Debugging tool for mbed enabled microcontrollers, especially for NUCLEO-F303RE and STM32F042F6P6.

Committer:
bieleluk
Date:
Sat Mar 20 12:53:37 2021 +0000
Revision:
18:472b66aeb1f5
Parent:
17:5b0dd2a6b130
Child:
19:b355ad429450
Debug_led class changed

Who changed what in which revision?

UserRevisionLine numberNew contents of line
bieleluk 0:e36b454cc2e6 1 #pragma once
bieleluk 0:e36b454cc2e6 2
bieleluk 12:a8ab6e018422 3 // include libraries
bieleluk 0:e36b454cc2e6 4 //------------------------------------------------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 5 #include "mbed.h"
bieleluk 3:3d7837ae4a37 6 #include <stdlib.h>
bieleluk 16:7fc964b6d127 7
bieleluk 3:3d7837ae4a37 8
bieleluk 0:e36b454cc2e6 9
bieleluk 0:e36b454cc2e6 10 // macros
bieleluk 0:e36b454cc2e6 11 //------------------------------------------------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 12 #define name(var) #var
bieleluk 3:3d7837ae4a37 13 #define min(a, b) (((a) < (b)) ? (a) : (b))
bieleluk 3:3d7837ae4a37 14 #define max(a, b) (((a) > (b)) ? (a) : (b))
bieleluk 0:e36b454cc2e6 15
bieleluk 0:e36b454cc2e6 16
bieleluk 18:472b66aeb1f5 17 typedef enum
bieleluk 18:472b66aeb1f5 18 {
bieleluk 18:472b66aeb1f5 19 GND = 0,
bieleluk 18:472b66aeb1f5 20 BUTTON_GND = 0,
bieleluk 18:472b66aeb1f5 21 VDD = 1,
bieleluk 18:472b66aeb1f5 22 BUTTON_VDD = 1,
bieleluk 18:472b66aeb1f5 23 VCC = 1,
bieleluk 18:472b66aeb1f5 24 BUTTON_VCC = 1,
bieleluk 18:472b66aeb1f5 25 } button_mode;
bieleluk 18:472b66aeb1f5 26
bieleluk 12:a8ab6e018422 27 //------------------------------------------------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 28 /** Debug_serial class.
bieleluk 0:e36b454cc2e6 29 * Class for stepping programme and printing actual position of the running programme with optional print of one variable (int, float, char or char*).
bieleluk 0:e36b454cc2e6 30 * Functions printf, putc and getc are also defined in the class.
bieleluk 0:e36b454cc2e6 31 *
bieleluk 0:e36b454cc2e6 32 * Example program:
bieleluk 0:e36b454cc2e6 33 * @code
bieleluk 0:e36b454cc2e6 34 * // ----------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 35 * // Author: Lukas Bielesch
bieleluk 0:e36b454cc2e6 36 * // Department of Measurement, Czech technical university in Prague, Czech Republic
bieleluk 12:a8ab6e018422 37 * // Date of publication: 13. May 2019
bieleluk 0:e36b454cc2e6 38 * // ----------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 39 * #include "Debug.h"
bieleluk 9:59344a584e18 40 * AnalogIn analog(PA_4);
bieleluk 0:e36b454cc2e6 41 * PwmOut pwm(PA_6);
bieleluk 9:59344a584e18 42 * DigitalOut out(PA_5);
bieleluk 12:a8ab6e018422 43 * Debug_serial pc(PA_2, PA_3, 115200);
bieleluk 0:e36b454cc2e6 44 *
bieleluk 0:e36b454cc2e6 45 * int main(){
bieleluk 0:e36b454cc2e6 46 * int var = 0;
bieleluk 0:e36b454cc2e6 47 * char character;
bieleluk 0:e36b454cc2e6 48 * out = 1;
bieleluk 0:e36b454cc2e6 49 * float pi = 3.14159265359;
bieleluk 0:e36b454cc2e6 50 * pc.breakpoint(__LINE__,name(pi),pi);
bieleluk 0:e36b454cc2e6 51 * char* arr = "this is string";
bieleluk 0:e36b454cc2e6 52 * pc.breakpoint(__LINE__,name(arr),arr);
bieleluk 0:e36b454cc2e6 53 * pwm = 0.5;
bieleluk 0:e36b454cc2e6 54 * pwm.period(1);
bieleluk 0:e36b454cc2e6 55 * while(1){
bieleluk 0:e36b454cc2e6 56 * pc.breakpoint(__LINE__,name(var),var);
bieleluk 0:e36b454cc2e6 57 * pc.printf("insert character\n\r");
bieleluk 2:478ba8b83e3f 58 * while (!pc.readable()){}
