htop/CPUMeter.c

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/*
htop - CPUMeter.c
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(C) 2004-2011 Hisham H. Muhammad
Released under the GNU GPLv2, see the COPYING file
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in the source distribution for its full text.
*/
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#include "config.h" // IWYU pragma: keep
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#include "CPUMeter.h"
#include <math.h>
#include <stdlib.h>
#include <string.h>
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#include "CRT.h"
#include "Object.h"
#include "Platform.h"
#include "ProcessList.h"
#include "RichString.h"
#include "Settings.h"
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#include "XUtils.h"
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static const int CPUMeter_attributes[] = {
CPU_NICE,
CPU_NORMAL,
CPU_SYSTEM,
CPU_IRQ,
CPU_SOFTIRQ,
CPU_STEAL,
CPU_GUEST,
CPU_IOWAIT
};
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typedef struct CPUMeterData_ {
unsigned int cpus;
Meter** meters;
} CPUMeterData;
static void CPUMeter_init(Meter* this) {
unsigned int cpu = this->param;
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if (cpu == 0) {
Meter_setCaption(this, "Avg");
} else if (this->pl->activeCPUs > 1) {
char caption[10];
xSnprintf(caption, sizeof(caption), "%3u", Settings_cpuId(this->pl->settings, cpu - 1));
Meter_setCaption(this, caption);
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}
}
Add a new DynamicMeter class for runtime Meter extension This commit is based on exploratory work by Sohaib Mohamed. The end goal is two-fold - to support addition of Meters we build via configuration files for both the PCP platform and for scripts ( https://github.com/htop-dev/htop/issues/526 ) Here, we focus on generic code and the PCP support. A new class DynamicMeter is introduced - it uses the special case 'param' field handling that previously was used only by the CPUMeter, such that every runtime-configured Meter is given a unique identifier. Unlike with the CPUMeter this is used internally only. When reading/writing to htoprc instead of CPU(N) - where N is an integer param (CPU number) - we use the string name for each meter. For example, if we have a configuration for a DynamicMeter for some Redis metrics, we might read and write "Dynamic(redis)". This identifier is subsequently matched (back) up to the configuration file so we're able to re-create arbitrary user configurations. The PCP platform configuration file format is fairly simple. We expand configs from several directories, including the users homedir alongside htoprc (below htop/meters/) and also /etc/pcp/htop/meters. The format will be described via a new pcp-htop(5) man page, but its basically ini-style and each Meter has one or more metric expressions associated, as well as specifications for labels, color and so on via a dot separated notation for individual metrics within the Meter. A few initial sample configuration files are provided below ./pcp/meters that give the general idea. The PCP "derived" metric specification - see pmRegisterDerived(3) - is used as the syntax for specifying metrics in PCP DynamicMeters.
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// Custom uiName runtime logic to include the param (processor)
static void CPUMeter_getUiName(const Meter* this, char* buffer, size_t length) {
if (this->param > 0)
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xSnprintf(buffer, length, "%s %u", Meter_uiName(this), this->param);
Add a new DynamicMeter class for runtime Meter extension This commit is based on exploratory work by Sohaib Mohamed. The end goal is two-fold - to support addition of Meters we build via configuration files for both the PCP platform and for scripts ( https://github.com/htop-dev/htop/issues/526 ) Here, we focus on generic code and the PCP support. A new class DynamicMeter is introduced - it uses the special case 'param' field handling that previously was used only by the CPUMeter, such that every runtime-configured Meter is given a unique identifier. Unlike with the CPUMeter this is used internally only. When reading/writing to htoprc instead of CPU(N) - where N is an integer param (CPU number) - we use the string name for each meter. For example, if we have a configuration for a DynamicMeter for some Redis metrics, we might read and write "Dynamic(redis)". This identifier is subsequently matched (back) up to the configuration file so we're able to re-create arbitrary user configurations. The PCP platform configuration file format is fairly simple. We expand configs from several directories, including the users homedir alongside htoprc (below htop/meters/) and also /etc/pcp/htop/meters. The format will be described via a new pcp-htop(5) man page, but its basically ini-style and each Meter has one or more metric expressions associated, as well as specifications for labels, color and so on via a dot separated notation for individual metrics within the Meter. A few initial sample configuration files are provided below ./pcp/meters that give the general idea. The PCP "derived" metric specification - see pmRegisterDerived(3) - is used as the syntax for specifying metrics in PCP DynamicMeters.
