File>
<FileName>common.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\common.h</FilePath>
</File>
<File>
<FileName>parking_sensor.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\parking_sensor.h</FilePath>
</File>
<File>
<FileName>common.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\common.c</FilePath>
</File>
<File>
<FileName>distance_switch.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\distance_switch.h</FilePath>
</File>
<File>
<FileName>distance_switch.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\distance_switch.c</FilePath>
</File>
<File>
<FileName>photoelectric_switch.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\photoelectric_switch.h</FilePath>
</File>
<File>
<FileName>photoelectric_switch.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\photoelectric_switch.c</FilePath>
</File>
<File>
<FileName>temperature_sensor.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\temperature_sensor.h</FilePath>
</File>
<File>
<FileName>onewire.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\onewire.h</FilePath>
</File>
<File>
<FileName>onewire.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\onewire.c</FilePath>
</File>
<File>
<FileName>temperature_sensor.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\temperature_sensor.c</FilePath>
</File>
<File>
<FileName>emergency_stop.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\emergency_stop.h</FilePath>
</File>
<File>
<FileName>emergency_stop.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\emergency_stop.c</FilePath>
</File>
<File>
<FileName>buzzer.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\buzzer.h</FilePath>
</File>
<File>
<FileName>buzzer.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\buzzer.c</FilePath>
</File>
<File>
<FileName>motor_common.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\motor_common.h</FilePath>
</File>
<File>
<FileName>walking_motor.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\walking_motor.c</FilePath>
</File>
<File>
<FileName>ds18b20.h</FileName>
<FileType>5</FileType>
<FilePath>.\Module\Inc\ds18b20.h</FilePath>
</File>
<File>
<FileName>ds18b20.c</FileName>
<FileType>1</FileType>
<FilePath>.\Module\Src\ds18b20.c</FilePath>
</File> </File>
</Files> </Files>
</Group> </Group>
......
[EXTDLL]
Count=0
No preview for this file type
...@@ -17,24 +17,46 @@ Library Manager: ArmAr.exe V5.05 update 1 (build 106) ...@@ -17,24 +17,46 @@ Library Manager: ArmAr.exe V5.05 update 1 (build 106)
Hex Converter: FromElf.exe V5.05 update 1 (build 106) Hex Converter: FromElf.exe V5.05 update 1 (build 106)
CPU DLL: SARMCM3.DLL V5.14.0.0 CPU DLL: SARMCM3.DLL V5.14.0.0
Dialog DLL: DCM.DLL V1.13.1.0 Dialog DLL: DCM.DLL V1.13.1.0
Target DLL: UL2CM3.DLL V1.155.0.0 Target DLL: STLink\ST-LINKIII-KEIL_SWO.dll V2.0.14.0_KEIL
Dialog DLL: TCM.DLL V1.14.4.0 Dialog DLL: TCM.DLL V1.14.4.0
<h2>Project:</h2> <h2>Project:</h2>
D:\Ƕʽ\mcu\Motor_Control\MotorControl.uvprojx D:\Ƕʽ\mcu\Motor_Control\MotorControl.uvprojx
Project File Date: 09/25/2024 Project File Date: 10/28/2024
<h2>Output:</h2> <h2>Output:</h2>
Build target 'PWM' Build target 'PWM'
compiling main.c... compiling main.c...
.\Module\Inc\parking_sensor.h(25): warning: #1295-D: Deprecated declaration CalculateDistance - give arg types
double CalculateDistance();
main.c: 1 warning, 0 errors
compiling uart_log.c... compiling uart_log.c...
compiling step_motor.c... compiling rotate_motor.c...
compiling pneumatic_solenoid.c...
compiling parking_sensor.c...
.\Module\Inc\parking_sensor.h(25): warning: #1295-D: Deprecated declaration CalculateDistance - give arg types
double CalculateDistance();
Module\Src\parking_sensor.c: 1 warning, 0 errors
compiling common.c...
.\Module\Inc\parking_sensor.h(25): warning: #1295-D: Deprecated declaration CalculateDistance - give arg types
double CalculateDistance();
Module\Src\common.c(109): warning: #61-D: integer operation result is out of range
GPIOE->CRL &= ~(0xF << (4*7)); // 清空 PE7 配置 (?0-23)
Module\Src\common.c: 2 warnings, 0 errors
compiling distance_switch.c...
compiling photoelectric_switch.c...
compiling onewire.c...
compiling temperature_sensor.c...
compiling emergency_stop.c...
compiling buzzer.c...
compiling walking_motor.c...
compiling ds18b20.c...
assembling startup_stm32f10x_hd.s... assembling startup_stm32f10x_hd.s...
compiling system_stm32f10x.c... compiling system_stm32f10x.c...
linking... linking...
Program Size: Code=1196 RO-data=336 RW-data=20 ZI-data=1636 Program Size: Code=12812 RO-data=916 RW-data=20 ZI-data=1636
FromELF: creating hex file... FromELF: creating hex file...
".\Objects\MotorControl.axf" - 0 Error(s), 0 Warning(s). ".\Objects\MotorControl.axf" - 0 Error(s), 4 Warning(s).
<h2>Software Packages used:</h2> <h2>Software Packages used:</h2>
...@@ -53,10 +75,10 @@ Package Vendor: Keil ...@@ -53,10 +75,10 @@ Package Vendor: Keil
<h2>Collection of Component Files used:</h2> <h2>Collection of Component Files used:</h2>
* Component: Keil::Device:Startup:1.0.0 * Component: Keil::Device:Startup:1.0.0
Source file: Device\Source\ARM\startup_stm32f10x_hd.s
Source file: Device\Source\ARM\STM32F1xx_OPT.s
Source file: Device\Source\system_stm32f10x.c Source file: Device\Source\system_stm32f10x.c
Include file: RTE_Driver\Config\RTE_Device.h Include file: RTE_Driver\Config\RTE_Device.h
Source file: Device\Source\ARM\STM32F1xx_OPT.s
Source file: Device\Source\ARM\startup_stm32f10x_hd.s
</pre> </pre>
</body> </body>
</html> </html>
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:103290002EF0030E5EF8046B364205D4012A43EB90
:1032A000030515F5001F12D8012841EB010C1CF590
:1032B000001F0CD80ED14FEAD17C15F5001F0CEB86
:1032C0004C0C0CF1020C08BF4CEBD37C04E04FF02B
:1032D000080C01E04FEAD37C0CEB4C0526FA05F60E
:1032E00006F00706B6F1040C06D20EEB860CBDE81C
:1032F00070404CF0010C6047DFE80CF0090B020253
:103300004FF000414FF00000A1F5002170BD1946BB
:103310001046012851EB010418BFD4F5001484BFF6
:10332000002001F0004170BD0808A0F500114FEA2F
:1033300031017047FDF73FBCFDF774BD0000000090
:103340000100000000009F240000000000000000B9
:10335000E803E8034700E703000000000000000066
:1033600030313233343536373839414243444546BB
:1033700040305800303132333435363738396162B5
:1033800063646566403078000400000800000000B7
:1033900000000002000100001030313233343536B5
:1033A0003738396162636465667870003031323372
:1033B0003435363738394142434445465850000089
:1033C00002400000000000A00000000005400000D6
:1033D000000000C8000000000C4000000000409CFD
:1033E00000000000194000000020BCBE00000000EA
:1033F00034400000BFC91B8E00000004B54000002F
:10340000504BCFD06607E2CF010000006C410000B6
:103410003E8251AADFEEA73401000000D94200002D
:10342000DCB5A0E23A301F97FFFFFFFFB445000074
:10343000FD25A0C8E9A3C14FFFFFFFFFFF3F00002C
:103440000000008000000000FF3F0000000000803E
:1034500000000000A035000800000020140000005B
:103460006C010008B4350008140000206406000058
:10347000880100081C00000043000000F8FFFFFF67
:103480000C0000000E0000000F0000002E000000E5
:103490001001000043000000F8FFFFFF0040404023
:1034A0004040404040404141414141404040404017
:1034B00040404040404040404040404040050202C3
:1034C0000202020202020202020202020220202082
:1034D00020202020202020020202020202029090DE
:1034E00090909090101010101010101010101010DC
:1034F0001010101010101010020202020202888830
:10350000888888880808080808080808080808083B
:103510000808080808080808020202024000000023
:10352000000000000000000000000000000000009B
:10353000000000000000000000000000000000008B
:10354000000000000000000000000000000000007B
:10355000000000000000000000000000000000006B
:10356000000000000000000000000000000000005B
:10357000000000000000000000000000000000004B
:10358000000000000000000000000000000000003B
:10359000000000000000000000000000000000002B
:1035A000000000000000000000000000000000001B
:0435B0000000000017
:0400000508000131BD :0400000508000131BD
:00000001FF :00000001FF
...@@ -3,16 +3,16 @@ ...@@ -3,16 +3,16 @@
<title>Static Call Graph - [.\Objects\MotorControl.axf]</title></head> <title>Static Call Graph - [.\Objects\MotorControl.axf]</title></head>
<body><HR> <body><HR>
<H1>Static Call Graph for image .\Objects\MotorControl.axf</H1><HR> <H1>Static Call Graph for image .\Objects\MotorControl.axf</H1><HR>
<BR><P>#&#060CALLGRAPH&#062# ARM Linker, 5050106: Last Updated: Fri Sep 27 17:15:38 2024 <BR><P>#&#060CALLGRAPH&#062# ARM Linker, 5050106: Last Updated: Tue Oct 29 18:48:51 2024
<BR><P> <BR><P>
<H3>Maximum Stack Usage = 28 bytes + Unknown(Functions without stacksize, Cycles, Untraceable Function Pointers)</H3><H3> <H3>Maximum Stack Usage = 336 bytes + Unknown(Functions without stacksize, Cycles, Untraceable Function Pointers)</H3><H3>
Call chain for Maximum Stack Depth:</H3> Call chain for Maximum Stack Depth:</H3>
SystemInit &rArr; SetSysClock &rArr; SetSysClockTo72 __rt_entry_main &rArr; main &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
<P> <P>
<H3> <H3>
Functions with no stack information Functions with no stack information
</H3><UL> </H3><UL>
<LI><a href="#[64]">__user_initial_stackheap</a> <LI><a href="#[ab]">__user_initial_stackheap</a>
</UL> </UL>
</UL> </UL>
<P> <P>
...@@ -50,13 +50,13 @@ Function Pointers ...@@ -50,13 +50,13 @@ Function Pointers
<LI><a href="#[4f]">DMA2_Channel3_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[4f]">DMA2_Channel3_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[50]">DMA2_Channel4_5_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[50]">DMA2_Channel4_5_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[12]">DebugMon_Handler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[12]">DebugMon_Handler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[1b]">EXTI0_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[1b]">EXTI0_IRQHandler</a> from common.o(i.EXTI0_IRQHandler) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[3d]">EXTI15_10_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[3d]">EXTI15_10_IRQHandler</a> from common.o(i.EXTI15_10_IRQHandler) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[1c]">EXTI1_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[1c]">EXTI1_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[1d]">EXTI2_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[1d]">EXTI2_IRQHandler</a> from common.o(i.EXTI2_IRQHandler) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[1e]">EXTI3_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[1e]">EXTI3_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[1f]">EXTI4_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[1f]">EXTI4_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[2c]">EXTI9_5_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[2c]">EXTI9_5_IRQHandler</a> from common.o(i.EXTI9_5_IRQHandler) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[19]">FLASH_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[19]">FLASH_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[45]">FSMC_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[45]">FSMC_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[d]">HardFault_Handler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[d]">HardFault_Handler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
...@@ -104,141 +104,309 @@ Function Pointers ...@@ -104,141 +104,309 @@ Function Pointers
<LI><a href="#[29]">USB_LP_CAN1_RX0_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[29]">USB_LP_CAN1_RX0_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[10]">UsageFault_Handler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[10]">UsageFault_Handler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[15]">WWDG_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET) <LI><a href="#[15]">WWDG_IRQHandler</a> from startup_stm32f10x_hd.o(.text) referenced from startup_stm32f10x_hd.o(RESET)
<LI><a href="#[53]">__main</a> from __main.o(!!!main) referenced from startup_stm32f10x_hd.o(.text) <LI><a href="#[56]">__main</a> from __main.o(!!!main) referenced from startup_stm32f10x_hd.o(.text)
<LI><a href="#[55]">_get_lc_ctype</a> from lc_ctype_c.o(locale$$code) referenced from rt_ctype_table.o(.text)
<LI><a href="#[54]">_printf_input_char</a> from _printf_char_common.o(.text) referenced from _printf_char_common.o(.text)
<LI><a href="#[53]">_snputc</a> from _snputc.o(.text) referenced from vsnprintf.o(.text)
</UL> </UL>
<P> <P>
<H3> <H3>
Global Symbols Global Symbols
</H3> </H3>
<P><STRONG><a name="[53]"></a>__main</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, __main.o(!!!main)) <P><STRONG><a name="[56]"></a>__main</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, __main.o(!!!main))
<BR><BR>[Calls]<UL><LI><a href="#[55]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry <BR><BR>[Calls]<UL><LI><a href="#[58]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry
<LI><a href="#[54]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload <LI><a href="#[57]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload
</UL> </UL>
<P><STRONG><a name="[54]"></a>__scatterload</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter)) <P><STRONG><a name="[57]"></a>__scatterload</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter))
<BR><BR>[Called By]<UL><LI><a href="#[53]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__main <BR><BR>[Called By]<UL><LI><a href="#[56]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__main
</UL> </UL>
<P><STRONG><a name="[56]"></a>__scatterload_rt2</STRONG> (Thumb, 44 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED) <P><STRONG><a name="[59]"></a>__scatterload_rt2</STRONG> (Thumb, 44 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[55]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry <BR><BR>[Calls]<UL><LI><a href="#[58]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry
</UL> </UL>
<P><STRONG><a name="[70]"></a>__scatterload_rt2_thumb_only</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED) <P><STRONG><a name="[e0]"></a>__scatterload_rt2_thumb_only</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED)
<P><STRONG><a name="[71]"></a>__scatterload_null</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED) <P><STRONG><a name="[e1]"></a>__scatterload_null</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED)
<P><STRONG><a name="[57]"></a>__scatterload_copy</STRONG> (Thumb, 26 bytes, Stack size unknown bytes, __scatter_copy.o(!!handler_copy), UNUSED) <P><STRONG><a name="[5a]"></a>__scatterload_copy</STRONG> (Thumb, 26 bytes, Stack size unknown bytes, __scatter_copy.o(!!handler_copy), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[57]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_copy <BR><BR>[Calls]<UL><LI><a href="#[5a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_copy
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[57]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_copy <BR>[Called By]<UL><LI><a href="#[5a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_copy
</UL> </UL>
<P><STRONG><a name="[72]"></a>__scatterload_zeroinit</STRONG> (Thumb, 28 bytes, Stack size unknown bytes, __scatter_zi.o(!!handler_zi), UNUSED) <P><STRONG><a name="[e2]"></a>__scatterload_zeroinit</STRONG> (Thumb, 28 bytes, Stack size unknown bytes, __scatter_zi.o(!!handler_zi), UNUSED)