bieleluk 0:e36b454cc2e6 59 * character = pc.getc();
bieleluk 0:e36b454cc2e6 60 * pc.printf("you have inserted %c\n\r",character);
bieleluk 0:e36b454cc2e6 61 * var++;
bieleluk 1:dbb9fcc20d07 62 * pc.breakpoint(__LINE__, 0x48000000);
bieleluk 0:e36b454cc2e6 63 * wait(1);
bieleluk 0:e36b454cc2e6 64 * }
bieleluk 0:e36b454cc2e6 65 * }
bieleluk 0:e36b454cc2e6 66 * @endcode
bieleluk 0:e36b454cc2e6 67 */
bieleluk 0:e36b454cc2e6 68 class Debug_serial {
bieleluk 0:e36b454cc2e6 69 public:
bieleluk 0:e36b454cc2e6 70
bieleluk 12:a8ab6e018422 71 /** Create object of Debug_serial class
bieleluk 12:a8ab6e018422 72 * @param tx_pin TX pin of debug serial port
bieleluk 12:a8ab6e018422 73 * @param rx_pin RX pin of debug serial port
bieleluk 12:a8ab6e018422 74 * @param baudrate(optional) desired baudrate value of debug serial port, default baudrate is 115200 Bd/s
bieleluk 0:e36b454cc2e6 75 */
bieleluk 0:e36b454cc2e6 76 Debug_serial(PinName tx_pin, PinName rx_pin, int baudrate = 115200);
bieleluk 0:e36b454cc2e6 77
bieleluk 0:e36b454cc2e6 78 /** Perform one breakpoint without printing variable
bieleluk 12:a8ab6e018422 79 * @param line_number(optional) line number of breakpoint,macro __LINE__ is recommended
bieleluk 0:e36b454cc2e6 80 */
bieleluk 0:e36b454cc2e6 81 void breakpoint(int line_number = -1);
bieleluk 0:e36b454cc2e6 82
bieleluk 0:e36b454cc2e6 83 /** Perform one breakpoint and print variable of type int
bieleluk 12:a8ab6e018422 84 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 85 * @param name name of printed variable(max length is 19) , macro name(variable) is recommended
bieleluk 12:a8ab6e018422 86 * @param variable variable of type int
bieleluk 0:e36b454cc2e6 87 */
bieleluk 0:e36b454cc2e6 88 void breakpoint(int line_number, char name[20], int variable);
bieleluk 0:e36b454cc2e6 89
bieleluk 0:e36b454cc2e6 90 /** Perform one breakpoint and print variable of type char
bieleluk 12:a8ab6e018422 91 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 92 * @param name name of printed variable(max length is 19) , macro name(variable) is recommended
bieleluk 12:a8ab6e018422 93 * @param variable variable of type int
bieleluk 0:e36b454cc2e6 94 */
bieleluk 0:e36b454cc2e6 95 void breakpoint(int line_number, char name[20], char variable);
bieleluk 0:e36b454cc2e6 96
bieleluk 12:a8ab6e018422 97 /** Perform one breakpoint and print string variable
bieleluk 12:a8ab6e018422 98 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 99 * @param name name of printed variable(max length is 19) , macro name(variable) is recommended
bieleluk 12:a8ab6e018422 100 * @param variable variable of type char*
bieleluk 0:e36b454cc2e6 101 */
bieleluk 0:e36b454cc2e6 102 void breakpoint(int line_number, char name[20], char * variable);
bieleluk 0:e36b454cc2e6 103
bieleluk 0:e36b454cc2e6 104 /** Perform one breakpoint and print variable of type float
bieleluk 12:a8ab6e018422 105 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 106 * @param name name of printed variable(max length is 19) , macro name(variable) is recommended
bieleluk 12:a8ab6e018422 107 * @param variable variable of type float
bieleluk 0:e36b454cc2e6 108 */
bieleluk 0:e36b454cc2e6 109 void breakpoint(int line_number, char name[20], float variable);
bieleluk 0:e36b454cc2e6 110
bieleluk 1:dbb9fcc20d07 111 /** Perform one breakpoint and print one register value