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else
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xSnprintf(buffer, length, "%s", Meter_uiName(this));
Add a new DynamicMeter class for runtime Meter extension This commit is based on exploratory work by Sohaib Mohamed. The end goal is two-fold - to support addition of Meters we build via configuration files for both the PCP platform and for scripts ( https://github.com/htop-dev/htop/issues/526 ) Here, we focus on generic code and the PCP support. A new class DynamicMeter is introduced - it uses the special case 'param' field handling that previously was used only by the CPUMeter, such that every runtime-configured Meter is given a unique identifier. Unlike with the CPUMeter this is used internally only. When reading/writing to htoprc instead of CPU(N) - where N is an integer param (CPU number) - we use the string name for each meter. For example, if we have a configuration for a DynamicMeter for some Redis metrics, we might read and write "Dynamic(redis)". This identifier is subsequently matched (back) up to the configuration file so we're able to re-create arbitrary user configurations. The PCP platform configuration file format is fairly simple. We expand configs from several directories, including the users homedir alongside htoprc (below htop/meters/) and also /etc/pcp/htop/meters. The format will be described via a new pcp-htop(5) man page, but its basically ini-style and each Meter has one or more metric expressions associated, as well as specifications for labels, color and so on via a dot separated notation for individual metrics within the Meter. A few initial sample configuration files are provided below ./pcp/meters that give the general idea. The PCP "derived" metric specification - see pmRegisterDerived(3) - is used as the syntax for specifying metrics in PCP DynamicMeters.
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}
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static void CPUMeter_updateValues(Meter* this) {
memset(this->values, 0, sizeof(double) * CPU_METER_ITEMCOUNT);
unsigned int cpu = this->param;
if (cpu > this->pl->existingCPUs) {
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xSnprintf(this->txtBuffer, sizeof(this->txtBuffer), "absent");
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return;
}
double percent = Platform_setCPUValues(this, cpu);
if (isnan(percent)) {
xSnprintf(this->txtBuffer, sizeof(this->txtBuffer), "offline");
return;
}
char cpuUsageBuffer[8] = { 0 };
char cpuFrequencyBuffer[16] = { 0 };
char cpuTemperatureBuffer[16] = { 0 };
if (this->pl->settings->showCPUUsage) {
xSnprintf(cpuUsageBuffer, sizeof(cpuUsageBuffer), "%.1f%%", percent);
}
if (this->pl->settings->showCPUFrequency) {
double cpuFrequency = this->values[CPU_METER_FREQUENCY];
if (isnan(cpuFrequency)) {
xSnprintf(cpuFrequencyBuffer, sizeof(cpuFrequencyBuffer), "N/A");
} else {
xSnprintf(cpuFrequencyBuffer, sizeof(cpuFrequencyBuffer), "%4uMHz", (unsigned)cpuFrequency);
}
}
#ifdef BUILD_WITH_CPU_TEMP
if (this->pl->settings->showCPUTemperature) {
double cpuTemperature = this->values[CPU_METER_TEMPERATURE];
if (isnan(cpuTemperature))
xSnprintf(cpuTemperatureBuffer, sizeof(cpuTemperatureBuffer), "N/A");
else if (this->pl->settings->degreeFahrenheit)
xSnprintf(cpuTemperatureBuffer, sizeof(cpuTemperatureBuffer), "%3d%sF", (int)(cpuTemperature * 9 / 5 + 32), CRT_degreeSign);
else
xSnprintf(cpuTemperatureBuffer, sizeof(cpuTemperatureBuffer), "%d%sC", (int)cpuTemperature, CRT_degreeSign);
}
#endif
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xSnprintf(this->txtBuffer, sizeof(this->txtBuffer), "%s%s%s%s%s",
cpuUsageBuffer,
(cpuUsageBuffer[0] && (cpuFrequencyBuffer[0] || cpuTemperatureBuffer[0])) ? " " : "",
cpuFrequencyBuffer,
(cpuFrequencyBuffer[0] && cpuTemperatureBuffer[0]) ? " " : "",
cpuTemperatureBuffer);
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}
static void CPUMeter_display(const Object* cast, RichString* out) {
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char buffer[50];
int len;
const Meter* this = (const Meter*)cast;
if (this->param > this->pl->existingCPUs) {
RichString_appendAscii(out, CRT_colors[METER_SHADOW], " absent");
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return;
}
if (this->curItems == 0) {
RichString_appendAscii(out, CRT_colors[METER_SHADOW], " offline");
return;
}
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_NORMAL]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], ":");
RichString_appendnAscii(out, CRT_colors[CPU_NORMAL], buffer, len);
