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/*
htop - Meter.c
(C) 2004-2011 Hisham H. Muhammad
Released under the GNU GPL, see the COPYING file
in the source distribution for its full text.
*/
#include "Meter.h"
#include "RichString.h"
#include "Object.h"
#include "CRT.h"
#include "String.h"
#include "ListItem.h"
#include "Settings.h"
#include <math.h>
#include <string.h>
#include <stdlib.h>
#include <stdarg.h>
#include <assert.h>
#include <sys/time.h>
#define METER_BUFFER_LEN 256
#define GRAPH_DELAY (DEFAULT_DELAY/2)
/*{
#include "ListItem.h"
#include <sys/time.h>
typedef struct Meter_ Meter;
typedef void(*Meter_Init)(Meter*);
typedef void(*Meter_Done)(Meter*);
typedef void(*Meter_UpdateMode)(Meter*, int);
typedef void(*Meter_SetValues)(Meter*, char*, int);
typedef void(*Meter_Draw)(Meter*, int, int, int);
typedef struct MeterClass_ {
ObjectClass super;
const Meter_Init init;
const Meter_Done done;
const Meter_UpdateMode updateMode;
const Meter_Draw draw;
const Meter_SetValues setValues;
const int defaultMode;
const double total;
const int* attributes;
const char* name;
const char* uiName;
const char* caption;
const char* description;
const char maxItems;
char curItems;
} MeterClass;
#define As_Meter(this_) ((MeterClass*)((this_)->super.klass))
#define Meter_initFn(this_) As_Meter(this_)->init
#define Meter_init(this_) As_Meter(this_)->init((Meter*)(this_))
#define Meter_done(this_) As_Meter(this_)->done((Meter*)(this_))
#define Meter_updateModeFn(this_) As_Meter(this_)->updateMode
#define Meter_updateMode(this_, m_) As_Meter(this_)->updateMode((Meter*)(this_), m_)
#define Meter_drawFn(this_) As_Meter(this_)->draw
#define Meter_doneFn(this_) As_Meter(this_)->done
#define Meter_setValues(this_, c_, i_) As_Meter(this_)->setValues((Meter*)(this_), c_, i_)
#define Meter_defaultMode(this_) As_Meter(this_)->defaultMode
#define Meter_getItems(this_) As_Meter(this_)->curItems
#define Meter_setItems(this_, n_) As_Meter(this_)->curItems = (n_)
#define Meter_attributes(this_) As_Meter(this_)->attributes
#define Meter_name(this_) As_Meter(this_)->name
#define Meter_uiName(this_) As_Meter(this_)->uiName
struct Meter_ {
Object super;
Meter_Draw draw;
char* caption;
int mode;
int param;
void* drawData;
int h;
struct ProcessList_* pl;
double* values;
double total;
};
typedef struct MeterMode_ {
Meter_Draw draw;
const char* uiName;
int h;
} MeterMode;
typedef enum {
CUSTOM_METERMODE = 0,
BAR_METERMODE,
TEXT_METERMODE,
GRAPH_METERMODE,
LED_METERMODE,
LAST_METERMODE
} MeterModeId;
typedef struct GraphData_ {
struct timeval time;
double values[METER_BUFFER_LEN];
} GraphData;
}*/
#ifndef MIN
#define MIN(a,b) ((a)<(b)?(a):(b))
#endif
#ifndef MAX
#define MAX(a,b) ((a)>(b)?(a):(b))
#endif
MeterClass Meter_class = {
.super = {
.extends = Class(Object)
}
};
Meter* Meter_new(struct ProcessList_* pl, int param, MeterClass* type) {
Meter* this = calloc(1, sizeof(Meter));
Object_setClass(this, type);
this->h = 1;
this->param = param;
this->pl = pl;
char maxItems = type->maxItems;
if (maxItems == 0) {
maxItems = 1;
}
type->curItems = maxItems;
this->values = calloc(maxItems, sizeof(double));
this->total = type->total;
this->caption = strdup(type->caption);
if (Meter_initFn(this))
Meter_init(this);
Meter_setMode(this, type->defaultMode);
return this;
}
void Meter_delete(Object* cast) {