<P><STRONG><a name="[5b]"></a>__rt_lib_init</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit.o(.ARM.Collect$$libinit$$00000000)) <P><STRONG><a name="[5b]"></a>_printf_n</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_n.o(.ARM.Collect$$_printf_percent$$00000001))
<BR><BR>[Called By]<UL><LI><a href="#[5a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_li <BR><BR>[Calls]<UL><LI><a href="#[5c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_charcount
</UL> </UL>
<P><STRONG><a name="[73]"></a>__rt_lib_init_alloca_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000002E)) <P><STRONG><a name="[9d]"></a>_printf_percent</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_percent.o(.ARM.Collect$$_printf_percent$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__printf
</UL>
<P><STRONG><a name="[74]"></a>__rt_lib_init_argv_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000002C)) <P><STRONG><a name="[5d]"></a>_printf_p</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_p.o(.ARM.Collect$$_printf_percent$$00000002))
<BR><BR>[Stack]<UL><LI>Max Depth = 64 + Unknown Stack Size
<LI>Call Chain = _printf_p &rArr; _printf_hex_ptr &rArr; _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[5e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_hex_ptr
</UL>
<P><STRONG><a name="[75]"></a>__rt_lib_init_atexit_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001B)) <P><STRONG><a name="[5f]"></a>_printf_f</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_f.o(.ARM.Collect$$_printf_percent$$00000003))
<BR><BR>[Stack]<UL><LI>Max Depth = 320 + Unknown Stack Size
<LI>Call Chain = _printf_f &rArr; _printf_fp_dec &rArr; _printf_fp_dec_real &rArr; _fp_digits &rArr; _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[60]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec
</UL>
<P><STRONG><a name="[76]"></a>__rt_lib_init_clock_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000021)) <P><STRONG><a name="[61]"></a>_printf_e</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_e.o(.ARM.Collect$$_printf_percent$$00000004))
<BR><BR>[Stack]<UL><LI>Max Depth = 320 + Unknown Stack Size
<LI>Call Chain = _printf_e &rArr; _printf_fp_dec &rArr; _printf_fp_dec_real &rArr; _fp_digits &rArr; _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[60]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec
</UL>
<P><STRONG><a name="[77]"></a>__rt_lib_init_cpp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000032)) <P><STRONG><a name="[62]"></a>_printf_g</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_g.o(.ARM.Collect$$_printf_percent$$00000005))
<BR><BR>[Stack]<UL><LI>Max Depth = 320 + Unknown Stack Size
<LI>Call Chain = _printf_g &rArr; _printf_fp_dec &rArr; _printf_fp_dec_real &rArr; _fp_digits &rArr; _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[60]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec
</UL>
<P><STRONG><a name="[78]"></a>__rt_lib_init_exceptions_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000030)) <P><STRONG><a name="[63]"></a>_printf_a</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_a.o(.ARM.Collect$$_printf_percent$$00000006))
<BR><BR>[Stack]<UL><LI>Max Depth = 112 + Unknown Stack Size
<LI>Call Chain = _printf_a &rArr; _printf_fp_hex &rArr; _printf_fp_hex_real &rArr; _printf_fp_infnan &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[64]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex
</UL>
<P><STRONG><a name="[79]"></a>__rt_lib_init_fp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000002)) <P><STRONG><a name="[e3]"></a>_printf_ll</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_ll.o(.ARM.Collect$$_printf_percent$$00000007))
<P><STRONG><a name="[7a]"></a>__rt_lib_init_fp_trap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001F)) <P><STRONG><a name="[65]"></a>_printf_i</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_i.o(.ARM.Collect$$_printf_percent$$00000008))
<BR><BR>[Stack]<UL><LI>Max Depth = 72 + Unknown Stack Size
<LI>Call Chain = _printf_i &rArr; _printf_int_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_dec
</UL>
<P><STRONG><a name="[7b]"></a>__rt_lib_init_getenv_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000023)) <P><STRONG><a name="[67]"></a>_printf_d</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_d.o(.ARM.Collect$$_printf_percent$$00000009))
<BR><BR>[Stack]<UL><LI>Max Depth = 72 + Unknown Stack Size
<LI>Call Chain = _printf_d &rArr; _printf_int_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_dec
</UL>
<P><STRONG><a name="[7c]"></a>__rt_lib_init_heap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000A)) <P><STRONG><a name="[68]"></a>_printf_u</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_u.o(.ARM.Collect$$_printf_percent$$0000000A))
<BR><BR>[Stack]<UL><LI>Max Depth = 72 + Unknown Stack Size
<LI>Call Chain = _printf_u &rArr; _printf_int_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_dec
</UL>
<P><STRONG><a name="[7d]"></a>__rt_lib_init_lc_collate_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000011)) <P><STRONG><a name="[69]"></a>_printf_o</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_o.o(.ARM.Collect$$_printf_percent$$0000000B))
<BR><BR>[Stack]<UL><LI>Max Depth = 64 + Unknown Stack Size
<LI>Call Chain = _printf_o &rArr; _printf_int_oct &rArr; _printf_longlong_oct &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[6a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_oct
</UL>
<P><STRONG><a name="[7e]"></a>__rt_lib_init_lc_ctype_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000013)) <P><STRONG><a name="[6b]"></a>_printf_x</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_x.o(.ARM.Collect$$_printf_percent$$0000000C))
<BR><BR>[Stack]<UL><LI>Max Depth = 80 + Unknown Stack Size
<LI>Call Chain = _printf_x &rArr; _printf_int_hex &rArr; _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[6c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_hex
</UL>
<P><STRONG><a name="[7f]"></a>__rt_lib_init_lc_monetary_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000015)) <P><STRONG><a name="[6d]"></a>_printf_lli</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_lli.o(.ARM.Collect$$_printf_percent$$0000000D))
<BR><BR>[Stack]<UL><LI>Max Depth = 72 + Unknown Stack Size
<LI>Call Chain = _printf_lli &rArr; _printf_longlong_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[6e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_dec
</UL>
<P><STRONG><a name="[80]"></a>__rt_lib_init_lc_numeric_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000017)) <P><STRONG><a name="[6f]"></a>_printf_lld</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_lld.o(.ARM.Collect$$_printf_percent$$0000000E))
<BR><BR>[Stack]<UL><LI>Max Depth = 72 + Unknown Stack Size
<LI>Call Chain = _printf_lld &rArr; _printf_longlong_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[6e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_dec
</UL>
<P><STRONG><a name="[81]"></a>__rt_lib_init_lc_time_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000019)) <P><STRONG><a name="[70]"></a>_printf_llu</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_llu.o(.ARM.Collect$$_printf_percent$$0000000F))
<BR><BR>[Stack]<UL><LI>Max Depth = 72 + Unknown Stack Size
<LI>Call Chain = _printf_llu &rArr; _printf_longlong_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[6e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_dec
</UL>
<P><STRONG><a name="[71]"></a>_printf_llo</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_llo.o(.ARM.Collect$$_printf_percent$$00000010))
<BR><BR>[Stack]<UL><LI>Max Depth = 56 + Unknown Stack Size
<LI>Call Chain = _printf_llo &rArr; _printf_ll_oct &rArr; _printf_longlong_oct &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[72]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_ll_oct
</UL>
<P><STRONG><a name="[73]"></a>_printf_llx</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_llx.o(.ARM.Collect$$_printf_percent$$00000011))
<BR><BR>[Stack]<UL><LI>Max Depth = 64 + Unknown Stack Size
<LI>Call Chain = _printf_llx &rArr; _printf_ll_hex &rArr; _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[74]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_ll_hex
</UL>
<P><STRONG><a name="[82]"></a>__rt_lib_init_preinit_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000004)) <P><STRONG><a name="[e4]"></a>_printf_l</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_l.o(.ARM.Collect$$_printf_percent$$00000012))
<P><STRONG><a name="[83]"></a>__rt_lib_init_rand_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000E)) <P><STRONG><a name="[75]"></a>_printf_c</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_c.o(.ARM.Collect$$_printf_percent$$00000013))
<BR><BR>[Stack]<UL><LI>Max Depth = 40 + Unknown Stack Size
<LI>Call Chain = _printf_c &rArr; _printf_char &rArr; _printf_cs_common &rArr; _printf_str &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[76]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_char
</UL>
<P><STRONG><a name="[84]"></a>__rt_lib_init_return</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000033)) <P><STRONG><a name="[77]"></a>_printf_s</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_s.o(.ARM.Collect$$_printf_percent$$00000014))
<BR><BR>[Stack]<UL><LI>Max Depth = 40 + Unknown Stack Size
<LI>Call Chain = _printf_s &rArr; _printf_string &rArr; _printf_cs_common &rArr; _printf_str &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[78]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_string
</UL>
<P><STRONG><a name="[85]"></a>__rt_lib_init_signal_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001D)) <P><STRONG><a name="[79]"></a>_printf_lc</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_lc.o(.ARM.Collect$$_printf_percent$$00000015))
<BR><BR>[Stack]<UL><LI>Max Depth = 88 + Unknown Stack Size
<LI>Call Chain = _printf_lc &rArr; _printf_wchar &rArr; _printf_lcs_common &rArr; _printf_wctomb &rArr; _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[7a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wchar
</UL>
<P><STRONG><a name="[86]"></a>__rt_lib_init_stdio_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000025)) <P><STRONG><a name="[7b]"></a>_printf_ls</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_ls.o(.ARM.Collect$$_printf_percent$$00000016))
<BR><BR>[Stack]<UL><LI>Max Depth = 88 + Unknown Stack Size
<LI>Call Chain = _printf_ls &rArr; _printf_wstring &rArr; _printf_lcs_common &rArr; _printf_wctomb &rArr; _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[7c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wstring
</UL>
<P><STRONG><a name="[87]"></a>__rt_lib_init_user_alloc_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000C)) <P><STRONG><a name="[e5]"></a>_printf_percent_end</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, _printf_percent_end.o(.ARM.Collect$$_printf_percent$$00000017))
<P><STRONG><a name="[60]"></a>__rt_lib_shutdown</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown.o(.ARM.Collect$$libshutdown$$00000000)) <P><STRONG><a name="[85]"></a>__rt_lib_init</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit.o(.ARM.Collect$$libinit$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[5f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit_ls <BR><BR>[Called By]<UL><LI><a href="#[84]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_li
</UL> </UL>
<P><STRONG><a name="[88]"></a>__rt_lib_shutdown_fp_trap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000006)) <P><STRONG><a name="[e6]"></a>__rt_lib_init_fp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000002))
<P><STRONG><a name="[e7]"></a>__rt_lib_init_heap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000A))
<P><STRONG><a name="[89]"></a>__rt_lib_shutdown_heap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000E)) <P><STRONG><a name="[7d]"></a>__rt_lib_init_lc_common</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000F))
<BR><BR>[Calls]<UL><LI><a href="#[7e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_locale
</UL>
<P><STRONG><a name="[8a]"></a>__rt_lib_shutdown_return</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000F)) <P><STRONG><a name="[e8]"></a>__rt_lib_init_preinit_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000004))
<P><STRONG><a name="[8b]"></a>__rt_lib_shutdown_signal_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000009)) <P><STRONG><a name="[e9]"></a>__rt_lib_init_rand_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000E))
<P><STRONG><a name="[8c]"></a>__rt_lib_shutdown_stdio_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000003)) <P><STRONG><a name="[ea]"></a>__rt_lib_init_user_alloc_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000C))
<P><STRONG><a name="[8d]"></a>__rt_lib_shutdown_user_alloc_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000B)) <P><STRONG><a name="[eb]"></a>__rt_lib_init_lc_collate_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000011))
<P><STRONG><a name="[55]"></a>__rt_entry</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry.o(.ARM.Collect$$rtentry$$00000000)) <P><STRONG><a name="[7f]"></a>__rt_lib_init_lc_ctype_2</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000012))
<BR><BR>[Called By]<UL><LI><a href="#[53]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__main <BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI><a href="#[56]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_rt2 <LI>Call Chain = __rt_lib_init_lc_ctype_2 &rArr; _get_lc_ctype
</UL>
<BR>[Calls]<UL><LI><a href="#[55]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_get_lc_ctype
</UL> </UL>
<P><STRONG><a name="[8e]"></a>__rt_entry_presh_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$00000002)) <P><STRONG><a name="[ec]"></a>__rt_lib_init_lc_ctype_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000013))
<P><STRONG><a name="[ed]"></a>__rt_lib_init_lc_monetary_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000015))
<P><STRONG><a name="[58]"></a>__rt_entry_sh</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry4.o(.ARM.Collect$$rtentry$$00000004)) <P><STRONG><a name="[80]"></a>__rt_lib_init_lc_numeric_2</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000016))
<BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size <BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI>Call Chain = __rt_entry_sh &rArr; __user_setup_stackheap <LI>Call Chain = __rt_lib_init_lc_numeric_2 &rArr; _get_lc_numeric
</UL>
<BR>[Calls]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_get_lc_numeric
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[59]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
<P><STRONG><a name="[ee]"></a>__rt_lib_init_alloca_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000002E))
<P><STRONG><a name="[ef]"></a>__rt_lib_init_argv_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000002C))