if (this->pl->settings->detailedCPUTime) {
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_KERNEL]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "sy:");
RichString_appendnAscii(out, CRT_colors[CPU_SYSTEM], buffer, len);
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_NICE]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "ni:");
RichString_appendnAscii(out, CRT_colors[CPU_NICE_TEXT], buffer, len);
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_IRQ]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "hi:");
RichString_appendnAscii(out, CRT_colors[CPU_IRQ], buffer, len);
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_SOFTIRQ]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "si:");
RichString_appendnAscii(out, CRT_colors[CPU_SOFTIRQ], buffer, len);
if (!isnan(this->values[CPU_METER_STEAL])) {
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_STEAL]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "st:");
RichString_appendnAscii(out, CRT_colors[CPU_STEAL], buffer, len);
}
if (!isnan(this->values[CPU_METER_GUEST])) {
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_GUEST]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "gu:");
RichString_appendnAscii(out, CRT_colors[CPU_GUEST], buffer, len);
}
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_IOWAIT]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "wa:");
RichString_appendnAscii(out, CRT_colors[CPU_IOWAIT], buffer, len);
} else {
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_KERNEL]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "sys:");
RichString_appendnAscii(out, CRT_colors[CPU_SYSTEM], buffer, len);
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_NICE]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "low:");
RichString_appendnAscii(out, CRT_colors[CPU_NICE_TEXT], buffer, len);
if (!isnan(this->values[CPU_METER_IRQ])) {
len = xSnprintf(buffer, sizeof(buffer), "%5.1f%% ", this->values[CPU_METER_IRQ]);
RichString_appendAscii(out, CRT_colors[METER_TEXT], "vir:");
RichString_appendnAscii(out, CRT_colors[CPU_GUEST], buffer, len);
}
}
#ifdef BUILD_WITH_CPU_TEMP
if (this->pl->settings->showCPUTemperature) {
char cpuTemperatureBuffer[10];
double cpuTemperature = this->values[CPU_METER_TEMPERATURE];
if (isnan(cpuTemperature)) {
len = xSnprintf(cpuTemperatureBuffer, sizeof(cpuTemperatureBuffer), "N/A");
} else if (this->pl->settings->degreeFahrenheit) {
len = xSnprintf(cpuTemperatureBuffer, sizeof(cpuTemperatureBuffer), "%5.1f%sF", cpuTemperature * 9 / 5 + 32, CRT_degreeSign);
} else {
len = xSnprintf(cpuTemperatureBuffer, sizeof(cpuTemperatureBuffer), "%5.1f%sC", cpuTemperature, CRT_degreeSign);
}
RichString_appendAscii(out, CRT_colors[METER_TEXT], "temp:");
RichString_appendnWide(out, CRT_colors[METER_VALUE], cpuTemperatureBuffer, len);
}
#endif
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}
static void AllCPUsMeter_getRange(const Meter* this, int* start, int* count) {
const CPUMeterData* data = this->meterData;
unsigned int cpus = data->cpus;
switch(Meter_name(this)[0]) {
default:
case 'A': // All
*start = 0;
*count = cpus;
break;
case 'L': // First Half
*start = 0;
*count = (cpus+1) / 2;
break;
case 'R': // Second Half
*start = (cpus+1) / 2;
*count = cpus / 2;
break;
}
}
static void AllCPUsMeter_updateValues(Meter* this) {
CPUMeterData* data = this->meterData;
Meter** meters = data->meters;
int start, count;
AllCPUsMeter_getRange(this, &start, &count);
for (int i = 0; i < count; i++)
Meter_updateValues(meters[i]);
}
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static void CPUMeterCommonInit(Meter* this, int ncol) {
unsigned int cpus = this->pl->existingCPUs;
CPUMeterData* data = this->meterData;
if (!data) {
data = this->meterData = xMalloc(sizeof(CPUMeterData));
data->cpus = cpus;
data->meters = xCalloc(cpus, sizeof(Meter*));
}
Meter** meters = data->meters;
int start, count;
AllCPUsMeter_getRange(this, &start, &count);
for (int i = 0; i < count; i++) {
if (!meters[i])
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meters[i] = Meter_new(this->pl, start + i + 1, (const MeterClass*) Class(CPUMeter));
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Meter_init(meters[i]);
}
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if (this->mode == 0)
this->mode = BAR_METERMODE;
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int h = Meter_modes[this->mode]->h;
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this->h = h * ((count + ncol - 1) / ncol);
}
static void CPUMeterCommonUpdateMode(Meter* this, int mode, int ncol) {