if (!cast)
return;
Meter* this = (Meter*) cast;
if (Meter_doneFn(this)) {
Meter_done(this);
}
if (this->drawData)
free(this->drawData);
free(this->caption);
free(this->values);
free(this);
}
void Meter_setCaption(Meter* this, const char* caption) {
free(this->caption);
this->caption = strdup(caption);
}
static inline void Meter_displayBuffer(Meter* this, char* buffer, RichString* out) {
if (Object_displayFn(this)) {
Object_display(this, out);
} else {
RichString_write(out, CRT_colors[Meter_attributes(this)[0]], buffer);
}
}
void Meter_setMode(Meter* this, int modeIndex) {
if (modeIndex > 0 && modeIndex == this->mode)
return;
if (!modeIndex)
modeIndex = 1;
assert(modeIndex < LAST_METERMODE);
if (Meter_defaultMode(this) == CUSTOM_METERMODE) {
this->draw = Meter_drawFn(this);
if (Meter_updateModeFn(this))
Meter_updateMode(this, modeIndex);
} else {
assert(modeIndex >= 1);
if (this->drawData)
free(this->drawData);
this->drawData = NULL;
MeterMode* mode = Meter_modes[modeIndex];
this->draw = mode->draw;
this->h = mode->h;
}
this->mode = modeIndex;
}
ListItem* Meter_toListItem(Meter* this) {
char mode[21];
if (this->mode)
snprintf(mode, 20, " [%s]", Meter_modes[this->mode]->uiName);
else
mode[0] = '\0';
char number[11];
if (this->param > 0)
snprintf(number, 10, " %d", this->param);
else
number[0] = '\0';
char buffer[51];
snprintf(buffer, 50, "%s%s%s", Meter_uiName(this), number, mode);
return ListItem_new(buffer, 0);
}
/* ---------- TextMeterMode ---------- */
static void TextMeterMode_draw(Meter* this, int x, int y, int w) {
char buffer[METER_BUFFER_LEN];
Meter_setValues(this, buffer, METER_BUFFER_LEN - 1);
(void) w;
attrset(CRT_colors[METER_TEXT]);
mvaddstr(y, x, this->caption);
int captionLen = strlen(this->caption);
x += captionLen;
mvhline(y, x, ' ', CRT_colors[DEFAULT_COLOR]);
attrset(CRT_colors[RESET_COLOR]);
RichString_begin(out);
Meter_displayBuffer(this, buffer, &out);
RichString_printVal(out, y, x);
RichString_end(out);
}
/* ---------- BarMeterMode ---------- */
static char BarMeterMode_characters[] = "|#*@$%&";
static void BarMeterMode_draw(Meter* this, int x, int y, int w) {
char buffer[METER_BUFFER_LEN];
Meter_setValues(this, buffer, METER_BUFFER_LEN - 1);
w -= 2;
attrset(CRT_colors[METER_TEXT]);
int captionLen = 3;
mvaddnstr(y, x, this->caption, captionLen);
x += captionLen;
w -= captionLen;
attrset(CRT_colors[BAR_BORDER]);
mvaddch(y, x, '[');
mvaddch(y, x + w, ']');
w--;
x++;
if (w < 1) {
attrset(CRT_colors[RESET_COLOR]);
return;
}
char bar[w + 1];
int blockSizes[10];
for (int i = 0; i < w; i++)
bar[i] = ' ';
const size_t barOffset = w - MIN((int)strlen(buffer), w);
snprintf(bar + barOffset, w - barOffset + 1, "%s", buffer);
// First draw in the bar[] buffer...
int offset = 0;
int items = Meter_getItems(this);
for (int i = 0; i < items; i++) {
double value = this->values[i];
value = MAX(value, 0);
value = MIN(value, this->total);
if (value > 0) {
blockSizes[i] = ceil((value/this->total) * w);
} else {
blockSizes[i] = 0;
}
int nextOffset = offset + blockSizes[i];
// (Control against invalid values)
nextOffset = MIN(MAX(nextOffset, 0), w);
for (int j = offset; j < nextOffset; j++)
if (bar[j] == ' ') {
if (CRT_colorScheme == COLORSCHEME_MONOCHROME) {
bar[j] = BarMeterMode_characters[i];
} else {
bar[j] = '|';
}
}
offset = nextOffset;
}
// ...then print the buffer.