bieleluk 12:a8ab6e018422 112 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 113 * @param address address of register, must be divisible by 4
bieleluk 1:dbb9fcc20d07 114 */
bieleluk 6:1ee26b7b9c2f 115 void breakpoint(int line_number, uint32_t address);
bieleluk 1:dbb9fcc20d07 116
bieleluk 0:e36b454cc2e6 117 /** Print formatted string to debug serial port
bieleluk 0:e36b454cc2e6 118 * @returns total number of printed characters or negative value if an output error or an encoding error
bieleluk 0:e36b454cc2e6 119 */
bieleluk 0:e36b454cc2e6 120 int printf(const char* format, ...);
bieleluk 12:a8ab6e018422 121
bieleluk 12:a8ab6e018422 122 /** Read formatted string from debug serial port
bieleluk 12:a8ab6e018422 123 * @returns total number of successfully read arguments or negative value if en error occured
bieleluk 12:a8ab6e018422 124 */
bieleluk 12:a8ab6e018422 125 int scanf(const char* format, ...);
bieleluk 0:e36b454cc2e6 126
bieleluk 0:e36b454cc2e6 127 /** Print one character to debug serial port
bieleluk 0:e36b454cc2e6 128 * @param character
bieleluk 0:e36b454cc2e6 129 * @returns character written as an unsigned char cast to an int
bieleluk 0:e36b454cc2e6 130 */
bieleluk 0:e36b454cc2e6 131 int putc(int character);
bieleluk 0:e36b454cc2e6 132
bieleluk 0:e36b454cc2e6 133 /** Read one character from debug serial port
bieleluk 0:e36b454cc2e6 134 * @returns character written as an unsigned char cast to an int
bieleluk 0:e36b454cc2e6 135 */
bieleluk 0:e36b454cc2e6 136 int getc();
bieleluk 2:478ba8b83e3f 137
bieleluk 12:a8ab6e018422 138 /** Check whether there is some character available to read from debug serial port.
bieleluk 12:a8ab6e018422 139 * @returns true when there is something available to read
bieleluk 12:a8ab6e018422 140 */
bieleluk 2:478ba8b83e3f 141 bool readable();
bieleluk 12:a8ab6e018422 142
bieleluk 12:a8ab6e018422 143 /** Check whether it is possible to write a character to debug serial port.
bieleluk 12:a8ab6e018422 144 * @returns true when it is possible to write a character to debug serial port
bieleluk 12:a8ab6e018422 145 */
bieleluk 2:478ba8b83e3f 146 bool writable();
bieleluk 2:478ba8b83e3f 147
bieleluk 0:e36b454cc2e6 148 private:
bieleluk 0:e36b454cc2e6 149 int break_line[3]; //store number of lines of three previous breakpoints
bieleluk 0:e36b454cc2e6 150 char var[3][50]; //store variables of three previous breakpoints
bieleluk 0:e36b454cc2e6 151
bieleluk 0:e36b454cc2e6 152 protected:
bieleluk 0:e36b454cc2e6 153 // objects:
bieleluk 12:a8ab6e018422 154 Serial pc; //debug serial port
bieleluk 12:a8ab6e018422 155 // variables
bieleluk 0:e36b454cc2e6 156 int breakpoint_count; //stores number of the current breakpoint
bieleluk 0:e36b454cc2e6 157 // functions
bieleluk 0:e36b454cc2e6 158 // initialization function
bieleluk 0:e36b454cc2e6 159 void init();
bieleluk 0:e36b454cc2e6 160 // print 3 last breakpoints
bieleluk 0:e36b454cc2e6 161 void print_3_breaks(int line_number);
bieleluk 0:e36b454cc2e6 162 // print one breakpoint
bieleluk 0:e36b454cc2e6 163 void print_one_break(int n);
bieleluk 0:e36b454cc2e6 164 // clear screen from m line up to n line
bieleluk 0:e36b454cc2e6 165 void clear_from_n_up_to_m(int m, int n);
bieleluk 0:e36b454cc2e6 166 };
bieleluk 0:e36b454cc2e6 167
bieleluk 12:a8ab6e018422 168 //------------------------------------------------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 169
bieleluk 0:e36b454cc2e6 170 /** Debug_led class.