<P><STRONG><a name="[f0]"></a>__rt_lib_init_atexit_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001B))
<P><STRONG><a name="[f1]"></a>__rt_lib_init_clock_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000021))
<P><STRONG><a name="[f2]"></a>__rt_lib_init_cpp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000032))
<P><STRONG><a name="[f3]"></a>__rt_lib_init_exceptions_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000030))
<P><STRONG><a name="[f4]"></a>__rt_lib_init_fp_trap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001F))
<P><STRONG><a name="[f5]"></a>__rt_lib_init_getenv_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000023))
<P><STRONG><a name="[f6]"></a>__rt_lib_init_lc_numeric_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000017))
<P><STRONG><a name="[f7]"></a>__rt_lib_init_lc_time_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000019))
<P><STRONG><a name="[f8]"></a>__rt_lib_init_return</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000033))
<P><STRONG><a name="[f9]"></a>__rt_lib_init_signal_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001D))
<P><STRONG><a name="[fa]"></a>__rt_lib_init_stdio_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000025))
<P><STRONG><a name="[8a]"></a>__rt_lib_shutdown</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown.o(.ARM.Collect$$libshutdown$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[89]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit_ls
</UL> </UL>
<P><STRONG><a name="[5a]"></a>__rt_entry_li</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000A)) <P><STRONG><a name="[fb]"></a>__rt_lib_shutdown_fp_trap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000006))
<BR><BR>[Calls]<UL><LI><a href="#[5b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init
<P><STRONG><a name="[fc]"></a>__rt_lib_shutdown_heap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000E))
<P><STRONG><a name="[fd]"></a>__rt_lib_shutdown_return</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000F))
<P><STRONG><a name="[fe]"></a>__rt_lib_shutdown_signal_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000009))
<P><STRONG><a name="[ff]"></a>__rt_lib_shutdown_stdio_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000003))
<P><STRONG><a name="[100]"></a>__rt_lib_shutdown_user_alloc_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000B))
<P><STRONG><a name="[58]"></a>__rt_entry</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry.o(.ARM.Collect$$rtentry$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[56]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__main
<LI><a href="#[59]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_rt2
</UL> </UL>
<P><STRONG><a name="[8f]"></a>__rt_entry_postsh_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$00000009)) <P><STRONG><a name="[101]"></a>__rt_entry_presh_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$00000002))
<P><STRONG><a name="[5c]"></a>__rt_entry_main</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000D)) <P><STRONG><a name="[82]"></a>__rt_entry_sh</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry4.o(.ARM.Collect$$rtentry$$00000004))
<BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size <BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI>Call Chain = __rt_entry_main &rArr; main &rArr; Delay <LI>Call Chain = __rt_entry_sh &rArr; __user_setup_stackheap
</UL>
<BR>[Calls]<UL><LI><a href="#[83]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
<LI><a href="#[5e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;exit <P><STRONG><a name="[84]"></a>__rt_entry_li</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000A))
<BR><BR>[Calls]<UL><LI><a href="#[85]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init
</UL> </UL>
<P><STRONG><a name="[90]"></a>__rt_entry_postli_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000C)) <P><STRONG><a name="[102]"></a>__rt_entry_postsh_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$00000009))
<P><STRONG><a name="[65]"></a>__rt_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit.o(.ARM.Collect$$rtexit$$00000000)) <P><STRONG><a name="[86]"></a>__rt_entry_main</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000D))
<BR><BR>[Called By]<UL><LI><a href="#[5e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;exit <BR><BR>[Stack]<UL><LI>Max Depth = 336 + Unknown Stack Size
<LI>Call Chain = __rt_entry_main &rArr; main &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
<LI><a href="#[88]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;exit
</UL>
<P><STRONG><a name="[103]"></a>__rt_entry_postli_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000C))
<P><STRONG><a name="[5f]"></a>__rt_exit_ls</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000003)) <P><STRONG><a name="[ac]"></a>__rt_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit.o(.ARM.Collect$$rtexit$$00000000))
<BR><BR>[Calls]<UL><LI><a href="#[60]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_shutdown <BR><BR>[Called By]<UL><LI><a href="#[88]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;exit
</UL> </UL>
<P><STRONG><a name="[91]"></a>__rt_exit_prels_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000002)) <P><STRONG><a name="[89]"></a>__rt_exit_ls</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000003))
<BR><BR>[Calls]<UL><LI><a href="#[8a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_shutdown
</UL>
<P><STRONG><a name="[61]"></a>__rt_exit_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000004)) <P><STRONG><a name="[104]"></a>__rt_exit_prels_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000002))
<BR><BR>[Calls]<UL><LI><a href="#[62]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_sys_exit
<P><STRONG><a name="[8b]"></a>__rt_exit_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000004))
<BR><BR>[Calls]<UL><LI><a href="#[8c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_sys_exit
</UL> </UL>
<P><STRONG><a name="[b]"></a>Reset_Handler</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[b]"></a>Reset_Handler</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
...@@ -356,27 +524,15 @@ Global Symbols ...@@ -356,27 +524,15 @@ Global Symbols
<P><STRONG><a name="[50]"></a>DMA2_Channel4_5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[50]"></a>DMA2_Channel4_5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL> </UL>
<P><STRONG><a name="[1b]"></a>EXTI0_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[3d]"></a>EXTI15_10_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[1c]"></a>EXTI1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[1c]"></a>EXTI1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL> </UL>
<P><STRONG><a name="[1d]"></a>EXTI2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[1e]"></a>EXTI3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[1e]"></a>EXTI3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL> </UL>
<P><STRONG><a name="[1f]"></a>EXTI4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[1f]"></a>EXTI4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL> </UL>
<P><STRONG><a name="[2c]"></a>EXTI9_5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[19]"></a>FLASH_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[19]"></a>FLASH_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL> </UL>
...@@ -491,124 +647,886 @@ Global Symbols ...@@ -491,124 +647,886 @@ Global Symbols
<P><STRONG><a name="[15]"></a>WWDG_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[15]"></a>WWDG_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32f10x_hd.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL> </UL>
<P><STRONG><a name="[64]"></a>__user_initial_stackheap</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, startup_stm32f10x_hd.o(.text)) <P><STRONG><a name="[ab]"></a>__user_initial_stackheap</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, startup_stm32f10x_hd.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[59]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap <BR><BR>[Called By]<UL><LI><a href="#[83]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
</UL>
<P><STRONG><a name="[8d]"></a>vsnprintf</STRONG> (Thumb, 48 bytes, Stack size 24 bytes, vsnprintf.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 128 + Unknown Stack Size
<LI>Call Chain = vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_sputc
<LI><a href="#[8e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_char_common
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Printf
</UL>
<P><STRONG><a name="[d1]"></a>__aeabi_memcpy4</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, rt_memcpy_w.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_memcpy4
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[105]"></a>__aeabi_memcpy8</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, rt_memcpy_w.o(.text), UNUSED)
<P><STRONG><a name="[106]"></a>__rt_memcpy_w</STRONG> (Thumb, 100 bytes, Stack size 8 bytes, rt_memcpy_w.o(.text), UNUSED)
<P><STRONG><a name="[92]"></a>__use_two_region_memory</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED) <P><STRONG><a name="[107]"></a>_memcpy_lastbytes_aligned</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memcpy_w.o(.text), UNUSED)
<P><STRONG><a name="[108]"></a>__use_two_region_memory</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED)
<P><STRONG><a name="[8]"></a>__rt_heap_escrow</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED) <P><STRONG><a name="[8]"></a>__rt_heap_escrow</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED)
<P><STRONG><a name="[7]"></a>__rt_heap_expand</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED) <P><STRONG><a name="[7]"></a>__rt_heap_expand</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED)
<P><STRONG><a name="[59]"></a>__user_setup_stackheap</STRONG> (Thumb, 74 bytes, Stack size 8 bytes, sys_stackheap_outer.o(.text)) <P><STRONG><a name="[91]"></a>_printf_pre_padding</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, _printf_pad.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = _printf_pre_padding
</UL>
<BR>[Called By]<UL><LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_infnan
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex_real
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
<LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_common
<LI><a href="#[97]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wctomb
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_str
</UL>
<P><STRONG><a name="[92]"></a>_printf_post_padding</STRONG> (Thumb, 34 bytes, Stack size 16 bytes, _printf_pad.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = _printf_post_padding
</UL>
<BR>[Called By]<UL><LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_infnan
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex_real
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
<LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_common
<LI><a href="#[97]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wctomb
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_str
</UL>
<P><STRONG><a name="[93]"></a>_printf_truncate_signed</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, _printf_truncate.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_dec
</UL>
<P><STRONG><a name="[94]"></a>_printf_truncate_unsigned</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, _printf_truncate.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[6c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_hex
<LI><a href="#[6a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_oct
<LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_dec
</UL>
<P><STRONG><a name="[90]"></a>_printf_str</STRONG> (Thumb, 82 bytes, Stack size 16 bytes, _printf_str.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = _printf_str &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_post_padding
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_pre_padding
</UL>
<BR>[Called By]<UL><LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_cs_common
</UL>
<P><STRONG><a name="[66]"></a>_printf_int_dec</STRONG> (Thumb, 104 bytes, Stack size 24 bytes, _printf_dec.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = _printf_int_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_common
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_truncate_unsigned
<LI><a href="#[93]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_truncate_signed
</UL>
<BR>[Called By]<UL><LI><a href="#[68]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_u
<LI><a href="#[67]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_d
<LI><a href="#[65]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_i
</UL>
<P><STRONG><a name="[5c]"></a>_printf_charcount</STRONG> (Thumb, 40 bytes, Stack size 0 bytes, _printf_charcount.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[5b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_n
</UL>
<P><STRONG><a name="[8e]"></a>_printf_char_common</STRONG> (Thumb, 32 bytes, Stack size 64 bytes, _printf_char_common.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 104 + Unknown Stack Size
<LI>Call Chain = _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__printf
</UL>
<BR>[Called By]<UL><LI><a href="#[8d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;vsnprintf
</UL>
<P><STRONG><a name="[8f]"></a>_sputc</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, _sputc.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[8d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;vsnprintf
</UL>
<P><STRONG><a name="[53]"></a>_snputc</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, _snputc.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> vsnprintf.o(.text)
</UL>
<P><STRONG><a name="[97]"></a>_printf_wctomb</STRONG> (Thumb, 182 bytes, Stack size 56 bytes, _printf_wctomb.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = _printf_wctomb &rArr; _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_wcrtomb
<LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_post_padding
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_pre_padding
</UL>
<BR>[Called By]<UL><LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_lcs_common
</UL>
<P><STRONG><a name="[6e]"></a>_printf_longlong_dec</STRONG> (Thumb, 108 bytes, Stack size 24 bytes, _printf_longlong_dec.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = _printf_longlong_dec &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_common
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_ll_udiv10
</UL>
<BR>[Called By]<UL><LI><a href="#[70]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_llu
<LI><a href="#[6f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_lld
<LI><a href="#[6d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_lli
</UL>
<P><STRONG><a name="[9a]"></a>_printf_longlong_oct</STRONG> (Thumb, 68 bytes, Stack size 8 bytes, _printf_oct_int_ll.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = _printf_longlong_oct &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_common