offset = 0;
for (int i = 0; i < items; i++) {
attrset(CRT_colors[Meter_attributes(this)[i]]);
mvaddnstr(y, x + offset, bar + offset, blockSizes[i]);
offset += blockSizes[i];
offset = MAX(offset, 0);
offset = MIN(offset, w);
}
if (offset < w) {
attrset(CRT_colors[BAR_SHADOW]);
mvaddnstr(y, x + offset, bar + offset, w - offset);
}
move(y, x + w + 1);
attrset(CRT_colors[RESET_COLOR]);
}
/* ---------- GraphMeterMode ---------- */
static const char* GraphMeterMode_dotsUtf8[5][5] = {
{ /*00*/"⠀", /*01*/"⢀", /*02*/"⢠", /*03*/"⢰", /*04*/ "⢸" },
{ /*10*/"⡀", /*11*/"⣀", /*12*/"⣠", /*13*/"⣰", /*14*/ "⣸" },
{ /*20*/"⡄", /*21*/"⣄", /*22*/"⣤", /*23*/"⣴", /*24*/ "⣼" },
{ /*30*/"⡆", /*31*/"⣆", /*32*/"⣦", /*33*/"⣶", /*34*/ "⣾" },
{ /*40*/"⡇", /*41*/"⣇", /*42*/"⣧", /*43*/"⣷", /*44*/ "⣿" },
};
static const char* GraphMeterMode_dotsAscii[5][5] = {
{ /*00*/" ", /*01*/".", /*02*/".", /*03*/":", /*04*/ ":" },
{ /*10*/"⡀", /*11*/".", /*12*/".", /*13*/":", /*14*/ ":" },
{ /*20*/".", /*21*/".", /*22*/".", /*23*/":", /*24*/ ":" },
{ /*30*/":", /*31*/":", /*32*/":", /*33*/":", /*34*/ ":" },
{ /*40*/":", /*41*/":", /*42*/":", /*43*/":", /*44*/ ":" },
};
static const char* (*GraphMeterMode_dots)[5];
static void GraphMeterMode_draw(Meter* this, int x, int y, int w) {
if (!this->drawData) this->drawData = calloc(1, sizeof(GraphData));
GraphData* data = (GraphData*) this->drawData;
const int nValues = METER_BUFFER_LEN;
if (CRT_utf8) {
GraphMeterMode_dots = GraphMeterMode_dotsUtf8;
} else {
GraphMeterMode_dots = GraphMeterMode_dotsAscii;
}
attrset(CRT_colors[METER_TEXT]);
int captionLen = 3;
mvaddnstr(y, x, this->caption, captionLen);
x += captionLen;
w -= captionLen;
struct timeval now;
gettimeofday(&now, NULL);
if (!timercmp(&now, &(data->time), <)) {
struct timeval delay = { .tv_sec = (int)(CRT_delay/10), .tv_usec = (CRT_delay-((int)(CRT_delay/10)*10)) * 100000 };
timeradd(&now, &delay, &(data->time));
for (int i = 0; i < nValues - 1; i++)
data->values[i] = data->values[i+1];
char buffer[nValues];
Meter_setValues(this, buffer, nValues - 1);
double value = 0.0;
int items = Meter_getItems(this);
for (int i = 0; i < items; i++)
value += this->values[i];
value /= this->total;
data->values[nValues - 1] = value;
}
for (int i = nValues - (w*2) + 2, k = 0; i < nValues; i+=2, k++) {
const double dot = (1.0 / 16);
int v1 = data->values[i] / dot;
int v2 = data->values[i+1] / dot;
if (v1 == 0) v1 = 1;
if (v2 == 0) v2 = 1;
int level = 12;
int colorIdx = GRAPH_1;
for (int line = 0; line < 4; line++) {
int line1 = MIN(4, MAX(0, v1 - level));
int line2 = MIN(4, MAX(0, v2 - level));
attrset(CRT_colors[colorIdx]);
mvaddstr(y+line, x+k, GraphMeterMode_dots[line1][line2]);