bieleluk 0:e36b454cc2e6 171 * Class for stepping the program with debug LED and button, that is connected to GND(default) or VCC.
bieleluk 0:e36b454cc2e6 172 *
bieleluk 0:e36b454cc2e6 173 * Example program:
bieleluk 0:e36b454cc2e6 174 * @code
bieleluk 0:e36b454cc2e6 175 * // ----------------------------------------------------------------------------
bieleluk 18:472b66aeb1f5 176 * // Example program of Debug_led class for STM32F042F6P6
bieleluk 0:e36b454cc2e6 177 * // Author: Lukas Bielesch
bieleluk 0:e36b454cc2e6 178 * // Department of Measurement, Czech technical university in Prague, Czech Republic
bieleluk 18:472b66aeb1f5 179 * // Date of publication: 20. March 2021
bieleluk 0:e36b454cc2e6 180 * // ----------------------------------------------------------------------------
bieleluk 18:472b66aeb1f5 181 * #include "mbed.h"
bieleluk 0:e36b454cc2e6 182 * #include "Debug.h"
bieleluk 18:472b66aeb1f5 183 *
bieleluk 18:472b66aeb1f5 184 * PwmOut pwm(PA_4);
bieleluk 18:472b66aeb1f5 185 * DigitalOut led(PA_1);
bieleluk 18:472b66aeb1f5 186 * Debug_led deb(PA_5, PA_7, GND); //debug led on PA_5, debug button connected to ground on PA_7
bieleluk 18:472b66aeb1f5 187 *
bieleluk 0:e36b454cc2e6 188 * int main(){
bieleluk 0:e36b454cc2e6 189 *
bieleluk 0:e36b454cc2e6 190 * out = 1;
bieleluk 18:472b66aeb1f5 191 * deb.breakpoint(); // breakpoint with periodical flashing with 300 ms period until the button is pressed
bieleluk 0:e36b454cc2e6 192 * pwm = 0.5;
bieleluk 0:e36b454cc2e6 193 * pwm.period(1);
bieleluk 18:472b66aeb1f5 194 * deb.breakpoint(2, 200); // breakpoint with periodical double-flashing with 200 ms period
bieleluk 0:e36b454cc2e6 195 *
bieleluk 0:e36b454cc2e6 196 * while(1){
bieleluk 18:472b66aeb1f5 197 * deb.breakpoint(3); // breakpoint with periodical triple-flashing until the button is pressed
bieleluk 17:5b0dd2a6b130 198 * pwm = pwm + 0.1f;
bieleluk 18:472b66aeb1f5 199 *
bieleluk 18:472b66aeb1f5 200 * //init pwm on the pin without pwm functionality causes MbedOS Error
bieleluk 18:472b66aeb1f5 201 * // error message is sent to uart on PA_2 and PA_3
bieleluk 18:472b66aeb1f5 202 * PwmOut pwm2(PA_0);
bieleluk 18:472b66aeb1f5 203 *
bieleluk 0:e36b454cc2e6 204 * wait(2);
bieleluk 0:e36b454cc2e6 205 * }
bieleluk 0:e36b454cc2e6 206 * }
bieleluk 18:472b66aeb1f5 207 *
bieleluk 0:e36b454cc2e6 208 * @endcode