CPUMeterData* data = this->meterData;
Meter** meters = data->meters;
this->mode = mode;
int h = Meter_modes[mode]->h;
int start, count;
AllCPUsMeter_getRange(this, &start, &count);
for (int i = 0; i < count; i++) {
Meter_setMode(meters[i], mode);
}
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this->h = h * ((count + ncol - 1) / ncol);
}
static void AllCPUsMeter_done(Meter* this) {
CPUMeterData* data = this->meterData;
Meter** meters = data->meters;
int start, count;
AllCPUsMeter_getRange(this, &start, &count);
for (int i = 0; i < count; i++)
Meter_delete((Object*)meters[i]);
free(data->meters);
free(data);
}
static void SingleColCPUsMeter_init(Meter* this) {
CPUMeterCommonInit(this, 1);
}
static void SingleColCPUsMeter_updateMode(Meter* this, int mode) {
CPUMeterCommonUpdateMode(this, mode, 1);
}
static void DualColCPUsMeter_init(Meter* this) {
CPUMeterCommonInit(this, 2);
}
static void DualColCPUsMeter_updateMode(Meter* this, int mode) {
CPUMeterCommonUpdateMode(this, mode, 2);
}
static void QuadColCPUsMeter_init(Meter* this) {
CPUMeterCommonInit(this, 4);
}
static void QuadColCPUsMeter_updateMode(Meter* this, int mode) {
CPUMeterCommonUpdateMode(this, mode, 4);
}
static void OctoColCPUsMeter_init(Meter* this) {
CPUMeterCommonInit(this, 8);
}
static void OctoColCPUsMeter_updateMode(Meter* this, int mode) {
CPUMeterCommonUpdateMode(this, mode, 8);
}
static void CPUMeterCommonDraw(Meter* this, int x, int y, int w, int ncol) {
CPUMeterData* data = this->meterData;
Meter** meters = data->meters;
int start, count;
AllCPUsMeter_getRange(this, &start, &count);
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int colwidth = (w - ncol) / ncol + 1;
int diff = (w - (colwidth * ncol));
int nrows = (count + ncol - 1) / ncol;
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for (int i = 0; i < count; i++) {
int d = (i / nrows) > diff ? diff : (i / nrows); // dynamic spacer
int xpos = x + ((i / nrows) * colwidth) + d;
int ypos = y + ((i % nrows) * meters[0]->h);
meters[i]->draw(meters[i], xpos, ypos, colwidth);
}
}
static void DualColCPUsMeter_draw(Meter* this, int x, int y, int w) {
CPUMeterCommonDraw(this, x, y, w, 2);
}
static void QuadColCPUsMeter_draw(Meter* this, int x, int y, int w) {
CPUMeterCommonDraw(this, x, y, w, 4);
}
static void OctoColCPUsMeter_draw(Meter* this, int x, int y, int w) {
CPUMeterCommonDraw(this, x, y, w, 8);
}
static void SingleColCPUsMeter_draw(Meter* this, int x, int y, int w) {
CPUMeterData* data = this->meterData;
Meter** meters = data->meters;
int start, count;
AllCPUsMeter_getRange(this, &start, &count);
for (int i = 0; i < count; i++) {
meters[i]->draw(meters[i], x, y, w);
y += meters[i]->h;
}
}
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const MeterClass CPUMeter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = CPUMeter_updateValues,
Add a new DynamicMeter class for runtime Meter extension This commit is based on exploratory work by Sohaib Mohamed. The end goal is two-fold - to support addition of Meters we build via configuration files for both the PCP platform and for scripts ( https://github.com/htop-dev/htop/issues/526 ) Here, we focus on generic code and the PCP support. A new class DynamicMeter is introduced - it uses the special case 'param' field handling that previously was used only by the CPUMeter, such that every runtime-configured Meter is given a unique identifier. Unlike with the CPUMeter this is used internally only. When reading/writing to htoprc instead of CPU(N) - where N is an integer param (CPU number) - we use the string name for each meter. For example, if we have a configuration for a DynamicMeter for some Redis metrics, we might read and write "Dynamic(redis)". This identifier is subsequently matched (back) up to the configuration file so we're able to re-create arbitrary user configurations. The PCP platform configuration file format is fairly simple. We expand configs from several directories, including the users homedir alongside htoprc (below htop/meters/) and also /etc/pcp/htop/meters. The format will be described via a new pcp-htop(5) man page, but its basically ini-style and each Meter has one or more metric expressions associated, as well as specifications for labels, color and so on via a dot separated notation for individual metrics within the Meter. A few initial sample configuration files are provided below ./pcp/meters that give the general idea. The PCP "derived" metric specification - see pmRegisterDerived(3) - is used as the syntax for specifying metrics in PCP DynamicMeters.
