【PC編】「2020-0707@最終FIXその2」と「CPU周波数モニタ@LINUX」と私
【PC編】「最終FIXその2」と「CPU周波数モニタ@LINUX」と私
と題しまして小話を1つ。
最終FIX 宣言をいたしましたが、バーグラフ表示部分が
長ったらしくてかっこ悪かったので、マクロ化しました。
COPY&PASTEして コンパイルして使ってください。
コメントで完成イメージを入れていた部分も
スペースがぐちゃぐちゃに崩れてたので”_”に差し替えました。
これで、ソースコード変更は「凍結」です。
お試しあれ!!
#include <stdio.h>
#include <stdlib.h>
/*****************************************/
/*2020.06/30 */
/*2020.07/01 */
/*2020.07/03 */
/*2020.07/04 */
/*2020.07/07 */
/* Reference ESCAPE SEQUENCE SITE
http://7ujm.net/etc/esc.html */
/*COLOR SETTINGS */
#define SET_BLACK printf("\033[30m")
#define SET_RED printf("\033[31m")
#define SET_GREEN printf("\033[32m")
#define SET_YELLOW printf("\033[33m")
#define SET_BLUE printf("\033[34m")
#define SET_MAZENTA printf("\033[35m")
#define SET_CYAN printf("\033[36m")
#define SET_WHITE printf("\033[37m")
#define SET_DEFAULT printf("\033[39m")
#include <stdlib.h>
/*****************************************/
/*2020.06/30 */
/*2020.07/01 */
/*2020.07/03 */
/*2020.07/04 */
/*2020.07/07 */
/* Reference ESCAPE SEQUENCE SITE
http://7ujm.net/etc/esc.html */
/*COLOR SETTINGS */
#define SET_BLACK printf("\033[30m")
#define SET_RED printf("\033[31m")
#define SET_GREEN printf("\033[32m")
#define SET_YELLOW printf("\033[33m")
#define SET_BLUE printf("\033[34m")
#define SET_MAZENTA printf("\033[35m")
#define SET_CYAN printf("\033[36m")
#define SET_WHITE printf("\033[37m")
#define SET_DEFAULT printf("\033[39m")
#define CLS printf("\033[2J")
#define SET_BLACK_BACK printf("\033[40m")
#define SET_RED_BACK printf("\033[41m")
#define SET_GREEN_BACK printf("\033[42m")
#define SET_BACK_DEFAULT printf("\033[49m")
#define SET_RED_BACK printf("\033[41m")
#define SET_GREEN_BACK printf("\033[42m")
#define SET_BACK_DEFAULT printf("\033[49m")
#define RESET_CURSOR printf("\033[1;1H")
#define SET_FUTO_MOJI printf("\033[1m")
#define SET_REVERT printf("\033[7m")
#define SET_UNDER_LINE printf("\033[4m")
#define SET_STANDARD printf("\033[m")
#define RESET_MODE printf("\33[0m")
#define SET_FUTO_MOJI printf("\033[1m")
#define SET_REVERT printf("\033[7m")
#define SET_UNDER_LINE printf("\033[4m")
#define SET_STANDARD printf("\033[m")
#define RESET_MODE printf("\33[0m")
#define SET_REV_RED printf("\33[41m")
#define SET_REV_GREEN printf("\33[42m")
#define SET_REV_YELLOW printf("\33[43m")
#define SET_REV_BLUE printf("\33[44m")
#define SET_REV_MAZENTA printf("\33[45m")
#define SET_REV_CYAN printf("\33[46m")
#define PRINT_BAR(A,NUM) {for(int i=0;i<NUM;i++)printf("%c",A);printf("|");}
/*****************************************/
int GetNumOfCORE(void);
void DisplayLevelBAR(int,int, float *);
void DisplayLevelBAR1(int, float *);
void DisplayLevelBAR2(int, float *);
int ReadFreqDataFromPIPE(int, float *);
#define SET_REV_GREEN printf("\33[42m")
#define SET_REV_YELLOW printf("\33[43m")
#define SET_REV_BLUE printf("\33[44m")
#define SET_REV_MAZENTA printf("\33[45m")
#define SET_REV_CYAN printf("\33[46m")