bieleluk 0:e36b454cc2e6 209 */
bieleluk 0:e36b454cc2e6 210 // class Debug_led
bieleluk 0:e36b454cc2e6 211 class Debug_led {
bieleluk 0:e36b454cc2e6 212 public:
bieleluk 0:e36b454cc2e6 213
bieleluk 0:e36b454cc2e6 214 /** Create object of class Debug_led
bieleluk 0:e36b454cc2e6 215 * @param led_pin pin of of debug led
bieleluk 0:e36b454cc2e6 216 * @param button_pin pin of of debug button
bieleluk 18:472b66aeb1f5 217 * @param mode (optional): mode of button connection(GND, VCC), default value value is GND
bieleluk 0:e36b454cc2e6 218 */
bieleluk 18:472b66aeb1f5 219 Debug_led(PinName led_pin, PinName button_pin, button_mode mode = GND);
bieleluk 0:e36b454cc2e6 220
bieleluk 0:e36b454cc2e6 221 /** Perform one breakpoint
bieleluk 18:472b66aeb1f5 222 * @param number(optional): number of flashes of LED during the breakpoint, default value is 1
bieleluk 18:472b66aeb1f5 223 * @param period_ms(optional): period of flashing of the LED in ms, default value is 300ms
bieleluk 0:e36b454cc2e6 224 */
bieleluk 18:472b66aeb1f5 225 void breakpoint(int number = 1, int period_ms = 300);
bieleluk 0:e36b454cc2e6 226
bieleluk 0:e36b454cc2e6 227 private:
bieleluk 0:e36b454cc2e6 228 // objects
bieleluk 0:e36b454cc2e6 229 DigitalOut led; //debug led
bieleluk 0:e36b454cc2e6 230 InterruptIn button; //debug button
bieleluk 0:e36b454cc2e6 231 // variables
bieleluk 18:472b66aeb1f5 232 int b_mode; // mode of button connection(GND = 0, VCC = 1)
bieleluk 12:a8ab6e018422 233 volatile bool end_breakpoint; //true when button was pushed
bieleluk 18:472b66aeb1f5 234 // int number_of_breakpoints; //number of the current breakpoint
bieleluk 0:e36b454cc2e6 235
bieleluk 0:e36b454cc2e6 236 /** Initialization */
bieleluk 18:472b66aeb1f5 237 void init(button_mode mode);
bieleluk 0:e36b454cc2e6 238
bieleluk 12:a8ab6e018422 239 /** Blink the debug led n-times with blink period wait_time_ms */
bieleluk 0:e36b454cc2e6 240 void flash_n_times(int wait_time_ms, int n);
bieleluk 0:e36b454cc2e6 241
bieleluk 18:472b66aeb1f5 242 /** IRQ handler function, end breakpoint after the button is pushed */
bieleluk 0:e36b454cc2e6 243 void end_break();
bieleluk 0:e36b454cc2e6 244 };
bieleluk 0:e36b454cc2e6 245
bieleluk 12:a8ab6e018422 246 //------------------------------------------------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 247 /** Debug_register class.