</UL>
<BR>[Called By]<UL><LI><a href="#[72]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_ll_oct
<LI><a href="#[6a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_oct
</UL>
<P><STRONG><a name="[6a]"></a>_printf_int_oct</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, _printf_oct_int_ll.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = _printf_int_oct &rArr; _printf_longlong_oct &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[9a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_oct
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_truncate_unsigned
</UL>
<BR>[Called By]<UL><LI><a href="#[69]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_o
</UL>
<P><STRONG><a name="[72]"></a>_printf_ll_oct</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, _printf_oct_int_ll.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = _printf_ll_oct &rArr; _printf_longlong_oct &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[9a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_oct
</UL>
<BR>[Called By]<UL><LI><a href="#[71]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_llo
</UL>
<P><STRONG><a name="[9b]"></a>_printf_longlong_hex</STRONG> (Thumb, 86 bytes, Stack size 16 bytes, _printf_hex_int_ll_ptr.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_common
</UL>
<BR>[Called By]<UL><LI><a href="#[5e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_hex_ptr
<LI><a href="#[74]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_ll_hex
<LI><a href="#[6c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_hex
</UL>
<P><STRONG><a name="[6c]"></a>_printf_int_hex</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, _printf_hex_int_ll_ptr.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = _printf_int_hex &rArr; _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[9b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_hex
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_truncate_unsigned
</UL>
<BR>[Called By]<UL><LI><a href="#[6b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_x
</UL>
<P><STRONG><a name="[74]"></a>_printf_ll_hex</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, _printf_hex_int_ll_ptr.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = _printf_ll_hex &rArr; _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[9b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_hex
</UL>
<BR>[Called By]<UL><LI><a href="#[73]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_llx
</UL>
<P><STRONG><a name="[5e]"></a>_printf_hex_ptr</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, _printf_hex_int_ll_ptr.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = _printf_hex_ptr &rArr; _printf_longlong_hex &rArr; _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[9b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_hex
</UL>
<BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_p
</UL>
<P><STRONG><a name="[96]"></a>__printf</STRONG> (Thumb, 388 bytes, Stack size 40 bytes, __printf_flags_ss_wp.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 40 + Unknown Stack Size
<LI>Call Chain = __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[9d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_percent
<LI><a href="#[9c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_is_digit
</UL>
<BR>[Called By]<UL><LI><a href="#[8e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_char_common
</UL>
<P><STRONG><a name="[99]"></a>_ll_udiv10</STRONG> (Thumb, 138 bytes, Stack size 12 bytes, lludiv10.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = _ll_udiv10
</UL>
<BR>[Called By]<UL><LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_digits
<LI><a href="#[6e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_dec
</UL>
<P><STRONG><a name="[95]"></a>_printf_int_common</STRONG> (Thumb, 178 bytes, Stack size 32 bytes, _printf_intcommon.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = _printf_int_common &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_post_padding
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_pre_padding
</UL>
<BR>[Called By]<UL><LI><a href="#[9b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_hex
<LI><a href="#[9a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_oct
<LI><a href="#[6e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_longlong_dec
<LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_int_dec
</UL>
<P><STRONG><a name="[109]"></a>__lib_sel_fp_printf</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, _printf_fp_dec.o(.text), UNUSED)
<P><STRONG><a name="[a3]"></a>_printf_fp_dec_real</STRONG> (Thumb, 620 bytes, Stack size 104 bytes, _printf_fp_dec.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 320<LI>Call Chain = _printf_fp_dec_real &rArr; _fp_digits &rArr; _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_infnan
<LI><a href="#[7e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_locale
<LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_digits
<LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_post_padding
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_pre_padding
<LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__ARM_fpclassify
</UL>
<BR>[Called By]<UL><LI><a href="#[60]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec
</UL>
<P><STRONG><a name="[a6]"></a>_printf_fp_hex_real</STRONG> (Thumb, 754 bytes, Stack size 72 bytes, _printf_fp_hex.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = _printf_fp_hex_real &rArr; _printf_fp_infnan &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_infnan
<LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_post_padding
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_pre_padding
<LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__ARM_fpclassify
</UL>
<BR>[Called By]<UL><LI><a href="#[64]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex
</UL>
<P><STRONG><a name="[a7]"></a>_printf_cs_common</STRONG> (Thumb, 20 bytes, Stack size 8 bytes, _printf_char.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = _printf_cs_common &rArr; _printf_str &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_str
</UL>
<BR>[Called By]<UL><LI><a href="#[78]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_string
<LI><a href="#[76]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_char
</UL>
<P><STRONG><a name="[76]"></a>_printf_char</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, _printf_char.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = _printf_char &rArr; _printf_cs_common &rArr; _printf_str &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_cs_common
</UL>
<BR>[Called By]<UL><LI><a href="#[75]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_c
</UL>
<P><STRONG><a name="[78]"></a>_printf_string</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, _printf_char.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = _printf_string &rArr; _printf_cs_common &rArr; _printf_str &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_cs_common
</UL>
<BR>[Called By]<UL><LI><a href="#[77]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_s
</UL>
<P><STRONG><a name="[a8]"></a>_printf_lcs_common</STRONG> (Thumb, 20 bytes, Stack size 8 bytes, _printf_wchar.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = _printf_lcs_common &rArr; _printf_wctomb &rArr; _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[97]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wctomb
</UL>
<BR>[Called By]<UL><LI><a href="#[7c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wstring
<LI><a href="#[7a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wchar
</UL>
<P><STRONG><a name="[7a]"></a>_printf_wchar</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, _printf_wchar.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = _printf_wchar &rArr; _printf_lcs_common &rArr; _printf_wctomb &rArr; _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_lcs_common
</UL>
<BR>[Called By]<UL><LI><a href="#[79]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_lc
</UL>
<P><STRONG><a name="[7c]"></a>_printf_wstring</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, _printf_wchar.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = _printf_wstring &rArr; _printf_lcs_common &rArr; _printf_wctomb &rArr; _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_lcs_common
</UL>
<BR>[Called By]<UL><LI><a href="#[7b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_ls
</UL>
<P><STRONG><a name="[98]"></a>_wcrtomb</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, _wcrtomb.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = _wcrtomb &rArr; __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_ctype_table
</UL>
<BR>[Called By]<UL><LI><a href="#[97]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_wctomb
</UL>
<P><STRONG><a name="[83]"></a>__user_setup_stackheap</STRONG> (Thumb, 74 bytes, Stack size 8 bytes, sys_stackheap_outer.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size <BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI>Call Chain = __user_setup_stackheap <LI>Call Chain = __user_setup_stackheap
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[64]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_initial_stackheap <BR>[Calls]<UL><LI><a href="#[ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_initial_stackheap
<LI><a href="#[63]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_perproc_libspace <LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_perproc_libspace
</UL>
<BR>[Called By]<UL><LI><a href="#[82]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_sh
</UL>
<P><STRONG><a name="[a9]"></a>__rt_ctype_table</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, rt_ctype_table.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __rt_ctype_table
</UL>
<BR>[Calls]<UL><LI><a href="#[7e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_locale
</UL>
<BR>[Called By]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_wcrtomb
</UL>
<P><STRONG><a name="[7e]"></a>__rt_locale</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, rt_locale_intlibspace.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_ctype_table
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
<LI><a href="#[7d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init_lc_common
</UL>
<P><STRONG><a name="[a5]"></a>_printf_fp_infnan</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, _printf_fp_infnan.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = _printf_fp_infnan &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_post_padding
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_pre_padding
</UL>
<BR>[Called By]<UL><LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex_real
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
</UL>
<P><STRONG><a name="[9f]"></a>_btod_etento</STRONG> (Thumb, 216 bytes, Stack size 72 bytes, bigflt0.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_emul
<LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_ediv
</UL>
<BR>[Called By]<UL><LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_digits
</UL>
<P><STRONG><a name="[88]"></a>exit</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, exit.o(.text))
<BR><BR>[Calls]<UL><LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit
</UL>
<BR>[Called By]<UL><LI><a href="#[86]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_main
</UL>
<P><STRONG><a name="[10a]"></a>__user_libspace</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, libspace.o(.text), UNUSED)
<P><STRONG><a name="[aa]"></a>__user_perproc_libspace</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, libspace.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[83]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
</UL>
<P><STRONG><a name="[10b]"></a>__user_perthread_libspace</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, libspace.o(.text), UNUSED)
<P><STRONG><a name="[10c]"></a>__I$use$semihosting</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, use_no_semi.o(.text), UNUSED)
<P><STRONG><a name="[10d]"></a>__use_no_semihosting_swi</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, use_no_semi.o(.text), UNUSED)
<P><STRONG><a name="[10e]"></a>__semihosting_library_function</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, indicate_semi.o(.text), UNUSED)
<P><STRONG><a name="[da]"></a>strcmp</STRONG> (Thumb, 128 bytes, Stack size 0 bytes, strcmpv7m.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_get_lc_numeric
<LI><a href="#[55]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_get_lc_ctype
</UL>
<P><STRONG><a name="[8c]"></a>_sys_exit</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, sys_exit.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[8b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit_exit
</UL>
<P><STRONG><a name="[a0]"></a>_btod_d2e</STRONG> (Thumb, 62 bytes, Stack size 0 bytes, btod.o(CL$$btod_d2e))
<BR><BR>[Calls]<UL><LI><a href="#[ad]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_d2e_norm_op1
</UL>
<BR>[Called By]<UL><LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_digits
</UL>
<P><STRONG><a name="[ae]"></a>_d2e_denorm_low</STRONG> (Thumb, 70 bytes, Stack size 0 bytes, btod.o(CL$$btod_d2e_denorm_low))
<BR><BR>[Called By]<UL><LI><a href="#[ad]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_d2e_norm_op1
</UL>
<P><STRONG><a name="[ad]"></a>_d2e_norm_op1</STRONG> (Thumb, 96 bytes, Stack size 0 bytes, btod.o(CL$$btod_d2e_norm_op1))
<BR><BR>[Calls]<UL><LI><a href="#[ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_d2e_denorm_low
</UL>
<BR>[Called By]<UL><LI><a href="#[a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_d2e
</UL>
<P><STRONG><a name="[af]"></a>__btod_div_common</STRONG> (Thumb, 696 bytes, Stack size 24 bytes, btod.o(CL$$btod_div_common))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __btod_div_common
</UL>
<BR>[Called By]<UL><LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_ediv
</UL>
<P><STRONG><a name="[b0]"></a>_e2e</STRONG> (Thumb, 198 bytes, Stack size 24 bytes, btod.o(CL$$btod_e2e))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = _e2e
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[58]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_sh <BR>[Called By]<UL><LI><a href="#[a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_emul
<LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_ediv
</UL> </UL>
<P><STRONG><a name="[5e]"></a>exit</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, exit.o(.text)) <P><STRONG><a name="[a1]"></a>_btod_ediv</STRONG> (Thumb, 40 bytes, Stack size 24 bytes, btod.o(CL$$btod_ediv))
<BR><BR>[Calls]<UL><LI><a href="#[65]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit <BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = _btod_ediv &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_e2e