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.getUiName = CPUMeter_getUiName,
.defaultMode = BAR_METERMODE,
.maxItems = CPU_METER_ITEMCOUNT,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "CPU",
.uiName = "CPU",
.caption = "CPU",
.init = CPUMeter_init
};
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const MeterClass AllCPUsMeter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "AllCPUs",
.uiName = "CPUs (1/1)",
.description = "CPUs (1/1): all CPUs",
.caption = "CPU",
.draw = SingleColCPUsMeter_draw,
.init = SingleColCPUsMeter_init,
.updateMode = SingleColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass AllCPUs2Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "AllCPUs2",
.uiName = "CPUs (1&2/2)",
.description = "CPUs (1&2/2): all CPUs in 2 shorter columns",
.caption = "CPU",
.draw = DualColCPUsMeter_draw,
.init = DualColCPUsMeter_init,
.updateMode = DualColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass LeftCPUsMeter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "LeftCPUs",
.uiName = "CPUs (1/2)",
.description = "CPUs (1/2): first half of list",
.caption = "CPU",
.draw = SingleColCPUsMeter_draw,
.init = SingleColCPUsMeter_init,
.updateMode = SingleColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass RightCPUsMeter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "RightCPUs",
.uiName = "CPUs (2/2)",
.description = "CPUs (2/2): second half of list",
.caption = "CPU",
.draw = SingleColCPUsMeter_draw,
.init = SingleColCPUsMeter_init,
.updateMode = SingleColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass LeftCPUs2Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "LeftCPUs2",
.uiName = "CPUs (1&2/4)",
.description = "CPUs (1&2/4): first half in 2 shorter columns",
.caption = "CPU",
.draw = DualColCPUsMeter_draw,
.init = DualColCPUsMeter_init,
.updateMode = DualColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass RightCPUs2Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
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.attributes = CPUMeter_attributes,
.name = "RightCPUs2",
.uiName = "CPUs (3&4/4)",
.description = "CPUs (3&4/4): second half in 2 shorter columns",
.caption = "CPU",
.draw = DualColCPUsMeter_draw,
.init = DualColCPUsMeter_init,
.updateMode = DualColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass AllCPUs4Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
.attributes = CPUMeter_attributes,
.name = "AllCPUs4",
.uiName = "CPUs (1&2&3&4/4)",
.description = "CPUs (1&2&3&4/4): all CPUs in 4 shorter columns",
.caption = "CPU",
.draw = QuadColCPUsMeter_draw,
.init = QuadColCPUsMeter_init,
.updateMode = QuadColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass LeftCPUs4Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
.attributes = CPUMeter_attributes,
.name = "LeftCPUs4",
.uiName = "CPUs (1-4/8)",
.description = "CPUs (1-4/8): first half in 4 shorter columns",
.caption = "CPU",
.draw = QuadColCPUsMeter_draw,
.init = QuadColCPUsMeter_init,
.updateMode = QuadColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass RightCPUs4Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
.attributes = CPUMeter_attributes,
.name = "RightCPUs4",
.uiName = "CPUs (5-8/8)",
.description = "CPUs (5-8/8): second half in 4 shorter columns",
.caption = "CPU",
.draw = QuadColCPUsMeter_draw,
.init = QuadColCPUsMeter_init,
.updateMode = QuadColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass AllCPUs8Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
.attributes = CPUMeter_attributes,
.name = "AllCPUs8",
.uiName = "CPUs (1-8/8)",
.description = "CPUs (1-8/8): all CPUs in 8 shorter columns",
.caption = "CPU",
.draw = OctoColCPUsMeter_draw,
.init = OctoColCPUsMeter_init,
.updateMode = OctoColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass LeftCPUs8Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
.attributes = CPUMeter_attributes,
.name = "LeftCPUs8",
.uiName = "CPUs (1-8/16)",
.description = "CPUs (1-8/16): first half in 8 shorter columns",
.caption = "CPU",
.draw = OctoColCPUsMeter_draw,
.init = OctoColCPUsMeter_init,
.updateMode = OctoColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};
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const MeterClass RightCPUs8Meter_class = {
.super = {
.extends = Class(Meter),
.delete = Meter_delete,
.display = CPUMeter_display
},
.updateValues = AllCPUsMeter_updateValues,
.defaultMode = CUSTOM_METERMODE,
.isMultiColumn = true,
.total = 100.0,
.attributes = CPUMeter_attributes,
.name = "RightCPUs8",
.uiName = "CPUs (9-16/16)",
.description = "CPUs (9-16/16): second half in 8 shorter columns",
.caption = "CPU",
.draw = OctoColCPUsMeter_draw,
.init = OctoColCPUsMeter_init,
.updateMode = OctoColCPUsMeter_updateMode,
.done = AllCPUsMeter_done
};