bieleluk 0:e36b454cc2e6 248 *
bieleluk 0:e36b454cc2e6 249 * Example program:
bieleluk 0:e36b454cc2e6 250 * @code
bieleluk 0:e36b454cc2e6 251 * // ----------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 252 * // Author: Lukas Bielesch
bieleluk 0:e36b454cc2e6 253 * // Department of Measurement, Czech technical university in Prague, Czech Republic
bieleluk 0:e36b454cc2e6 254 * // Date of publication: 15. Apr 2019
bieleluk 0:e36b454cc2e6 255 * // ----------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 256 * #include "Debug.h"
bieleluk 9:59344a584e18 257 * AnalogIn analog(PA_4);
bieleluk 0:e36b454cc2e6 258 * PwmOut pwm(PA_6);
bieleluk 9:59344a584e18 259 * DigitalOut out(PA_5);
bieleluk 0:e36b454cc2e6 260 * Debug_register pc(PA_2, PA_3, 115200);
bieleluk 0:e36b454cc2e6 261 *
bieleluk 0:e36b454cc2e6 262 * int main(){
bieleluk 0:e36b454cc2e6 263 * pc.breakpoint(__LINE__,0x48000000);
bieleluk 0:e36b454cc2e6 264 * DigitalOut out2 (PA_0);
bieleluk 10:4d5f38d996e2 265 * pc.breakpoint(__LINE__,0x48000001);
bieleluk 0:e36b454cc2e6 266 * AnalogIn analog2 (PA_1);
bieleluk 6:1ee26b7b9c2f 267 * pc.breakpoint(__LINE__,0x4800000C);
bieleluk 5:e2e16ef72833 268 * DigitalIn di1(PA_7, PullUp);
bieleluk 6:1ee26b7b9c2f 269 * pc.breakpoint(__LINE__,0x4800000C);
bieleluk 6:1ee26b7b9c2f 270 * pc.breakpoint(__LINE__,0x48000004);
bieleluk 0:e36b454cc2e6 271 * while(1){
bieleluk 0:e36b454cc2e6 272 * if(pc.readable()){
bieleluk 0:e36b454cc2e6 273 * pc.putc(pc.getc());
bieleluk 0:e36b454cc2e6 274 * }
bieleluk 0:e36b454cc2e6 275 * wait(0.1);
bieleluk 0:e36b454cc2e6 276 * }
bieleluk 0:e36b454cc2e6 277 * }
bieleluk 0:e36b454cc2e6 278 * @endcode
bieleluk 0:e36b454cc2e6 279 */
bieleluk 0:e36b454cc2e6 280 class Debug_register {
bieleluk 0:e36b454cc2e6 281 public:
bieleluk 0:e36b454cc2e6 282
bieleluk 12:a8ab6e018422 283 /** Create object of Debug_register class
bieleluk 12:a8ab6e018422 284 * @param tx_pin TX pin of debug serial port
bieleluk 12:a8ab6e018422 285 * @param rx_pin RX pin of debug serial port
bieleluk 12:a8ab6e018422 286 * @param baudrate(optional) desired baudrate value of debug serial port, default baudrate is 115200 Bd/s
bieleluk 0:e36b454cc2e6 287 */
bieleluk 0:e36b454cc2e6 288 Debug_register(PinName tx_pin, PinName rx_pin, int baudrate = 115200);
bieleluk 0:e36b454cc2e6 289
bieleluk 0:e36b454cc2e6 290 /** Perform one breakpoint and print one register
bieleluk 12:a8ab6e018422 291 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 292 * @param address address of register, must be divisible by 4
bieleluk 0:e36b454cc2e6 293 */
bieleluk 12:a8ab6e018422 294 void breakpoint(int line_number, uint32_t address);
bieleluk 0:e36b454cc2e6 295
bieleluk 0:e36b454cc2e6 296 /** Print formatted string to debug serial port
bieleluk 0:e36b454cc2e6 297 * @returns total number of printed characters or negative value if an output error or an encoding error
bieleluk 0:e36b454cc2e6 298 */
bieleluk 0:e36b454cc2e6 299 int printf(const char* format, ...);
bieleluk 12:a8ab6e018422 300
bieleluk 12:a8ab6e018422 301 /** Read formatted string from debug serial port
bieleluk 12:a8ab6e018422 302 * @returns total number of successfully read arguments or negative value if en error occured
bieleluk 12:a8ab6e018422 303 */
bieleluk 12:a8ab6e018422 304 int scanf(const char* format, ...);
bieleluk 0:e36b454cc2e6 305
bieleluk 0:e36b454cc2e6 306 /** Print one character to debug serial port
bieleluk 0:e36b454cc2e6 307 * @param character
bieleluk 0:e36b454cc2e6 308 * @returns character written as an unsigned char cast to an int
bieleluk 0:e36b454cc2e6 309 */
bieleluk 0:e36b454cc2e6 310 int putc(int character);
bieleluk 0:e36b454cc2e6 311
bieleluk 0:e36b454cc2e6 312 /** Read one character from debug serial port
bieleluk 0:e36b454cc2e6 313 * @returns character written as an unsigned char cast to an int
bieleluk 0:e36b454cc2e6 314 */
bieleluk 0:e36b454cc2e6 315 int getc();
bieleluk 0:e36b454cc2e6 316
bieleluk 12:a8ab6e018422 317 /** Check whether there is some character available to read from debug serial port.