<LI><a href="#[af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__btod_div_common
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[5c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_main <BR>[Called By]<UL><LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_etento
<LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_digits
</UL> </UL>
<P><STRONG><a name="[93]"></a>__user_libspace</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, libspace.o(.text), UNUSED) <P><STRONG><a name="[a2]"></a>_btod_emul</STRONG> (Thumb, 40 bytes, Stack size 24 bytes, btod.o(CL$$btod_emul))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__btod_mult_common
<LI><a href="#[b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_e2e
</UL>
<BR>[Called By]<UL><LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_etento
<LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_digits
</UL>
<P><STRONG><a name="[63]"></a>__user_perproc_libspace</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, libspace.o(.text)) <P><STRONG><a name="[b1]"></a>__btod_mult_common</STRONG> (Thumb, 580 bytes, Stack size 16 bytes, btod.o(CL$$btod_mult_common))
<BR><BR>[Called By]<UL><LI><a href="#[59]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap <BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = __btod_mult_common
</UL>
<BR>[Called By]<UL><LI><a href="#[a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_emul
</UL> </UL>
<P><STRONG><a name="[94]"></a>__user_perthread_libspace</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, libspace.o(.text), UNUSED) <P><STRONG><a name="[b2]"></a>Buzzer_On</STRONG> (Thumb, 20 bytes, Stack size 8 bytes, buzzer.o(i.Buzzer_On))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = Buzzer_On &rArr; Delay
</UL>
<BR>[Calls]<UL><LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Delay
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[95]"></a>__I$use$semihosting</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, use_no_semi.o(.text), UNUSED) <P><STRONG><a name="[b4]"></a>CalculateDistance</STRONG> (Thumb, 40 bytes, Stack size 24 bytes, parking_sensor.o(i.CalculateDistance))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = CalculateDistance &rArr; __aeabi_dmul
</UL>
<BR>[Calls]<UL><LI><a href="#[b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_dmul
<LI><a href="#[b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ui2d
</UL>
<BR>[Called By]<UL><LI><a href="#[bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Parking_Sensor_Interruption
</UL>
<P><STRONG><a name="[96]"></a>__use_no_semihosting_swi</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, use_no_semi.o(.text), UNUSED) <P><STRONG><a name="[d8]"></a>Configure_PE_Pin</STRONG> (Thumb, 88 bytes, Stack size 8 bytes, parking_sensor.o(i.Configure_PE_Pin))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = Configure_PE_Pin
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[b3]"></a>Delay</STRONG> (Thumb, 100 bytes, Stack size 16 bytes, common.o(i.Delay))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = Delay
</UL>
<BR>[Called By]<UL><LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SendTriggerSignal
<LI><a href="#[b2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Buzzer_On
<LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[b7]"></a>Distance_Switch_Interruption</STRONG> (Thumb, 92 bytes, Stack size 8 bytes, distance_switch.o(i.Distance_Switch_Interruption))
<BR><BR>[Stack]<UL><LI>Max Depth = 288 + Unknown Stack Size
<LI>Call Chain = Distance_Switch_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Printf
<LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Print
</UL>
<BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<P><STRONG><a name="[1b]"></a>EXTI0_IRQHandler</STRONG> (Thumb, 26 bytes, Stack size 8 bytes, common.o(i.EXTI0_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 312 + Unknown Stack Size
<LI>Call Chain = EXTI0_IRQHandler &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[3d]"></a>EXTI15_10_IRQHandler</STRONG> (Thumb, 58 bytes, Stack size 8 bytes, common.o(i.EXTI15_10_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 312 + Unknown Stack Size
<LI>Call Chain = EXTI15_10_IRQHandler &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
<LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Print
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[1d]"></a>EXTI2_IRQHandler</STRONG> (Thumb, 26 bytes, Stack size 8 bytes, common.o(i.EXTI2_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 312 + Unknown Stack Size
<LI>Call Chain = EXTI2_IRQHandler &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[2c]"></a>EXTI9_5_IRQHandler</STRONG> (Thumb, 50 bytes, Stack size 8 bytes, common.o(i.EXTI9_5_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 312 + Unknown Stack Size
<LI>Call Chain = EXTI9_5_IRQHandler &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(RESET)
</UL>
<P><STRONG><a name="[bb]"></a>Emergency_Stop_Interrupt</STRONG> (Thumb, 50 bytes, Stack size 8 bytes, emergency_stop.o(i.Emergency_Stop_Interrupt))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = Emergency_Stop_Interrupt &rArr; Serial_Print &rArr; USART1_SendString
</UL>
<BR>[Calls]<UL><LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Print
</UL>
<BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<P><STRONG><a name="[bc]"></a>Parking_Sensor_Interruption</STRONG> (Thumb, 134 bytes, Stack size 16 bytes, parking_sensor.o(i.Parking_Sensor_Interruption))
<BR><BR>[Stack]<UL><LI>Max Depth = 296 + Unknown Stack Size
<LI>Call Chain = Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;CalculateDistance
<LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Printf
</UL>
<BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<P><STRONG><a name="[bd]"></a>Photoelectric_Switch_Interrupt</STRONG> (Thumb, 90 bytes, Stack size 8 bytes, photoelectric_switch.o(i.Photoelectric_Switch_Interrupt))
<BR><BR>[Stack]<UL><LI>Max Depth = 288 + Unknown Stack Size
<LI>Call Chain = Photoelectric_Switch_Interrupt &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Printf
</UL>
<BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
</UL>
<P><STRONG><a name="[97]"></a>__semihosting_library_function</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, indicate_semi.o(.text), UNUSED) <P><STRONG><a name="[be]"></a>Pneumatic_Solenoid_Control</STRONG> (Thumb, 244 bytes, Stack size 16 bytes, pneumatic_solenoid.o(i.Pneumatic_Solenoid_Control))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = Pneumatic_Solenoid_Control &rArr; Serial_Print &rArr; USART1_SendString
</UL>
<BR>[Calls]<UL><LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Print
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[62]"></a>_sys_exit</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, sys_exit.o(.text)) <P><STRONG><a name="[bf]"></a>RotateMotor_Accelerate</STRONG> (Thumb, 150 bytes, Stack size 56 bytes, rotate_motor.o(i.RotateMotor_Accelerate))
<BR><BR>[Called By]<UL><LI><a href="#[61]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit_exit <BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = RotateMotor_Accelerate &rArr; __aeabi_dmul
</UL>
<BR>[Calls]<UL><LI><a href="#[c2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Set_PWM_Frequency
<LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Delay
<LI><a href="#[b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_dmul
<LI><a href="#[b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ui2d
<LI><a href="#[c1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_d2uiz
<LI><a href="#[c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ddiv
</UL>
<BR>[Called By]<UL><LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
</UL> </UL>
<P><STRONG><a name="[6f]"></a>Delay</STRONG> (Thumb, 34 bytes, Stack size 8 bytes, main.o(i.Delay)) <P><STRONG><a name="[c3]"></a>RotateMotor_Decelerate</STRONG> (Thumb, 104 bytes, Stack size 48 bytes, rotate_motor.o(i.RotateMotor_Decelerate))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = Delay <BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = RotateMotor_Decelerate &rArr; __aeabi_dmul
</UL>
<BR>[Calls]<UL><LI><a href="#[c2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Set_PWM_Frequency
<LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Delay
<LI><a href="#[b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_dmul
<LI><a href="#[b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ui2d
<LI><a href="#[c1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_d2uiz
<LI><a href="#[c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ddiv
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main <BR>[Called By]<UL><LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
</UL> </UL>
<P><STRONG><a name="[6e]"></a>Enable_Stepper</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, main.o(i.Enable_Stepper)) <P><STRONG><a name="[d5]"></a>Rotate_Enable_Rotate</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, rotate_motor.o(i.Rotate_Enable_Rotate))
<BR><BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main <BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL> </UL>
<P><STRONG><a name="[6b]"></a>GPIO_Init</STRONG> (Thumb, 110 bytes, Stack size 0 bytes, main.o(i.GPIO_Init)) <P><STRONG><a name="[d4]"></a>Rotate_SetDirection</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, rotate_motor.o(i.Rotate_SetDirection))
<BR><BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main <BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL> </UL>
<P><STRONG><a name="[66]"></a>Serial_Init</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, uart_log.o(i.Serial_Init)) <P><STRONG><a name="[c4]"></a>SendTriggerSignal</STRONG> (Thumb, 30 bytes, Stack size 8 bytes, parking_sensor.o(i.SendTriggerSignal))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = SendTriggerSignal &rArr; Delay
</UL>
<BR>[Calls]<UL><LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Delay
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[c5]"></a>Serial_Init</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, uart_log.o(i.Serial_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = Serial_Init <BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = Serial_Init
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[68]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_Init <BR>[Calls]<UL><LI><a href="#[c7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_Init
<LI><a href="#[67]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_GPIO_Init <LI><a href="#[c6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_GPIO_Init
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main <BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL> </UL>
<P><STRONG><a name="[6d]"></a>Set_Direction</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, main.o(i.Set_Direction)) <P><STRONG><a name="[b9]"></a>Serial_Print</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, uart_log.o(i.Serial_Print))
<BR><BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main <BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = Serial_Print &rArr; USART1_SendString
</UL>
<BR>[Calls]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_SendString
</UL>
<BR>[Called By]<UL><LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Emergency_Stop_Interrupt
<LI><a href="#[b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Distance_Switch_Interruption
<LI><a href="#[3d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;EXTI15_10_IRQHandler
<LI><a href="#[be]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Pneumatic_Solenoid_Control
<LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[b8]"></a>Serial_Printf</STRONG> (Thumb, 38 bytes, Stack size 152 bytes, uart_log.o(i.Serial_Printf))
<BR><BR>[Stack]<UL><LI>Max Depth = 280 + Unknown Stack Size
<LI>Call Chain = Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_SendString
<LI><a href="#[8d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;vsnprintf
</UL>
<BR>[Called By]<UL><LI><a href="#[bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Photoelectric_Switch_Interrupt
<LI><a href="#[b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Distance_Switch_Interruption
<LI><a href="#[bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Parking_Sensor_Interruption
</UL>
<P><STRONG><a name="[c2]"></a>Set_PWM_Frequency</STRONG> (Thumb, 34 bytes, Stack size 0 bytes, rotate_motor.o(i.Set_PWM_Frequency))
<BR><BR>[Called By]<UL><LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
</UL>
<P><STRONG><a name="[ba]"></a>StateMachineHandler</STRONG> (Thumb, 54 bytes, Stack size 8 bytes, common.o(i.StateMachineHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 304 + Unknown Stack Size
<LI>Call Chain = StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Photoelectric_Switch_Interrupt
<LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Emergency_Stop_Interrupt
<LI><a href="#[b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Distance_Switch_Interruption
<LI><a href="#[bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Parking_Sensor_Interruption
</UL>
<BR>[Called By]<UL><LI><a href="#[2c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;EXTI9_5_IRQHandler
<LI><a href="#[1d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;EXTI2_IRQHandler
<LI><a href="#[3d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;EXTI15_10_IRQHandler
<LI><a href="#[1b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;EXTI0_IRQHandler
<LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL> </UL>
<P><STRONG><a name="[51]"></a>SystemInit</STRONG> (Thumb, 78 bytes, Stack size 8 bytes, system_stm32f10x.o(i.SystemInit)) <P><STRONG><a name="[51]"></a>SystemInit</STRONG> (Thumb, 78 bytes, Stack size 8 bytes, system_stm32f10x.o(i.SystemInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = SystemInit &rArr; SetSysClock &rArr; SetSysClockTo72 <BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = SystemInit &rArr; SetSysClock &rArr; SetSysClockTo72
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[69]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SetSysClock <BR>[Calls]<UL><LI><a href="#[c9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SetSysClock
</UL> </UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(.text) <BR>[Address Reference Count : 1]<UL><LI> startup_stm32f10x_hd.o(.text)
</UL> </UL>
<P><STRONG><a name="[6c]"></a>TIM3_Init</STRONG> (Thumb, 96 bytes, Stack size 0 bytes, main.o(i.TIM3_Init)) <P><STRONG><a name="[d9]"></a>TIM2_Capture_Init</STRONG> (Thumb, 36 bytes, Stack size 0 bytes, parking_sensor.o(i.TIM2_Capture_Init))
<BR><BR>[Called By]<UL><LI><a href="#[5d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main <BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[d2]"></a>TIM3_CH1_Init</STRONG> (Thumb, 90 bytes, Stack size 0 bytes, rotate_motor.o(i.TIM3_CH1_Init))
<BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[d3]"></a>TIM3_CH2_Init</STRONG> (Thumb, 90 bytes, Stack size 0 bytes, walking_motor.o(i.TIM3_CH2_Init))
<BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[cb]"></a>Total_EXTI_Init</STRONG> (Thumb, 410 bytes, Stack size 8 bytes, common.o(i.Total_EXTI_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = Total_EXTI_Init &rArr; NVIC_SetPriority
</UL>
<BR>[Calls]<UL><LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;NVIC_SetPriority
<LI><a href="#[cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;NVIC_EnableIRQ
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[d0]"></a>Total_GPIO_Init</STRONG> (Thumb, 602 bytes, Stack size 0 bytes, common.o(i.Total_GPIO_Init))
<BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[c6]"></a>USART1_GPIO_Init</STRONG> (Thumb, 58 bytes, Stack size 0 bytes, uart_log.o(i.USART1_GPIO_Init))
<BR><BR>[Called By]<UL><LI><a href="#[c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Init
</UL>
<P><STRONG><a name="[c7]"></a>USART1_Init</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, uart_log.o(i.USART1_Init))
<BR><BR>[Called By]<UL><LI><a href="#[c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Init
</UL>
<P><STRONG><a name="[ce]"></a>USART1_SendChar</STRONG> (Thumb, 24 bytes, Stack size 0 bytes, uart_log.o(i.USART1_SendChar))
<BR><BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_SendString
</UL>
<P><STRONG><a name="[c8]"></a>USART1_SendString</STRONG> (Thumb, 22 bytes, Stack size 4 bytes, uart_log.o(i.USART1_SendString))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = USART1_SendString
</UL>
<BR>[Calls]<UL><LI><a href="#[ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART1_SendChar
</UL>
<BR>[Called By]<UL><LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Printf
<LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Print
</UL>
<P><STRONG><a name="[cf]"></a>Update_Motor_Status</STRONG> (Thumb, 130 bytes, Stack size 48 bytes, rotate_motor.o(i.Update_Motor_Status))
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = Update_Motor_Status &rArr; RotateMotor_Accelerate &rArr; __aeabi_dmul
</UL>
<BR>[Calls]<UL><LI><a href="#[c2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Set_PWM_Frequency
<LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_dmul
<LI><a href="#[b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ui2d
<LI><a href="#[c1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_d2uiz
<LI><a href="#[c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_ddiv
</UL>
<BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[d7]"></a>Walking_Enable_Rotate</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, walking_motor.o(i.Walking_Enable_Rotate))
<BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>
<P><STRONG><a name="[d6]"></a>Walking_SetDirection</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, walking_motor.o(i.Walking_SetDirection))
<BR><BR>[Called By]<UL><LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL> </UL>
<P><STRONG><a name="[67]"></a>USART1_GPIO_Init</STRONG> (Thumb, 58 bytes, Stack size 0 bytes, uart_log.o(i.USART1_GPIO_Init)) <P><STRONG><a name="[a4]"></a>__ARM_fpclassify</STRONG> (Thumb, 40 bytes, Stack size 0 bytes, fpclassify.o(i.__ARM_fpclassify))
<BR><BR>[Called By]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Init <BR><BR>[Called By]<UL><LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex_real
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
</UL> </UL>
<P><STRONG><a name="[68]"></a>USART1_Init</STRONG> (Thumb, 38 bytes, Stack size 0 bytes, uart_log.o(i.USART1_Init)) <P><STRONG><a name="[9c]"></a>_is_digit</STRONG> (Thumb, 14 bytes, Stack size 0 bytes, __printf_wp.o(i._is_digit))
<BR><BR>[Called By]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Init <BR><BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__printf
</UL> </UL>
<P><STRONG><a name="[5d]"></a>main</STRONG> (Thumb, 58 bytes, Stack size 0 bytes, main.o(i.main)) <P><STRONG><a name="[87]"></a>main</STRONG> (Thumb, 184 bytes, Stack size 32 bytes, main.o(i.main))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = main &rArr; Delay <BR><BR>[Stack]<UL><LI>Max Depth = 336 + Unknown Stack Size
<LI>Call Chain = main &rArr; StateMachineHandler &rArr; Parking_Sensor_Interruption &rArr; Serial_Printf &rArr; vsnprintf &rArr; _printf_char_common &rArr; __printf
</UL>
<BR>[Calls]<UL><LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Walking_SetDirection
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Walking_Enable_Rotate
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
<LI><a href="#[d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Total_GPIO_Init
<LI><a href="#[cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Total_EXTI_Init
<LI><a href="#[d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM3_CH2_Init
<LI><a href="#[d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM3_CH1_Init
<LI><a href="#[d9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM2_Capture_Init
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;StateMachineHandler
<LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Print
<LI><a href="#[c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Init
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SendTriggerSignal
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Rotate_SetDirection
<LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Rotate_Enable_Rotate
<LI><a href="#[be]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Pneumatic_Solenoid_Control
<LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Delay
<LI><a href="#[d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Configure_PE_Pin
<LI><a href="#[b2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Buzzer_On
<LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy4
</UL>
<BR>[Called By]<UL><LI><a href="#[86]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_main
</UL>
<P><STRONG><a name="[81]"></a>_get_lc_numeric</STRONG> (Thumb, 44 bytes, Stack size 8 bytes, lc_numeric_c.o(locale$$code))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = _get_lc_numeric
</UL>
<BR>[Calls]<UL><LI><a href="#[da]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;strcmp
</UL>
<BR>[Called By]<UL><LI><a href="#[80]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init_lc_numeric_2
</UL>
<P><STRONG><a name="[55]"></a>_get_lc_ctype</STRONG> (Thumb, 44 bytes, Stack size 8 bytes, lc_ctype_c.o(locale$$code))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = _get_lc_ctype
</UL>
<BR>[Calls]<UL><LI><a href="#[da]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;strcmp
</UL>
<BR>[Called By]<UL><LI><a href="#[7f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init_lc_ctype_2
</UL>
<BR>[Address Reference Count : 1]<UL><LI> rt_ctype_table.o(.text)
</UL>
<P><STRONG><a name="[c0]"></a>__aeabi_ddiv</STRONG> (Thumb, 0 bytes, Stack size 32 bytes, ddiv.o(x$fpl$ddiv))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = __aeabi_ddiv
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[66]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Serial_Init <BR>[Called By]<UL><LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[6c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM3_Init <LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[6d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Set_Direction <LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
<LI><a href="#[6b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;GPIO_Init </UL>
<LI><a href="#[6e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Enable_Stepper
<LI><a href="#[6f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Delay <P><STRONG><a name="[db]"></a>_ddiv</STRONG> (Thumb, 552 bytes, Stack size 32 bytes, ddiv.o(x$fpl$ddiv), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__fpl_dretinf
<LI><a href="#[dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__fpl_dnaninf
</UL>
<P><STRONG><a name="[c1]"></a>__aeabi_d2uiz</STRONG> (Thumb, 0 bytes, Stack size 32 bytes, dfixu.o(x$fpl$dfixu))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = __aeabi_d2uiz
</UL>
<BR>[Called By]<UL><LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
</UL>
<P><STRONG><a name="[de]"></a>_dfixu</STRONG> (Thumb, 90 bytes, Stack size 32 bytes, dfixu.o(x$fpl$dfixu), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__fpl_dnaninf
</UL>
<P><STRONG><a name="[b5]"></a>__aeabi_ui2d</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, dflt_clz.o(x$fpl$dfltu))
<BR><BR>[Called By]<UL><LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;CalculateDistance
<LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
</UL>
<P><STRONG><a name="[10f]"></a>_dfltu</STRONG> (Thumb, 38 bytes, Stack size 0 bytes, dflt_clz.o(x$fpl$dfltu), UNUSED)
<P><STRONG><a name="[b6]"></a>__aeabi_dmul</STRONG> (Thumb, 0 bytes, Stack size 32 bytes, dmul.o(x$fpl$dmul))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = __aeabi_dmul
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[5c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_main <BR>[Called By]<UL><LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;CalculateDistance
<LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Decelerate
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RotateMotor_Accelerate
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Update_Motor_Status
</UL>
<P><STRONG><a name="[df]"></a>_dmul</STRONG> (Thumb, 332 bytes, Stack size 32 bytes, dmul.o(x$fpl$dmul), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__fpl_dretinf
<LI><a href="#[dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__fpl_dnaninf
</UL>
<P><STRONG><a name="[dd]"></a>__fpl_dnaninf</STRONG> (Thumb, 156 bytes, Stack size 16 bytes, dnaninf.o(x$fpl$dnaninf), UNUSED)
<BR><BR>[Called By]<UL><LI><a href="#[df]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_dmul
<LI><a href="#[de]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_dfixu
<LI><a href="#[db]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_ddiv
</UL>
<P><STRONG><a name="[dc]"></a>__fpl_dretinf</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, dretinf.o(x$fpl$dretinf), UNUSED)
<BR><BR>[Called By]<UL><LI><a href="#[df]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_dmul
<LI><a href="#[db]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_ddiv
</UL>
<P><STRONG><a name="[60]"></a>_printf_fp_dec</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, printf1.o(x$fpl$printf1))
<BR><BR>[Stack]<UL><LI>Max Depth = 320<LI>Call Chain = _printf_fp_dec &rArr; _printf_fp_dec_real &rArr; _fp_digits &rArr; _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
</UL>
<BR>[Called By]<UL><LI><a href="#[62]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_g
<LI><a href="#[61]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_e
<LI><a href="#[5f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_f
</UL>
<P><STRONG><a name="[64]"></a>_printf_fp_hex</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, printf2.o(x$fpl$printf2))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = _printf_fp_hex &rArr; _printf_fp_hex_real &rArr; _printf_fp_infnan &rArr; _printf_post_padding
</UL>
<BR>[Calls]<UL><LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_hex_real
</UL>
<BR>[Called By]<UL><LI><a href="#[63]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_a
</UL> </UL>
<P> <P>
<H3> <H3>
Local Symbols Local Symbols
</H3> </H3>
<P><STRONG><a name="[69]"></a>SetSysClock</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, system_stm32f10x.o(i.SetSysClock)) <P><STRONG><a name="[cc]"></a>NVIC_EnableIRQ</STRONG> (Thumb, 22 bytes, Stack size 0 bytes, common.o(i.NVIC_EnableIRQ))
<BR><BR>[Called By]<UL><LI><a href="#[cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Total_EXTI_Init
</UL>
<P><STRONG><a name="[cd]"></a>NVIC_SetPriority</STRONG> (Thumb, 32 bytes, Stack size 8 bytes, common.o(i.NVIC_SetPriority))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = NVIC_SetPriority
</UL>
<BR>[Called By]<UL><LI><a href="#[cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Total_EXTI_Init
</UL>
<P><STRONG><a name="[c9]"></a>SetSysClock</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, system_stm32f10x.o(i.SetSysClock))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = SetSysClock &rArr; SetSysClockTo72 <BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = SetSysClock &rArr; SetSysClockTo72
</UL> </UL>
<BR>[Calls]<UL><LI><a href="#[6a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SetSysClockTo72 <BR>[Calls]<UL><LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SetSysClockTo72
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[51]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemInit <BR>[Called By]<UL><LI><a href="#[51]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemInit
</UL> </UL>
<P><STRONG><a name="[6a]"></a>SetSysClockTo72</STRONG> (Thumb, 214 bytes, Stack size 12 bytes, system_stm32f10x.o(i.SetSysClockTo72)) <P><STRONG><a name="[ca]"></a>SetSysClockTo72</STRONG> (Thumb, 214 bytes, Stack size 12 bytes, system_stm32f10x.o(i.SetSysClockTo72))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = SetSysClockTo72 <BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = SetSysClockTo72
</UL> </UL>
<BR>[Called By]<UL><LI><a href="#[69]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SetSysClock <BR>[Called By]<UL><LI><a href="#[c9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SetSysClock
</UL>
<P><STRONG><a name="[54]"></a>_printf_input_char</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, _printf_char_common.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> _printf_char_common.o(.text)
</UL>
<P><STRONG><a name="[9e]"></a>_fp_digits</STRONG> (Thumb, 428 bytes, Stack size 96 bytes, _printf_fp_dec.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 216<LI>Call Chain = _fp_digits &rArr; _btod_etento &rArr; _btod_emul &rArr; _e2e
</UL>
<BR>[Calls]<UL><LI><a href="#[a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_emul
<LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_ediv
<LI><a href="#[a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_d2e
<LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_btod_etento
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_ll_udiv10
</UL>
<BR>[Called By]<UL><LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_printf_fp_dec_real
</UL> </UL>
<P> <P>
<H3> <H3>
......
--cpu Cortex-M3 --cpu Cortex-M3
".\objects\main.o" ".\objects\main.o"
".\objects\uart_log.o" ".\objects\uart_log.o"
".\objects\step_motor.o" ".\objects\rotate_motor.o"
".\objects\pneumatic_solenoid.o"
".\objects\parking_sensor.o"
".\objects\common.o"
".\objects\distance_switch.o"
".\objects\photoelectric_switch.o"
".\objects\onewire.o"
".\objects\temperature_sensor.o"
".\objects\emergency_stop.o"
".\objects\buzzer.o"
".\objects\walking_motor.o"
".\objects\ds18b20.o"
".\objects\startup_stm32f10x_hd.o" ".\objects\startup_stm32f10x_hd.o"
".\objects\system_stm32f10x.o" ".\objects\system_stm32f10x.o"
--strict --scatter ".\Objects\MotorControl.sct" --strict --scatter ".\Objects\MotorControl.sct"
......