#define PRINT_BAR(A,NUM) {for(int i=0;i<NUM;i++)printf("%c",A);printf("|");}
/*****************************************/
int GetNumOfCORE(void);
void DisplayLevelBAR(int,int, float *);
void DisplayLevelBAR1(int, float *);
void DisplayLevelBAR2(int, float *);
int ReadFreqDataFromPIPE(int, float *);
/************************/
/*Get Num of CPU CORE's */
/************************/
int GetNumOfCORE()
{
FILE *fp;
int NUMCORE;
/*Get Num of CPU CORE's */
/************************/
int GetNumOfCORE()
{
FILE *fp;
int NUMCORE;
/*OPEN PIPE AS READ MODE */
fp = popen("grep \"cpu MHz\" /proc/cpuinfo | wc -l", "r");
if (fp == (FILE *) NULL) {
SET_RED_BACK;
printf("[%s:%d]PIPE for COUNT CORE's Open Failed\n",
__FILE__, __LINE__);
exit(1);
}
/*GET NUM OF CORE */
fscanf(fp, "%d", &NUMCORE);
fp = popen("grep \"cpu MHz\" /proc/cpuinfo | wc -l", "r");
if (fp == (FILE *) NULL) {
SET_RED_BACK;
printf("[%s:%d]PIPE for COUNT CORE's Open Failed\n",
__FILE__, __LINE__);
exit(1);
}
/*GET NUM OF CORE */
fscanf(fp, "%d", &NUMCORE);
/*CLOSE PIPE */
pclose(fp);
pclose(fp);
printf("[%s:%d:GetNumOfCORE]NumOfCore = %d\n",
__FILE__, __LINE__, NUMCORE);
__FILE__, __LINE__, NUMCORE);
/*RETURN*/ return (NUMCORE);
} /*end of GetNumOfCORE */
/*****************************/
/* DISPLAY LEVEL BAR */
/*****************************/
void DisplayLevelBAR(int mode, int NUMCORE,float *data){
switch (mode){
case 1: DisplayLevelBAR1(NUMCORE,data);break;
case 2: DisplayLevelBAR2(NUMCORE,data);break;
default: DisplayLevelBAR1(NUMCORE,data);break;
}
}
/* DISPLAY LEVEL BAR */
/*****************************/
void DisplayLevelBAR(int mode, int NUMCORE,float *data){
switch (mode){
case 1: DisplayLevelBAR1(NUMCORE,data);break;
case 2: DisplayLevelBAR2(NUMCORE,data);break;
default: DisplayLevelBAR1(NUMCORE,data);break;
}
}
/*完成イメージ
GHz +------------------------------------------------------------------------
4.4G|
____|
4.2G+
____|
4.0G+
____|
3.8G+ @ |
____|
3.5G+ * @ |
____+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+---
CPU |00|01|02|03|04|05|06|07|08|09|10|11|12|13|14|15|16|17|18|19|20|21|22|23|
*/
#define GYOU_SIZE (13)
#define RETSU_SIZE (61)
void DisplayLevelBAR2(int NUMCORE, float *data){
static int ATTR[GYOU_SIZE][RETSU_SIZE];/*ATTRIBUTE ARRAY*/
int i ;/*NUMOFCORE*/
int j ;/*LEVEL BAR */
static int val2[128];/*MAX 128 PROCESSORS*/
/*INITIALIZE GAMEN ARRAY DATA*/
for(i=0;i<GYOU_SIZE;i++){
for(j=0;j<RETSU_SIZE;j++) ATTR[i][j]= -1;/*SPACE */
}
/*WRITE LEVEL DATA TO ARRAY*/
/*ASSGNING -1 IS SPACE ,OTHER IS REAL FREQ INFO*/
#define OFFSET_GHZ (34)
for(i=0;i<NUMCORE;i++){
val2[i] = (int)(data[i]/100.0);/*MEMORIZE GHz TO %2d ARRAY*/
int val3 = (int)val2[i] - OFFSET_GHZ ; /*GHz - 34GHz*/
for(j=0;j<val3;j++) ATTR[j][i] = val2[i];
}
/*DISPLAY CHAR GRAPHIC IMAGE */
//SET_GREEN_BACK;
SET_BLACK_BACK;
RESET_CURSOR;
CLS;
SET_WHITE;
GHz +------------------------------------------------------------------------