bieleluk 12:a8ab6e018422 318 * @returns true when there is something available to read
bieleluk 12:a8ab6e018422 319 */
bieleluk 0:e36b454cc2e6 320 bool readable();
bieleluk 12:a8ab6e018422 321
bieleluk 12:a8ab6e018422 322 /** Check whether it is possible to write a character to debug serial port.
bieleluk 12:a8ab6e018422 323 * @returns true when it is possible to write a character to debug serial port
bieleluk 12:a8ab6e018422 324 */
bieleluk 2:478ba8b83e3f 325 bool writable();
bieleluk 0:e36b454cc2e6 326
bieleluk 0:e36b454cc2e6 327 protected:
bieleluk 0:e36b454cc2e6 328 // objects:
bieleluk 0:e36b454cc2e6 329 Serial pc; //debug serial device
bieleluk 0:e36b454cc2e6 330 // variables:
bieleluk 12:a8ab6e018422 331 int breakpoint_count; //number of the current breakpoint
bieleluk 0:e36b454cc2e6 332 // functions
bieleluk 0:e36b454cc2e6 333 // initialization function
bieleluk 0:e36b454cc2e6 334 void init();
bieleluk 0:e36b454cc2e6 335 // clear screen from m line up to n line
bieleluk 0:e36b454cc2e6 336 void clear_from_n_up_to_m(int m, int n);
bieleluk 15:83d4dced2a28 337 // modify actual address or register value according to position in terminal
bieleluk 3:3d7837ae4a37 338 uint32_t modify_value(uint32_t value, int horizontal);
bieleluk 15:83d4dced2a28 339 // print address and register value
bieleluk 15:83d4dced2a28 340 void print_break(uint32_t address);
bieleluk 15:83d4dced2a28 341 // print number in binary form
bieleluk 15:83d4dced2a28 342 void print_binary(uint32_t value);
bieleluk 0:e36b454cc2e6 343 };
bieleluk 3:3d7837ae4a37 344
bieleluk 12:a8ab6e018422 345 //------------------------------------------------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 346 /** Debug_register_print class.
bieleluk 0:e36b454cc2e6 347 *
bieleluk 0:e36b454cc2e6 348 * Example program:
bieleluk 0:e36b454cc2e6 349 * @code
bieleluk 0:e36b454cc2e6 350 * // ----------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 351 * // Author: Lukas Bielesch
bieleluk 0:e36b454cc2e6 352 * // Department of Measurement, Czech technical university in Prague, Czech Republic
bieleluk 0:e36b454cc2e6 353 * // Date of publication: 15. Apr 2019
bieleluk 0:e36b454cc2e6 354 * // ----------------------------------------------------------------------------
bieleluk 0:e36b454cc2e6 355 * #include "Debug.h"
bieleluk 9:59344a584e18 356 * AnalogIn analog(PA_4);
bieleluk 0:e36b454cc2e6 357 * PwmOut pwm(PA_6);
bieleluk 9:59344a584e18 358 * DigitalOut out(PA_5);
bieleluk 0:e36b454cc2e6 359 * Debug_register_print pc(PA_2, PA_3, 115200);
bieleluk 0:e36b454cc2e6 360 *
bieleluk 0:e36b454cc2e6 361 * int main(){
bieleluk 0:e36b454cc2e6 362 * pc.format(2,2,1,3);//breakpoint count,line number, address, value
bieleluk 10:4d5f38d996e2 363 * pc.breakpoint(__LINE__,0x48000001, 2);
bieleluk 0:e36b454cc2e6 364 * DigitalOut out2 (PA_0);
bieleluk 6:1ee26b7b9c2f 365 * pc.breakpoint(__LINE__,0x48000014, -3);
bieleluk 0:e36b454cc2e6 366 * AnalogIn analog2 (PA_1);
bieleluk 6:1ee26b7b9c2f 367 * pc.breakpoint(__LINE__,0x48000008);
bieleluk 0:e36b454cc2e6 368 *
bieleluk 0:e36b454cc2e6 369 * while(1){
bieleluk 0:e36b454cc2e6 370 * wait(1);