Dependencies for Project 'MotorControl', Target 'PWM': (DO NOT MODIFY !) Dependencies for Project 'MotorControl', Target 'PWM': (DO NOT MODIFY !)
F (.\main.c)(0x66F677B1)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\main.o --omf_browse .\objects\main.crf --depend .\objects\main.d) F (.\main.c)(0x6720B343)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\main.o --omf_browse .\objects\main.crf --depend .\objects\main.d)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C) I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000) I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54) I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
...@@ -8,10 +8,19 @@ I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54) ...@@ -8,10 +8,19 @@ I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54) I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54) I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C) I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\rotate_motor.h)(0x6718AEFF)
I (.\Module\Inc\motor_common.h)(0x6718AC7D)
I (C:\Keil_v5\ARM\ARMCC\include\stdbool.h)(0x5475F300) I (C:\Keil_v5\ARM\ARMCC\include\stdbool.h)(0x5475F300)
I (.\Module\Inc\walking_motor.h)(0x6719AF6C)
I (.\Module\Inc\uart_log.h)(0x66F3E910) I (.\Module\Inc\uart_log.h)(0x66F3E910)
I (.\Module\Inc\common.h)(0x671F8315)
I (.\Module\Inc\buzzer.h)(0x671A184C)
I (.\Module\Inc\pneumatic_solenoid.h)(0x6718D44F)
I (.\Module\Inc\temperature_sensor.h)(0x671226BD)
I (.\Module\Inc\ds18b20.h)(0x6720A65E)
I (.\Module\Inc\parking_sensor.h)(0x67209827)
F (.\Module\Inc\uart_log.h)(0x66F3E910)() F (.\Module\Inc\uart_log.h)(0x66F3E910)()
F (.\Module\Src\uart_log.c)(0x66F6776B)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\uart_log.o --omf_browse .\objects\uart_log.crf --depend .\objects\uart_log.d) F (.\Module\Src\uart_log.c)(0x67204CB8)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\uart_log.o --omf_browse .\objects\uart_log.crf --depend .\objects\uart_log.d)
I (.\Module\Inc\uart_log.h)(0x66F3E910) I (.\Module\Inc\uart_log.h)(0x66F3E910)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C) I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000) I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
...@@ -24,8 +33,162 @@ I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x. ...@@ -24,8 +33,162 @@ I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.
I (C:\Keil_v5\ARM\ARMCC\include\stdarg.h)(0x5475F2FA) I (C:\Keil_v5\ARM\ARMCC\include\stdarg.h)(0x5475F2FA)
I (C:\Keil_v5\ARM\ARMCC\include\string.h)(0x5475F300) I (C:\Keil_v5\ARM\ARMCC\include\string.h)(0x5475F300)
I (C:\Keil_v5\ARM\ARMCC\include\stdio.h)(0x5475F300) I (C:\Keil_v5\ARM\ARMCC\include\stdio.h)(0x5475F300)
F (.\Module\Inc\step_motor.h)(0x66F67758)() F (.\Module\Inc\walking_motor.h)(0x6719AF6C)()
F (.\Module\Src\step_motor.c)(0x66F67758)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\step_motor.o --omf_browse .\objects\step_motor.crf --depend .\objects\step_motor.d) F (.\Module\Inc\rotate_motor.h)(0x6718AEFF)()
F (.\Module\Src\rotate_motor.c)(0x671B437F)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\rotate_motor.o --omf_browse .\objects\rotate_motor.crf --depend .\objects\rotate_motor.d)
I (.\Module\Inc\rotate_motor.h)(0x6718AEFF)
I (.\Module\Inc\motor_common.h)(0x6718AC7D)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\ARMCC\include\stdbool.h)(0x5475F300)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\common.h)(0x671F8315)
F (.\Module\Inc\pneumatic_solenoid.h)(0x6718D44F)()
F (.\Module\Src\pneumatic_solenoid.c)(0x671B05EE)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\pneumatic_solenoid.o --omf_browse .\objects\pneumatic_solenoid.crf --depend .\objects\pneumatic_solenoid.d)
I (.\Module\Inc\pneumatic_solenoid.h)(0x6718D44F)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
F (.\Module\Src\parking_sensor.c)(0x6720B33E)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\parking_sensor.o --omf_browse .\objects\parking_sensor.crf --depend .\objects\parking_sensor.d)
I (.\Module\Inc\parking_sensor.h)(0x67209827)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\common.h)(0x671F8315)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
F (.\Module\Inc\common.h)(0x671F8315)()
F (.\Module\Inc\parking_sensor.h)(0x67209827)()
F (.\Module\Src\common.c)(0x6720BD8F)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\common.o --omf_browse .\objects\common.crf --depend .\objects\common.d)
I (.\Module\Inc\common.h)(0x671F8315)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\parking_sensor.h)(0x67209827)
I (.\Module\Inc\distance_switch.h)(0x6718D48C)
I (.\Module\Inc\photoelectric_switch.h)(0x6719AC13)
I (.\Module\Inc\emergency_stop.h)(0x6718D4AA)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
F (.\Module\Inc\distance_switch.h)(0x6718D48C)()
F (.\Module\Src\distance_switch.c)(0x6719FB3A)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\distance_switch.o --omf_browse .\objects\distance_switch.crf --depend .\objects\distance_switch.d)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
I (.\Module\Inc\distance_switch.h)(0x6718D48C)
F (.\Module\Inc\photoelectric_switch.h)(0x6719AC13)()
F (.\Module\Src\photoelectric_switch.c)(0x6719E7CC)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\photoelectric_switch.o --omf_browse .\objects\photoelectric_switch.crf --depend .\objects\photoelectric_switch.d)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\photoelectric_switch.h)(0x6719AC13)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
F (.\Module\Inc\temperature_sensor.h)(0x671226BD)()
F (.\Module\Inc\onewire.h)(0x671B0B89)()
F (.\Module\Src\onewire.c)(0x671B1061)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\onewire.o --omf_browse .\objects\onewire.crf --depend .\objects\onewire.d)
I (.\Module\Inc\onewire.h)(0x671B0B89)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\common.h)(0x671F8315)
F (.\Module\Src\temperature_sensor.c)(0x671B094E)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\temperature_sensor.o --omf_browse .\objects\temperature_sensor.crf --depend .\objects\temperature_sensor.d)
I (.\Module\Inc\temperature_sensor.h)(0x671226BD)
I (.\Module\Inc\onewire.h)(0x671B0B89)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
I (C:\Keil_v5\ARM\ARMCC\include\stddef.h)(0x5475F300)
F (.\Module\Inc\emergency_stop.h)(0x6718D4AA)()
F (.\Module\Src\emergency_stop.c)(0x671A01AA)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\emergency_stop.o --omf_browse .\objects\emergency_stop.crf --depend .\objects\emergency_stop.d)
I (.\Module\Inc\emergency_stop.h)(0x6718D4AA)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\uart_log.h)(0x66F3E910)
F (.\Module\Inc\buzzer.h)(0x671A184C)()
F (.\Module\Src\buzzer.c)(0x671A183C)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\buzzer.o --omf_browse .\objects\buzzer.crf --depend .\objects\buzzer.d)
I (.\Module\Inc\buzzer.h)(0x671A184C)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\common.h)(0x671F8315)
F (.\Module\Inc\motor_common.h)(0x6718AC7D)()
F (.\Module\Src\walking_motor.c)(0x6719A2FF)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\walking_motor.o --omf_browse .\objects\walking_motor.crf --depend .\objects\walking_motor.d)
I (.\Module\Inc\walking_motor.h)(0x6719AF6C)
I (.\Module\Inc\motor_common.h)(0x6718AC7D)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\ARMCC\include\stdbool.h)(0x5475F300)
I (.\Module\Inc\common.h)(0x671F8315)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
F (.\Module\Inc\ds18b20.h)(0x6720A65E)()
F (.\Module\Src\ds18b20.c)(0x6720A544)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\ds18b20.o --omf_browse .\objects\ds18b20.crf --depend .\objects\ds18b20.d)
I (.\Module\Inc\ds18b20.h)(0x6720A65E)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h)(0x5825386C)
I (D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h)(0x00000000)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h)(0x5714AE54)
I (C:\Keil_v5\ARM\ARMCC\include\stdint.h)(0x5475F300)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h)(0x5714AE54)
I (C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h)(0x5825386C)
I (.\Module\Inc\common.h)(0x671F8315)
F (RTE\Device\STM32F103ZE\RTE_Device.h)(0x5FC04FEA)() F (RTE\Device\STM32F103ZE\RTE_Device.h)(0x5FC04FEA)()
F (RTE\Device\STM32F103ZE\startup_stm32f10x_hd.s)(0x61AD795E)(--cpu Cortex-M3 -g --apcs=interwork -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include --pd "__UVISION_VERSION SETA 514" --pd "_RTE_ SETA 1" --pd "STM32F10X_HD SETA 1" --list .\listings\startup_stm32f10x_hd.lst --xref -o .\objects\startup_stm32f10x_hd.o --depend .\objects\startup_stm32f10x_hd.d) F (RTE\Device\STM32F103ZE\startup_stm32f10x_hd.s)(0x61AD795E)(--cpu Cortex-M3 -g --apcs=interwork -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include --pd "__UVISION_VERSION SETA 514" --pd "_RTE_ SETA 1" --pd "STM32F10X_HD SETA 1" --list .\listings\startup_stm32f10x_hd.lst --xref -o .\objects\startup_stm32f10x_hd.o --depend .\objects\startup_stm32f10x_hd.d)
F (RTE\Device\STM32F103ZE\system_stm32f10x.c)(0x61AD795E)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\system_stm32f10x.o --omf_browse .\objects\system_stm32f10x.crf --depend .\objects\system_stm32f10x.d) F (RTE\Device\STM32F103ZE\system_stm32f10x.c)(0x61AD795E)(-c --cpu Cortex-M3 -g -O0 --apcs=interwork --split_sections -IC:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include -IC:\Keil_v5\ARM\CMSIS\Include -I.\Module\Inc --locale=english --c99 -I D:\Ƕʽ\mcu\Motor_Control\RTE -I D:\Ƕʽ\mcu\Motor_Control\RTE\Device\STM32F103ZE -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1 -I C:\Keil_v5\ARM\PACK\Keil\STM32F1xx_DFP\2.4.1\Device\Include -I C:\Keil_v5\ARM\CMSIS\Include -D__UVISION_VERSION="514" -D_RTE_ -DSTM32F10X_HD -o .\objects\system_stm32f10x.o --omf_browse .\objects\system_stm32f10x.crf --depend .\objects\system_stm32f10x.d)
......