4.4G|
____|
4.2G+
____|
4.0G+
____|
3.8G+ @ |
____|
3.5G+ * @ |
____+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+---
CPU |00|01|02|03|04|05|06|07|08|09|10|11|12|13|14|15|16|17|18|19|20|21|22|23|
*/
#define GYOU_SIZE (13)
#define RETSU_SIZE (61)
void DisplayLevelBAR2(int NUMCORE, float *data){
static int ATTR[GYOU_SIZE][RETSU_SIZE];/*ATTRIBUTE ARRAY*/
int i ;/*NUMOFCORE*/
int j ;/*LEVEL BAR */
static int val2[128];/*MAX 128 PROCESSORS*/
/*INITIALIZE GAMEN ARRAY DATA*/
for(i=0;i<GYOU_SIZE;i++){
for(j=0;j<RETSU_SIZE;j++) ATTR[i][j]= -1;/*SPACE */
}
/*WRITE LEVEL DATA TO ARRAY*/
/*ASSGNING -1 IS SPACE ,OTHER IS REAL FREQ INFO*/
#define OFFSET_GHZ (34)
for(i=0;i<NUMCORE;i++){
val2[i] = (int)(data[i]/100.0);/*MEMORIZE GHz TO %2d ARRAY*/
int val3 = (int)val2[i] - OFFSET_GHZ ; /*GHz - 34GHz*/
for(j=0;j<val3;j++) ATTR[j][i] = val2[i];
}
/*DISPLAY CHAR GRAPHIC IMAGE */
//SET_GREEN_BACK;
SET_BLACK_BACK;
RESET_CURSOR;
CLS;
SET_WHITE;
/**PRINT HEADER*/
printf("____+");
for(i=0;i<NUMCORE;i++)printf("---");
printf("+\n");
printf(
"[GHz]");
for(i=0;i<NUMCORE;i++)printf(":::");
printf("|\n");
printf("____+");
for(i=0;i<NUMCORE;i++)printf("---");
printf("+\n");
printf(
"[GHz]");
for(i=0;i<NUMCORE;i++)printf(":::");
printf("|\n");
float fval=4.7;/*MAX GHz*/
#define MAXFREQ_RANGE (12)
for(int i=MAXFREQ_RANGE;i>=0;i--){
SET_BLACK_BACK;
printf("%1.1fG|",fval);
for(j=0;j<NUMCORE;j++){
switch(ATTR[i][j]){
/*SET CHARCTOR COLOR*/
case 32:
case 33:
case 34:
case 35:
case 36:
case 37:SET_REV_CYAN;break;
case 38:
case 39:SET_REV_YELLOW;break;
case 40:
case 41:
case 42:
case 43:SET_REV_MAZENTA;break;
case 44:
case 45:
case 46:SET_REV_RED;break;
case -1:/*SPACE */
default:SET_BLACK_BACK;break;
}
if(ATTR[i][j] != -1 && ATTR[i+1][j] == -1){
/* DISPLAY GHZ at the TOP of the LEVEL_BAR*/
printf("|%2d",ATTR[i][j]);
}
else if (ATTR[i][j] != -1){
/* LEVEL BAR but no TOP*/
printf("|__");
}
else {
/* BLANK SPACE*/
printf(":::");/* SPACE */
}
RESET_MODE;
}
RESET_MODE;
SET_WHITE;
SET_BLACK_BACK;
printf("|\n");/*End of LINE*/
fval = fval - (0.1);
}
SET_WHITE;
#define MAXFREQ_RANGE (12)
for(int i=MAXFREQ_RANGE;i>=0;i--){
SET_BLACK_BACK;
printf("%1.1fG|",fval);
for(j=0;j<NUMCORE;j++){
switch(ATTR[i][j]){
/*SET CHARCTOR COLOR*/
case 32:
case 33:
case 34:
case 35:
case 36:
case 37:SET_REV_CYAN;break;
case 38:
case 39:SET_REV_YELLOW;break;
case 40:
case 41:
case 42:
case 43:SET_REV_MAZENTA;break;
case 44:
case 45:
case 46:SET_REV_RED;break;
case -1:/*SPACE */
default:SET_BLACK_BACK;break;
}
if(ATTR[i][j] != -1 && ATTR[i+1][j] == -1){
/* DISPLAY GHZ at the TOP of the LEVEL_BAR*/
printf("|%2d",ATTR[i][j]);
}
else if (ATTR[i][j] != -1){
/* LEVEL BAR but no TOP*/
printf("|__");
}
else {
/* BLANK SPACE*/
printf(":::");/* SPACE */
}
RESET_MODE;
}
RESET_MODE;
SET_WHITE;
SET_BLACK_BACK;
printf("|\n");/*End of LINE*/
fval = fval - (0.1);
}
SET_WHITE;
/**PRINT FUTTER*/