colorIdx = GRAPH_2;
level -= 4;
}
}
attrset(CRT_colors[RESET_COLOR]);
}
/* ---------- LEDMeterMode ---------- */
static const char* LEDMeterMode_digitsAscii[3][10] = {
{ " __ "," "," __ "," __ "," "," __ "," __ "," __ "," __ "," __ "},
{ "| |"," |"," __|"," __|","|__|","|__ ","|__ "," |","|__|","|__|"},
{ "|__|"," |","|__ "," __|"," |"," __|","|__|"," |","|__|"," __|"},
};
static const char* LEDMeterMode_digitsUtf8[3][10] = {
{ "┌──┐"," ┐ ","╶──┐","╶──┐","╷ ╷","┌──╴","┌──╴","╶──┐","┌──┐","┌──┐"},
{ "│ │"," │ ","┌──┘"," ──┤","└──┤","└──┐","├──┐"," │","├──┤","└──┤"},
{ "└──┘"," ╵ ","└──╴","╶──┘"," ╵","╶──┘","└──┘"," ╵","└──┘"," ──┘"},
};
static const char* (*LEDMeterMode_digits)[10];
static void LEDMeterMode_drawDigit(int x, int y, int n) {
for (int i = 0; i < 3; i++)
mvaddstr(y+i, x, LEDMeterMode_digits[i][n]);
}
static void LEDMeterMode_draw(Meter* this, int x, int y, int w) {
(void) w;
if (CRT_utf8) {
LEDMeterMode_digits = LEDMeterMode_digitsUtf8;
} else {
LEDMeterMode_digits = LEDMeterMode_digitsAscii;
}
char buffer[METER_BUFFER_LEN];
Meter_setValues(this, buffer, METER_BUFFER_LEN - 1);
RichString_begin(out);
Meter_displayBuffer(this, buffer, &out);
int yText = CRT_utf8 ? y+1 : y+2;
attrset(CRT_colors[LED_COLOR]);
mvaddstr(yText, x, this->caption);
int xx = x + strlen(this->caption);
int len = RichString_sizeVal(out);
for (int i = 0; i < len; i++) {
char c = RichString_getCharVal(out, i);
if (c >= '0' && c <= '9') {
LEDMeterMode_drawDigit(xx, y, c-48);
xx += 4;
} else {
mvaddch(yText, xx, c);
xx += 1;
}
}
attrset(CRT_colors[RESET_COLOR]);
RichString_end(out);
}
static MeterMode BarMeterMode = {
.uiName = "Bar",
.h = 1,
.draw = BarMeterMode_draw,
};
static MeterMode TextMeterMode = {
.uiName = "Text",
.h = 1,
.draw = TextMeterMode_draw,
};
static MeterMode GraphMeterMode = {
.uiName = "Graph",
.h = 4,
.draw = GraphMeterMode_draw,
};
static MeterMode LEDMeterMode = {
.uiName = "LED",
.h = 3,
.draw = LEDMeterMode_draw,
};
MeterMode* Meter_modes[] = {
NULL,
&BarMeterMode,
&TextMeterMode,
&GraphMeterMode,
&LEDMeterMode,
NULL
};
/* Blank meter */
static void BlankMeter_setValues(Meter* this, char* buffer, int size) {
(void) this; (void) buffer; (void) size;
}
static void BlankMeter_display(Object* cast, RichString* out) {
(void) cast;
RichString_prune(out);
}
int BlankMeter_attributes[] = {
DEFAULT_COLOR
};
MeterClass BlankMeter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = BlankMeter_display,
},
.setValues = BlankMeter_setValues,
.defaultMode = TEXT_METERMODE,
.total = 100.0,
.attributes = BlankMeter_attributes,
.name = "Blank",
.uiName = "Blank",
.caption = ""
};