.\objects\buzzer.o: Module\Src\buzzer.c
.\objects\buzzer.o: .\Module\Inc\buzzer.h
.\objects\buzzer.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\buzzer.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\buzzer.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\buzzer.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\buzzer.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\buzzer.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\buzzer.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\buzzer.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\buzzer.o: .\Module\Inc\common.h
.\objects\common.o: Module\Src\common.c
.\objects\common.o: .\Module\Inc\common.h
.\objects\common.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\common.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\common.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\common.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\common.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\common.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\common.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\common.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\common.o: .\Module\Inc\parking_sensor.h
.\objects\common.o: .\Module\Inc\distance_switch.h
.\objects\common.o: .\Module\Inc\photoelectric_switch.h
.\objects\common.o: .\Module\Inc\emergency_stop.h
.\objects\common.o: .\Module\Inc\uart_log.h
.\objects\distance_switch.o: Module\Src\distance_switch.c
.\objects\distance_switch.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\distance_switch.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\distance_switch.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\distance_switch.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\distance_switch.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\distance_switch.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\distance_switch.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\distance_switch.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\distance_switch.o: .\Module\Inc\uart_log.h
.\objects\distance_switch.o: .\Module\Inc\distance_switch.h
.\objects\ds18b20.o: Module\Src\ds18b20.c
.\objects\ds18b20.o: .\Module\Inc\ds18b20.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\ds18b20.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\ds18b20.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\ds18b20.o: .\Module\Inc\common.h
.\objects\emergency_stop.o: Module\Src\emergency_stop.c
.\objects\emergency_stop.o: .\Module\Inc\emergency_stop.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\emergency_stop.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\emergency_stop.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\emergency_stop.o: .\Module\Inc\uart_log.h
No preview for this file type
...@@ -7,5 +7,14 @@ ...@@ -7,5 +7,14 @@
.\objects\main.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h .\objects\main.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\main.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h .\objects\main.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\main.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h .\objects\main.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\main.o: .\Module\Inc\rotate_motor.h
.\objects\main.o: .\Module\Inc\motor_common.h
.\objects\main.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdbool.h .\objects\main.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdbool.h
.\objects\main.o: .\Module\Inc\walking_motor.h
.\objects\main.o: .\Module\Inc\uart_log.h .\objects\main.o: .\Module\Inc\uart_log.h
.\objects\main.o: .\Module\Inc\common.h
.\objects\main.o: .\Module\Inc\buzzer.h
.\objects\main.o: .\Module\Inc\pneumatic_solenoid.h
.\objects\main.o: .\Module\Inc\temperature_sensor.h
.\objects\main.o: .\Module\Inc\ds18b20.h
.\objects\main.o: .\Module\Inc\parking_sensor.h
No preview for this file type
.\objects\onewire.o: Module\Src\onewire.c
.\objects\onewire.o: .\Module\Inc\onewire.h
.\objects\onewire.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\onewire.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\onewire.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\onewire.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\onewire.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\onewire.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\onewire.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\onewire.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\onewire.o: .\Module\Inc\common.h
.\objects\parking_sensor.o: Module\Src\parking_sensor.c
.\objects\parking_sensor.o: .\Module\Inc\parking_sensor.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\parking_sensor.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\parking_sensor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\parking_sensor.o: .\Module\Inc\common.h
.\objects\parking_sensor.o: .\Module\Inc\uart_log.h
.\objects\photoelectric_switch.o: Module\Src\photoelectric_switch.c
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\photoelectric_switch.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\photoelectric_switch.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\photoelectric_switch.o: .\Module\Inc\photoelectric_switch.h
.\objects\photoelectric_switch.o: .\Module\Inc\uart_log.h
.\objects\pneumatic_solenoid.o: Module\Src\pneumatic_solenoid.c
.\objects\pneumatic_solenoid.o: .\Module\Inc\pneumatic_solenoid.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\pneumatic_solenoid.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\pneumatic_solenoid.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\pneumatic_solenoid.o: .\Module\Inc\uart_log.h
.\objects\rotate_motor.o: Module\Src\rotate_motor.c
.\objects\rotate_motor.o: .\Module\Inc\rotate_motor.h
.\objects\rotate_motor.o: .\Module\Inc\motor_common.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdbool.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\rotate_motor.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\rotate_motor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\rotate_motor.o: .\Module\Inc\common.h
No preview for this file type
.\objects\step_motor.o: Module\Src\step_motor.c .\objects\step_motor.o: Module\Src\step_motor.c
.\objects\step_motor.o: .\Module\Inc\step_motor.h
.\objects\step_motor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\step_motor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdbool.h
.\objects\step_motor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\step_motor.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\step_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\step_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\step_motor.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\step_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\step_motor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
No preview for this file type
.\objects\temperature_sensor.o: Module\Src\temperature_sensor.c
.\objects\temperature_sensor.o: .\Module\Inc\temperature_sensor.h
.\objects\temperature_sensor.o: .\Module\Inc\onewire.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\temperature_sensor.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
.\objects\temperature_sensor.o: .\Module\Inc\uart_log.h
.\objects\temperature_sensor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stddef.h
No preview for this file type
No preview for this file type
.\objects\walking_motor.o: Module\Src\walking_motor.c
.\objects\walking_motor.o: .\Module\Inc\walking_motor.h
.\objects\walking_motor.o: .\Module\Inc\motor_common.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdint.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\ARMCC\Bin\..\include\stdbool.h
.\objects\walking_motor.o: .\Module\Inc\common.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\stm32f10x.h
.\objects\walking_motor.o: D:\嵌入式\mcu\Motor_Control\RTE\RTE_Components.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cm3.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmInstr.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\CMSIS\Include\cmsis_armcc.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\CMSIS\Include\core_cmFunc.h
.\objects\walking_motor.o: C:\Keil_v5\ARM\Pack\Keil\STM32F1xx_DFP\2.2.0\Device\Include\system_stm32f10x.h
#include "stm32f10x.h" #include "stm32f10x.h"
#include "step_motor.h" #include "rotate_motor.h"
#include "walking_motor.h"
#include "uart_log.h"
#include "common.h"
#include "buzzer.h"
#include "pneumatic_solenoid.h"
#include "temperature_sensor.h"
#include "ds18b20.h"
#include "parking_sensor.h"
int main(void) { int main(void) {
// 初始化步进电机控制
StepperMotor_Init();
Total_GPIO_Init();
Total_EXTI_Init();
Serial_Init();
// 定义步进电机结构体 // 定义步进电机结构体
StepMotor motor = { RotateMotor motor = {
.stepcount = 0, // 初始步数 .base={
.direction = 1, // 初始方向(1:顺时针) .stepcount = 0, // 初始步数
.curSpeed = 0, // 初始速度为0 .direction = 1, // 初始方向(1:顺时针)
.desSpeed = 0, // 目标速度 .curSpeed = 0, // 初始速度为0
.maxSpeed = 9375, // 最大转速(假设值) .desSpeed = 0, // 目标速度
.speedStatus = SPEED_NONE, // 初始速度状态 .maxSpeed = 9375, // 最大转速(假设值)
.stepcountMode = 0, // 脉冲计数模式 .speedStatus = SPEED_NONE, // 初始速度状态
.curlocation = 0, // 当前位置 .stepcountMode =ABSOLUTE_COUNT, // 脉冲计数模式
.deslocation = 0, // 目标位置 .curlocation = 0, // 当前位置
.acceleration = 1000, // 加速度 (步/秒^2) .deslocation = 0, // 目标位置
.deceleration = 1000, // 减速度 (步/秒^2) .acceleration = 1000, // 加速度 (步/秒^2)
.psc = 71, // 预分频器 .deceleration = 1000, // 减速度 (步/秒^2)
.arr = 999 // 自动重装载寄存器 .psc = 71, // 预分频器
.arr = 999 // 自动重装载寄存器
}
}; };
// 初始化定时器 TIM3 // 初始化定时器 TIM3
TIM3_Init(motor.psc, motor.arr); TIM3_CH1_Init(motor.base.psc, motor.base.arr);
TIM3_CH2_Init(motor.base.psc, motor.base.arr);
SystemState currentState = STATE_IDLE;
// 设置初始方向(例如顺时针) // 设置初始方向(例如顺时针)
Set_Direction(motor.direction); Rotate_SetDirection(motor.base.direction);
// 使能步进电机 // 使能步进电机
Enable_Stepper(true); Rotate_Enable_Rotate(true);
Walking_SetDirection(motor.base.direction);
// 使能或禁用旋转电机
Walking_Enable_Rotate(true);
Pneumatic_Solenoid_Control(0,1);
Buzzer_On();
// 配置 PE14 为推挽输出
Configure_PE_Pin(14, 0x3);
// 初始化 TIM2 捕获模式
TIM2_Capture_Init();
SendTriggerSignal();
//
// DS18B20_Init(); // 初始化 DS18B20
// uint32_t data=0;
// while (data<=0) {
// Serial_Printf("temperature = %02d\r\n\n",DS18B20_GetTemperture());
// data = DS18B20_GetTemperture() * 100;
// Serial_Printf("temperature = %d.%02d\r\n\n", data/100, data % 100);
//
// Delay(1000, 'm'); // 延时 1 秒
// }
;
// 主循环 // 主循环
while (1) { while (1) {
StateMachineHandler(currentState);
Serial_Print("main: 启动\n");
// GPIOC->ODR |= (1 << 4); // 设置低电平
// Delay(2000); // 延时1秒
GPIOC->ODR &= ~(1 << 4); //设置高电平
// Delay(2000); // 延时1秒
// GPIOC->ODR |= (1 << 4); // 设置高电平
// Delay(2000); // 延时1秒
// GPIOC->ODR &= ~(1 << 4);
// Delay(2000); // 延时1秒
// GPIOC->ODR |= (1 << 4); // 设置高电平
// Delay(2000); // 延时1秒
// GPIOC->ODR &= ~(1 << 4);
// Delay(2000); // 延时1秒
// GPIOC->ODR |= (1 << 4); // 设置高电平
// Delay(2000); // 延时1秒
// 例子:加速到目标速度 // 例子:加速到目标速度
Update_Motor_Status(&motor, SPEED_ACC, 9375, 1000); // 以1000 RPM/s的加速度加速到9375 RPM Update_Motor_Status(&motor, SPEED_ACC, 9375, 1000); // 以1000 RPM/s的加速度加速到9375 RPM
// 保持匀速一段时间 // 保持匀速一段时间
Delay(5000); // 延时5秒 Delay(5000,'s'); // 延时5秒
// 例子:减速到停止 // 例子:减速到停止
Update_Motor_Status(&motor, SPEED_DEC, 0, 1000); // 以1000 RPM/s的减速度减速到停止 Update_Motor_Status(&motor, SPEED_DEC, 0, 1000); // 以1000 RPM/s的减速度减速到停止
// 保持停止一段时间 // 保持停止一段时间
Delay(5000); // 延时5秒 Delay(5000,'s'); // 延时5秒
} }
} }
\ No newline at end of file
#include "stm32f10x.h"
#include "rotate_motor.h"
#include "walking_motor.h"
#include "uart_log.h"
#include "common.h"
#include "buzzer.h"
#include "pneumatic_solenoid.h"
#include "temperature_sensor.h"
#include "ds18b20.h"
#include "parking_sensor.h"
int main(void) {
Total_GPIO_Init();
Total_EXTI_Init();
Serial_Init();
// 定义步进电机结构体
RotateMotor motor = {
.base={
.stepcount = 0, // 初始步数
.direction = 1, // 初始方向(1:顺时针)
.curSpeed = 0, // 初始速度为0
.desSpeed = 0, // 目标速度
.maxSpeed = 9375, // 最大转速(假设值)
.speedStatus = SPEED_NONE, // 初始速度状态
.stepcountMode =ABSOLUTE_COUNT, // 脉冲计数模式
.curlocation = 0, // 当前位置
.deslocation = 0, // 目标位置
.acceleration = 1000, // 加速度 (步/秒^2)
.deceleration = 1000, // 减速度 (步/秒^2)
.psc = 71, // 预分频器
.arr = 999 // 自动重装载寄存器
}
};
// 初始化定时器 TIM3
TIM3_CH1_Init(motor.base.psc, motor.base.arr);
TIM3_CH2_Init(motor.base.psc, motor.base.arr);
SystemState currentState = STATE_IDLE;
// 设置初始方向(例如顺时针)
Rotate_SetDirection(motor.base.direction);
// 使能步进电机
Rotate_Enable_Rotate(true);
Walking_SetDirection(motor.base.direction);
// 使能或禁用旋转电机
Walking_Enable_Rotate(true);
Pneumatic_Solenoid_Control(0,1);
Buzzer_On();
Serial_Print("main: Before TIM2_Init\n");
TIM2_Init();
Serial_Print("main: Before Delay\n");
Delay(1000, 'm');
Serial_Print("main: Before Start_Measurement\n");
Start_Measurement(1 << 14);
Serial_Print("main: After Start_Measurement\n");
Serial_Print("main: DS18B20_Init\n");
// 初始化DS18B20
if (DS18B20_Init() == 0)
{
// 检测到DS18B20的情况可以进行一些处理,例如点亮一个LED
// 或者在开发板上的屏幕显示“DS18B20 Detected!”之类的信息
}
else
{
// 没有检测到DS18B20,可能需要给出错误处理
Serial_Printf("没有检测到DS18B20,可能需要给出错误处理");
}
uint32_t data = DS18B20_GetTemperture() * 100;
Serial_Printf("temperature = %d.%02d\r\n\n", data/100, data % 100);
// 主循环
while (1) {
StateMachineHandler(currentState);
Serial_Print("main: 启动\n");
// GPIOC->ODR |= (1 << 4); // 设置低电平
// Delay(2000); // 延时1秒
GPIOC->ODR &= ~(1 << 4); //设置高电平
// Delay(2000); // 延时1秒
// GPIOC->ODR |= (1 << 4); // 设置高电平
// Delay(2000); // 延时1秒
// GPIOC->ODR &= ~(1 << 4);
// Delay(2000); // 延时1秒
// GPIOC->ODR |= (1 << 4); // 设置高电平
// Delay(2000); // 延时1秒
// GPIOC->ODR &= ~(1 << 4);
// Delay(2000); // 延时1秒
// GPIOC->ODR |= (1 << 4); // 设置高电平
// Delay(2000); // 延时1秒
// 例子:加速到目标速度
Update_Motor_Status(&motor, SPEED_ACC, 9375, 1000); // 以1000 RPM/s的加速度加速到9375 RPM
// 保持匀速一段时间
Delay(5000,'s'); // 延时5秒
// 例子:减速到停止
Update_Motor_Status(&motor, SPEED_DEC, 0, 1000); // 以1000 RPM/s的减速度减速到停止
// 保持停止一段时间
Delay(5000,'s'); // 延时5秒
}
}
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