bieleluk 0:e36b454cc2e6 371 * }
bieleluk 0:e36b454cc2e6 372 * }
bieleluk 0:e36b454cc2e6 373 * @endcode
bieleluk 0:e36b454cc2e6 374 */
bieleluk 0:e36b454cc2e6 375 class Debug_register_print {
bieleluk 0:e36b454cc2e6 376 public:
bieleluk 0:e36b454cc2e6 377
bieleluk 12:a8ab6e018422 378 /** Create object of Debug_register_print class
bieleluk 12:a8ab6e018422 379 * @param tx_pin TX pin of debug serial port
bieleluk 12:a8ab6e018422 380 * @param rx_pin RX pin of debug serial port
bieleluk 12:a8ab6e018422 381 * @param baudrate(optional) desired baudrate value of debug serial port, default baudrate is 115200 Bd/s
bieleluk 0:e36b454cc2e6 382 */
bieleluk 0:e36b454cc2e6 383 Debug_register_print(PinName tx_pin, PinName rx_pin, int baudrate = 115200);
bieleluk 0:e36b454cc2e6 384
bieleluk 12:a8ab6e018422 385 /** Set format of breakpoint message
bieleluk 12:a8ab6e018422 386 * @param break_number format of number of actual breakpoint: 0->not show, 1->show in hexadecimal, 2->show in decimal(default)
bieleluk 12:a8ab6e018422 387 * @param line format of line of actual breakpoint: 0->not show, 1->show in hexadecimal, 2->show in decimal(default)
bieleluk 12:a8ab6e018422 388 * @param address format of address of register: 0->not show, 1->show in hexadecimal(default), 2->show in decimal
bieleluk 12:a8ab6e018422 389 * @param value format of register value: 0->not show, 1->show in hexadecimal, 2->show in decimal, 3->show in binary(default)
bieleluk 12:a8ab6e018422 390 */
bieleluk 12:a8ab6e018422 391 void format(int break_number = 2, int line = 2, int address = 1, int value = 3);
bieleluk 0:e36b454cc2e6 392
bieleluk 12:a8ab6e018422 393 /** Perform one breakpoint and print one register value
bieleluk 12:a8ab6e018422 394 * @param line_number line number of breakpoint, macro __LINE__ is recommended
bieleluk 12:a8ab6e018422 395 * @param address address of register , must be divisible by 4
bieleluk 0:e36b454cc2e6 396 */
bieleluk 12:a8ab6e018422 397 void breakpoint(int line_number, uint32_t address, int number_of_words = 1);
bieleluk 0:e36b454cc2e6 398
bieleluk 0:e36b454cc2e6 399
bieleluk 0:e36b454cc2e6 400 protected:
bieleluk 0:e36b454cc2e6 401 // objects:
bieleluk 0:e36b454cc2e6 402 Serial pc; //debug serial device
bieleluk 0:e36b454cc2e6 403 // variables:
bieleluk 12:a8ab6e018422 404 int breakpoint_count; //number of the current breakpoint
bieleluk 12:a8ab6e018422 405 int count_format; // format of breakpoint count, 0->not show, 1->show in hexadecimal, 2->show in decimal
bieleluk 12:a8ab6e018422 406 int line_format; // format of lineof breakpoint, 0->not show, 1->show in hexadecimal, 2->show in decimal
bieleluk 12:a8ab6e018422 407 int address_format; // format of address of register, 0->not show, 1->show in hexadecimal, 2->show in decimal
bieleluk 12:a8ab6e018422 408 int register_format;// format of register value, 0->not show, 1->show in hexadecimal, 2->show in decimal, 3->show in binary
bieleluk 0:e36b454cc2e6 409 // functions
bieleluk 0:e36b454cc2e6 410 // initialization function
bieleluk 0:e36b454cc2e6 411 void init();
bieleluk 0:e36b454cc2e6 412
bieleluk 16:7fc964b6d127 413 };
bieleluk 16:7fc964b6d127 414