printf(
"____+-");
for(i=0;i<NUMCORE;i++)printf("--+");
printf("\n");
printf(
"[CPU] ");
for(i=0;i<NUMCORE;i++)printf("%02d|",i);
printf("\n");
printf(
"____+-");
for(i=0;i<NUMCORE;i++)printf("--+");
printf("\n");
printf(
"[CPU] ");
for(i=0;i<NUMCORE;i++)printf("%02d|",i);
printf("\n");
}/*End of function*/
void DisplayLevelBAR1(int NUMCORE, float *data)
{
int NumOfDots;
printf(
"+--------------------------------------------------+\n");
/* READ FROM ARRAY AND DISPLAY */
for (int j = 0; j < NUMCORE; j++) {
int val = (int)(data[j]);
int val2 = *1 == -1) {
SET_RED_BACK;
printf("[%s:%d] GetNumOfCORE Failed\n",
__FILE__, __LINE__);
exit(1);
}
{
int NumOfDots;
printf(
"+--------------------------------------------------+\n");
/* READ FROM ARRAY AND DISPLAY */
for (int j = 0; j < NUMCORE; j++) {
int val = (int)(data[j]);
int val2 = *1 == -1) {
SET_RED_BACK;
printf("[%s:%d] GetNumOfCORE Failed\n",
__FILE__, __LINE__);
exit(1);
}
while (1) {
/* CLEAR SCREEN and RESET CURSOR */
SET_BLACK_BACK;
CLS;
RESET_CURSOR;
/* CLEAR SCREEN and RESET CURSOR */
SET_BLACK_BACK;
CLS;
RESET_CURSOR;
/* READ FROM PIPE to ARRAY */
ReadFreqDataFromPIPE(NUMCORE, data);
ReadFreqDataFromPIPE(NUMCORE, data);
/* READ FROM ARRAY AND DISPLAY */
DisplayLevelBAR(mode,NUMCORE, data);
DisplayLevelBAR(mode,NUMCORE, data);
/*WAIT*/
system("sleep 2");
system("sleep 2");
}/*End of while */
}/* End of main */
}/* End of main */
では・・また・・:_;)/
*1:int)(val+50) /100);
/*PRINT BASE CORE and GHz INFO */
printf("|CORE[%2d] %4d[MHz]", j, val);
/*PRINT LEVEL BAR INFO */
switch (val2) {
case 24:
case 25:
case 26:
case 27:
case 28:
case 29:
case 30:
case 31:
case 32:
case 33:
case 34: SET_REV_CYAN ;
PRINT_BAR('_',2);
NumOfDots=29;
break;
case 35: SET_REV_CYAN ;
PRINT_BAR('_',4);
NumOfDots=27;
break;
case 36: SET_REV_YELLOW ;
PRINT_BAR('_',6);
NumOfDots=25;
break;
case 37: SET_REV_YELLOW ;
PRINT_BAR('_',8);
NumOfDots=23;
break;
case 38: SET_REV_YELLOW ;
PRINT_BAR('_',10);
NumOfDots=21;
break;
case 39: SET_REV_YELLOW ;
PRINT_BAR('_',12);
NumOfDots=19;
break;
case 40: SET_REV_YELLOW ;
PRINT_BAR('_',14);
NumOfDots=17;
break;
case 41: SET_REV_MAZENTA;
PRINT_BAR('_',16);
NumOfDots=15;
break;
case 42: SET_REV_MAZENTA;
PRINT_BAR('_',18);
NumOfDots=13;
break;
case 43: SET_REV_RED ;
PRINT_BAR('_',20);
NumOfDots=11;
break;
case 44: SET_REV_RED ;
PRINT_BAR('_',22);
NumOfDots=9;
break;
case 45: SET_REV_RED ;
PRINT_BAR('_',24);
NumOfDots=7;
break;
case 46: SET_REV_RED ;
PRINT_BAR('_',26);
NumOfDots=5;
break;
case 47: SET_REV_RED ;
PRINT_BAR('_',28);
NumOfDots=3;
break;
case 48: SET_REV_RED ;
PRINT_BAR('_',30);
NumOfDots=1;
break;
default: NumOfDots=37;
break;
}/*End of switch */
SET_BLACK_BACK;
PRINT_BAR(':',NumOfDots);printf("\n");
RESET_MODE;
}/*End of for */
printf(
"+--------------------------------------------------+\n");
return;
}/* end of Fuction */
switch (val2) {
case 24:
case 25:
case 26:
case 27:
case 28:
case 29:
case 30:
case 31:
case 32:
case 33:
case 34: SET_REV_CYAN ;
PRINT_BAR('_',2);
NumOfDots=29;
break;
case 35: SET_REV_CYAN ;
PRINT_BAR('_',4);
NumOfDots=27;
break;
case 36: SET_REV_YELLOW ;
PRINT_BAR('_',6);
NumOfDots=25;
break;
case 37: SET_REV_YELLOW ;
PRINT_BAR('_',8);
NumOfDots=23;
break;
case 38: SET_REV_YELLOW ;
PRINT_BAR('_',10);
NumOfDots=21;
break;
case 39: SET_REV_YELLOW ;
PRINT_BAR('_',12);
NumOfDots=19;
break;
case 40: SET_REV_YELLOW ;
PRINT_BAR('_',14);
NumOfDots=17;
break;
case 41: SET_REV_MAZENTA;
PRINT_BAR('_',16);
NumOfDots=15;
break;
case 42: SET_REV_MAZENTA;
PRINT_BAR('_',18);
NumOfDots=13;
break;
case 43: SET_REV_RED ;
PRINT_BAR('_',20);
NumOfDots=11;
break;
case 44: SET_REV_RED ;
PRINT_BAR('_',22);
NumOfDots=9;
break;
case 45: SET_REV_RED ;
PRINT_BAR('_',24);
NumOfDots=7;
break;
case 46: SET_REV_RED ;
PRINT_BAR('_',26);
NumOfDots=5;
break;
case 47: SET_REV_RED ;
PRINT_BAR('_',28);
NumOfDots=3;
break;
case 48: SET_REV_RED ;
PRINT_BAR('_',30);
NumOfDots=1;
break;
default: NumOfDots=37;
break;
}/*End of switch */
SET_BLACK_BACK;
PRINT_BAR(':',NumOfDots);printf("\n");
RESET_MODE;
}/*End of for */
printf(
"+--------------------------------------------------+\n");
return;
}/* end of Fuction */
/**************************/
/*READ FREQ DATA FROM PIPE*/
/**************************/
int ReadFreqDataFromPIPE(int NUMCORE, float *data)
{
FILE *fp = (FILE *) NULL;
/*READ FREQ DATA FROM PIPE*/
/**************************/
int ReadFreqDataFromPIPE(int NUMCORE, float *data)
{
FILE *fp = (FILE *) NULL;
/*OPEN PIPE as RESULT OF "grep command" OUTPUT */
fp = popen("grep \"cpu MHz\" /proc/cpuinfo", "r");
if (fp == (FILE *) NULL) {
SET_RED_BACK;
printf("[%s:%d] PIPE Open Failed \n", __FILE__, __LINE__);
system("date");
return (-1);
}
/* READ DATA FROM PIPE */
for (int j = 0; j < NUMCORE; j++) {
fscanf(fp, "cpu MHz : %f ", &data[j]);
}
/*CLOSE PIPE */
pclose(fp);
/* FINISHED */
return (0);
}
fp = popen("grep \"cpu MHz\" /proc/cpuinfo", "r");
if (fp == (FILE *) NULL) {
SET_RED_BACK;
printf("[%s:%d] PIPE Open Failed \n", __FILE__, __LINE__);
system("date");
return (-1);
}
/* READ DATA FROM PIPE */
for (int j = 0; j < NUMCORE; j++) {
fscanf(fp, "cpu MHz : %f ", &data[j]);
}
/*CLOSE PIPE */
pclose(fp);
/* FINISHED */
return (0);
}
/***************/
/*main function*/
/***************/
/* HOMEWORK*/
/* (1) data ARRAY to allocated memory*/
/* (2) sleep time change using sprintf*/
void main(int argc,char *argv[])
{
FILE *fp;
float data[128];
int NUMCORE = -1;
int mode=2;
/*main function*/
/***************/
/* HOMEWORK*/
/* (1) data ARRAY to allocated memory*/
/* (2) sleep time change using sprintf*/
void main(int argc,char *argv[])
{
FILE *fp;
float data[128];
int NUMCORE = -1;
int mode=2;
//printf("NUM of ARGS %d \n",argc);
if(argc >= 2){
mode = 1;
}else {
mode = 2;
}
if(argc >= 2){
mode = 1;
}else {
mode = 2;
}
if ((NUMCORE = GetNumOfCORE(
